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// file : butl/process.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2016 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <butl/process>
#ifndef _WIN32
# include <unistd.h> // execvp, fork, dup2, pipe, chdir, *_FILENO, getpid
# include <sys/wait.h> // waitpid
#else
# ifndef WIN32_LEAN_AND_MEAN
# define WIN32_LEAN_AND_MEAN
# endif
# include <windows.h> // CreatePipe(), CreateProcess()
# include <io.h> // _open_osfhandle(), _get_osfhandle(), _close()
# include <fcntl.h> // _O_TEXT
# include <stdlib.h> // getenv()
# include <sys/types.h> // stat
# include <sys/stat.h> // stat(), S_IS*
# include <memory> // unique_ptr
# include <butl/path>
#endif
#include <cassert>
#include <butl/fdstream> // fdnull(), fdclose()
using namespace std;
namespace butl
{
class auto_fd
{
public:
explicit
auto_fd (int fd = -1) noexcept: fd_ (fd) {}
auto_fd (const auto_fd&) = delete;
auto_fd& operator= (const auto_fd&) = delete;
~auto_fd () noexcept {reset ();}
int
get () const noexcept {return fd_;}
int
release () noexcept
{
int r (fd_);
fd_ = -1;
return r;
}
void
reset (int fd = -1) noexcept
{
if (fd_ != -1)
{
bool r (fdclose (fd_));
// The valid file descriptor that has no IO operations being
// performed on it should close successfully, unless something is
// severely damaged.
//
assert (r);
}
fd_ = fd;
}
private:
int fd_;
};
#ifndef _WIN32
process::
process (const char* cwd, char const* const args[], int in, int out, int err)
{
using pipe = auto_fd[2];
pipe out_fd;
pipe in_ofd;
pipe in_efd;
auto fail = [](bool child) {throw process_error (errno, child);};
auto create_pipe = [&fail](pipe& p)
{
int pd[2];
if (::pipe (pd) == -1)
fail (false);
p[0].reset (pd[0]);
p[1].reset (pd[1]);
};
auto create_null = [&fail](auto_fd& n)
{
int fd (fdnull ());
if (fd == -1)
fail (false);
n.reset (fd);
};
// If we are asked to open null (-2) then open "half-pipe".
//
if (in == -1)
create_pipe (out_fd);
else if (in == -2)
create_null (out_fd[0]);
if (out == -1)
create_pipe (in_ofd);
else if (out == -2)
create_null (in_ofd[1]);
if (err == -1)
create_pipe (in_efd);
else if (err == -2)
create_null (in_efd[1]);
handle = fork ();
if (handle == -1)
fail (false);
if (handle == 0)
{
// Child.
//
// Duplicate the user-supplied (fd > -1) or the created pipe descriptor
// to the standard stream descriptor (read end for STDIN_FILENO, write
// end otherwise). Close the the pipe afterwards.
//
auto duplicate = [&fail](int sd, int fd, pipe& pd)
{
if (fd == -1 || fd == -2)
fd = pd[sd == STDIN_FILENO ? 0 : 1].get ();
assert (fd > -1);
if (dup2 (fd, sd) == -1)
fail (true);
pd[0].reset (); // Close.
pd[1].reset (); // Close.
};
if (in != STDIN_FILENO)
duplicate (STDIN_FILENO, in, out_fd);
if (out != STDOUT_FILENO)
duplicate (STDOUT_FILENO, out, in_ofd);
if (err != STDERR_FILENO)
duplicate (STDERR_FILENO, err, in_efd);
// Change current working directory if requested.
//
if (cwd != nullptr && *cwd != '\0' && chdir (cwd) != 0)
fail (true);
if (execvp (args[0], const_cast<char**> (&args[0])) == -1)
fail (true);
}
assert (handle != 0); // Shouldn't get here unless in the parent process.
this->out_fd = out_fd[1].release ();
this->in_ofd = in_ofd[0].release ();
this->in_efd = in_efd[0].release ();
}
process::
process (const char* cwd, char const* const args[],
process& in, int out, int err)
: process (cwd, args, in.in_ofd, out, err)
{
assert (in.in_ofd != -1); // Should be a pipe.
close (in.in_ofd); // Close it on our side.
}
bool process::
wait ()
{
if (handle != 0)
{
int r (waitpid (handle, &status, 0));
handle = 0; // We have tried.
if (r == -1)
throw process_error (errno, false);
}
return WIFEXITED (status) && WEXITSTATUS (status) == 0;
}
bool process::
try_wait (bool& s)
{
if (handle != 0)
{
int r (waitpid (handle, &status, WNOHANG));
if (r == 0) // Not exited yet.
return false;
handle = 0; // We have tried.
if (r == -1)
throw process_error (errno, false);
}
s = WIFEXITED (status) && WEXITSTATUS (status) == 0;
return true;
}
process::id_type process::
current_id ()
{
return getpid ();
}
#else // _WIN32
struct msg_deleter
{
void operator() (char* p) const {LocalFree (p);}
};
static string
error (DWORD e)
{
char* msg;
if (!FormatMessageA (
FORMAT_MESSAGE_ALLOCATE_BUFFER |
FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS |
FORMAT_MESSAGE_MAX_WIDTH_MASK,
0,
e,
MAKELANGID (LANG_NEUTRAL, SUBLANG_DEFAULT),
(char*)&msg,
0,
0))
return "unknown error code " + to_string (e);
unique_ptr<char, msg_deleter> m (msg);
return msg;
}
static inline string
last_error ()
{
return error (GetLastError ());
}
static path
path_search (const path& f)
{
typedef path::traits traits;
// If there is a directory component in the file, then the PATH search
// does not apply.
//
if (!f.directory ().empty ())
return f;
string paths;
// If there is no PATH in the environment then the default search path is
// the current directory.
//
if (const char* s = getenv ("PATH"))
{
paths = s;
// Also check the current directory.
//
paths += traits::path_separator;
}
else
paths = traits::path_separator;
struct stat info;
for (size_t b (0), e (paths.find (traits::path_separator));
b != string::npos;)
{
path p (string (paths, b, e != string::npos ? e - b : e));
// Empty path (i.e., a double colon or a colon at the beginning or end
// of PATH) means search in the current dirrectory.
//
if (p.empty ())
p = path (".");
path dp (p / f);
// Just check that the file exist without checking for permissions, etc.
//
if (stat (dp.string ().c_str (), &info) == 0 && S_ISREG (info.st_mode))
return dp;
// Also try the path with the .exe extension.
//
dp += ".exe";
if (stat (dp.string ().c_str (), &info) == 0 && S_ISREG (info.st_mode))
return dp;
if (e == string::npos)
b = e;
else
{
b = e + 1;
e = paths.find (traits::path_separator, b);
}
}
return path ();
}
class auto_handle
{
public:
explicit
auto_handle (HANDLE h = INVALID_HANDLE_VALUE) noexcept: handle_ (h) {}
auto_handle (const auto_handle&) = delete;
auto_handle& operator= (const auto_handle&) = delete;
~auto_handle () noexcept {reset ();}
HANDLE
get () const noexcept {return handle_;}
HANDLE
release () noexcept
{
HANDLE r (handle_);
handle_ = INVALID_HANDLE_VALUE;
return r;
}
void
reset (HANDLE h = INVALID_HANDLE_VALUE) noexcept
{
if (handle_ != INVALID_HANDLE_VALUE)
{
bool r (CloseHandle (handle_));
// The valid process, thread or file handle that has no IO operations
// being performed on it should close successfully, unless something
// is severely damaged.
//
assert (r);
}
handle_ = h;
}
private:
HANDLE handle_;
};
process::
process (const char* cwd, char const* const args[], int in, int out, int err)
{
using pipe = auto_handle[2];
pipe out_h;
pipe in_oh;
pipe in_eh;
SECURITY_ATTRIBUTES sa;
sa.nLength = sizeof (SECURITY_ATTRIBUTES);
sa.bInheritHandle = true;
sa.lpSecurityDescriptor = 0;
auto fail = [](const char* m = nullptr)
{
throw process_error (m == nullptr ? last_error () : m);
};
// Create a pipe and clear the inherit flag on the parent side.
//
auto create_pipe = [&sa, &fail](pipe& p, int parent)
{
HANDLE ph[2];
if (!CreatePipe (&ph[0], &ph[1], &sa, 0))
fail ();
p[0].reset (ph[0]);
p[1].reset (ph[1]);
if (!SetHandleInformation (p[parent].get (), HANDLE_FLAG_INHERIT, 0))
fail ();
};
// Resolve file descriptor to HANDLE and make sure it is inherited. Note
// that the handle is closed either when CloseHandle() is called for it or
// when _close() is called for the associated file descriptor. Make sure
// that either the original file descriptor or the resulted HANDLE is
// closed but not both of them.
//
auto get_osfhandle = [&fail](int fd) -> HANDLE
{
HANDLE h (reinterpret_cast<HANDLE> (_get_osfhandle (fd)));
if (h == INVALID_HANDLE_VALUE)
fail ("unable to obtain file handle");
// SetHandleInformation() fails for standard handles. We assume they are
// inherited by default.
//
if (fd != STDIN_FILENO && fd != STDOUT_FILENO && fd != STDERR_FILENO)
{
if (!SetHandleInformation (
h, HANDLE_FLAG_INHERIT, HANDLE_FLAG_INHERIT))
fail ();
}
return h;
};
auto create_null = [&get_osfhandle, &fail](auto_handle& n)
{
auto_fd fd (fdnull ());
if (fd.get () == -1)
fail ();
n.reset (get_osfhandle (fd.get ()));
fd.release (); // Not to close the handle twice.
};
if (in == -1)
create_pipe (out_h, 1);
else if (in == -2)
create_null (out_h[0]);
if (out == -1)
create_pipe (in_oh, 0);
else if (out == -2)
create_null (in_oh[1]);
if (err == -1)
create_pipe (in_eh, 0);
else if (err == -2)
create_null (in_eh[1]);
// Create the process.
//
path file (args[0]);
// Do PATH search.
//
if (file.directory ().empty ())
file = path_search (file);
if (file.empty ())
fail ("file not found");
// Serialize the arguments to string.
//
string cmd_line;
for (char const* const* p (args); *p != 0; ++p)
{
if (p != args)
cmd_line += ' ';
// On Windows we need to protect values with spaces using quotes. Since
// there could be actual quotes in the value, we need to escape them.
//
string a (*p);
bool quote (a.find (' ') != string::npos);
if (quote)
cmd_line += '"';
for (size_t i (0); i < a.size (); ++i)
{
if (a[i] == '"')
cmd_line += "\\\"";
else
cmd_line += a[i];
}
if (quote)
cmd_line += '"';
}
// Prepare other process information.
//
STARTUPINFO si;
PROCESS_INFORMATION pi;
memset (&si, 0, sizeof (STARTUPINFO));
memset (&pi, 0, sizeof (PROCESS_INFORMATION));
si.cb = sizeof (STARTUPINFO);
si.dwFlags |= STARTF_USESTDHANDLES;
si.hStdInput = in == -1 || in == -2
? out_h[0].get ()
: in == STDIN_FILENO
? GetStdHandle (STD_INPUT_HANDLE)
: get_osfhandle (in);
si.hStdOutput = out == -1 || out == -2
? in_oh[1].get ()
: out == STDOUT_FILENO
? GetStdHandle (STD_OUTPUT_HANDLE)
: get_osfhandle (out);
si.hStdError = err == -1 || err == -2
? in_eh[1].get ()
: err == STDERR_FILENO
? GetStdHandle (STD_ERROR_HANDLE)
: get_osfhandle (err);
// Perform standard stream redirection if requested.
//
if (err == STDOUT_FILENO)
si.hStdError = si.hStdOutput;
else if (out == STDERR_FILENO)
si.hStdOutput = si.hStdError;
if (err == STDIN_FILENO ||
out == STDIN_FILENO ||
in == STDOUT_FILENO ||
in == STDERR_FILENO)
fail ("invalid file descriptor");
if (!CreateProcess (
file.string ().c_str (),
const_cast<char*> (cmd_line.c_str ()),
0, // Process security attributes.
0, // Primary thread security attributes.
true, // Inherit handles.
0, // Creation flags.
0, // Use our environment.
cwd != nullptr && *cwd != '\0' ? cwd : nullptr,
&si,
&pi))
fail ();
auto_handle (pi.hThread).reset (); // Close.
auto_handle process (pi.hProcess);
// Convert file handles to file descriptors. Note that the handle is
// closed when _close() is called for the returned file descriptor.
//
auto open_osfhandle = [&fail](auto_handle& h) -> int
{
int fd (
_open_osfhandle (reinterpret_cast<intptr_t> (h.get ()), _O_TEXT));
if (fd == -1)
fail ("unable to convert file handle to file descriptor");
h.release ();
return fd;
};
auto_fd out_fd (in == -1 ? open_osfhandle (out_h[1]) : -1);
auto_fd in_ofd (out == -1 ? open_osfhandle (in_oh[0]) : -1);
auto_fd in_efd (err == -1 ? open_osfhandle (in_eh[0]) : -1);
this->out_fd = out_fd.release ();
this->in_ofd = in_ofd.release ();
this->in_efd = in_efd.release ();
this->handle = process.release ();
// 0 has a special meaning denoting a terminated process handle.
//
assert (this->handle != 0 && this->handle != INVALID_HANDLE_VALUE);
}
process::
process (const char* cwd, char const* const args[],
process& in, int out, int err)
: process (cwd, args, in.in_ofd, out, err)
{
assert (in.in_ofd != -1); // Should be a pipe.
_close (in.in_ofd); // Close it on our side.
}
bool process::
wait ()
{
if (handle != 0)
{
DWORD s;
DWORD e (NO_ERROR);
if (WaitForSingleObject (handle, INFINITE) != WAIT_OBJECT_0 ||
!GetExitCodeProcess (handle, &s))
e = GetLastError ();
auto_handle h (handle); // Auto-deleter.
handle = 0; // We have tried.
if (e != NO_ERROR)
throw process_error (error (e));
status = s;
}
return status == 0;
}
bool process::
try_wait (bool& s)
{
if (handle != 0)
{
DWORD r (WaitForSingleObject (handle, 0));
if (r == WAIT_TIMEOUT)
return false;
DWORD s;
DWORD e (NO_ERROR);
if (r != WAIT_OBJECT_0 || !GetExitCodeProcess (handle, &s))
e = GetLastError ();
auto_handle h (handle);
handle = 0; // We have tried.
if (e != NO_ERROR)
throw process_error (error (e));
status = s;
}
s = status == 0;
return true;
}
process::id_type process::
current_id ()
{
return GetCurrentProcessId ();
}
#endif // _WIN32
}
|