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// file : bbot/agent.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2017 Code Synthesis Ltd
// license : TBC; see accompanying LICENSE file
#include <bbot/agent>
#include <pwd.h> // getpwuid()
#include <limits.h> // PATH_MAX
#include <signal.h> // signal()
#include <unistd.h> // sleep(), realink(), getuid()
#include <net/if.h> // ifreq
#include <netinet/in.h> // sockaddr_in
#include <arpa/inet.h> // inet_ntop()
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <iostream>
#include <butl/pager>
#include <butl/filesystem> // dir_iterator
#include <bbot/manifest>
#include <bbot/types>
#include <bbot/utility>
#include <bbot/diagnostics>
#include <bbot/tftp>
#include <bbot/machine>
#include <bbot/bootstrap-manifest>
using namespace std;
using namespace butl;
using namespace bbot;
namespace bbot
{
agent_options ops;
const string bs_prot ("1");
string tc_name;
string tc_num;
string tc_id;
uid_t uid;
string uname;
// Note: Linux-specific implementation.
//
string
iface_addr (const string& i)
{
if (i.size () >= IFNAMSIZ)
throw invalid_argument ("interface nama too long");
auto_fd fd (socket (AF_INET, SOCK_DGRAM | SOCK_CLOEXEC, 0));
if (fd.get () == -1)
throw_system_error (errno);
ifreq ifr;
ifr.ifr_addr.sa_family = AF_INET;
strcpy (ifr.ifr_name, i.c_str ());
if (ioctl (fd.get (), SIOCGIFADDR, &ifr) == -1)
throw_system_error (errno);
char buf[3 * 4 + 3 + 1]; // IPv4 address.
if (inet_ntop (AF_INET,
&reinterpret_cast<sockaddr_in*> (&ifr.ifr_addr)->sin_addr,
buf,
sizeof (buf)) == nullptr)
throw_system_error (errno);
return buf;
}
}
// The btrfs tool likes to print informational messages, like "Created
// snapshot such and such". Luckily, it writes them to stdout while proper
// diagnostics to stderr.
//
template <typename... A>
inline void
btrfs (tracer& t, A&&... a)
{
if (verb >= 3)
run_io (t, fdnull (), 2, 2, "btrfs", forward<A> (a)...);
else
run_io (t, fdnull (), fdnull (), 2, "btrfs", forward<A> (a)...);
}
template <typename... A>
inline butl::process_exit::code_type
btrfs_exit (tracer& t, A&&... a)
{
return verb >= 3
? run_io_exit (t, fdnull (), 2, 2, "btrfs", forward<A> (a)...)
: run_io_exit (t, fdnull (), fdnull (), 2, "btrfs", forward<A> (a)...);
}
static bootstrapped_machine_manifest
bootstrap_machine (const dir_path& md,
const machine_manifest& mm,
optional<bootstrapped_machine_manifest> obmm)
{
tracer trace ("bootstrap_machine");
bootstrapped_machine_manifest r {
mm,
toolchain_manifest {tc_id},
bootstrap_manifest {
bootstrap_manifest::versions_type {
{"bbot", BBOT_VERSION},
{"libbbot", LIBBBOT_VERSION},
{"libbpkg", LIBBPKG_VERSION},
{"libbutl", LIBBUTL_VERSION}
}
}
};
if (ops.fake_bootstrap ())
{
r.machine.mac = "de:ad:be:ef:de:ad";
}
else
try
{
string br ("br1"); // Use private bridge for now.
// Start the TFTP server (server chroot is /build/tftp). Map:
//
// GET requests to /build/tftp/toolchain/<name>/*
// PUT requests to /build/tftp/bootstrap/<name>/*
//
auto_rmdir arm (dir_path ("/build/tftp/bootstrap/" + tc_name));
try_mkdir_p (arm.path ());
tftp_server tftpd ("Gr ^/?(.+)$ /toolchain/" + tc_name + "/\\1\n" +
"Pr ^/?(.+)$ /bootstrap/" + tc_name + "/\\1\n");
l2 ([&]{trace << "tftp server on port " << tftpd.port ();});
// Start the machine.
//
unique_ptr<machine> m (
start_machine (md,
mm,
obmm ? obmm->machine.mac : nullopt,
br,
tftpd.port ()));
r.machine.mac = m->mac;
// The first request should be the toolchain download. Wait for up to 60
// seconds for that to arrive. In a sense we use it as an indication that
// the machine has booted and the bootstrap process has started.
//
size_t timeout (60);
if (tftpd.serve (timeout))
{
l2 ([&]{trace << "received first request in " << 60 - timeout << "s";});
}
else
{
// @@ What should be do here? Non-fatal? Mark the machine as failed?
//
error << "bootstrap timeout during first request for machine " << md;
m->forcedown ();
throw failed ();
}
if (!m->shutdown ())
{
error << "forcing machine " << md << " down";
m->forcedown ();
throw failed ();
}
}
catch (const system_error& e)
{
fail << "tftp server error: " << e;
}
serialize_manifest (r, md / "manifest", "bootstrapped machine");
return r;
}
static machine_header_manifests
enumerate_machines (const dir_path& rd)
try
{
tracer trace ("enumerate_machines");
machine_header_manifests r;
// The first level are machine volumes.
//
for (const dir_entry& ve: dir_iterator (rd))
{
const string vn (ve.path ().string ());
// Ignore hidden directories.
//
if (ve.type () != entry_type::directory || vn[0] == '.')
continue;
const dir_path vd (dir_path (rd) /= vn);
// Inside we have machines.
//
try
{
for (const dir_entry& me: dir_iterator (vd))
{
const string mn (me.path ().string ());
if (me.type () != entry_type::directory || mn[0] == '.')
continue;
const dir_path md (dir_path (vd) /= mn);
// Our endgoal here is to obtain a bootstrapped snapshot of this
// machine while watching out for potential race conditions (machines
// being added/upgraded/removed; see the manual for details).
//
// So here is our overall plan:
//
// 1. Resolve current subvolume link for our bootstrap protocol.
//
// 2. If there is no link, cleanup and ignore this machine.
//
// 3. Try to create a snapshot of current subvolume (this operation is
// atomic). If failed (e.g., someone changed the link and removed
// the subvolume in the meantime), retry from #1.
//
// 4. Compare the snapshot to the already bootstrapped version (if
// any) and see if we need to re-bootstrap. If so, use the snapshot
// as a starting point. Rename to bootstrapped at the end (atomic).
//
const dir_path lp (dir_path (md) /= (mn + '-' + bs_prot)); // -<P>
const dir_path tp (dir_path (md) /= (mn + '-' + tc_name)); // -<too...>
bool te (dir_exists (tp));
auto delete_t = [&tp, &trace] ()
{
btrfs (trace, "property", "set", "-ts", tp, "ro", "false");
btrfs (trace, "subvolume", "delete", tp);
};
for (size_t retry (0);; ++retry)
{
if (retry != 0)
sleep (1);
// Resolve the link to subvolume path.
//
dir_path sp; // <name>-<P>.<R>
try
{
char b [PATH_MAX + 1];
ssize_t r (readlink (lp.string ().c_str (), b, sizeof (b)));
if (r == -1)
{
if (errno != ENOENT)
throw_generic_error (errno);
}
else if (static_cast<size_t> (r) >= sizeof (b))
throw_generic_error (EINVAL);
else
{
b[r] = '\0';
sp = dir_path (b);
if (sp.relative ())
sp = md / sp;
}
}
catch (const system_error& e)
{
fail << "unable to read subvolume link " << lp << ": " << e;
}
// If the resolution fails, then this means there is no current
// machine subvolume (for this bootstrap protocol). In this case we
// clean up our toolchain subvolume (<name>-<toolchain>) and ignore
// this machine.
//
if (sp.empty ())
{
if (te)
delete_t ();
l2 ([&]{trace << "skipping " << md << ": no subvolume link";});
break;
}
// <name>-<toolchain>-<xxx>
//
const dir_path xp (dir_path (md) /=
path::traits::temp_name (mn + '-' + tc_name));
if (btrfs_exit (trace, "subvolume", "snapshot", sp, xp) != 0)
{
if (retry >= 10)
fail << "unable to snapshot subvolume " << sp;
continue;
}
// Load the (original) machine manifest.
//
auto mm (
parse_manifest<machine_manifest> (sp / "manifest", "machine"));
// If we already have <name>-<toolchain>, see if it needs to be re-
// bootstrapped. Things that render it obsolete:
//
// 1. New machine revision (compare machine ids).
// 2. New toolchain (compare toolchain ids).
// 3. New bbot/libbbot (compare versions).
//
// The last case has a complication: what should we do if we have
// bootstrapped a newer version of bbot? This would mean that we are
// about to be stopped and upgraded (and the upgraded version will
// probably be able to use the result). So we simply ignore this
// machine for this run.
// Return -1 if older, 0 if the same, and +1 if newer.
//
auto compare_bbot = [] (const bootstrap_manifest& m) -> int
{
auto cmp = [&m] (const string& n, uint64_t v) -> int
{
auto i = m.versions.find (n);
return
i == m.versions.end () || i->second < v
? -1
: i->second > v ? 1 : 0;
};
// Start from the top assuming a new dependency cannot be added
// without changing the dependent's version.
//
int r;
return
(r = cmp ("bbot", BBOT_VERSION)) != 0 ? r :
(r = cmp ("libbbot", LIBBBOT_VERSION)) != 0 ? r :
(r = cmp ("libbpkg", LIBBPKG_VERSION)) != 0 ? r :
(r = cmp ("libbutl", LIBBUTL_VERSION)) != 0 ? r : 0;
};
optional<bootstrapped_machine_manifest> obmm;
if (te)
{
obmm = parse_manifest<bootstrapped_machine_manifest> (
tp / "manifest", "bootstrapped machine");
if (obmm->machine.id != mm.id)
{
l2 ([&]{trace << "re-bootstrapping " << tp << ": new machine";});
te = false;
}
if (obmm->toolchain.id != tc_id)
{
l2 ([&]{trace << "re-bootstrapping " << tp << ": new toolchain";});
te = false;
}
if (int i = compare_bbot (obmm->bootstrap))
{
if (i < 0)
{
l2 ([&]{trace << "re-bootstrapping " << tp << ": new bbot";});
te = false;
}
else
{
l2 ([&]{trace << "ignoring " << tp << ": old bbot";});
btrfs (trace, "subvolume", "delete", xp);
break;
}
}
if (!te)
delete_t ();
}
else
l2 ([&]{trace << "bootstrapping " << tp;});
if (!te)
{
// Use the <name>-<toolchain>-<xxx> snapshot that we have made to
// bootstrap the new machine. Then atomically rename it to
// <name>-<toolchain>.
//
bootstrapped_machine_manifest bmm (
bootstrap_machine (xp, mm, move (obmm)));
try
{
mvdir (xp, tp);
}
catch (const system_error& e)
{
fail << "unable to rename " << xp << " to " << tp;
}
te = true;
// Check the boostrapped bbot version as above and ignore this
// machine if it's newer than us.
//
if (int i = compare_bbot (bmm.bootstrap))
{
assert (i > 0);
l2 ([&]{trace << "ignoring " << tp << ": old bbot";});
break;
}
}
else
btrfs (trace, "subvolume", "delete", xp);
// Add the machine to the list.
//
r.push_back (
machine_header_manifest (move (mm.id),
move (mm.name),
move (mm.summary)));
break;
}
}
}
catch (const system_error& e)
{
fail << "unable to iterate over " << vd << ": " << e << endf;
}
}
return r;
}
catch (const system_error& e)
{
fail << "unable to iterate over " << rd << ": " << e << endf;
}
extern "C" void
handle_signal (int sig)
{
switch (sig)
{
case SIGHUP: exit (3); // Unimplemented feature.
case SIGTERM: exit (0);
default: assert (false);
}
}
// Right arrow followed by newline.
//
const char systemd_indent[] = "\xE2\x86\xB2\n";
int
main (int argc, char* argv[])
try
{
cli::argv_scanner scan (argc, argv, true);
ops.parse (scan);
verb = ops.verbose ();
uid = getuid ();
uname = getpwuid (uid)->pw_name;
if (ops.systemd_daemon ())
{
// Map to systemd severity prefixes (see sd-daemon(3) for details). Note
// that here we assume we will never have location (like file name which
// would end up being before the prefix).
//
trace_indent =
fail.indent_ =
error.indent_ =
warn.indent_ =
info.indent_ =
text.indent_ = systemd_indent;
fail.type_ = "<3>";
error.type_ = "<3>";
warn.type_ = "<4>";
info.type_ = "<6>";
trace_type = "<7>";
info << "bbot agent for " << tc_name << '/' << tc_num <<
info << "toolchain id " << tc_id <<
info << "CPU(s) " << ops.cpu () <<
info << "RAM(kB) " << ops.ram ();
}
tracer trace ("main");
// 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.
//
if (signal (SIGPIPE, SIG_IGN) == SIG_ERR)
fail << "unable to ignore broken pipe (SIGPIPE) signal: "
<< system_error (errno, generic_category ()); // Sanitize.
// Version.
//
if (ops.version ())
{
cout << "bbot-agent " << BBOT_VERSION_STR << endl
<< "libbbot " << LIBBBOT_VERSION_STR << endl
<< "libbutl " << LIBBUTL_VERSION_STR << endl
<< "Copyright (c) 2014-2017 Code Synthesis Ltd" << endl
<< "TBC; All rights reserved" << endl;
return 0;
}
// Help.
//
if (ops.help ())
{
pager p ("bbot-agent help", false);
print_bbot_agent_usage (p.stream ());
// If the pager failed, assume it has issued some diagnostics.
//
return p.wait () ? 0 : 1;
}
if (argc != 4)
fail << "toolchain name/id/num excected" <<
info << "run " << argv[0] << " --help for details";
tc_name = argv[1];
tc_num = argv[2];
tc_id = argv[3];
// Handle SIGHUP and SIGTERM.
//
if (signal (SIGHUP, &handle_signal) == SIG_ERR ||
signal (SIGTERM, &handle_signal) == SIG_ERR)
fail << "unable to set signal handler: "
<< system_error (errno, generic_category ()); // Sanitize.
// The work loop. The steps we go through are:
//
// 1. Enumerate the available machines, (re-)bootstrapping any of necessary.
//
// 2. Poll controller(s) for build tasks.
//
// 3. If no build tasks are available, go to #1 after sleeping a bit.
//
// 4. If a build task is returned, do it, upload the result, and go to #1
// immediately.
//
for (unsigned int s; (s = 60); sleep (s))
{
machine_header_manifests mms (enumerate_machines (ops.machines ()));
if (ops.dump_machines ())
{
for (const machine_header_manifest& mm: mms)
serialize_manifest (mm, cout, "stdout", "machine manifest");
return 0;
}
}
}
catch (const failed&)
{
return 1; // Diagnostics has already been issued.
}
catch (const cli::exception& e)
{
error << e;
return 1;
}
|