/* -*- 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 .
*/
#ifndef WIN32_LEAN_AND_MEAN
# define WIN32_LEAN_AND_MEAN
# include <windows.h>
# undef WIN32_LEAN_AND_MEAN
#endif
#include "file-impl.hxx"
#include "procimpl.hxx"
#include <rtl/alloc.h>
#include <rtl/ustring.hxx>
#include <rtl/ustrbuf.hxx>
#include "secimpl.hxx"
#include <osl/diagnose.h>
#include <osl/file.hxx>
#include <o3tl/char16_t2wchar_t.hxx>
#include <vector>
#include <algorithm>
namespace /* private */
{
/* Function object that compares two strings that are
expected to be environment variables in the form
"name=value". Only the 'name' part will be compared.
The comparison is in upper case and returns true
if the first of both strings is less than the
second one. */
struct less_environment_variable
{
bool operator() (
const OUString& lhs,
const OUString& rhs)
const
{
OSL_ENSURE((lhs.indexOf(L
'=') > -1) &&
(rhs.indexOf(L
'=') > -1),
"Malformed environment variable");
// Windows compares environment variables uppercase
// so we do it, too
return (rtl_ustr_compare_WithLength(
lhs.toAsciiUpperCase().pData->buffer,
lhs.indexOf(L
'='),
rhs.toAsciiUpperCase().pData->buffer,
rhs.indexOf(L
'=')) < 0);
}
};
/* Function object used by for_each algorithm to
calculate the sum of the length of all strings
in a string container. */
class sum_of_string_lengths
{
public:
sum_of_string_lengths() : sum_(0) {}
void operator() (
const OUString& string)
{
OSL_ASSERT(string.getLength());
// always include the terminating '\0'
if (string.getLength())
sum_ += string.getLength() + 1;
}
operator size_t ()
const
{
return sum_;
}
private:
size_t sum_;
};
size_t calc_sum_of_string_lengths(
const std::vector<OUString>& string_cont)
{
return std::for_each(
string_cont.begin(), string_cont.end(), sum_of_string_lengths());
}
void read_environment(
/*out*/ std::vector<OUString>* environment)
{
// GetEnvironmentStrings returns a sorted list, Windows
// sorts environment variables upper case
LPWSTR env = GetEnvironmentStringsW();
LPWSTR p = env;
while (size_t l = wcslen(p))
{
environment->push_back(OUString(o3tl::toU(p)));
p += l + 1;
}
FreeEnvironmentStringsW(env);
// it is apparently possible that the environment is not completely
// sorted; Cygwin may append entries, which breaks the equal_range
std::stable_sort(environment->begin(), environment->end(),
less_environment_variable());
}
/* the environment list must be sorted, new values
should either replace existing ones or should be
added to the list, environment variables will
be handled case-insensitive */
bool create_merged_environment(
rtl_uString* env_vars[],
sal_uInt32 env_vars_count,
/*in|out*/ std::vector<OUString>* merged_env)
{
assert(env_vars && env_vars_count > 0 && merged_env);
read_environment(merged_env);
for (sal_uInt32 i = 0; i < env_vars_count; i++)
{
OUString env_var(env_vars[i]);
if (env_var.getLength() == 0)
return false;
auto iter_pair = std::equal_range(
merged_env->begin(),
merged_env->end(),
env_var,
less_environment_variable());
if (env_var.indexOf(L
'=') == -1)
{
merged_env->erase(iter_pair.first, iter_pair.second);
}
else
{
if (iter_pair.first != iter_pair.second)
// found
*iter_pair.first = env_var;
else // not found
merged_env->insert(iter_pair.first, env_var);
}
}
return true;
}
/* Create a merged environment */
bool setup_process_environment(
rtl_uString* environment_vars[],
sal_uInt32 n_environment_vars,
/*in|out*/ std::vector<sal_Unicode>& environment)
{
std::vector<OUString> merged_env;
if (!create_merged_environment(environment_vars, n_environment_vars, &merged_env))
return false;
// allocate enough space for the '\0'-separated environment strings and
// a final '\0'
environment.resize(calc_sum_of_string_lengths(merged_env) + 1);
sal_uInt32 pos = 0;
for (
auto& envv : merged_env)
{
OSL_ASSERT(envv.getLength());
sal_uInt32 n = envv.getLength() + 1;
// copy the final '\0', too
memcpy(&environment[pos], envv.getStr(), n *
sizeof(sal_Unicode));
pos += n;
}
environment[pos] = 0;
// append a final '\0'
return true;
}
/* In contrast to the Win32 API function CreatePipe with
this function the caller is able to determine separately
which handle of the pipe is inheritable. */
bool create_pipe(
PHANDLE p_read_pipe,
bool b_read_pipe_inheritable,
PHANDLE p_write_pipe,
bool b_write_pipe_inheritable,
LPVOID p_security_descriptor = nullptr,
DWORD pipe_size = 0)
{
SECURITY_ATTRIBUTES sa;
sa.nLength =
sizeof(SECURITY_ATTRIBUTES);
sa.lpSecurityDescriptor = p_security_descriptor;
sa.bInheritHandle = b_read_pipe_inheritable || b_write_pipe_inheritable;
bool bRet =
false;
HANDLE hTemp = nullptr;
if (!b_read_pipe_inheritable && b_write_pipe_inheritable)
{
bRet = CreatePipe(&hTemp, p_write_pipe, &sa, pipe_size);
if (bRet && !DuplicateHandle(GetCurrentProcess(), hTemp,
GetCurrentProcess(), p_read_pipe, 0,
FALSE,
DUPLICATE_CLOSE_SOURCE | DUPLICATE_SAME_ACCESS))
{
CloseHandle(hTemp);
CloseHandle(*p_read_pipe);
return false;
}
}
else if (b_read_pipe_inheritable && !b_write_pipe_inheritable)
{
bRet = CreatePipe(p_read_pipe, &hTemp, &sa, pipe_size);
if (bRet && !DuplicateHandle(GetCurrentProcess(), hTemp,
GetCurrentProcess(), p_write_pipe, 0,
FALSE,
DUPLICATE_CLOSE_SOURCE | DUPLICATE_SAME_ACCESS))
{
CloseHandle(hTemp);
CloseHandle(*p_write_pipe);
return false;
}
}
else
{
bRet = CreatePipe(p_read_pipe, p_write_pipe, &sa, pipe_size);
}
return bRet;
}
// Add a quote sign to the start and the end of a string
// if not already present
OUString quote_string(
const OUString& string)
{
OUStringBuffer quoted;
if (string.indexOf(L
'"') != 0)
quoted.append(
'"');
quoted.append(string);
if (string.lastIndexOf(L
'"') != (string.getLength() - 1))
quoted.append(
'"');
return quoted.makeStringAndClear();
}
// The parameter path must be a system path. If it is longer than 260 characters
// then it is shortened using the GetShortPathName function. This function only
// works if the path exists. Because "path" can be the path to an executable, it
// may not have the file extension ".exe". However, if the file on disk has the
// ".exe" extension, then the function will fail. In this case a second attempt
// is started by adding the parameter "extension" to "path".
OUString getShortPath(OUString
const & path, OUString
const & extension)
{
OUString ret(path);
if (path.getLength() > 260)
{
std::vector<sal_Unicode> vec(path.getLength() + 1);
//GetShortPathNameW only works if the file can be found!
const DWORD len = GetShortPathNameW(
o3tl::toW(path.getStr()), o3tl::toW(vec.data()), path.getLength() + 1);
if (!len && GetLastError() == ERROR_FILE_NOT_FOUND
&& extension.getLength())
{
const OUString extPath(path + extension);
std::vector<sal_Unicode> vec2(
extPath.getLength() + 1);
const DWORD len2 = GetShortPathNameW(
o3tl::toW(extPath.getStr()), o3tl::toW(vec2.data()), extPath.getLength() + 1);
ret = OUString(vec2.data(), len2);
}
else
{
ret = OUString(vec.data(), len);
}
}
return ret;
}
// Returns the system path of the executable which can either
// be provided via the strImageName parameter or as first
// element of the strArguments list.
// The returned path will be quoted if it contains spaces.
OUString get_executable_path(
rtl_uString* image_name,
rtl_uString* cmdline_args[],
sal_uInt32 n_cmdline_args,
bool search_path)
{
OUString exe_name;
if (image_name)
exe_name = image_name;
else if (n_cmdline_args)
exe_name = OUString(cmdline_args[0]);
OUString exe_url = exe_name;
if (search_path)
osl_searchFileURL(exe_name.pData, nullptr, &exe_url.pData);
OUString exe_path;
if (osl::FileBase::E_None != osl::FileBase::getSystemPathFromFileURL(exe_url, exe_pa
th))
return OUString();
exe_path = getShortPath(exe_path, ".exe");
if (exe_path.indexOf(' ') != -1)
exe_path = quote_string(exe_path);
return exe_path;
}
OUString get_file_extension(const OUString& file_name)
{
// Quoted file name
if ((file_name.indexOf(L'"') == 0) && (file_name.lastIndexOf(L'"') == (file_name.getLength() - 1)))
{
sal_Int32 index = file_name.lastIndexOf('.');
if ((index != -1) && ((index + 2) < file_name.getLength()))
return file_name.copy(index + 1, file_name.getLength() - (index + 2));
}
// Unquoted file name
else
{
sal_Int32 index = file_name.lastIndexOf('.');
if ((index != -1) && ((index + 1) < file_name.getLength()))
return file_name.copy(index + 1);
}
return OUString();
}
bool is_batch_file(const OUString& file_name)
{
OUString ext = get_file_extension(file_name);
return (ext.equalsIgnoreAsciiCase("bat") ||
ext.equalsIgnoreAsciiCase("cmd") ||
ext.equalsIgnoreAsciiCase("btm"));
}
OUString get_batch_processor()
{
OUString comspec;
osl_getEnvironment(u"COMSPEC"_ustr.pData, &comspec.pData);
OSL_ASSERT(comspec.getLength());
/* check if comspec path contains blanks and quote it if any */
if (comspec.indexOf(' ') != -1)
comspec = quote_string(comspec);
return comspec;
}
} // namespace private
oslProcessError SAL_CALL osl_executeProcess(
rtl_uString *strImageName,
rtl_uString *strArguments[],
sal_uInt32 nArguments,
oslProcessOption Options,
oslSecurity Security,
rtl_uString *strDirectory,
rtl_uString *strEnvironmentVars[],
sal_uInt32 nEnvironmentVars,
oslProcess *pProcess
)
{
return osl_executeProcess_WithRedirectedIO(
strImageName,
strArguments,
nArguments,
Options,
Security,
strDirectory,
strEnvironmentVars,
nEnvironmentVars,
pProcess,
nullptr, nullptr, nullptr );
}
oslProcessError SAL_CALL osl_executeProcess_WithRedirectedIO(
rtl_uString *ustrImageName,
rtl_uString *ustrArguments[],
sal_uInt32 nArguments,
oslProcessOption Options,
oslSecurity Security,
rtl_uString *ustrDirectory,
rtl_uString *ustrEnvironmentVars[],
sal_uInt32 nEnvironmentVars,
oslProcess *pProcess,
oslFileHandle *pProcessInputWrite,
oslFileHandle *pProcessOutputRead,
oslFileHandle *pProcessErrorRead)
{
OUString exe_path = get_executable_path(
ustrImageName, ustrArguments, nArguments, (Options & osl_Process_SEARCHPATH) != 0);
if (0 == exe_path.getLength())
return osl_Process_E_NotFound;
if (pProcess == nullptr)
return osl_Process_E_InvalidError;
DWORD flags = NORMAL_PRIORITY_CLASS;
OUStringBuffer command_line;
if (is_batch_file(exe_path))
{
OUString batch_processor = get_batch_processor();
if (batch_processor.getLength())
{
/* cmd.exe does not work without a console window */
if (!(Options & osl_Process_WAIT) || (Options & osl_Process_DETACHED))
flags |= CREATE_NEW_CONSOLE;
command_line.append(batch_processor + " /c ");
}
else
// should we return here in case of error?
return osl_Process_E_Unknown;
}
command_line.append(exe_path);
/* Add remaining arguments to command line. If ustrImageName is nullptr
the first parameter is the name of the executable so we have to
start at 1 instead of 0 */
for (sal_uInt32 n = (nullptr != ustrImageName) ? 0 : 1; n < nArguments; n++)
{
command_line.append(" ");
/* Quote arguments containing blanks */
if (OUString(ustrArguments[n]).indexOf(' ') != -1)
command_line.append(quote_string(ustrArguments[n]));
else
command_line.append(ustrArguments[n]);
}
std::vector<sal_Unicode> environment;
LPVOID p_environment = nullptr;
if (nEnvironmentVars && ustrEnvironmentVars)
{
if (!setup_process_environment(
ustrEnvironmentVars, nEnvironmentVars, environment))
return osl_Process_E_InvalidError;
flags |= CREATE_UNICODE_ENVIRONMENT;
p_environment = environment.data();
}
OUString cwd;
if (ustrDirectory && ustrDirectory->length && (osl::FileBase::E_None != osl::FileBase::getSystemPathFromFileURL(ustrDirectory, cwd)))
return osl_Process_E_InvalidError;
LPCWSTR p_cwd = (cwd.getLength()) ? o3tl::toW(cwd.getStr()) : nullptr;
if ((Options & osl_Process_DETACHED) && !(flags & CREATE_NEW_CONSOLE))
flags |= DETACHED_PROCESS;
STARTUPINFOW startup_info{ .cb = sizeof(startup_info),
.lpDesktop = const_cast<LPWSTR>(L""),
.dwFlags = STARTF_USESHOWWINDOW };
/* Create pipes for redirected IO */
HANDLE hInputRead = nullptr;
HANDLE hInputWrite = nullptr;
if (pProcessInputWrite && create_pipe(&hInputRead, true, &hInputWrite, false))
startup_info.hStdInput = hInputRead;
HANDLE hOutputRead = nullptr;
HANDLE hOutputWrite = nullptr;
if (pProcessOutputRead && create_pipe(&hOutputRead, false, &hOutputWrite, true))
startup_info.hStdOutput = hOutputWrite;
HANDLE hErrorRead = nullptr;
HANDLE hErrorWrite = nullptr;
if (pProcessErrorRead && create_pipe(&hErrorRead, false, &hErrorWrite, true))
startup_info.hStdError = hErrorWrite;
bool b_inherit_handles = false;
if (pProcessInputWrite || pProcessOutputRead || pProcessErrorRead)
{
startup_info.dwFlags |= STARTF_USESTDHANDLES;
b_inherit_handles = true;
}
switch(Options & (osl_Process_NORMAL | osl_Process_HIDDEN | osl_Process_MINIMIZED | osl_Process_MAXIMIZED | osl_Process_FULLSCREEN))
{
case osl_Process_HIDDEN:
startup_info.wShowWindow = SW_HIDE;
flags |= CREATE_NO_WINDOW; // ignored for non-console
// applications; ignored on
// Win9x
break;
case osl_Process_MINIMIZED:
startup_info.wShowWindow = SW_MINIMIZE;
break;
case osl_Process_MAXIMIZED:
case osl_Process_FULLSCREEN:
startup_info.wShowWindow = SW_MAXIMIZE;
break;
default:
startup_info.wShowWindow = SW_NORMAL;
}
OUString cmdline = command_line.makeStringAndClear();
PROCESS_INFORMATION process_info;
bool bRet = false;
if ((Security != nullptr) && (static_cast<oslSecurityImpl*>(Security)->m_hToken != nullptr))
{
bRet = CreateProcessAsUserW(
static_cast<oslSecurityImpl*>(Security)->m_hToken,
nullptr, const_cast<LPWSTR>(o3tl::toW(cmdline.getStr())), nullptr, nullptr,
b_inherit_handles, flags, p_environment, p_cwd,
&startup_info, &process_info);
}
else
{
bRet = CreateProcessW(
nullptr, const_cast<LPWSTR>(o3tl::toW(cmdline.getStr())), nullptr, nullptr,
b_inherit_handles, flags, p_environment, p_cwd,
&startup_info, &process_info);
}
/* Now we can close the pipe ends that are used by the child process */
if (hInputRead)
CloseHandle(hInputRead);
if (hOutputWrite)
CloseHandle(hOutputWrite);
if (hErrorWrite)
CloseHandle(hErrorWrite);
if (bRet)
{
CloseHandle(process_info.hThread);
oslProcessImpl* pProcImpl = static_cast<oslProcessImpl*>(
malloc(sizeof(oslProcessImpl)));
if (pProcImpl != nullptr)
{
pProcImpl->m_hProcess = process_info.hProcess;
pProcImpl->m_IdProcess = process_info.dwProcessId;
*pProcess = static_cast<oslProcess>(pProcImpl);
if (Options & osl_Process_WAIT)
WaitForSingleObject(pProcImpl->m_hProcess, INFINITE);
if (pProcessInputWrite)
*pProcessInputWrite = osl_createFileHandleFromOSHandle(hInputWrite, osl_File_OpenFlag_Write);
if (pProcessOutputRead)
*pProcessOutputRead = osl_createFileHandleFromOSHandle(hOutputRead, osl_File_OpenFlag_Read);
if (pProcessErrorRead)
*pProcessErrorRead = osl_createFileHandleFromOSHandle(hErrorRead, osl_File_OpenFlag_Read);
return osl_Process_E_None;
}
else
CloseHandle(process_info.hProcess);
}
/* if an error occurred we have to close the server side pipe ends too */
if (hInputWrite)
CloseHandle(hInputWrite);
if (hOutputRead)
CloseHandle(hOutputRead);
if (hErrorRead)
CloseHandle(hErrorRead);
return osl_Process_E_Unknown;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
