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// file : butl/filesystem.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2016 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <butl/filesystem>
#include <errno.h> // errno, E*
#include <unistd.h> // stat, rmdir(), unlink()
#include <sys/types.h> // stat
#include <sys/stat.h> // stat(), lstat(), S_IS*, mkdir()
#ifndef _WIN32
# include <dirent.h> // struct dirent, *dir()
#else
# include <io.h> // _find*()
# include <direct.h> // _mkdir()
#endif
#include <memory> // unique_ptr
#include <system_error>
using namespace std;
namespace butl
{
bool
dir_exists (const path& p)
{
struct stat s;
if (stat (p.string ().c_str (), &s) != 0)
{
if (errno == ENOENT || errno == ENOTDIR)
return false;
else
throw system_error (errno, system_category ());
}
return S_ISDIR (s.st_mode);
}
bool
file_exists (const path& p)
{
struct stat s;
if (stat (p.string ().c_str (), &s) != 0)
{
if (errno == ENOENT || errno == ENOTDIR)
return false;
else
throw system_error (errno, system_category ());
}
return S_ISREG (s.st_mode);
}
mkdir_status
#ifndef _WIN32
try_mkdir (const dir_path& p, mode_t m)
{
if (mkdir (p.string ().c_str (), m) != 0)
#else
try_mkdir (const dir_path& p, mode_t)
{
if (_mkdir (p.string ().c_str ()) != 0)
#endif
{
int e (errno);
// EEXIST means the path already exists but not necessarily as
// a directory.
//
if (e == EEXIST && dir_exists (p))
return mkdir_status::already_exists;
else
throw system_error (e, system_category ());
}
return mkdir_status::success;
}
mkdir_status
try_mkdir_p (const dir_path& p, mode_t m)
{
if (!p.root ())
{
dir_path d (p.directory ());
if (!d.empty () && !dir_exists (d))
try_mkdir_p (d, m);
}
return try_mkdir (p, m);
}
rmdir_status
try_rmdir (const dir_path& p, bool ignore_error)
{
rmdir_status r (rmdir_status::success);
if (rmdir (p.string ().c_str ()) != 0)
{
if (errno == ENOENT)
r = rmdir_status::not_exist;
else if (errno == ENOTEMPTY || errno == EEXIST)
r = rmdir_status::not_empty;
else if (!ignore_error)
throw system_error (errno, system_category ());
}
return r;
}
void
rmdir_r (const dir_path& p, bool dir, bool ignore_error)
{
// An nftw()-based implementation (for platforms that support it)
// might be a faster way.
//
for (const dir_entry& de: dir_iterator (p))
{
path ep (p / de.path ()); //@@ Would be good to reuse the buffer.
if (de.ltype () == entry_type::directory)
rmdir_r (path_cast<dir_path> (ep), true, ignore_error);
else
try_rmfile (ep, ignore_error);
}
if (dir)
{
rmdir_status r (try_rmdir (p));
if (r != rmdir_status::success && !ignore_error)
throw system_error (r == rmdir_status::not_empty ? ENOTEMPTY : ENOENT,
system_category ());
}
}
rmfile_status
try_rmfile (const path& p, bool ignore_error)
{
rmfile_status r (rmfile_status::success);
if (unlink (p.string ().c_str ()) != 0)
{
if (errno == ENOENT || errno == ENOTDIR)
r = rmfile_status::not_exist;
else if (!ignore_error)
throw system_error (errno, system_category ());
}
return r;
}
// Figuring out whether we have the nanoseconds in struct stat. Some
// platforms (e.g., FreeBSD), may provide some "compatibility" #define's,
// so use the second argument to not end up with the same signatures.
//
template <typename S>
inline constexpr auto
nsec (const S* s, bool) -> decltype(s->st_mtim.tv_nsec)
{
return s->st_mtim.tv_nsec; // POSIX (GNU/Linux, Solaris).
}
template <typename S>
inline constexpr auto
nsec (const S* s, int) -> decltype(s->st_mtimespec.tv_nsec)
{
return s->st_mtimespec.tv_nsec; // *BSD, MacOS.
}
template <typename S>
inline constexpr auto
nsec (const S* s, float) -> decltype(s->st_mtime_n)
{
return s->st_mtime_n; // AIX 5.2 and later.
}
template <typename S>
inline constexpr int
nsec (...) {return 0;}
timestamp
file_mtime (const path& p)
{
struct stat s;
if (stat (p.string ().c_str (), &s) != 0)
{
if (errno == ENOENT || errno == ENOTDIR)
return timestamp_nonexistent;
else
throw system_error (errno, system_category ());
}
return S_ISREG (s.st_mode)
? system_clock::from_time_t (s.st_mtime) +
chrono::duration_cast<duration> (
chrono::nanoseconds (nsec<struct stat> (&s, true)))
: timestamp_nonexistent;
}
permissions
path_permissions (const path& p)
{
struct stat s;
if (stat (p.string ().c_str (), &s) != 0)
throw system_error (errno, system_category ());
// VC++ has no S_IRWXU defined. MINGW GCC <= 4.9 has no S_IRWXG, S_IRWXO
// defined.
//
// We could extrapolate user permissions to group/other permissions if
// S_IRWXG/S_IRWXO are undefined. That is, we could consider their absence
// as meaning that the platform does not distinguish between permissions
// for different kinds of users. Let's wait for a use-case first.
//
mode_t f (S_IREAD | S_IWRITE | S_IEXEC);
#ifdef S_IRWXG
f |= S_IRWXG;
#endif
#ifdef S_IRWXO
f |= S_IRWXO;
#endif
return static_cast<permissions> (s.st_mode & f);
}
// dir_{entry,iterator}
//
#ifndef _WIN32
// dir_entry
//
dir_iterator::
~dir_iterator ()
{
if (h_ != nullptr)
closedir (h_); // Ignore any errors.
}
dir_iterator& dir_iterator::
operator= (dir_iterator&& x)
{
if (this != &x)
{
e_ = move (x.e_);
if (h_ != nullptr && closedir (h_) == -1)
throw system_error (errno, system_category ());
h_ = x.h_;
x.h_ = nullptr;
}
return *this;
}
entry_type dir_entry::
type (bool link) const
{
path_type p (b_ / p_);
struct stat s;
if ((link
? stat (p.string ().c_str (), &s)
: lstat (p.string ().c_str (), &s)) != 0)
{
throw system_error (errno, system_category ());
}
entry_type r;
if (S_ISREG (s.st_mode))
r = entry_type::regular;
else if (S_ISDIR (s.st_mode))
r = entry_type::directory;
else if (S_ISLNK (s.st_mode))
r = entry_type::symlink;
else
r = entry_type::other;
return r;
}
// dir_iterator
//
struct dir_deleter
{
void operator() (DIR* p) const {if (p != nullptr) closedir (p);}
};
dir_iterator::
dir_iterator (const dir_path& d)
{
unique_ptr<DIR, dir_deleter> h (opendir (d.string ().c_str ()));
h_ = h.get ();
if (h_ == nullptr)
throw system_error (errno, system_category ());
next ();
if (h_ != nullptr)
e_.b_ = d;
h.release ();
}
template <typename D>
inline /*constexpr*/ entry_type d_type (const D* d, decltype(d->d_type)*)
{
switch (d->d_type)
{
#ifdef DT_DIR
case DT_DIR: return entry_type::directory;
#endif
#ifdef DT_REG
case DT_REG: return entry_type::regular;
#endif
#ifdef DT_LNK
case DT_LNK: return entry_type::symlink;
#endif
#ifdef DT_BLK
case DT_BLK:
#endif
#ifdef DT_CHR
case DT_CHR:
#endif
#ifdef DT_FIFO
case DT_FIFO:
#endif
#ifdef DT_SOCK
case DT_SOCK:
#endif
return entry_type::other;
default: return entry_type::unknown;
}
}
template <typename D>
inline constexpr entry_type d_type (...) {return entry_type::unknown;}
void dir_iterator::
next ()
{
for (;;)
{
errno = 0;
if (struct dirent* de = readdir (h_))
{
const char* n (de->d_name);
// Skip '.' and '..'.
//
if (n[0] == '.' && (n[1] == '\0' || (n[1] == '.' && n[2] == '\0')))
continue;
e_.p_ = path (n);
e_.t_ = d_type<struct dirent> (de, nullptr);
e_.lt_ = entry_type::unknown;
}
else if (errno == 0)
{
// End of stream.
//
closedir (h_);
h_ = nullptr;
}
else
throw system_error (errno, system_category ());
break;
}
}
#else
// dir_entry
//
dir_iterator::
~dir_iterator ()
{
if (h_ != -1)
_findclose (h_); // Ignore any errors.
}
dir_iterator& dir_iterator::
operator= (dir_iterator&& x)
{
if (this != &x)
{
e_ = move (x.e_);
if (h_ != -1 && _findclose (h_) == -1)
throw system_error (errno, system_category ());
h_ = x.h_;
x.h_ = -1;
}
return *this;
}
entry_type dir_entry::
type (bool) const
{
// Note that we currently do not support symlinks (yes, there is symlink
// support since Vista).
//
path_type p (b_ / p_);
struct stat s;
if (stat (p.string ().c_str (), &s) != 0)
throw system_error (errno, system_category ());
entry_type r;
if (S_ISREG (s.st_mode))
r = entry_type::regular;
else if (S_ISDIR (s.st_mode))
r = entry_type::directory;
else
r = entry_type::other;
return r;
}
// dir_iterator
//
struct auto_dir
{
explicit
auto_dir (intptr_t& h): h_ (&h) {}
auto_dir (const auto_dir&) = delete;
auto_dir& operator= (const auto_dir&) = delete;
~auto_dir ()
{
if (h_ != nullptr && *h_ != -1)
_findclose (*h_);
}
void release () {h_ = nullptr;}
private:
intptr_t* h_;
};
dir_iterator::
dir_iterator (const dir_path& d)
{
auto_dir h (h_);
e_.b_ = d; // Used by next() to call _findfirst().
next ();
h.release ();
}
void dir_iterator::
next ()
{
for (;;)
{
bool r;
_finddata_t fi;
if (h_ == -1)
{
// The call is made from the constructor. Any other call with h_ == -1
// is illegal.
//
// Check to distinguish non-existent vs empty directories.
//
if (!dir_exists (e_.b_))
throw system_error (ENOENT, system_category ());
h_ = _findfirst ((e_.b_ / path ("*")).string ().c_str (), &fi);
r = h_ != -1;
}
else
r = _findnext (h_, &fi) == 0;
if (r)
{
const char* n (fi.name);
// Skip '.' and '..'.
//
if (n[0] == '.' && (n[1] == '\0' || (n[1] == '.' && n[2] == '\0')))
continue;
e_.p_ = path (n);
// We do not support symlinks at the moment.
//
e_.t_ = fi.attrib & _A_SUBDIR
? entry_type::directory
: entry_type::regular;
e_.lt_ = entry_type::unknown;
}
else if (errno == ENOENT)
{
// End of stream.
//
if (h_ != -1)
{
_findclose (h_);
h_ = -1;
}
}
else
throw system_error (errno, system_category ());
break;
}
}
#endif
}
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