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|
// file : libbuild2/utility.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/utility.hxx>
#ifndef _WIN32
# include <signal.h> // signal()
#else
# include <libbutl/win32-utility.hxx>
#endif
#include <time.h> // tzset() (POSIX), _tzset() (Windows)
#ifdef __GLIBCXX__
# include <locale>
#endif
#include <cerrno> // ENOENT
#include <cstring> // strlen(), str[n]cmp()
#include <iostream> // cerr
#include <libbuild2/target.hxx>
#include <libbuild2/context.hxx>
#include <libbuild2/variable.hxx>
#include <libbuild2/diagnostics.hxx>
#include <libbuild2/script/regex.hxx> // script::regex::init()
using namespace std;
using namespace butl;
// <libbuild2/types.hxx>
//
namespace build2
{
static const char* const run_phase_[] = {"load", "match", "execute"};
ostream&
operator<< (ostream& os, run_phase p)
{
return os << run_phase_[static_cast<uint8_t> (p)];
}
ostream&
operator<< (ostream& os, const ::butl::path& p)
{
using namespace build2;
if (stream_verb (os).path < 1)
return os << diag_relative (p);
else
return to_stream (os, p, true /* representation */);
}
ostream&
operator<< (ostream& os, const ::butl::path_name_view& v)
{
assert (!v.empty ());
return v.name != nullptr && *v.name ? (os << **v.name) : (os << *v.path);
}
ostream&
operator<< (ostream& os, const ::butl::process_path& p)
{
using namespace build2;
if (p.empty ())
os << "<empty>";
else
{
// @@ Is there a reason not to print as a relative path as it is done
// for path (see above)?
//
os << p.recall_string ();
if (!p.effect.empty ())
os << '@' << p.effect.string (); // Suppress relative().
}
return os;
}
}
// <libbuild2/utility.hxx>
//
namespace build2
{
void (*terminate) (bool);
process_path argv0;
const standard_version build_version (LIBBUILD2_VERSION_STR);
const string build_version_interface (
build_version.pre_release ()
? build_version.string_project_id ()
: (to_string (build_version.major ()) + '.' +
to_string (build_version.minor ())));
optional<bool> mtime_check_option;
optional<path> config_sub;
optional<path> config_guess;
void
check_build_version (const standard_version_constraint& c, const location& l)
{
if (!c.satisfies (build_version))
fail (l) << "incompatible build2 version" <<
info << "running " << build_version.string () <<
info << "required " << c.string ();
}
dir_path work;
dir_path home;
const dir_path* relative_base = &work;
path
relative (const path_target& t)
{
const path& p (t.path ());
assert (!p.empty ());
return relative (p);
}
string
diag_relative (const path& p, bool cur)
{
const path& b (*relative_base);
if (p.absolute ())
{
if (p == b)
return cur ? '.' + p.separator_string () : string ();
#ifndef _WIN32
if (!home.empty ())
{
if (p == home)
return '~' + p.separator_string ();
}
#endif
path rb (relative (p));
#ifndef _WIN32
if (!home.empty ())
{
if (rb.relative ())
{
// See if the original path with the ~/ shortcut is better that the
// relative to base.
//
if (p.sub (home))
{
path rh (p.leaf (home));
if (rb.size () > rh.size () + 2) // 2 for '~/'
return "~/" + move (rh).representation ();
}
}
else if (rb.sub (home))
return "~/" + rb.leaf (home).representation ();
}
#endif
return move (rb).representation ();
}
return p.representation ();
}
process_path
run_search (const char*& args0, bool path_only, const location& l)
try
{
return process::path_search (args0, dir_path () /* fallback */, path_only);
}
catch (const process_error& e)
{
fail (l) << "unable to execute " << args0 << ": " << e << endf;
}
process_path
run_search (const path& f,
bool init,
const dir_path& fallback,
bool path_only,
const location& l)
try
{
return process::path_search (f, init, fallback, path_only);
}
catch (const process_error& e)
{
fail (l) << "unable to execute " << f << ": " << e << endf;
}
process_path
run_try_search (const path& f,
bool init,
const dir_path& fallback,
bool path_only,
const char* paths)
{
return process::try_path_search (f, init, fallback, path_only, paths);
}
[[noreturn]] void
run_search_fail (const path& f, const location& l)
{
fail (l) << "unable to execute " << f << ": " << process_error (ENOENT)
<< endf;
}
process
run_start (uint16_t verbosity,
const process_env& pe,
const char* args[],
int in,
int out,
process::pipe err,
const location& l)
try
{
assert (args[0] == pe.path->recall_string ());
if (verb >= verbosity)
print_process (pe, args, 0);
return process (
*pe.path,
args,
in,
out,
move (err),
pe.cwd != nullptr ? pe.cwd->string ().c_str () : nullptr,
pe.vars);
}
catch (const process_error& e)
{
if (e.child)
{
// Note: run_finish() expects this exact message.
//
cerr << "unable to execute " << args[0] << ": " << e << endl;
// In a multi-threaded program that fork()'ed but did not exec(), it is
// unwise to try to do any kind of cleanup (like unwinding the stack and
// running destructors).
//
exit (1);
}
else
fail (l) << "unable to execute " << args[0] << ": " << e << endf;
}
bool
run_wait (const char* const* args, process& pr, const location& loc)
try
{
return pr.wait ();
}
catch (const process_error& e)
{
fail (loc) << "unable to execute " << args[0] << ": " << e << endf;
}
bool
run_finish_impl (const char* const* args,
process& pr,
bool f,
const string& l,
const location& loc)
{
tracer trace ("run_finish");
try
{
if (pr.wait ())
return true;
}
catch (const process_error& e)
{
fail (loc) << "unable to execute " << args[0] << ": " << e << endf;
}
// Note: see similar code in diag_buffer::close/finish().
//
const process_exit& e (*pr.exit);
if (!e.normal ())
fail (loc) << "process " << args[0] << " " << e;
// Normall but non-zero exit status.
//
// Even if the user asked to suppress diagnostiscs, one error that we
// want to let through is the inability to execute the program itself.
// We cannot reserve a special exit status to signal this so we will
// just have to compare the output. This particular situation will
// result in a single error line printed by run_start() above.
//
if (l.compare (0, 18, "unable to execute ") == 0)
error (loc) << l;
if (f)
{
// While we assume diagnostics has already been issued (to stderr), if
// that's not the case, it's a real pain to debug. So trace it. (And
// if you think that doesn't happen in sensible programs, check GCC
// bug #107448).
//
l4 ([&]{trace << "process " << args[0] << " " << e;});
throw failed ();
}
return false;
}
bool
run_finish_impl (diag_buffer& dbuf,
const char* const* args,
process& pr,
bool f,
uint16_t v,
const location& loc)
{
try
{
pr.wait ();
}
catch (const process_error& e)
{
fail (loc) << "unable to execute " << args[0] << ": " << e << endf;
}
const process_exit& pe (*pr.exit);
dbuf.close (args, pe, v, loc, !f /* omit_normall */);
if (pe)
return true;
if (f)
throw failed ();
return false;
}
void
run (context& ctx, const process_env& pe, const char* args[])
{
if (ctx.phase == run_phase::load)
{
process pr (run_start (pe, args));
run_finish (args, pr);
}
else
{
diag_buffer dbuf (ctx);
run (dbuf, pe, args);
}
}
void
run (diag_buffer& dbuf, const process_env& pe, const char* args[])
{
process pr (run_start (pe,
args,
0 /* stdin */,
1 /* stdout */,
dbuf.open (args[0]) /* stderr */));
dbuf.read ();
run_finish (dbuf, args, pr);
}
bool
run (context& ctx,
uint16_t verbosity,
const process_env& pe,
const char* args[],
const function<bool (string&, bool)>& f,
bool tr,
bool err,
bool ignore_exit,
sha256* checksum)
{
if (err && ctx.phase != run_phase::load)
{
diag_buffer dbuf (ctx);
return run (dbuf, verbosity, pe, args, f, tr, ignore_exit, checksum);
}
process pr (run_start (verbosity,
pe,
args,
0 /* stdin */,
-1 /* stdout */,
{-1, err ? 2 : 1}));
string l; // Last line of output.
try
{
ifdstream is (move (pr.in_ofd), fdstream_mode::skip);
bool empty (true);
// Make sure we keep the last line.
//
for (bool last (is.peek () == ifdstream::traits_type::eof ());
!last && getline (is, l); )
{
last = (is.peek () == ifdstream::traits_type::eof ());
if (tr)
trim (l);
if (checksum != nullptr)
checksum->append (l);
if (empty)
{
empty = f (l, last);
if (!empty && checksum == nullptr)
break;
}
}
is.close ();
}
catch (const io_error& e)
{
if (run_wait (args, pr))
fail << "io error reading " << args[0] << " output: " << e << endf;
// If the child process has failed then assume the io error was
// caused by that and let run_finish() deal with it.
}
if (!(run_finish_impl (args, pr, err, l) || ignore_exit))
return false;
return true;
}
bool
run (diag_buffer& dbuf,
uint16_t verbosity,
const process_env& pe,
const char* args[],
const function<bool (string&, bool)>& f,
bool tr,
bool ignore_exit,
sha256* checksum)
{
// We have to use the non-blocking setup since we have to read from stdout
// and stderr simultaneously.
//
process pr (
run_start (verbosity,
pe,
args,
0 /* stdin */,
-1 /* stdout */,
dbuf.open (args[0],
false /* force */,
fdstream_mode::non_blocking |
fdstream_mode::skip) /* stderr */));
try
{
// Note that while we read both streams until eof in the normal
// circumstances, we cannot use fdstream_mode::skip for the exception
// case on both of them: we may end up being blocked trying to read one
// stream while the process may be blocked writing to the other. So in
// case of an exception we only skip the diagnostics and close stdout
// hard. The latter should happen first so the order of the dbuf/is
// variables is important.
//
ifdstream is (move (pr.in_ofd),
fdstream_mode::non_blocking,
ifdstream::badbit);
bool empty (true);
// Read until we reach EOF on all streams.
//
// Note that if dbuf is not opened, then we automatically get an
// inactive nullfd entry.
//
fdselect_set fds {is.fd (), dbuf.is.fd ()};
fdselect_state& ist (fds[0]);
fdselect_state& dst (fds[1]);
// To detect the last line we are going keep the previous line and
// only call the function once we've read the next.
//
optional<string> pl;
for (string l; ist.fd != nullfd || dst.fd != nullfd; )
{
if (ist.fd != nullfd && getline_non_blocking (is, l))
{
if (eof (is))
{
if (pl && empty)
f (*pl, true /* last */);
ist.fd = nullfd;
}
else
{
if (checksum != nullptr || empty)
{
if (tr)
trim (l);
if (checksum != nullptr)
checksum->append (l);
if (empty)
{
if (pl)
{
if ((empty = f (*pl, false /* last */)))
swap (l, *pl);
// Note that we cannot bail out like in the other version
// since we don't have the skip mode on is. Plus, we might
// still have the diagnostics.
}
else
pl = move (l);
}
}
l.clear ();
}
continue;
}
ifdselect (fds);
if (dst.ready)
{
if (!dbuf.read ())
dst.fd = nullfd;
}
}
is.close ();
}
catch (const io_error& e)
{
if (run_wait (args, pr))
{
// Note that we will drop the diagnostics in this case since reading
// it could have been the cause of this error.
//
fail << "io error reading " << args[0] << " output: " << e << endf;
}
// If the child process has failed then assume the io error was
// caused by that and let run_finish() deal with it.
}
if (ignore_exit)
{
if (!run_finish_code (dbuf, args, pr, verbosity - 1))
return false;
}
else
run_finish (dbuf, args, pr, verbosity - 1);
return true;
}
fdpipe
open_pipe ()
{
try
{
return fdopen_pipe ();
}
catch (const io_error& e)
{
fail << "unable to open pipe: " << e << endf;
}
}
auto_fd
open_null ()
{
try
{
return fdopen_null ();
}
catch (const io_error& e)
{
fail << "unable to open null device: " << e << endf;
}
}
const string empty_string;
const path empty_path;
const dir_path empty_dir_path;
const project_name empty_project_name;
const optional<string> nullopt_string;
const optional<path> nullopt_path;
const optional<dir_path> nullopt_dir_path;
const optional<project_name> nullopt_project_name;
void
append_options (cstrings& args, const lookup& l, const char* e)
{
if (l)
append_options (args, cast<strings> (l), e);
}
void
append_options (strings& args, const lookup& l, const char* e)
{
if (l)
append_options (args, cast<strings> (l), e);
}
void
append_options (sha256& csum, const lookup& l)
{
if (l)
append_options (csum, cast<strings> (l));
}
void
append_options (cstrings& args, const strings& sv, size_t n, const char* e)
{
if (n != 0)
{
args.reserve (args.size () + n);
for (size_t i (0); i != n; ++i)
{
if (e == nullptr || e != sv[i])
args.push_back (sv[i].c_str ());
}
}
}
void
append_options (strings& args, const strings& sv, size_t n, const char* e)
{
if (n != 0)
{
args.reserve (args.size () + n);
for (size_t i (0); i != n; ++i)
{
if (e == nullptr || e != sv[i])
args.push_back (sv[i]);
}
}
}
void
append_options (sha256& csum, const strings& sv, size_t n)
{
for (size_t i (0); i != n; ++i)
csum.append (sv[i]);
}
bool
find_option (const char* o, const lookup& l, bool ic)
{
return l && find_option (o, cast<strings> (l), ic);
}
bool
find_option (const char* o, const strings& strs, bool ic)
{
for (const string& s: strs)
if (ic ? icasecmp (s, o) == 0 : s == o)
return true;
return false;
}
bool
find_option (const char* o, const cstrings& cstrs, bool ic)
{
for (const char* s: cstrs)
if (s != nullptr && (ic ? icasecmp (s, o) : strcmp (s, o)) == 0)
return true;
return false;
}
bool
find_options (const initializer_list<const char*>& os,
const lookup& l,
bool ic)
{
return l && find_options (os, cast<strings> (l), ic);
}
bool
find_options (const initializer_list<const char*>& os,
const strings& strs,
bool ic)
{
for (const string& s: strs)
for (const char* o: os)
if (ic ? icasecmp (s, o) == 0 : s == o)
return true;
return false;
}
bool
find_options (const initializer_list<const char*>& os,
const cstrings& cstrs,
bool ic)
{
for (const char* s: cstrs)
if (s != nullptr)
for (const char* o: os)
if ((ic ? icasecmp (s, o) : strcmp (s, o)) == 0)
return true;
return false;
}
const string*
find_option_prefix (const char* p, const lookup& l, bool ic)
{
return l ? find_option_prefix (p, cast<strings> (l), ic) : nullptr;
}
const string*
find_option_prefix (const char* p, const strings& strs, bool ic)
{
size_t n (strlen (p));
for (const string& s: reverse_iterate (strs))
if ((ic ? icasecmp (s, p, n) : s.compare (0, n, p)) == 0)
return &s;
return nullptr;
}
const char*
find_option_prefix (const char* p, const cstrings& cstrs, bool ic)
{
size_t n (strlen (p));
for (const char* s: reverse_iterate (cstrs))
if (s != nullptr && (ic ? icasecmp (s, p, n) : strncmp (s, p, n)) == 0)
return s;
return nullptr;
}
const string*
find_option_prefixes (const initializer_list<const char*>& ps,
const lookup& l,
bool ic)
{
return l ? find_option_prefixes (ps, cast<strings> (l), ic) : nullptr;
}
const string*
find_option_prefixes (const initializer_list<const char*>& ps,
const strings& strs,
bool ic)
{
for (const string& s: reverse_iterate (strs))
for (const char* p: ps)
if ((ic
? icasecmp (s, p, strlen (p))
: s.compare (0, strlen (p), p)) == 0)
return &s;
return nullptr;
}
const char*
find_option_prefixes (const initializer_list<const char*>& ps,
const cstrings& cstrs,
bool ic)
{
for (const char* s: reverse_iterate (cstrs))
if (s != nullptr)
for (const char* p: ps)
if ((ic
? icasecmp (s, p, strlen (p))
: strncmp (s, p, strlen (p))) == 0)
return s;
return nullptr;
}
string
apply_pattern (const char* stem, const char* pat)
{
if (pat == nullptr || *pat == '\0')
return stem;
size_t n (string::traits_type::length (pat));
const char* p (string::traits_type::find (pat, n, '*'));
assert (p != nullptr);
string r (pat, p++ - pat);
r.append (stem);
r.append (p, n - (p - pat));
return r;
}
void
init_process ()
{
// This is a little hack to make out baseutils for Windows work when
// called with absolute path. In a nutshell, MSYS2's exec*p() doesn't
// search in the parent's executable directory, only in PATH. And since we
// are running without a shell (that would read /etc/profile which sets
// PATH to some sensible values), we are only getting Win32 PATH values.
// And MSYS2 /bin is not one of them. So what we are going to do is add
// /bin at the end of PATH (which will be passed as is by the MSYS2
// machinery). This will make MSYS2 search in /bin (where our baseutils
// live). And for everyone else this should be harmless since it is not a
// valid Win32 path.
//
#ifdef _WIN32
{
string mp;
if (optional<string> p = getenv ("PATH"))
{
mp = move (*p);
mp += ';';
}
mp += "/bin";
setenv ("PATH", mp);
}
#endif
// On POSIX ignore SIGPIPE which is signaled to a pipe-writing process if
// the pipe reading end is closed. Note that by default this signal
// terminates a process. Also note that there is no way to disable this
// behavior on a file descriptor basis or for the write() function call.
//
#ifndef _WIN32
if (signal (SIGPIPE, SIG_IGN) == SIG_ERR)
fail << "unable to ignore broken pipe (SIGPIPE) signal: "
<< system_error (errno, generic_category ()); // Sanitize.
#endif
// Initialize time conversion data that is used by localtime_r().
//
#ifndef _WIN32
tzset ();
#else
_tzset ();
#endif
// A data race happens in the libstdc++ (as of GCC 7.2) implementation of
// the ctype<char>::narrow() function (bug #77704). The issue is easily
// triggered by the testscript runner that indirectly (via regex) uses
// ctype<char> facet of the global locale (and can potentially be
// triggered by other locale-aware code). We work around this by
// pre-initializing the global locale facet internal cache.
//
#ifdef __GLIBCXX__
{
const ctype<char>& ct (use_facet<ctype<char>> (locale ()));
for (size_t i (0); i != 256; ++i)
ct.narrow (static_cast<char> (i), '\0');
}
#endif
}
void
init (void (*t) (bool),
const char* a0,
bool ss,
optional<bool> mc,
optional<path> cs,
optional<path> cg)
{
terminate = t;
argv0 = process::path_search (a0, true);
mtime_check_option = mc;
config_sub = move (cs);
config_guess = move (cg);
// Figure out work and home directories.
//
try
{
work = dir_path::current_directory ();
}
catch (const system_error& e)
{
fail << "invalid current working directory: " << e;
}
try
{
home = dir_path::home_directory ();
}
catch (const system_error& e)
{
fail << "unable to obtain home directory: " << e;
}
script::regex::init ();
if (!ss)
{
#ifdef _WIN32
// On Windows disable displaying error reporting dialog box for the
// current and child processes unless we are in the stop mode. Failed
// that we may have multiple dialog boxes popping up.
//
SetErrorMode (SetErrorMode (0) | // Returns the current mode.
SEM_FAILCRITICALERRORS | SEM_NOGPFAULTERRORBOX);
#endif
}
}
optional<uint64_t>
parse_number (const string& s, uint64_t max_num)
{
optional<uint64_t> r;
if (!s.empty ())
{
const char* b (s.c_str ());
char* e (nullptr);
errno = 0; // We must clear it according to POSIX.
uint64_t v (strtoull (b, &e, 10)); // Can't throw.
if (errno != ERANGE && e == b + s.size () && v <= max_num)
r = v;
}
return r;
}
}
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