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|
// file : build/b.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2015 Code Synthesis Tools CC
// license : MIT; see accompanying LICENSE file
#include <time.h> // tzset()
#include <string.h> // strerror()
#include <stdlib.h> // getenv()
#include <unistd.h> // getuid()
#include <sys/types.h> // uid_t
#include <pwd.h> // struct passwd, getpwuid()
#include <sstream>
#include <cassert>
#include <iostream> //@@ TMP, for dump()
#include <typeinfo>
#include <system_error>
#include <build/path>
#include <build/name>
#include <build/spec>
#include <build/operation>
#include <build/scope>
#include <build/target>
#include <build/prerequisite>
#include <build/rule>
#include <build/file>
#include <build/module>
#include <build/algorithm>
#include <build/process>
#include <build/diagnostics>
#include <build/context>
#include <build/utility>
#include <build/filesystem>
#include <build/parser>
using namespace std;
namespace build
{
inline bool
is_src_root (const path& d)
{
return file_exists (d / path ("build/bootstrap.build")) ||
file_exists (d / path ("build/root.build"));
}
inline bool
is_out_root (const path& d)
{
return file_exists (d / path ("build/bootstrap/src-root.build"));
}
// Given an src_base directory, look for the project's src_root
// based on the presence of known special files. Return empty
// path if not found.
//
path
find_src_root (const path& b)
{
for (path d (b); !d.root () && d != home; d = d.directory ())
{
if (is_src_root (d))
return d;
}
return path ();
}
// The same but for out. Note that we also check whether a
// directory happens to be src_root, in case this is an in-
// tree build.
//
path
find_out_root (const path& b, bool& src)
{
for (path d (b); !d.root () && d != home; d = d.directory ())
{
if ((src = is_src_root (d)) || is_out_root (d))
return d;
}
src = false;
return path ();
}
static void
bootstrap_out (scope& root)
{
path bf (root.path () / path ("build/bootstrap/src-root.build"));
if (!file_exists (bf))
return;
//@@ TODO: if bootstrap files can source other bootstrap files
// (the way to express dependecies), then we need a way to
// prevent multiple sourcing. We handle it here but we still
// need something like source_once (once [scope] source).
//
source_once (bf, root, root);
}
// Return true if we loaded anything.
//
static bool
bootstrap_src (scope& root)
{
tracer trace ("bootstrap_src");
path bf (root.src_path () / path ("build/bootstrap.build"));
if (!file_exists (bf))
return false;
// We assume that bootstrap out cannot load this file explicitly. It
// feels wrong to allow this since that makes the whole bootstrap
// process hard to reason about. But we may try to bootstrap the
// same root scope multiple time.
//
source_once (bf, root, root);
return true;
}
}
#include <build/native>
#include <build/cxx/target>
#include <build/cxx/rule>
#include <build/config/module>
using namespace build;
int
main (int argc, char* argv[])
{
try
{
tracer trace ("main");
// Initialize time conversion data that is used by localtime_r().
//
tzset ();
// Trace verbosity.
//
verb = 4;
// Register modules.
//
modules["config"] = &config::init;
// Register target types.
//
target_types.insert (file::static_type);
target_types.insert (dir::static_type);
target_types.insert (fsdir::static_type);
target_types.insert (exe::static_type);
target_types.insert (obj::static_type);
target_types.insert (cxx::h::static_type);
target_types.insert (cxx::c::static_type);
target_types.insert (cxx::cxx::static_type);
target_types.insert (cxx::hxx::static_type);
target_types.insert (cxx::ixx::static_type);
target_types.insert (cxx::txx::static_type);
// Register rules.
//
cxx::link cxx_link;
rules[default_id][typeid (exe)].emplace ("cxx.gnu.link", cxx_link);
rules[update_id][typeid (exe)].emplace ("cxx.gnu.link", cxx_link);
rules[clean_id][typeid (exe)].emplace ("cxx.gnu.link", cxx_link);
cxx::compile cxx_compile;
rules[default_id][typeid (obj)].emplace ("cxx.gnu.compile", cxx_compile);
rules[update_id][typeid (obj)].emplace ("cxx.gnu.compile", cxx_compile);
rules[clean_id][typeid (obj)].emplace ("cxx.gnu.compile", cxx_compile);
dir_rule dir_r;
rules[default_id][typeid (dir)].emplace ("dir", dir_r);
rules[update_id][typeid (dir)].emplace ("dir", dir_r);
rules[clean_id][typeid (dir)].emplace ("dir", dir_r);
fsdir_rule fsdir_r;
rules[default_id][typeid (fsdir)].emplace ("fsdir", fsdir_r);
rules[update_id][typeid (fsdir)].emplace ("fsdir", fsdir_r);
rules[clean_id][typeid (fsdir)].emplace ("fsdir", fsdir_r);
path_rule path_r;
rules[default_id][typeid (path_target)].emplace ("path", path_r);
rules[update_id][typeid (path_target)].emplace ("path", path_r);
rules[clean_id][typeid (path_target)].emplace ("path", path_r);
// Figure out work and home directories.
//
work = path::current ();
if (const char* h = getenv ("HOME"))
home = path (h);
else
{
struct passwd* pw (getpwuid (getuid ()));
if (pw == nullptr)
{
const char* msg (strerror (errno));
fail << "unable to determine home directory: " << msg;
}
home = path (pw->pw_dir);
}
if (verb >= 4)
{
trace << "work dir: " << work.string ();
trace << "home dir: " << home.string ();
}
// Initialize the dependency state.
//
reset ();
// Parse the buildspec.
//
buildspec bspec;
{
// Merge all the individual buildspec arguments into a single
// string. Instead, we could also parse them individually (
// and merge the result). The benefit of doing it this way
// is potentially better diagnostics (i.e., we could have
// used <buildspec-1>, <buildspec-2> to give the idea about
// which argument is invalid).
//
string s;
for (int i (1); i != argc;)
{
s += argv[i];
if (++i != argc)
s += ' ';
}
istringstream is (s);
is.exceptions (istringstream::failbit | istringstream::badbit);
parser p;
try
{
bspec = p.parse_buildspec (is, "<buildspec>");
}
catch (const std::ios_base::failure&)
{
fail << "failed to parse buildspec string";
}
}
level4 ([&]{trace << "buildspec: " << bspec;});
if (bspec.empty ())
bspec.push_back (metaopspec ()); // Default meta-operation.
for (metaopspec& ms: bspec)
{
if (ms.empty ())
ms.push_back (opspec ()); // Default operation.
meta_operation_id mid (0); // Not yet translated.
const meta_operation_info* mif (nullptr);
bool lifted (false); // See below.
for (opspec& os: ms)
{
const location l ("<buildspec>", 1, 0); //@@ TODO
if (os.empty ()) // Default target: dir{}.
os.push_back (targetspec (name ("dir", path (), string ())));
operation_id oid (0); // Not yet translated.
const operation_info* oif (nullptr);
action act (0, 0); // Not yet initialized.
// We do meta-operation and operation batches sequentially (no
// parallelism). But multiple targets in an operation batch
// can be done in parallel.
//
action_targets tgs;
tgs.reserve (os.size ());
// If the previous operation was lifted to meta-operation,
// end the meta-operation batch.
//
if (lifted)
{
if (mif->meta_operation_post != nullptr)
mif->meta_operation_post ();
level4 ([&]{trace << "end meta-operation batch " << mif->name
<< ", id " << static_cast<uint16_t> (mid);});
mid = 0;
lifted = false;
}
for (targetspec& ts: os)
{
name& tn (ts.name);
// First figure out the out_base of this target. The logic
// is as follows: if a directory was specified in any form,
// then that's the out_base. Otherwise, we check if the name
// value has a directory prefix. This has a good balance of
// control and the expected result in most cases.
//
path out_base (tn.dir);
if (out_base.empty ())
{
const string& v (tn.value);
// Handle a few common cases as special: empty name, '.',
// '..', as well as dir{foo/bar} (without trailing '/').
// This code must be consistent with target_type_map::find().
//
if (v.empty () || v == "." || v == ".." || tn.type == "dir")
out_base = path (v);
else
{
// See if there is a directory part in value. We cannot
// assume it is a valid filesystem name so we will have
// to do the splitting manually.
//
path::size_type i (path::traits::rfind_separator (v));
if (i != string::npos)
out_base = path (v, i != 0 ? i : 1); // Special case: "/".
}
}
if (out_base.relative ())
out_base = work / out_base;
out_base.normalize ();
// The order in which we determine the roots depends on whether
// src_base was specified explicitly. There will also be a few
// cases where we are guessing things that can turn out wrong.
// Keep track of that so that we can issue more extensive
// diagnostics for such cases.
//
bool guessing (false);
path src_root;
path out_root;
path& src_base (ts.src_base); // Update it in buildspec.
if (!src_base.empty ())
{
if (src_base.relative ())
src_base = work / src_base;
src_base.normalize ();
// If the src_base was explicitly specified, search for src_root.
//
src_root = find_src_root (src_base);
// If not found, assume this is a simple project with src_root
// being the same as src_base.
//
if (src_root.empty ())
{
src_root = src_base;
out_root = out_base;
}
else
// Calculate out_root based on src_root/src_base.
//
out_root = out_base.directory (src_base.leaf (src_root));
}
else
{
// If no src_base was explicitly specified, search for out_root.
//
bool src;
out_root = find_out_root (out_base, src);
// If not found (i.e., we have no idea where the roots are),
// then this can mean two things: an in-tree build of a
// simple project or a fresh out-of-tree build. To test for
// the latter, try to find src_root starting from work. If
// we can't, then assume it is the former case.
//
if (out_root.empty ())
{
src_root = find_src_root (work);
if (!src_root.empty ())
{
src_base = work;
if (src_root != src_base)
{
try
{
out_root = out_base.directory (src_base.leaf (src_root));
}
catch (const invalid_path&)
{
fail << "out_base directory suffix does not match src_base"
<< info << "src_base is " << src_base.string ()
<< info << "src_root is " << src_root.string ()
<< info << "out_base is " << out_base.string ()
<< info << "consider explicitly specifying src_base "
<< "for " << tn;
}
}
else
out_root = out_base;
}
else
src_root = src_base = out_root = out_base;
guessing = true;
}
else if (src)
src_root = out_root;
}
// Now we know out_root and, if it was explicitly specified
// or the same as out_root, src_root. The next step is to
// create the root scope and load the out_root bootstrap
// files, if any. Note that we might already have done this
// as a result of one of the preceding target processing.
//
scope& rs (scopes[out_root]);
// Enter built-in meta-operation and operation names. Note that
// the order of registration should match the id constants; see
// <operation> for details. Loading of modules (via the src_root
// bootstrap; see below) can result in additional names being
// added.
//
if (rs.meta_operations.empty ())
{
assert (rs.meta_operations.insert (perform) == perform_id);
assert (rs.operations.insert (default_) == default_id);
assert (rs.operations.insert (update) == update_id);
assert (rs.operations.insert (clean) == clean_id);
}
rs.variables["out_root"] = out_root;
// If we know src_root, add that variable as well. This could
// be of use to the bootstrap file (other than src-root.build,
// which, BTW, doesn't need to exist if src_root == out_root).
//
if (!src_root.empty ())
rs.variables["src_root"] = src_root;
bootstrap_out (rs);
// See if the bootstrap process set/changed src_root.
//
{
auto v (rs.variables["src_root"]);
if (v)
{
// If we also have src_root specified by the user, make
// sure they match.
//
const path& p (v.as<const path&> ());
if (src_root.empty ())
src_root = p;
else if (src_root != p)
fail << "bootstrapped src_root " << p << " does not match "
<< "specified " << src_root;
}
else
{
// Bootstrap didn't produce src_root.
//
if (src_root.empty ())
{
// If it also wasn't explicitly specified, see if it is
// the same as out_root.
//
if (is_src_root (out_root))
src_root = out_root;
else
{
// If not, then assume we are running from src_base
// and calculate src_root based on out_root/out_base.
//
src_base = work;
src_root = src_base.directory (out_base.leaf (out_root));
guessing = true;
}
}
v = src_root;
}
rs.src_path_ = &v.as<const path&> ();
}
// At this stage we should have both roots and out_base figured
// out. If src_base is still undetermined, calculate it.
//
if (src_base.empty ())
src_base = src_root / out_base.leaf (out_root);
// Now that we have src_root, load the src_root bootstrap file,
// if there is one.
//
bool bootstrapped (bootstrap_src (rs));
// The src bootstrap should have loaded all the modules that
// may add new meta/operations. So at this stage they should
// all be known. We store the combined action id in uint8_t;
// see <operation> for details.
//
assert (rs.operations.size () <= 128);
assert (rs.meta_operations.size () <= 128);
// Since we now know all the names of meta-operations and
// operations, "lift" names that we assumed (from buildspec
// syntax) were operations but are actually meta-operations.
// Also convert empty names (which means they weren't explicitly
// specified) to the defaults and verify that all the names are
// known.
//
{
const auto& mn (ms.name);
const auto& on (os.name);
meta_operation_id m (0);
operation_id o (0);
if (!on.empty ())
{
m = rs.meta_operations.find (on);
if (m != 0)
{
if (!mn.empty ())
fail (l) << "nested meta-operation " << mn
<< '(' << on << ')';
if (!lifted) // If this is the first target.
{
// End the previous meta-operation batch if there was one
// and start a new one.
//
if (mid != 0)
{
assert (oid == 0);
if (mif->meta_operation_post != nullptr)
mif->meta_operation_post ();
level4 ([&]{trace << "end meta-operation batch "
<< mif->name << ", id "
<< static_cast<uint16_t> (mid);});
mid = 0;
}
lifted = true; // Flag to also end it; see above.
}
}
else
{
o = rs.operations.find (on);
if (o == 0)
{
diag_record dr;
dr << fail (l) << "unknown operation " << on;
// If we guessed src_root and didn't load anything during
// bootstrap, then this is probably a meta-operation that
// would have been added by the module if src_root was
// correct.
//
if (guessing && !bootstrapped)
dr << info << "consider explicitly specifying src_base "
<< "for " << tn;
}
}
}
if (!mn.empty ())
{
m = rs.meta_operations.find (mn);
if (m == 0)
{
diag_record dr;
dr << fail (l) << "unknown meta-operation " << mn;
// Same idea as for the operation case above.
//
if (guessing && !bootstrapped)
dr << info << "consider explicitly specifying src_base "
<< "for " << tn;
}
}
// The default meta-operation is perform. The default
// operation is assigned by the meta-operation below.
//
if (m == 0)
m = perform_id;
// If this is the first target in the meta-operation batch,
// then set the batch meta-operation id.
//
if (mid == 0)
{
mid = m;
mif = &rs.meta_operations[mid].get ();
level4 ([&]{trace << "start meta-operation batch " << mif->name
<< ", id " << static_cast<uint16_t> (mid);});
if (mif->meta_operation_pre != nullptr)
mif->meta_operation_pre ();
}
//
// Otherwise, check that all the targets in a meta-operation
// batch have the same meta-operation implementation.
//
else
{
if (mid > rs.meta_operations.size () || // Not a valid index.
mif != &rs.meta_operations[mid].get ()) // Not the same impl.
fail (l) << "different meta-operation implementations "
<< "in a meta-operation batch";
}
// If this is the first target in the operation batch, then set
// the batch operation id.
//
if (oid == 0)
{
if (o == 0)
o = default_id;
oif = &rs.operations[o].get ();
level4 ([&]{trace << "start operation batch " << oif->name
<< ", id " << static_cast<uint16_t> (o);});
// Allow the meta-operation to translate the operation.
//
if (mif->operation_pre != nullptr)
oid = mif->operation_pre (o);
else // Otherwise translate default to update.
oid = (o == default_id ? update_id : o);
if (o != oid)
{
oif = &rs.operations[oid].get ();
level4 ([&]{trace << "operation translated to " << oif->name
<< ", id " << static_cast<uint16_t> (oid);});
}
act = action (mid, oid);
current_mode = oif->mode;
current_rules = &rules[oid];
}
//
// Similar to meta-operations, check that all the targets in
// an operation batch have the same operation implementation.
//
else
{
if (oid > rs.operations.size () || // Not a valid index.
oif != &rs.operations[oid].get ()) // Not the same impl.
fail (l) << "different operation implementations "
<< "in an operation batch";
}
}
if (verb >= 4)
{
trace << "target " << tn << ':';
trace << " out_base: " << out_base.string ();
trace << " src_base: " << src_base.string ();
trace << " out_root: " << out_root.string ();
trace << " src_root: " << src_root.string ();
}
path bf (src_base / path ("buildfile"));
// If we were guessing src_base, check that the buildfile
// exists and if not, issue more detailed diagnostics.
//
if (guessing && !file_exists (bf))
fail << bf << " does not exist"
<< info << "consider explicitly specifying src_base "
<< "for " << tn;
// Load the buildfile.
//
mif->load (bf, rs, out_base, src_base, l);
// Next resolve and match the target. We don't want to start
// building before we know how to for all the targets in this
// operation batch.
//
{
const string* e;
const target_type* ti (target_types.find (tn, e));
if (ti == nullptr)
fail (l) << "unknown target type " << tn.type;
// If the directory is relative, assume it is relative to work
// (must be consistent with how we derived out_base above).
//
path& d (tn.dir);
if (d.relative ())
d = work / d;
d.normalize ();
mif->match (act, rs, target_key {ti, &d, &tn.value, &e}, l, tgs);
}
}
// Now execute the action on the list of targets.
//
mif->execute (act, tgs);
if (mif->operation_post != nullptr)
mif->operation_post (oid);
level4 ([&]{trace << "end operation batch " << oif->name
<< ", id " << static_cast<uint16_t> (oid);});
}
if (mif->meta_operation_post != nullptr)
mif->meta_operation_post ();
level4 ([&]{trace << "end meta-operation batch " << mif->name
<< ", id " << static_cast<uint16_t> (mid);});
}
}
catch (const failed&)
{
return 1; // Diagnostics has already been issued.
}
/*
catch (const std::exception& e)
{
error << e.what ();
return 1;
}
*/
}
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