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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <sal/config.h>
#include <sal/log.hxx>
#include <algorithm>
#include <optional>
#include <stack>
#include <string_view>
#include <systools/win32/uwinapi.h>
#include "file_url.hxx"
#include "file_error.hxx"
#include <rtl/alloc.h>
#include <rtl/character.hxx>
#include <rtl/strbuf.hxx>
#include <rtl/ustring.hxx>
#include <rtl/ustrbuf.hxx>
#include <osl/mutex.h>
#include <o3tl/char16_t2wchar_t.hxx>
#include <o3tl/string_view.hxx>
#include "path_helper.hxx"
// FileURL functions
namespace
{
constexpr std::u16string_view WSTR_SYSTEM_ROOT_PATH = u"\\\\.\\";
constexpr std::u16string_view WSTR_LONG_PATH_PREFIX = u"\\\\?\\";
constexpr std::u16string_view WSTR_LONG_PATH_PREFIX_UNC = u"\\\\?\\UNC\\";
// Internal functions that expect only backslashes as path separators
bool startsWithDriveColon(std::u16string_view s)
{
return s.length() >= 2 && rtl::isAsciiAlpha(s[0]) && s[1] == ':';
}
bool startsWithDriveColonSlash(std::u16string_view s)
{
return s.length() >= 3 && startsWithDriveColon(s) && s[2] == '\\';
}
bool startsWithSlashSlash(std::u16string_view s) { return o3tl::starts_with(s, u"\\\\"); }
// An absolute path starts either with \\ (an UNC or device path like \\.\ or \\?\)
// or with a ASCII alpha character followed by colon followed by backslash.
bool isAbsolute(std::u16string_view s)
{
return startsWithSlashSlash(s) || startsWithDriveColonSlash(s);
}
bool onSameDrive(std::u16string_view s1, std::u16string_view s2)
{
assert(startsWithDriveColon(s1) && startsWithDriveColon(s2));
return rtl::toAsciiUpperCase(s1[0]) == rtl::toAsciiUpperCase(s2[0]) && s1[1] == s2[1];
}
sal_Int32 getRootLength(std::u16string_view path)
{
assert(isAbsolute(path));
size_t nResult = 0;
if (startsWithSlashSlash(path))
{
// Cases:
// 1. Device UNC: \\?\UNC\server\share or \\.\UNC\server\share
// 2. Non-device UNC: \\server\share
// 3. Device non-UNC: \\?\C: or \\.\C:
bool bUNC = false;
if (path.length() > 3 && (path[2] == '.' || path[2] == '?') && path[3] == '\\')
{
if (path.substr(4, 4) == u"UNC\\")
{
// \\?\UNC\server\share or \\.\UNC\server\share
nResult = 8;
bUNC = true;
}
else
{
// \\?\C: or \\.\C:
assert(startsWithDriveColon(path.substr(4)));
nResult = 6;
}
}
else
{
// \\server\share
nResult = 2;
bUNC = true;
}
if (bUNC)
{
// \\?\UNC\server\share or \\.\UNC\server\share or \\server\share
assert(nResult < path.length() && path[nResult] != '\\');
// Skip server name and share name
for (int nSlashes = 0; nResult < path.length(); ++nResult)
{
if (path[nResult] == '\\' && ++nSlashes == 2)
break;
}
}
}
else
{
// C:
assert(startsWithDriveColon(path));
nResult = 2;
}
return std::min(nResult, path.length());
}
std::u16string_view pathView(std::u16string_view path, bool bOnlyRoot)
{
return bOnlyRoot ? path.substr(0, getRootLength(path)) : path;
}
OUString combinePath(std::u16string_view basePath, std::u16string_view relPath)
{
const bool needSep = !o3tl::ends_with(basePath, u'\\');
const auto sSeparator = needSep ? std::u16string_view(u"\\") : std::u16string_view();
if (o3tl::starts_with(relPath, u'\\'))
relPath.remove_prefix(1); // avoid two adjacent backslashes
return OUString::Concat(basePath) + sSeparator + relPath;
}
OUString removeRelativeParts(const OUString& p)
{
const sal_Int32 rootPos = getRootLength(p);
OUStringBuffer buf(p.getLength());
buf.append(p.subView(0, rootPos));
std::stack<sal_Int32> partPositions;
bool bAfterSlash = false;
for (sal_Int32 i = rootPos; i < p.getLength(); ++i)
{
sal_Unicode c = p[i];
if (c == '\\')
{
if (i + 1 < p.getLength() && p[i + 1] == '.')
{
if (i + 2 == p.getLength() || p[i + 2] == '\\')
{
// 1. Skip current directory (\.\ or trailing \.)
++i; // process next slash: it may start another "\.\"
}
else if (p[i + 2] == '.' && (i + 3 == p.getLength() || p[i + 3] == '\\'))
{
// 2. For parent directory (\..\), drop previous part and skip
if (bAfterSlash && partPositions.size())
partPositions.pop();
sal_Int32 nParentPos = partPositions.size() ? partPositions.top() : rootPos;
if (partPositions.size())
partPositions.pop();
buf.truncate(nParentPos);
bAfterSlash = false; // we have just removed slash after parent part
i += 2; // process next slash: it may start another "\.\"
}
}
if (bAfterSlash)
continue; // 3. Skip double backslashes (\\)
partPositions.push(buf.getLength());
bAfterSlash = true;
}
else
bAfterSlash = false;
buf.append(c);
}
return buf.makeStringAndClear();
}
}
static bool IsValidFilePathComponent(
std::optional<std::u16string_view>& roComponent,
DWORD dwFlags)
{
assert(roComponent);
auto lpComponentEnd = roComponent->end();
auto lpCurrent = roComponent->begin();
bool bValid = lpCurrent != lpComponentEnd; // Empty components are not allowed
sal_Unicode cLast = 0;
while (bValid)
{
/* Path component length must not exceed MAX_PATH even if long path with "\\?\" prefix is used */
if (lpCurrent - roComponent->begin() >= MAX_PATH)
{
bValid = false;
break;
}
switch ( *lpCurrent )
{
/* Both backslash and slash determine the end of a path component */
case '\0':
case '/':
case '\\':
switch ( cLast )
{
/* Component must not end with '.' or blank and can't be empty */
case '.':
if ( dwFlags & VALIDATEPATH_ALLOW_ELLIPSE )
{
if ( (dwFlags & VALIDATEPATH_ALLOW_INVALID_SPACE_AND_PERIOD) ||
1 == lpCurrent - roComponent->begin() )
{
/* Either do allow periods anywhere, or current directory */
lpComponentEnd = lpCurrent;
break;
}
else if ( 2 == lpCurrent - roComponent->begin() && '.' == roComponent->front() )
{
/* Parent directory is O.K. */
lpComponentEnd = lpCurrent;
break;
}
}
[[fallthrough]];
case 0:
case ' ':
if ( dwFlags & VALIDATEPATH_ALLOW_INVALID_SPACE_AND_PERIOD )
lpComponentEnd = lpCurrent;
else
bValid = false;
break;
default:
lpComponentEnd = lpCurrent;
break;
}
break;
/* The following characters are reserved */
case '?':
case '*':
case '<':
case '>':
case '\"':
case '|':
case ':':
bValid = false;
break;
default:
/* Characters below ASCII 32 are not allowed */
if ( *lpCurrent < ' ' )
bValid = false;
break;
}
if (lpCurrent != lpComponentEnd)
cLast = *lpCurrent++;
if (lpCurrent == lpComponentEnd)
break;
}
if ( bValid )
{
// Empty components are not allowed
if (lpComponentEnd - roComponent->begin() < 1)
bValid = false;
// If we reached the end of the string nullopt is returned
else if (lpComponentEnd == roComponent->end())
roComponent.reset();
else
roComponent->remove_prefix(lpComponentEnd - roComponent->begin());
}
return bValid;
}
static sal_Int32 countInitialSeparators(std::u16string_view path) {
size_t n = 0;
while (n < path.length() && (path[n] == '\\' || path[n] == '/'))
++n;
return n;
}
DWORD IsValidFilePath(const OUString& path, DWORD dwFlags, OUString* corrected)
{
std::optional<std::u16string_view> oComponent = path;
bool bValid = true;
DWORD dwPathType = PATHTYPE_ERROR;
if ( dwFlags & VALIDATEPATH_ALLOW_RELATIVE )
dwFlags |= VALIDATEPATH_ALLOW_ELLIPSE;
DWORD dwCandidatPathType = PATHTYPE_ERROR;
if (path.matchIgnoreAsciiCase(WSTR_LONG_PATH_PREFIX_UNC))
{
/* This is long path in UNC notation */
oComponent = path.subView(WSTR_LONG_PATH_PREFIX_UNC.size());
dwCandidatPathType = PATHTYPE_ABSOLUTE_UNC | PATHTYPE_IS_LONGPATH;
}
else if (path.matchIgnoreAsciiCase(WSTR_LONG_PATH_PREFIX))
{
/* This is long path */
oComponent = path.subView(WSTR_LONG_PATH_PREFIX.size());
if (startsWithDriveColon(*oComponent))
{
oComponent->remove_prefix(2);
dwCandidatPathType = PATHTYPE_ABSOLUTE_LOCAL | PATHTYPE_IS_LONGPATH;
}
}
else if ( 2 == countInitialSeparators(path) )
{
/* The UNC path notation */
oComponent = path.subView(2);
dwCandidatPathType = PATHTYPE_ABSOLUTE_UNC;
}
else if (startsWithDriveColon(path))
{
/* Local path verification. Must start with <drive>: */
oComponent = path.subView(2);
dwCandidatPathType = PATHTYPE_ABSOLUTE_LOCAL;
}
if ( ( dwCandidatPathType & PATHTYPE_MASK_TYPE ) == PATHTYPE_ABSOLUTE_UNC )
{
bValid = IsValidFilePathComponent(oComponent, VALIDATEPATH_ALLOW_ELLIPSE);
/* So far we have a valid servername. Now let's see if we also have a network resource */
dwPathType = dwCandidatPathType;
if ( bValid )
{
if (oComponent)
{
oComponent->remove_prefix(1);
if (oComponent->empty())
oComponent.reset();
}
if (!oComponent)
{
dwPathType |= PATHTYPE_IS_SERVER;
}
else
{
/* Now test the network resource */
bValid = IsValidFilePathComponent(oComponent, 0);
/* If we now reached the end of the path, everything is O.K. */
if (bValid)
{
if (oComponent)
{
oComponent->remove_prefix(1);
if (oComponent->empty())
oComponent.reset();
}
if (!oComponent)
dwPathType |= PATHTYPE_IS_VOLUME;
}
}
}
}
else if ( ( dwCandidatPathType & PATHTYPE_MASK_TYPE ) == PATHTYPE_ABSOLUTE_LOCAL )
{
if (1 == countInitialSeparators(*oComponent))
oComponent->remove_prefix(1);
else if (!oComponent->empty())
bValid = false;
dwPathType = dwCandidatPathType;
/* Now we are behind the backslash or it was a simple drive without backslash */
if (bValid && oComponent->empty())
{
oComponent.reset();
dwPathType |= PATHTYPE_IS_VOLUME;
}
}
else if ( dwFlags & VALIDATEPATH_ALLOW_RELATIVE )
{
/* Can be a relative path */
oComponent = path;
/* Relative path can start with a backslash */
if (1 == countInitialSeparators(*oComponent))
{
oComponent->remove_prefix(1);
if (oComponent->empty())
oComponent.reset();
}
dwPathType = PATHTYPE_RELATIVE;
}
else
{
/* Anything else is an error */
bValid = false;
}
/* Now validate each component of the path */
OUString lastCorrected = path;
while (bValid && oComponent)
{
// Correct path by merging consecutive slashes:
if (o3tl::starts_with(*oComponent, u"\\") && corrected != nullptr) {
sal_Int32 i = oComponent->data() - lastCorrected.getStr();
*corrected = lastCorrected.replaceAt(i, 1, {});
//TODO: handle out-of-memory
lastCorrected = *corrected;
oComponent = lastCorrected.subView(i);
}
bValid = IsValidFilePathComponent(oComponent, dwFlags | VALIDATEPATH_ALLOW_INVALID_SPACE_AND_PERIOD);
if (bValid && oComponent)
{
oComponent->remove_prefix(1);
/* If the string behind the backslash is empty, we've done */
if (oComponent->empty())
oComponent.reset();
}
}
/* The path can be longer than MAX_PATH only in case it has the longpath prefix */
if (bValid && !(dwPathType & PATHTYPE_IS_LONGPATH) && path.getLength() >= MAX_PATH)
{
bValid = false;
}
return bValid ? dwPathType : PATHTYPE_ERROR;
}
static std::optional<OUString> osl_decodeURL_(const OString& sUTF8)
{
const char *pSrcEnd;
const char *pSrc;
bool bValidEncoded = true; /* Assume success */
/* The resulting decoded string length is shorter or equal to the source length */
const sal_Int32 nSrcLen = sUTF8.getLength();
OStringBuffer aBuffer(nSrcLen + 1);
pSrc = sUTF8.getStr();
pSrcEnd = pSrc + nSrcLen;
/* Now decode the URL what should result in a UTF-8 string */
while ( bValidEncoded && pSrc < pSrcEnd )
{
switch ( *pSrc )
{
case '%':
{
char aToken[3];
char aChar;
pSrc++;
aToken[0] = *pSrc++;
aToken[1] = *pSrc++;
aToken[2] = 0;
aChar = static_cast<char>(strtoul( aToken, nullptr, 16 ));
/* The chars are path delimiters and must not be encoded */
if ( 0 == aChar || '\\' == aChar || '/' == aChar || ':' == aChar )
bValidEncoded = false;
else
aBuffer.append(aChar);
}
break;
case '\0':
case '#':
case '?':
bValidEncoded = false;
break;
default:
aBuffer.append(*pSrc++);
break;
}
}
return bValidEncoded ? OUString(aBuffer.getStr(), aBuffer.getLength(), RTL_TEXTENCODING_UTF8)
: std::optional<OUString>();
}
static OUString osl_encodeURL_(std::u16string_view sURL)
{
/* Encode non ascii characters within the URL */
const char *pURLScan;
sal_Int32 nURLScanLen;
sal_Int32 nURLScanCount;
OString sUTF8 = OUStringToOString(sURL, RTL_TEXTENCODING_UTF8);
OUStringBuffer sEncodedURL(sUTF8.getLength() * 3 + 1);
pURLScan = sUTF8.getStr();
nURLScanLen = sUTF8.getLength();
nURLScanCount = 0;
while ( nURLScanCount < nURLScanLen )
{
char cCurrent = *pURLScan;
switch ( cCurrent )
{
default:
if (!( ( cCurrent >= 'a' && cCurrent <= 'z' ) || ( cCurrent >= 'A' && cCurrent <= 'Z' ) || ( cCurrent >= '0' && cCurrent <= '9' ) ) )
{
char buf[3];
sprintf( buf, "%02X", static_cast<unsigned char>(cCurrent) );
sEncodedURL.append('%').appendAscii(buf, 2);
break;
}
[[fallthrough]];
case '!':
case '\'':
case '(':
case ')':
case '*':
case '-':
case '.':
case '_':
case '~':
case '$':
case '&':
case '+':
case ',':
case '=':
case '@':
case ':':
case '/':
case '\\':
case '|':
sEncodedURL.appendAscii(&cCurrent, 1);
break;
case 0:
break;
}
pURLScan++;
nURLScanCount++;
}
return sEncodedURL.makeStringAndClear();
}
// A helper that makes sure that for existing part of the path, the case is correct.
// Unlike GetLongPathNameW that it wraps, this function does not require the path to exist.
static OUString GetCaseCorrectPathName(std::u16string_view sysPath)
{
// Prepare a null-terminated string first.
// Neither OUString, nor u16string_view are guaranteed to be null-terminated
osl::LongPathBuffer<wchar_t> szPath(sysPath.size() + WSTR_LONG_PATH_PREFIX_UNC.size() + 1);
wchar_t* const pPath = szPath;
wchar_t* pEnd = pPath;
size_t sysPathOffset = 0;
if (sysPath.size() >= MAX_PATH && isAbsolute(sysPath)
&& !o3tl::starts_with(sysPath, WSTR_LONG_PATH_PREFIX))
{
// Allow GetLongPathNameW consume long paths
std::u16string_view prefix = WSTR_LONG_PATH_PREFIX;
if (startsWithSlashSlash(sysPath))
{
sysPathOffset = 2; // skip leading "\\"
prefix = WSTR_LONG_PATH_PREFIX_UNC;
}
pEnd = std::copy(prefix.begin(), prefix.end(), pEnd);
}
wchar_t* const pStart = pEnd;
pEnd = std::copy(sysPath.begin() + sysPathOffset, sysPath.end(), pStart);
*pEnd = 0;
osl::LongPathBuffer<wchar_t> aBuf(MAX_LONG_PATH);
while (pEnd > pStart)
{
std::u16string_view curPath(o3tl::toU(pPath), pEnd - pPath);
if (curPath == u"\\\\" || curPath == WSTR_SYSTEM_ROOT_PATH
|| curPath == WSTR_LONG_PATH_PREFIX
|| o3tl::equalsIgnoreAsciiCase(curPath, WSTR_LONG_PATH_PREFIX_UNC))
break; // Do not check if the special path prefix exists itself
DWORD nNewLen = GetLongPathNameW(pPath, aBuf, aBuf.getBufSizeInSymbols());
if (nNewLen == 0)
{
// Error?
const DWORD err = GetLastError();
if (err == ERROR_FILE_NOT_FOUND || err == ERROR_PATH_NOT_FOUND)
{
// Check the base path; skip possible trailing separator
size_t sepPos = curPath.substr(0, curPath.size() - 1).rfind(u'\\');
if (sepPos != std::u16string_view::npos)
{
pEnd = pPath + sepPos;
*pEnd = 0;
continue;
}
}
else
{
SAL_WARN("sal.osl", "GetLongPathNameW: Windows error code "
<< err << " processing path " << OUString(curPath));
}
break; // All other errors, or no separators left
}
assert(nNewLen < aBuf.getBufSizeInSymbols());
// Combine the case-correct leading part with the non-existing trailing part
return OUString::Concat(std::u16string_view(o3tl::toU(aBuf), nNewLen))
+ sysPath.substr(pEnd - pStart + sysPathOffset);
};
return OUString(sysPath); // We found no existing parts - just assume it's OK
}
oslFileError osl_getSystemPathFromFileURL_(const OUString& strURL, rtl_uString **pustrPath, bool bAllowRelative)
{
OUString sTempPath;
oslFileError nError = osl_File_E_INVAL; /* Assume failure */
/* If someone hasn't encoded the complete URL we convert it to UTF8 now to prevent from
having a mixed encoded URL later */
OString sUTF8 = OUStringToOString(strURL, RTL_TEXTENCODING_UTF8);
/* If the length of strUTF8 and strURL differs it indicates that the URL was not correct encoded */
SAL_WARN_IF(
sUTF8.getLength() != strURL.getLength() &&
strURL.matchIgnoreAsciiCase("file:\\")
, "sal.osl"
,"osl_getSystemPathFromFileURL: \"" << strURL << "\" is not encoded !!!");
if (auto sDecodedURL = osl_decodeURL_(sUTF8))
{
/* Replace backslashes and pipes */
sDecodedURL = sDecodedURL->replace('/', '\\').replace('|', ':');
/* Must start with "file:/" */
if ( sDecodedURL->startsWithIgnoreAsciiCase("file:\\") )
{
sal_uInt32 nSkip;
if ( sDecodedURL->startsWithIgnoreAsciiCase("file:\\\\\\") )
nSkip = 8;
else if (
sDecodedURL->startsWithIgnoreAsciiCase("file:\\\\localhost\\") ||
sDecodedURL->startsWithIgnoreAsciiCase("file:\\\\127.0.0.1\\")
)
nSkip = 17;
else if ( sDecodedURL->startsWithIgnoreAsciiCase("file:\\\\") )
nSkip = 5;
else
nSkip = 6;
const sal_uInt32 nDecodedLen = sDecodedURL->getLength();
/* Indicates local root */
if ( nDecodedLen == nSkip )
sTempPath = WSTR_SYSTEM_ROOT_PATH;
else
{
/* do not separate the directory and file case, so the maximal path length without prefix is MAX_PATH-12 */
if ( nDecodedLen - nSkip <= MAX_PATH - 12 )
{
sTempPath = sDecodedURL->subView(nSkip);
}
else
{
sDecodedURL = GetCaseCorrectPathName(sDecodedURL->subView(nSkip));
if (sDecodedURL->getLength() <= MAX_PATH - 12
|| sDecodedURL->startsWith(WSTR_SYSTEM_ROOT_PATH)
|| sDecodedURL->startsWith(WSTR_LONG_PATH_PREFIX))
{
sTempPath = *sDecodedURL;
}
else if (sDecodedURL->startsWith("\\\\"))
{
/* it should be an UNC path, use the according prefix */
sTempPath = OUString::Concat(WSTR_LONG_PATH_PREFIX_UNC) + sDecodedURL->subView(2);
}
else
{
sTempPath = WSTR_LONG_PATH_PREFIX + *sDecodedURL;
}
}
}
if (IsValidFilePath(sTempPath, VALIDATEPATH_ALLOW_ELLIPSE, &sTempPath))
nError = osl_File_E_None;
}
else if ( bAllowRelative ) /* This maybe a relative file URL */
{
/* In future the relative path could be converted to absolute if it is too long */
sTempPath = *sDecodedURL;
if (IsValidFilePath(sTempPath, VALIDATEPATH_ALLOW_RELATIVE | VALIDATEPATH_ALLOW_ELLIPSE, &sTempPath))
nError = osl_File_E_None;
}
else
SAL_INFO_IF(nError, "sal.osl",
"osl_getSystemPathFromFileURL: \"" << strURL << "\" is not an absolute FileURL");
}
if ( osl_File_E_None == nError )
rtl_uString_assign(pustrPath, sTempPath.pData);
SAL_INFO_IF(nError, "sal.osl",
"osl_getSystemPathFromFileURL: \"" << strURL << "\" is not a FileURL");
return nError;
}
oslFileError osl_getFileURLFromSystemPath( rtl_uString* strPath, rtl_uString** pstrURL )
{
oslFileError nError = osl_File_E_INVAL; /* Assume failure */
OUString sTempURL;
DWORD dwPathType = PATHTYPE_ERROR;
if (strPath)
dwPathType = IsValidFilePath(OUString::unacquired(&strPath), VALIDATEPATH_ALLOW_RELATIVE, nullptr);
if (dwPathType)
{
OUString sTempPath;
const OUString& sPath = OUString::unacquired(&strPath);
if ( dwPathType & PATHTYPE_IS_LONGPATH )
{
/* the path has the longpath prefix, lets remove it */
switch ( dwPathType & PATHTYPE_MASK_TYPE )
{
case PATHTYPE_ABSOLUTE_UNC:
static_assert(WSTR_LONG_PATH_PREFIX_UNC.size() == 8,
"Unexpected long path UNC prefix!");
/* generate the normal UNC path */
sTempPath = "\\\\" + sPath.copy(8).replace('\\', '/');
break;
case PATHTYPE_ABSOLUTE_LOCAL:
static_assert(WSTR_LONG_PATH_PREFIX.size() == 4,
"Unexpected long path prefix!");
/* generate the normal path */
sTempPath = sPath.copy(4).replace('\\', '/');
break;
default:
OSL_FAIL( "Unexpected long path format!" );
sTempPath = sPath.replace('\\', '/');
break;
}
}
else
{
/* Replace backslashes */
sTempPath = sPath.replace('\\', '/');
}
switch ( dwPathType & PATHTYPE_MASK_TYPE )
{
case PATHTYPE_RELATIVE:
sTempURL = sTempPath;
nError = osl_File_E_None;
break;
case PATHTYPE_ABSOLUTE_UNC:
sTempURL = "file:" + sTempPath;
nError = osl_File_E_None;
break;
case PATHTYPE_ABSOLUTE_LOCAL:
sTempURL = "file:///" + sTempPath;
nError = osl_File_E_None;
break;
default:
break;
}
}
if ( osl_File_E_None == nError )
{
/* Encode the URL */
rtl_uString_assign(pstrURL, osl_encodeURL_(sTempURL).pData);
OSL_ASSERT(*pstrURL != nullptr);
}
SAL_INFO_IF(nError, "sal.osl",
"osl_getFileURLFromSystemPath: \"" << OUString::unacquired(&strPath) << "\" is not a systemPath");
return nError;
}
oslFileError SAL_CALL osl_getSystemPathFromFileURL(
rtl_uString *ustrURL, rtl_uString **pustrPath)
{
return osl_getSystemPathFromFileURL_(OUString::unacquired(&ustrURL), pustrPath, true);
}
oslFileError SAL_CALL osl_searchFileURL(
rtl_uString *ustrFileName,
rtl_uString *ustrSystemSearchPath,
rtl_uString **pustrPath)
{
OUString ustrUNCPath;
OUString ustrSysPath;
oslFileError error;
/* First try to interpret the file name as a URL even a relative one */
error = osl_getSystemPathFromFileURL_(OUString::unacquired(&ustrFileName), &ustrUNCPath.pData, true);
/* So far we either have an UNC path or something invalid
Now create a system path */
if ( osl_File_E_None == error )
error = osl_getSystemPathFromFileURL_(ustrUNCPath, &ustrSysPath.pData, true);
if ( osl_File_E_None == error )
{
DWORD nBufferLength;
DWORD dwResult;
LPWSTR lpBuffer = nullptr;
LPWSTR lpszFilePart;
/* Repeat calling SearchPath ...
Start with MAX_PATH for the buffer. In most cases this
will be enough and does not force the loop to run twice */
dwResult = MAX_PATH;
do
{
/* If search path is empty use a nullptr pointer instead according to MSDN documentation of SearchPath */
LPCWSTR lpszSearchPath = ustrSystemSearchPath && ustrSystemSearchPath->length ? o3tl::toW(ustrSystemSearchPath->buffer) : nullptr;
LPCWSTR lpszSearchFile = o3tl::toW(ustrSysPath.getStr());
/* Allocate space for buffer according to previous returned count of required chars */
/* +1 is not necessary if we follow MSDN documentation but for robustness we do so */
nBufferLength = dwResult + 1;
lpBuffer = lpBuffer ?
static_cast<LPWSTR>(realloc(lpBuffer, nBufferLength * sizeof(WCHAR))) :
static_cast<LPWSTR>(malloc(nBufferLength * sizeof(WCHAR)));
dwResult = SearchPathW( lpszSearchPath, lpszSearchFile, nullptr, nBufferLength, lpBuffer, &lpszFilePart );
} while ( dwResult && dwResult >= nBufferLength );
/* ... until an error occurs or buffer is large enough.
dwResult == nBufferLength can not happen according to documentation but lets be robust ;-) */
if ( dwResult )
{
ustrSysPath = o3tl::toU(lpBuffer);
error = osl_getFileURLFromSystemPath(ustrSysPath.pData, pustrPath);
}
else
{
WIN32_FIND_DATAW aFindFileData;
HANDLE hFind;
/* something went wrong, perhaps the path was absolute */
error = oslTranslateFileError( GetLastError() );
hFind = FindFirstFileW(o3tl::toW(ustrSysPath.getStr()), &aFindFileData);
if ( IsValidHandle(hFind) )
{
error = osl_getFileURLFromSystemPath(ustrSysPath.pData, pustrPath);
FindClose( hFind );
}
}
free( lpBuffer );
}
return error;
}
oslFileError SAL_CALL osl_getAbsoluteFileURL( rtl_uString* ustrBaseURL, rtl_uString* ustrRelativeURL, rtl_uString** pustrAbsoluteURL )
{
oslFileError eError = osl_File_E_None;
OUString ustrRelSysPath;
OUString ustrBaseSysPath;
if ( ustrBaseURL && ustrBaseURL->length )
{
eError = osl_getSystemPathFromFileURL_(OUString::unacquired(&ustrBaseURL), &ustrBaseSysPath.pData, false);
OSL_ENSURE( osl_File_E_None == eError, "osl_getAbsoluteFileURL called with relative or invalid base URL" );
}
if (eError == osl_File_E_None)
{
eError = osl_getSystemPathFromFileURL_(OUString::unacquired(&ustrRelativeURL), &ustrRelSysPath.pData,
!ustrBaseSysPath.isEmpty());
OSL_ENSURE( osl_File_E_None == eError, "osl_getAbsoluteFileURL called with empty base URL and/or invalid relative URL" );
}
if ( !eError )
{
OUString sResultPath;
/*@@@ToDo
The whole FileURL implementation should be merged
with the rtl/uri class.
*/
// If ustrRelSysPath is absolute, we don't need ustrBaseSysPath.
if (!ustrBaseSysPath.isEmpty() && !isAbsolute(ustrRelSysPath))
{
// ustrBaseSysPath is known here to be a valid absolute path -> its first two characters
// are ASCII (either alpha + colon, or double backslashes)
// Don't use SetCurrentDirectoryW together with GetFullPathNameW, because:
// (a) it needs synchronization and may affect threads that may access relative paths;
// (b) it would give wrong results for non-existing base path (allowed by RFC2396).
if (startsWithDriveColon(ustrRelSysPath))
{
// Special case: a path relative to a specific drive's current directory.
// Should we error out here?
// If ustrBaseSysPath is on the same drive as ustrRelSysPath, then take base path
// as is; otherwise, use current directory on ustrRelSysPath's drive as base path
if (onSameDrive(ustrRelSysPath, ustrBaseSysPath))
{
sResultPath = combinePath(ustrBaseSysPath, ustrRelSysPath.subView(2));
}
else
{
// Call GetFullPathNameW to get current directory on ustrRelSysPath's drive
wchar_t baseDrive[3] = { ustrRelSysPath[0], ':' }; // just "C:"
osl::LongPathBuffer<wchar_t> aBuf(MAX_LONG_PATH);
DWORD dwResult
= GetFullPathNameW(baseDrive, aBuf.getBufSizeInSymbols(), aBuf, nullptr);
if (dwResult)
{
if (dwResult >= aBuf.getBufSizeInSymbols())
eError = osl_File_E_INVAL;
else
sResultPath = combinePath(o3tl::toU(aBuf), ustrRelSysPath.subView(2));
}
else
eError = oslTranslateFileError(GetLastError());
}
}
else
{
// Is this a rooted relative path (starting with a backslash)?
// Then we need only root from base. E.g.,
// ustrBaseSysPath is "\\server\share\path1\" and ustrRelSysPath is "\path2\to\file"
// => \\server\share\path2\to\file
// ustrBaseSysPath is "D:\path1\" and ustrRelSysPath is "\path2\to\file"
// => D:\path2\to\file
auto sBaseView(pathView(ustrBaseSysPath, ustrRelSysPath.startsWith("\\")));
sResultPath = combinePath(sBaseView, ustrRelSysPath);
}
}
else
sResultPath = ustrRelSysPath;
if (eError == osl_File_E_None)
{
sResultPath = removeRelativeParts(sResultPath);
eError = osl_getFileURLFromSystemPath(sResultPath.pData, pustrAbsoluteURL);
}
}
return eError;
}
oslFileError SAL_CALL osl_getCanonicalName( rtl_uString *strRequested, rtl_uString **strValid )
{
rtl_uString_newFromString(strValid, strRequested);
return osl_File_E_None;
}
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