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|
// file : libbuild2/dist/operation.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/dist/operation.hxx>
#include <libbutl/sha1.mxx>
#include <libbutl/sha256.mxx>
#include <libbutl/path-pattern.mxx>
#include <libbuild2/file.hxx>
#include <libbuild2/dump.hxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/target.hxx>
#include <libbuild2/context.hxx>
#include <libbuild2/algorithm.hxx>
#include <libbuild2/filesystem.hxx>
#include <libbuild2/diagnostics.hxx>
#include <libbuild2/dist/module.hxx>
using namespace std;
using namespace butl;
namespace build2
{
namespace dist
{
// install -d <dir>
//
static void
install (const process_path& cmd, const dir_path&);
// install <file> <dir>
//
// Return the destination file path.
//
static path
install (const process_path& cmd, const file&, const dir_path&);
// tar|zip ... <dir>/<pkg>.<ext> <pkg>
//
// Return the archive file path.
//
static path
archive (context& ctx,
const dir_path& root,
const string& pkg,
const dir_path& dir,
const string& ext);
// <ext>sum <arc> > <dir>/<arc>.<ext>
//
// Return the checksum file path.
//
static path
checksum (context&,
const path& arc, const dir_path& dir, const string& ext);
static operation_id
dist_operation_pre (const values&, operation_id o)
{
if (o != default_id)
fail << "explicit operation specified for meta-operation dist";
return o;
}
static void
dist_execute (const values&, action, action_targets& ts,
uint16_t, bool prog)
{
tracer trace ("dist_execute");
// For now we assume all the targets are from the same project.
//
const target& t (ts[0].as<target> ());
const scope* rs (t.base_scope ().root_scope ());
if (rs == nullptr)
fail << "out of project target " << t;
context& ctx (rs->ctx);
const dir_path& out_root (rs->out_path ());
const dir_path& src_root (rs->src_path ());
if (out_root == src_root)
fail << "in-tree distribution of target " << t <<
info << "distribution requires out-of-tree build";
// Make sure we have the necessary configuration before we get down to
// business.
//
auto l (rs->vars["dist.root"]);
if (!l || l->empty ())
fail << "unknown root distribution directory" <<
info << "did you forget to specify config.dist.root?";
// We used to complain if dist.root does not exist but then, similar
// to install, got tired of user's complaints. So now we just let
// install -d for the package directory create it if necessary.
//
const dir_path& dist_root (cast<dir_path> (l));
l = rs->vars["dist.package"];
if (!l || l->empty ())
fail << "unknown distribution package name" <<
info << "did you forget to set dist.package?";
const string& dist_package (cast<string> (l));
const process_path& dist_cmd (cast<process_path> (rs->vars["dist.cmd"]));
// Verify all the targets are from the same project.
//
for (const action_target& at: ts)
{
const target& t (at.as<target> ());
if (rs != t.base_scope ().root_scope ())
fail << "target " << t << " is from a different project" <<
info << "one dist meta-operation can handle one project" <<
info << "consider using several dist meta-operations";
}
// We used to print 'dist <target>' at verbosity level 1 but that has
// proven to be just noise. Though we still want to print something
// since otherwise, once the progress line is cleared, we may end up
// with nothing printed at all.
//
// Note that because of this we can also suppress diagnostics noise
// (e.g., output directory creation) in all the operations below.
//
if (verb == 1)
text << "dist " << dist_package;
// Match a rule for every operation supported by this project. Skip
// default_id.
//
// Note that we are not calling operation_pre/post() callbacks here
// since the meta operation is dist and we know what we are doing.
//
values params;
path_name pn ("<dist>");
const location loc (pn); // Dummy location.
{
auto mog = make_guard ([&ctx] () {ctx.match_only = false;});
ctx.match_only = true;
const operations& ops (rs->root_extra->operations);
for (operations::size_type id (default_id + 1); // Skip default_id.
id < ops.size ();
++id)
{
if (const operation_info* oif = ops[id])
{
// Skip aliases (e.g., update-for-install). In fact, one can argue
// the default update should be sufficient since it is assumed to
// update all prerequisites and we no longer support ad hoc stuff
// like test.input. Though here we are using the dist meta-
// operation, not perform.
//
if (oif->id != id)
continue;
// Use standard (perform) match.
//
if (oif->pre != nullptr)
{
if (operation_id pid = oif->pre (params, dist_id, loc))
{
const operation_info* poif (ops[pid]);
ctx.current_operation (*poif, oif, false /* diag_noise */);
action a (dist_id, poif->id, oif->id);
match (params, a, ts,
1 /* diag (failures only) */,
false /* progress */);
}
}
ctx.current_operation (*oif, nullptr, false /* diag_noise */);
action a (dist_id, oif->id);
match (params, a, ts,
1 /* diag (failures only) */,
false /* progress */);
if (oif->post != nullptr)
{
if (operation_id pid = oif->post (params, dist_id))
{
const operation_info* poif (ops[pid]);
ctx.current_operation (*poif, oif, false /* diag_noise */);
action a (dist_id, poif->id, oif->id);
match (params, a, ts,
1 /* diag (failures only) */,
false /* progress */);
}
}
}
}
}
// Add buildfiles that are not normally loaded as part of the project,
// for example, the export stub. They will still be ignored on the next
// step if the user explicitly marked them dist=false.
//
auto add_adhoc = [&trace] (const scope& rs, const path& f)
{
path p (rs.src_path () / f);
if (exists (p))
{
dir_path d (p.directory ());
// Figure out if we need out.
//
dir_path out (rs.src_path () != rs.out_path ()
? out_src (d, rs)
: dir_path ());
rs.ctx.targets.insert<buildfile> (
move (d),
move (out),
p.leaf ().base ().string (),
p.extension (), // Specified.
trace);
}
};
add_adhoc (*rs, rs->root_extra->export_file);
// The same for subprojects that have been loaded.
//
if (auto l = rs->vars[ctx.var_subprojects])
{
for (auto p: cast<subprojects> (l))
{
const dir_path& pd (p.second);
dir_path out_nroot (out_root / pd);
const scope& nrs (ctx.scopes.find (out_nroot));
if (nrs.out_path () != out_nroot) // This subproject not loaded.
continue;
if (!nrs.src_path ().sub (src_root)) // Not a strong amalgamation.
continue;
add_adhoc (nrs, nrs.root_extra->export_file);
}
}
// Collect the files. We want to take the snapshot of targets since
// updating some of them may result in more targets being entered.
//
// Note that we are not showing progress here (e.g., "N targets to
// distribute") since it will be useless (too fast).
//
action_targets files;
const variable& dist_var (ctx.var_pool["dist"]);
for (const auto& pt: ctx.targets)
{
file* ft (pt->is_a<file> ());
if (ft == nullptr) // Not a file.
continue;
if (ft->dir.sub (src_root))
{
// Include unless explicitly excluded.
//
auto l ((*ft)[dist_var]);
if (l && !cast<bool> (l))
l5 ([&]{trace << "excluding " << *ft;});
else
files.push_back (ft);
continue;
}
if (ft->dir.sub (out_root))
{
// Exclude unless explicitly included.
//
auto l ((*ft)[dist_var]);
if (l && cast<bool> (l))
{
l5 ([&]{trace << "including " << *ft;});
files.push_back (ft);
}
continue;
}
}
// Make sure what we need to distribute is up to date.
//
{
if (mo_perform.meta_operation_pre != nullptr)
mo_perform.meta_operation_pre (params, loc);
// This is a hack since according to the rules we need to completely
// reset the state. We could have done that (i.e., saved target names
// and then re-searched them in the new tree) but that would just slow
// things down while this little cheat seems harmless (i.e., assume
// the dist mete-opreation is "compatible" with perform).
//
// Note also that we don't do any structured result printing.
//
size_t on (ctx.current_on);
ctx.current_meta_operation (mo_perform);
ctx.current_on = on + 1;
if (mo_perform.operation_pre != nullptr)
mo_perform.operation_pre (params, update_id);
ctx.current_operation (op_update, nullptr, false /* diag_noise */);
action a (perform_update_id);
mo_perform.match (params, a, files,
1 /* diag (failures only) */,
prog /* progress */);
mo_perform.execute (params, a, files,
1 /* diag (failures only) */,
prog /* progress */);
if (mo_perform.operation_post != nullptr)
mo_perform.operation_post (params, update_id);
if (mo_perform.meta_operation_post != nullptr)
mo_perform.meta_operation_post (params);
}
dir_path td (dist_root / dir_path (dist_package));
// Clean up the target directory.
//
if (rmdir_r (ctx, td, true, 2) == rmdir_status::not_empty)
fail << "unable to clean target directory " << td;
auto_rmdir rm_td (td); // Clean it up if things go bad.
install (dist_cmd, td);
// Copy over all the files. Apply post-processing callbacks.
//
module& mod (*rs->find_module<module> (module::name));
prog = prog && show_progress (1 /* max_verb */);
size_t prog_percent (0);
for (size_t i (0), n (files.size ()); i != n; ++i)
{
const file& t (*files[i].as<target> ().is_a<file> ());
// Figure out where this file is inside the target directory.
//
bool src (t.dir.sub (src_root));
dir_path dl (src ? t.dir.leaf (src_root) : t.dir.leaf (out_root));
dir_path d (td / dl);
if (!exists (d))
install (dist_cmd, d);
path r (install (dist_cmd, t, d));
// See if this file is in a subproject.
//
const scope* srs (rs);
const module::callbacks* cbs (&mod.callbacks_);
if (auto l = rs->vars[ctx.var_subprojects])
{
for (auto p: cast<subprojects> (l))
{
const dir_path& pd (p.second);
if (dl.sub (pd))
{
srs = &ctx.scopes.find (out_root / pd);
if (auto* m = srs->find_module<module> (module::name))
cbs = &m->callbacks_;
else
fail << "dist module not loaded in subproject " << pd;
break;
}
}
}
for (module::callback cb: *cbs)
{
const path& pat (cb.pattern);
// If we have a directory, then it should be relative to the project
// root.
//
if (!pat.simple ())
{
assert (pat.relative ());
dir_path d ((src ? srs->src_path () : srs->out_path ()) /
pat.directory ());
d.normalize ();
if (d != t.dir)
continue;
}
if (path_match (t.path ().leaf ().string (), pat.leaf ().string ()))
cb.function (r, *srs, cb.data);
}
if (prog)
{
// Note that this is not merely an optimization since if stderr is
// not a terminal, we print real lines for progress.
//
size_t p ((i * 100) / n);
if (prog_percent != p)
{
prog_percent = p;
diag_progress_lock pl;
diag_progress = ' ';
diag_progress += to_string (prog_percent);
diag_progress += "% of targets distributed";
}
}
}
// Clear the progress if shown.
//
if (prog)
{
diag_progress_lock pl;
diag_progress.clear ();
}
rm_td.cancel ();
// Archive and checksum if requested.
//
if (lookup as = rs->vars["dist.archives"])
{
lookup cs (rs->vars["dist.checksums"]);
// Split the dist.{archives,checksums} value into a directory and
// extension.
//
auto split = [] (const path& p, const dir_path& r, const char* what)
{
dir_path d (p.relative () ? r : dir_path ());
d /= p.directory ();
const string& s (p.string ());
size_t i (path::traits_type::find_leaf (s));
if (i == string::npos)
fail << "invalid extension '" << s << "' in " << what;
if (s[i] == '.') // Skip the dot if specified.
++i;
return pair<dir_path, string> (move (d), string (s, i));
};
for (const path& p: cast<paths> (as))
{
auto ap (split (p, dist_root, "dist.archives"));
path a (archive (ctx, dist_root, dist_package, ap.first, ap.second));
if (cs)
{
for (const path& p: cast<paths> (cs))
{
auto cp (split (p, ap.first, "dist.checksums"));
checksum (ctx, a, cp.first, cp.second);
}
}
}
}
}
// install -d <dir>
//
static void
install (const process_path& cmd, const dir_path& d)
{
path reld (relative (d));
cstrings args {cmd.recall_string (), "-d"};
args.push_back ("-m");
args.push_back ("755");
args.push_back (reld.string ().c_str ());
args.push_back (nullptr);
if (verb >= 2)
print_process (args);
run (cmd, args);
}
// install <file> <dir>
//
static path
install (const process_path& cmd, const file& t, const dir_path& d)
{
dir_path reld (relative (d));
path relf (relative (t.path ()));
cstrings args {cmd.recall_string ()};
// Preserve timestamps. This could becomes important if, for
// example, we have pre-generated sources. Note that the
// install-sh script doesn't support this option, while both
// Linux and BSD install's do.
//
args.push_back ("-p");
// Assume the file is executable if the owner has execute
// permission, in which case we make it executable for
// everyone.
//
args.push_back ("-m");
args.push_back (
(path_permissions (t.path ()) & permissions::xu) == permissions::xu
? "755"
: "644");
args.push_back (relf.string ().c_str ());
args.push_back (reld.string ().c_str ());
args.push_back (nullptr);
if (verb >= 2)
print_process (args);
run (cmd, args);
return d / relf.leaf ();
}
static path
archive (context& ctx,
const dir_path& root,
const string& pkg,
const dir_path& dir,
const string& e)
{
path an (pkg + '.' + e);
// Delete old archive for good measure.
//
path ap (dir / an);
if (exists (ap, false))
rmfile (ctx, ap);
// Use zip for .zip archives. Also recognize and handle a few well-known
// tar.xx cases (in case tar doesn't support -a or has other issues like
// MSYS). Everything else goes to tar in the auto-compress mode (-a).
//
cstrings args;
// Separate compressor (gzip, xz, etc) state.
//
size_t i (0); // Command line start or 0 if not used.
auto_rmfile out_rm; // Output file cleanup (must come first).
auto_fd out_fd; // Output file.
if (e == "zip")
{
// On Windows we use libarchive's bsdtar (zip is an MSYS executabales).
//
// While not explicitly stated, the compression-level option works
// for zip archives.
//
#ifdef _WIN32
args = {"bsdtar",
"-a", // -a with the .zip extension seems to be the only way.
"--options=compression-level=9",
"-cf", ap.string ().c_str (),
pkg.c_str (),
nullptr};
#else
args = {"zip",
"-9",
"-rq", ap.string ().c_str (),
pkg.c_str (),
nullptr};
#endif
}
else
{
// On Windows we use libarchive's bsdtar with auto-compression (tar
// itself and quite a few compressors are MSYS executables).
//
const char* l (nullptr); // Compression level (option).
#ifdef _WIN32
const char* tar = "bsdtar";
if (e == "tar.gz")
l = "--options=compression-level=9";
#else
const char* tar = "tar";
// For gzip it's a good idea to use -9 by default. For bzip2, -9 is
// the default. And for xz, -9 is not recommended as the default due
// memory requirements.
//
// Note also that the compression level can be altered via the GZIP
// (GZIP_OPT also seems to work), BZIP2, and XZ_OPT environment
// variables, respectively.
//
const char* c (nullptr);
if (e == "tar.gz") { c = "gzip"; l = "-9"; }
else if (e == "tar.xz") { c = "xz"; }
else if (e == "tar.bz2") { c = "bzip2"; }
if (c != nullptr)
{
args = {tar,
"--format", "ustar",
"-cf", "-",
pkg.c_str (),
nullptr};
i = args.size ();
args.push_back (c);
if (l != nullptr)
args.push_back (l);
args.push_back (nullptr);
args.push_back (nullptr); // Pipe end.
try
{
out_fd = fdopen (ap,
fdopen_mode::out | fdopen_mode::binary |
fdopen_mode::truncate | fdopen_mode::create);
out_rm = auto_rmfile (ap);
}
catch (const io_error& e)
{
fail << "unable to open " << ap << ": " << e;
}
}
else
#endif
if (e == "tar")
args = {tar,
"--format", "ustar",
"-cf", ap.string ().c_str (),
pkg.c_str (),
nullptr};
else
{
args = {tar,
"--format", "ustar",
"-a"};
if (l != nullptr)
args.push_back (l);
args.push_back ("-cf");
args.push_back (ap.string ().c_str ());
args.push_back (pkg.c_str ());
args.push_back (nullptr);
}
}
process_path app; // Archiver path.
process_path cpp; // Compressor path.
app = run_search (args[0]);
if (i != 0)
cpp = run_search (args[i]);
if (verb >= 2)
print_process (args);
else if (verb)
text << args[0] << ' ' << ap;
process apr;
process cpr;
// Change the archiver's working directory to dist_root.
//
apr = run_start (app,
args,
0 /* stdin */,
(i != 0 ? -1 : 1) /* stdout */,
true /* error */,
root);
// Start the compressor if required.
//
if (i != 0)
{
cpr = run_start (cpp,
args.data () + i,
apr.in_ofd.get () /* stdin */,
out_fd.get () /* stdout */);
cpr.in_ofd.reset (); // Close the archiver's stdout on our side.
run_finish (args.data () + i, cpr);
}
run_finish (args.data (), apr);
out_rm.cancel ();
return ap;
}
static path
checksum (context& ctx,
const path& ap, const dir_path& dir, const string& e)
{
path an (ap.leaf ());
dir_path ad (ap.directory ());
path cn (an + '.' + e);
// Delete old checksum for good measure.
//
path cp (dir / cn);
if (exists (cp, false))
rmfile (ctx, cp);
auto_rmfile c_rm; // Note: must come first.
auto_fd c_fd;
try
{
c_fd = fdopen (cp,
fdopen_mode::out |
fdopen_mode::create |
fdopen_mode::truncate);
c_rm = auto_rmfile (cp);
}
catch (const io_error& e)
{
fail << "unable to open " << cp << ": " << e;
}
// The plan is as follows: look for the <ext>sum program (e.g., sha1sum,
// md5sum, etc). If found, then use that, otherwise, fall back to our
// built-in checksum calculation support.
//
// There are two benefits to first trying the external program: it may
// supports more checksum algorithms and could be faster than our
// built-in code.
//
string pn (e + "sum");
process_path pp (process::try_path_search (pn, true /* init */));
if (!pp.empty ())
{
const char* args[] {
pp.recall_string (),
"-b" /* binary */,
an.string ().c_str (),
nullptr};
if (verb >= 2)
print_process (args);
else if (verb)
text << args[0] << ' ' << cp;
// Note that to only get the archive name (without the directory) in
// the output we have to run from the archive's directory.
//
process pr (run_start (pp,
args,
0 /* stdin */,
c_fd.get () /* stdout */,
true /* error */,
ad /* cwd */));
run_finish (args, pr);
}
else
{
string (*f) (ifdstream&);
// Note: remember to update info: below if adding another algorithm.
//
if (e == "sha1")
f = [] (ifdstream& i) -> string {return sha1 (i).string ();};
else if (e == "sha256")
f = [] (ifdstream& i) -> string {return sha256 (i).string ();};
else
fail << "no built-in support for checksum algorithm " << e
<< " nor " << e << "sum program found" <<
info << "built-in support is available for sha1, sha256" << endf;
if (verb >= 2)
text << "cat >" << cp;
else if (verb)
text << e << "sum " << cp;
string c;
try
{
ifdstream is (ap, fdopen_mode::in | fdopen_mode::binary);
c = f (is);
is.close ();
}
catch (const io_error& e)
{
fail << "unable to read " << ap << ": " << e;
}
try
{
ofdstream os (move (c_fd));
os << c << " *" << an << endl;
os.close ();
}
catch (const io_error& e)
{
fail << "unable to write to " << cp << ": " << e;
}
}
c_rm.cancel ();
return cp;
}
static include_type
dist_include (action,
const target&,
const prerequisite_member& p,
include_type i)
{
tracer trace ("dist_include");
// Override excluded to adhoc so that every source is included into the
// distribution. Note that this should be harmless to a custom rule
// given the prescribed semantics of adhoc (match/execute but otherwise
// ignore) is followed.
//
if (i == include_type::excluded)
{
l5 ([&]{trace << "overriding exclusion of " << p;});
i = include_type::adhoc;
}
return i;
}
const meta_operation_info mo_dist {
dist_id,
"dist",
"distribute",
"distributing",
"distributed",
"has nothing to distribute", // We cannot "be distributed".
true, // bootstrap_outer
nullptr, // meta-operation pre
&dist_operation_pre,
&load, // normal load
&search, // normal search
nullptr, // no match (see dist_execute()).
&dist_execute,
nullptr, // operation post
nullptr, // meta-operation post
&dist_include
};
}
}
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