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// file : libbuild2/version/init.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2019 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <libbuild2/version/init.hxx>
#include <libbutl/manifest-parser.mxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/variable.hxx>
#include <libbuild2/diagnostics.hxx>
#include <libbuild2/config/utility.hxx>
#include <libbuild2/dist/module.hxx>
#include <libbuild2/version/rule.hxx>
#include <libbuild2/version/module.hxx>
#include <libbuild2/version/utility.hxx>
#include <libbuild2/version/snapshot.hxx>
using namespace std;
using namespace butl;
namespace build2
{
namespace version
{
static const path manifest_file ("manifest");
static const in_rule in_rule_;
static const manifest_install_rule manifest_install_rule_;
bool
boot (scope& rs, const location& l, unique_ptr<module_base>& mod)
{
tracer trace ("version::boot");
l5 ([&]{trace << "for " << rs;});
// Extract the version from the manifest file. As well as summary and
// url while at it.
//
// Also, as a sanity check, verify the package name matches the build
// system project name.
//
string sum;
string url;
standard_version v;
dependencies ds;
{
path f (rs.src_path () / manifest_file);
try
{
if (!file_exists (f))
fail (l) << "no manifest file in " << rs.src_path ();
ifdstream ifs (f);
manifest_parser p (ifs, f.string ());
manifest_name_value nv (p.next ());
if (!nv.name.empty () || nv.value != "1")
fail (l) << "unsupported manifest format in " << f;
for (nv = p.next (); !nv.empty (); nv = p.next ())
{
if (nv.name == "name")
{
auto& pn (cast<project_name> (rs.vars[var_project]));
if (nv.value != pn.string ())
{
path bf (rs.src_path () / rs.root_extra->bootstrap_file);
location ml (&f, nv.value_line, nv.value_column);
location bl (&bf);
fail (ml) << "package name " << nv.value << " does not match "
<< "build system project name " << pn <<
info (bl) << "build system project name specified here";
}
}
if (nv.name == "summary")
sum = move (nv.value);
else if (nv.name == "url")
url = move (nv.value);
else if (nv.name == "version")
{
try
{
// Allow the package stub versions in the 0+<revision> form.
// While not standard, we want to use the version module for
// packaging stubs.
//
v = standard_version (nv.value, standard_version::allow_stub);
}
catch (const invalid_argument& e)
{
fail << "invalid standard version '" << nv.value << "': " << e;
}
}
else if (nv.name == "depends")
{
// According to the package manifest spec, the format of the
// 'depends' value is as follows:
//
// depends: [?][*] <alternatives> [; <comment>]
//
// <alternatives> := <dependency> [ '|' <dependency>]*
// <dependency> := <name> [<constraint>]
// <constraint> := <comparison> | <range>
// <comparison> := ('==' | '>' | '<' | '>=' | '<=') <version>
// <range> := ('(' | '[') <version> <version> (')' | ']')
//
// Note that we don't do exhaustive validation here leaving it
// to the package manager.
//
string v (move (nv.value));
size_t p;
// Get rid of the comment.
//
if ((p = v.find (';')) != string::npos)
v.resize (p);
// Get rid of conditional/runtime markers. Note that enither of
// them is valid in the rest of the value.
//
if ((p = v.find_last_of ("?*")) != string::npos)
v.erase (0, p + 1);
// Parse as |-separated "words".
//
for (size_t b (0), e (0); next_word (v, b, e, '|'); )
{
string d (v, b, e - b);
trim (d);
p = d.find_first_of (" \t=<>[(~^");
string n (d, 0, p);
string c (p != string::npos ? string (d, p) : string ());
trim (n);
trim (c);
try
{
package_name pn (move (n));
string v (pn.variable ());
ds.emplace (move (v), dependency {move (pn), move (c)});
}
catch (const invalid_argument& e)
{
fail (l) << "invalid package name for dependency "
<< d << ": " << e;
}
}
}
}
}
catch (const manifest_parsing& e)
{
location l (&f, e.line, e.column);
fail (l) << e.description;
}
catch (const io_error& e)
{
fail (l) << "unable to read from " << f << ": " << e;
}
catch (const system_error& e) // EACCES, etc.
{
fail (l) << "unable to access manifest " << f << ": " << e;
}
if (v.empty ())
fail (l) << "no version in " << f;
}
// If this is the latest snapshot (i.e., the -a.1.z kind), then load the
// snapshot number and id (e.g., commit date and id from git).
//
bool committed (true);
bool rewritten (false);
if (v.snapshot () && v.snapshot_sn == standard_version::latest_sn)
{
snapshot ss (extract_snapshot (rs));
if (!ss.empty ())
{
v.snapshot_sn = ss.sn;
v.snapshot_id = move (ss.id);
committed = ss.committed;
rewritten = true;
}
else
committed = false;
}
// If there is a dependency on the build system itself, check it (so
// there is no need for explicit using build@X.Y.Z).
//
{
auto i (ds.find ("build2"));
if (i != ds.end () && !i->second.constraint.empty ())
try
{
check_build_version (
standard_version_constraint (i->second.constraint, v), l);
}
catch (const invalid_argument& e)
{
fail (l) << "invalid version constraint for dependency build2 "
<< i->second.constraint << ": " << e;
}
}
// Set all the version.* variables.
//
auto& vp (var_pool.rw (rs));
auto set = [&vp, &rs] (const char* var, auto val)
{
using T = decltype (val);
auto& v (vp.insert<T> (var, variable_visibility::project));
rs.assign (v) = move (val);
};
if (!sum.empty ()) rs.assign (var_project_summary) = move (sum);
if (!url.empty ()) rs.assign (var_project_url) = move (url);
set ("version", v.string ()); // Project version (var_version).
set ("version.project", v.string_project ());
set ("version.project_number", v.version);
// Enough of project version for unique identification (can be used in
// places like soname, etc).
//
set ("version.project_id", v.string_project_id ());
set ("version.stub", v.stub ()); // bool
set ("version.epoch", uint64_t (v.epoch));
set ("version.major", uint64_t (v.major ()));
set ("version.minor", uint64_t (v.minor ()));
set ("version.patch", uint64_t (v.patch ()));
optional<uint16_t> a (v.alpha ());
optional<uint16_t> b (v.beta ());
set ("version.alpha", a.has_value ());
set ("version.beta", b.has_value ());
set ("version.pre_release", v.pre_release ().has_value ());
set ("version.pre_release_string", v.string_pre_release ());
set ("version.pre_release_number", uint64_t (a ? *a : b ? *b : 0));
set ("version.snapshot", v.snapshot ()); // bool
set ("version.snapshot_sn", v.snapshot_sn); // uint64
set ("version.snapshot_id", v.snapshot_id); // string
set ("version.snapshot_string", v.string_snapshot ());
set ("version.snapshot_committed", committed); // bool
set ("version.revision", uint64_t (v.revision));
// Create the module.
//
mod.reset (new module (cast<project_name> (rs.vars[var_project]),
move (v),
committed,
rewritten,
move (ds)));
return true; // Init first (dist.package, etc).
}
static void
dist_callback (const path&, const scope&, void*);
bool
init (scope& rs,
scope&,
const location& l,
unique_ptr<module_base>& mod,
bool first,
bool,
const variable_map&)
{
tracer trace ("version::init");
if (!first)
fail (l) << "multiple version module initializations";
// Load in.base (in.* variables, in{} target type).
//
if (!cast_false<bool> (rs["in.base.loaded"]))
load_module (rs, rs, "in.base", l);
module& m (static_cast<module&> (*mod));
const standard_version& v (m.version);
// If the dist module is used, set its dist.package and register the
// post-processing callback.
//
if (auto* dm = rs.lookup_module<dist::module> (dist::module::name))
{
// Make sure dist is init'ed, not just boot'ed.
//
if (!cast_false<bool> (rs["dist.loaded"]))
load_module (rs, rs, "dist", l);
m.dist_uncommitted = cast_false<bool> (rs["config.dist.uncommitted"]);
// Don't touch if dist.package was set by the user.
//
value& val (rs.assign (dm->var_dist_package));
if (!val)
{
string p (cast<project_name> (rs.vars[var_project]).string ());
p += '-';
p += v.string ();
val = move (p);
// Only register the post-processing callback if this is a rewritten
// snapshot.
//
if (m.rewritten)
dm->register_callback (dir_path (".") / manifest_file,
&dist_callback,
&m);
}
}
// Register rules.
//
{
auto& r (rs.rules);
r.insert<file> (perform_update_id, "version.in", in_rule_);
r.insert<file> (perform_clean_id, "version.in", in_rule_);
r.insert<file> (configure_update_id, "version.in", in_rule_);
if (cast_false<bool> (rs["install.booted"]))
{
r.insert<manifest> (
perform_install_id, "version.manifest", manifest_install_rule_);
}
}
return true;
}
static void
dist_callback (const path& f, const scope& rs, void* data)
{
module& m (*static_cast<module*> (data));
// Complain if this is an uncommitted snapshot.
//
if (!m.committed && !m.dist_uncommitted)
fail << "distribution of uncommitted project " << rs.src_path () <<
info << "specify config.dist.uncommitted=true to force";
// The plan is simple: fixing up the version in a temporary file then
// move it to the original.
//
try
{
auto_rmfile t (fixup_manifest (f,
path::temp_path ("manifest"),
m.version));
mvfile (t.path, f, (cpflags::overwrite_content |
cpflags::overwrite_permissions));
t.cancel ();
}
catch (const io_error& e)
{
fail << "unable to overwrite " << f << ": " << e;
}
catch (const system_error& e) // EACCES, etc.
{
fail << "unable to overwrite " << f << ": " << e;
}
}
static const module_functions mod_functions[] =
{
// NOTE: don't forget to also update the documentation in init.hxx if
// changing anything here.
{"version", boot, init},
{nullptr, nullptr, nullptr}
};
const module_functions*
build2_version_load ()
{
return mod_functions;
}
}
}
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