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// file : libbuild2/in/rule.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/in/rule.hxx>
#include <cstdlib> // strtoull()
#include <libbuild2/depdb.hxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/target.hxx>
#include <libbuild2/function.hxx>
#include <libbuild2/algorithm.hxx>
#include <libbuild2/filesystem.hxx>
#include <libbuild2/diagnostics.hxx>
#include <libbuild2/in/target.hxx>
using namespace std;
using namespace butl;
namespace build2
{
namespace in
{
bool rule::
match (action a, target& xt) const
{
tracer trace ("in::rule::match");
if (!xt.is_a<file> ()) // See module init() for details.
return false;
file& t (xt.as<file> ());
bool fi (false); // Found in.
for (prerequisite_member p: group_prerequisite_members (a, t))
{
if (include (a, t, p) != include_type::normal) // Excluded/ad hoc.
continue;
fi = fi || p.is_a<in> ();
}
// Note that while normally we print these at verbosity level 4, this
// one gets quite noisy since we try this rule for any file target.
//
if (!fi)
l5 ([&]{trace << "no in file prerequisite for target " << t;});
return fi;
}
recipe rule::
apply (action a, target& xt) const
{
file& t (xt.as<file> ());
// Derive the file name.
//
t.derive_path ();
// Inject dependency on the output directory.
//
inject_fsdir (a, t);
// Match prerequisite members.
//
match_prerequisite_members (a,
t,
[this] (action a,
const target& t,
const prerequisite_member& p,
include_type i)
{
return search (a, t, p, i);
});
switch (a)
{
case perform_update_id: return [this] (action a, const target& t)
{
return perform_update (a, t);
};
case perform_clean_id: return &perform_clean_depdb; // Standard clean.
default: return noop_recipe; // Configure update.
}
}
target_state rule::
perform_update (action a, const target& xt) const
{
tracer trace ("in::rule::perform_update");
const file& t (xt.as<const file&> ());
const path& tp (t.path ());
// Substitution symbol.
//
char sym (symbol_);
if (const string* s = cast_null<string> (t["in.symbol"]))
{
if (s->size () == 1)
sym = s->front ();
else
fail << "invalid substitution symbol '" << *s << "'";
}
// Substitution mode.
//
bool strict (strict_);
if (const string* s = cast_null<string> (t["in.substitution"]))
{
if (*s == "lax")
strict = false;
else if (*s != "strict")
fail << "invalid substitution mode '" << *s << "'";
}
// NULL substitutions.
//
optional<string> null;
if (const string* s = cast_null<string> (t["in.null"]))
null = *s;
else
null = null_;
// Determine if anything needs to be updated.
//
timestamp mt (t.load_mtime ());
auto pr (execute_prerequisites<in> (a, t, mt));
bool update (!pr.first);
target_state ts (update ? target_state::changed : *pr.first);
const in& i (pr.second);
const path& ip (i.path ());
// We use depdb to track changes to the .in file name, symbol/mode, and
// variable values that have been substituted.
//
depdb dd (tp + ".d");
// First should come the rule name/version.
//
if (dd.expect (rule_id_ + " 1") != nullptr)
l4 ([&]{trace << "rule mismatch forcing update of " << t;});
// Then the substitution symbol.
//
if (dd.expect (string (1, sym)) != nullptr)
l4 ([&]{trace << "substitution symbol mismatch forcing update of"
<< t;});
// Then the substitution mode.
//
if (dd.expect (strict ? "strict" : "lax") != nullptr)
l4 ([&]{trace << "substitution mode mismatch forcing update of"
<< t;});
// Then additional depdb entries, if any.
//
perform_update_depdb (a, t, dd);
// Then the .in file.
//
if (dd.expect (i.path ()) != nullptr)
l4 ([&]{trace << "in file mismatch forcing update of " << t;});
// Update if any mismatch or depdb is newer that the output.
//
if (dd.writing () || dd.mtime > mt)
update = true;
// Substituted variable values.
//
// The plan is to save each substituted variable name and the hash of
// its value one entry per line. Plus the line location of its expansion
// for diagnostics.
//
// If update is true (i.e., the .in file has changes), then we simply
// overwrite the whole list.
//
// If update is false, then we need to read each name/hash, query and
// hash its current value, and compare. If hashes differ, then we need
// to start overwriting from this variable (the prefix of variables
// couldn't have changed since the .in file hasn't changed).
//
// Note that if the .in file substitutes the same variable multiple
// times, then we will end up with multiple entries for such a variable.
// For now we assume this is ok since this is probably not very common
// and it makes the overall logic simpler.
//
// Note also that because updating the depdb essentially requires
// performing the substitutions, this rule ignored the dry-run mode.
//
size_t dd_skip (0); // Number of "good" variable lines.
if (update)
{
// If we are still reading, mark the next line for overwriting.
//
if (dd.reading ())
{
dd.read (); // Read the first variable line, if any.
dd.write (); // Mark it for overwriting.
}
}
else
{
while (dd.more ())
{
if (string* s = dd.read ())
{
// The line format is:
//
// <ln> <name> <hash>[/<flags>]
//
// Note that <name> can contain spaces (see the constraint check
// expressions in the version module). That's the reason why we
// use the `/` separator for <flags> instead of the more natural
// space.
//
char* e (nullptr);
uint64_t ln (strtoull (s->c_str (), &e, 10));
size_t p1 (*e == ' ' ? e - s->c_str () : string::npos); // <name>
size_t p2 (s->rfind (' ')); // <hash>
if (p1 != string::npos && p2 != string::npos && p2 - p1 > 1)
{
++p1;
string name (*s, p1, p2 - p1);
++p2;
size_t p3 (s->find ('/', p2)); // <flags>
optional<uint64_t> flags;
if (p3 != string::npos)
{
uint64_t v (strtoull (s->c_str () + p3 + 1, &e, 10));
if (*e == '\0')
flags = v;
}
if (p3 == string::npos || flags)
{
// Note that we have to call substitute(), not lookup() since
// it can be overriden with custom substitution semantics.
//
optional<string> v (
substitute (location (ip, ln),
a, t,
name, flags,
strict, null));
assert (v); // Rule semantics change without version increment?
if (p3 != string::npos)
p3 -= p2; // Hash length.
if (s->compare (p2, p3, sha256 (*v).string ()) == 0)
{
dd_skip++;
continue;
}
else
l4 ([&]{trace << name << " variable value mismatch forcing "
<< "update of " << t;});
}
// Fall through.
}
dd.write (); // Mark this line for overwriting.
// Fall through.
}
break;
}
}
if (dd.writing ()) // Recheck.
update = true;
// If nothing changed, then we are done.
//
if (!update)
{
dd.close ();
return ts;
}
if (verb >= 2)
text << program_ << ' ' << ip << " >" << tp;
else if (verb)
text << program_ << ' ' << ip;
// Read and process the file, one line at a time, while updating depdb.
//
const char* what;
const path* whom;
try
{
// Open the streams in the binary mode to preserve the .in file line
// endings.
//
what = "open"; whom = &ip;
ifdstream ifs (ip, fdopen_mode::binary, ifdstream::badbit);
what = "open"; whom = &tp;
#ifdef _WIN32
// We don't need to worry about permissions on Windows and trying to
// remove the file immediately before creating it sometimes can cause
// open to fail with permission denied.
//
ofdstream ofs (tp, fdopen_mode::binary);
#else
// See fdopen() for details (umask, etc).
//
permissions prm (permissions::ru | permissions::wu |
permissions::rg | permissions::wg |
permissions::ro | permissions::wo);
if (t.is_a<exe> ())
prm |= permissions::xu | permissions::xg | permissions::xo;
// Remove the existing file to make sure permissions take effect. If
// this fails then presumable writing to it will fail as well and we
// will complain there.
//
try_rmfile (tp, true /* ignore_error */);
// Note: no binary flag is added since this is noop on POSIX.
//
ofdstream ofs (fdopen (tp,
fdopen_mode::out | fdopen_mode::create,
prm));
#endif
auto_rmfile arm (tp);
// Note: this default will only be used if the file is empty (i.e.,
// does not contain even a newline).
//
const char* nl (
#ifdef _WIN32
"\r\n"
#else
"\n"
#endif
);
uint64_t ln (1);
for (string s;; ++ln)
{
what = "read"; whom = &ip;
if (!getline (ifs, s))
break; // Could not read anything, not even newline.
// Remember the line ending type and, if it is CRLF, strip the
// trailing '\r'.
//
bool crlf (!s.empty () && s.back() == '\r');
if (crlf)
s.pop_back();
what = "write"; whom = &tp;
if (ln != 1)
ofs << nl;
nl = crlf ? "\r\n" : "\n"; // Preserve the original line ending.
if (ln == 1)
perform_update_pre (a, t, ofs, nl);
// Not tracking column for now (see also depdb above).
//
process (location (ip, ln),
a, t,
dd, dd_skip,
s, 0,
nl, sym, strict, null);
ofs << s;
}
what = "write"; whom = &tp;
if (ln == 1)
perform_update_pre (a, t, ofs, nl);
perform_update_post (a, t, ofs, nl);
// Close depdb before closing the output file so its mtime is not
// newer than of the output.
//
dd.close ();
what = "close"; whom = &tp;
ofs << nl; // Last write to make sure our mtime is older than dd.
ofs.close ();
arm.cancel ();
what = "close"; whom = &ip;
ifs.close ();
}
catch (const io_error& e)
{
fail << "unable to " << what << ' ' << *whom << ": " << e;
}
dd.check_mtime (tp);
t.mtime (system_clock::now ());
return target_state::changed;
}
prerequisite_target rule::
search (action,
const target& t,
const prerequisite_member& p,
include_type i) const
{
return prerequisite_target (&build2::search (t, p), i);
}
void rule::
perform_update_depdb (action, const target&, depdb&) const
{
}
void rule::
perform_update_pre (action, const target&, ofdstream&, const char*) const
{
}
void rule::
perform_update_post (action, const target&, ofdstream&, const char*) const
{
}
void rule::
process (const location& l,
action a, const target& t,
depdb& dd, size_t& dd_skip,
string& s, size_t b,
const char* nl,
char sym,
bool strict,
const optional<string>& null) const
{
// Scan the line looking for substiutions in the $<name>$ form. In the
// strict mode treat $$ as an escape sequence.
//
for (size_t n, d; b != (n = s.size ()); b += d)
{
d = 1;
if (s[b] != sym)
continue;
// Note that in the lax mode these should still be substitutions:
//
// @project@@
// @@project@
// Find the other end.
//
size_t e (b + 1);
for (; e != (n = s.size ()); ++e)
{
if (s[e] == sym)
{
if (strict && e + 1 != n && s[e + 1] == sym) // Escape.
s.erase (e, 1); // Keep one, erase the other.
else
break;
}
}
if (e == n)
{
if (strict)
fail (l) << "unterminated '" << sym << "'";
break;
}
if (e - b == 1) // Escape (or just double symbol in the lax mode).
{
if (strict)
s.erase (b, 1); // Keep one, erase the other.
continue;
}
// We have a (potential, in the lax mode) substition with b pointing
// to the opening symbol and e -- to the closing.
//
if (optional<string> val = substitute (l,
a, t,
dd, dd_skip,
string (s, b + 1, e - b -1),
nullopt /* flags */,
strict,
null))
{
replace_newlines (*val, nl);
// Patch the result in and adjust the delta.
//
s.replace (b, e - b + 1, *val);
d = val->size ();
}
else
d = e - b + 1; // Ignore this substitution.
}
}
optional<string> rule::
substitute (const location& l,
action a, const target& t,
depdb& dd, size_t& dd_skip,
const string& n,
optional<uint64_t> flags,
bool strict,
const optional<string>& null) const
{
optional<string> val (substitute (l, a, t, n, flags, strict, null));
if (val)
{
// Save in depdb.
//
if (dd_skip == 0)
{
// The line format is:
//
// <ln> <name> <hash>[/<flags>]
//
string s (to_string (l.line));
s += ' ';
s += n;
s += ' ';
s += sha256 (*val).string ();
if (flags)
{
s += '/';
s += to_string (*flags);
}
dd.write (s);
}
else
--dd_skip;
}
return val;
}
optional<string> rule::
substitute (const location& l,
action a, const target& t,
const string& n,
optional<uint64_t> flags,
bool strict,
const optional<string>& null) const
{
// In the lax mode scan the fragment to make sure it is a variable name
// (that is, it can be expanded in a buildfile as just $<name>; see
// lexer's variable mode for details).
//
if (!strict)
{
for (size_t i (0), e (n.size ()); i != e; )
{
bool f (i == 0); // First.
char c (n[i++]);
bool l (i == e); // Last.
if (c == '_' || (f ? alpha (c) : alnum (c)))
continue;
if (c == '.' && !l)
continue;
return nullopt; // Ignore this substitution.
}
}
return lookup (l, a, t, n, flags, null);
}
string rule::
lookup (const location& loc,
action, const target& t,
const string& n,
optional<uint64_t> flags,
const optional<string>& null) const
{
assert (!flags);
auto l (t[n]);
if (l.defined ())
{
value v (*l);
if (v.null)
{
if (null)
return *null;
else
fail (loc) << "null value in variable '" << n << "'" <<
info << "use in.null to specify null value substiution string";
}
// For typed values call string() for conversion.
//
try
{
return convert<string> (
v.type == nullptr
? move (v)
: t.ctx.functions.call (&t.base_scope (),
"string",
vector_view<value> (&v, 1),
loc));
}
catch (const invalid_argument& e)
{
fail (loc) << e <<
info << "while substituting '" << n << "'" << endf;
}
}
else
fail (loc) << "undefined variable '" << n << "'" << endf;
}
}
}
|