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|
// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
/*
* Ceph - scalable distributed file system
*
* Copyright (C) 2011 New Dream Network
*
* This is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software
* Foundation. See file COPYING.
*
*/
#include <poll.h>
#include <sys/un.h>
#include "common/admin_socket.h"
#include "common/admin_socket_client.h"
#include "common/dout.h"
#include "common/errno.h"
#include "common/safe_io.h"
#include "common/Thread.h"
#include "common/version.h"
#include "common/ceph_mutex.h"
#ifndef WITH_SEASTAR
#include "common/Cond.h"
#endif
#include "messages/MCommand.h"
#include "messages/MCommandReply.h"
#include "messages/MMonCommand.h"
#include "messages/MMonCommandAck.h"
// re-include our assert to clobber the system one; fix dout:
#include "include/ceph_assert.h"
#include "include/compat.h"
#include "include/sock_compat.h"
#define dout_subsys ceph_subsys_asok
#undef dout_prefix
#define dout_prefix *_dout << "asok(" << (void*)m_cct << ") "
using namespace std::literals;
using std::ostringstream;
using std::string;
using std::stringstream;
using namespace TOPNSPC::common;
using ceph::bufferlist;
using ceph::cref_t;
using ceph::Formatter;
/*
* UNIX domain sockets created by an application persist even after that
* application closes, unless they're explicitly unlinked. This is because the
* directory containing the socket keeps a reference to the socket.
*
* This code makes things a little nicer by unlinking those dead sockets when
* the application exits normally.
*/
template<typename F, typename... Args>
inline int retry_sys_call(F f, Args... args) {
int r;
do {
r = f(args...);
} while (r < 0 && errno == EINTR);
return r;
};
static std::mutex cleanup_lock;
static std::vector<std::string> cleanup_files;
static bool cleanup_atexit = false;
static void remove_cleanup_file(std::string_view file) {
std::unique_lock l(cleanup_lock);
if (auto i = std::find(cleanup_files.cbegin(), cleanup_files.cend(), file);
i != cleanup_files.cend()) {
retry_sys_call(::unlink, i->c_str());
cleanup_files.erase(i);
}
}
void remove_all_cleanup_files() {
std::unique_lock l(cleanup_lock);
for (const auto& s : cleanup_files) {
retry_sys_call(::unlink, s.c_str());
}
cleanup_files.clear();
}
static void add_cleanup_file(std::string file) {
std::unique_lock l(cleanup_lock);
cleanup_files.push_back(std::move(file));
if (!cleanup_atexit) {
atexit(remove_all_cleanup_files);
cleanup_atexit = true;
}
}
AdminSocket::AdminSocket(CephContext *cct)
: m_cct(cct)
{}
AdminSocket::~AdminSocket()
{
shutdown();
}
/*
* This thread listens on the UNIX domain socket for incoming connections.
* It only handles one connection at a time at the moment. All I/O is nonblocking,
* so that we can implement sensible timeouts. [TODO: make all I/O nonblocking]
*
* This thread also listens to m_wakeup_rd_fd. If there is any data sent to this
* pipe, the thread wakes up. If m_shutdown is set, the thread terminates
* itself gracefully, allowing the AdminSocketConfigObs class to join() it.
*/
std::string AdminSocket::create_wakeup_pipe(int *pipe_rd, int *pipe_wr)
{
int pipefd[2];
#ifdef _WIN32
if (win_socketpair(pipefd) < 0) {
#else
if (pipe_cloexec(pipefd, O_NONBLOCK) < 0) {
#endif
int e = ceph_sock_errno();
ostringstream oss;
oss << "AdminSocket::create_wakeup_pipe error: " << cpp_strerror(e);
return oss.str();
}
*pipe_rd = pipefd[0];
*pipe_wr = pipefd[1];
return "";
}
std::string AdminSocket::destroy_wakeup_pipe()
{
// Send a byte to the wakeup pipe that the thread is listening to
char buf[1] = { 0x0 };
int ret = safe_send(m_wakeup_wr_fd, buf, sizeof(buf));
// Close write end
retry_sys_call(::compat_closesocket, m_wakeup_wr_fd);
m_wakeup_wr_fd = -1;
if (ret != 0) {
ostringstream oss;
oss << "AdminSocket::destroy_shutdown_pipe error: failed to write"
"to thread shutdown pipe: error " << ret;
return oss.str();
}
th.join();
// Close read end. Doing this before join() blocks the listenter and prevents
// joining.
retry_sys_call(::compat_closesocket, m_wakeup_rd_fd);
m_wakeup_rd_fd = -1;
return "";
}
std::string AdminSocket::bind_and_listen(const std::string &sock_path, int *fd)
{
ldout(m_cct, 5) << "bind_and_listen " << sock_path << dendl;
struct sockaddr_un address;
if (sock_path.size() > sizeof(address.sun_path) - 1) {
ostringstream oss;
oss << "AdminSocket::bind_and_listen: "
<< "The UNIX domain socket path " << sock_path << " is too long! The "
<< "maximum length on this system is "
<< (sizeof(address.sun_path) - 1);
return oss.str();
}
int sock_fd = socket_cloexec(PF_UNIX, SOCK_STREAM, 0);
if (sock_fd < 0) {
int err = ceph_sock_errno();
ostringstream oss;
oss << "AdminSocket::bind_and_listen: "
<< "failed to create socket: " << cpp_strerror(err);
return oss.str();
}
// FIPS zeroization audit 20191115: this memset is fine.
memset(&address, 0, sizeof(struct sockaddr_un));
address.sun_family = AF_UNIX;
snprintf(address.sun_path, sizeof(address.sun_path),
"%s", sock_path.c_str());
if (::bind(sock_fd, (struct sockaddr*)&address,
sizeof(struct sockaddr_un)) != 0) {
int err = ceph_sock_errno();
if (err == EADDRINUSE) {
AdminSocketClient client(sock_path);
bool ok;
client.ping(&ok);
if (ok) {
ldout(m_cct, 20) << "socket " << sock_path << " is in use" << dendl;
err = EEXIST;
} else {
ldout(m_cct, 20) << "unlink stale file " << sock_path << dendl;
retry_sys_call(::unlink, sock_path.c_str());
if (::bind(sock_fd, (struct sockaddr*)&address,
sizeof(struct sockaddr_un)) == 0) {
err = 0;
} else {
err = ceph_sock_errno();
}
}
}
if (err != 0) {
ostringstream oss;
oss << "AdminSocket::bind_and_listen: "
<< "failed to bind the UNIX domain socket to '" << sock_path
<< "': " << cpp_strerror(err);
close(sock_fd);
return oss.str();
}
}
if (listen(sock_fd, 5) != 0) {
int err = ceph_sock_errno();
ostringstream oss;
oss << "AdminSocket::bind_and_listen: "
<< "failed to listen to socket: " << cpp_strerror(err);
close(sock_fd);
retry_sys_call(::unlink, sock_path.c_str());
return oss.str();
}
*fd = sock_fd;
return "";
}
void AdminSocket::entry() noexcept
{
ldout(m_cct, 5) << "entry start" << dendl;
while (true) {
struct pollfd fds[2];
// FIPS zeroization audit 20191115: this memset is fine.
memset(fds, 0, sizeof(fds));
fds[0].fd = m_sock_fd;
fds[0].events = POLLIN | POLLRDBAND;
fds[1].fd = m_wakeup_rd_fd;
fds[1].events = POLLIN | POLLRDBAND;
ldout(m_cct,20) << __func__ << " waiting" << dendl;
int ret = poll(fds, 2, -1);
if (ret < 0) {
int err = ceph_sock_errno();
if (err == EINTR) {
continue;
}
lderr(m_cct) << "AdminSocket: poll(2) error: '"
<< cpp_strerror(err) << dendl;
return;
}
ldout(m_cct,20) << __func__ << " awake" << dendl;
if (fds[0].revents & POLLIN) {
// Send out some data
do_accept();
}
if (fds[1].revents & POLLIN) {
// read off one byte
char buf;
auto s = safe_recv(m_wakeup_rd_fd, &buf, 1);
if (s == -1) {
int e = ceph_sock_errno();
ldout(m_cct, 5) << "AdminSocket: (ignoring) read(2) error: '"
<< cpp_strerror(e) << dendl;
}
do_tell_queue();
}
if (m_shutdown) {
// Parent wants us to shut down
return;
}
}
ldout(m_cct, 5) << "entry exit" << dendl;
}
void AdminSocket::chown(uid_t uid, gid_t gid)
{
if (m_sock_fd >= 0) {
int r = ::chown(m_path.c_str(), uid, gid);
if (r < 0) {
r = -errno;
lderr(m_cct) << "AdminSocket: failed to chown socket: "
<< cpp_strerror(r) << dendl;
}
}
}
void AdminSocket::chmod(mode_t mode)
{
if (m_sock_fd >= 0) {
int r = ::chmod(m_path.c_str(), mode);
if (r < 0) {
r = -errno;
lderr(m_cct) << "AdminSocket: failed to chmod socket: "
<< cpp_strerror(r) << dendl;
}
}
}
void AdminSocket::do_accept()
{
struct sockaddr_un address;
socklen_t address_length = sizeof(address);
ldout(m_cct, 30) << "AdminSocket: calling accept" << dendl;
int connection_fd = accept_cloexec(m_sock_fd, (struct sockaddr*) &address,
&address_length);
if (connection_fd < 0) {
int err = ceph_sock_errno();
lderr(m_cct) << "AdminSocket: do_accept error: '"
<< cpp_strerror(err) << dendl;
return;
}
ldout(m_cct, 30) << "AdminSocket: finished accept" << dendl;
char cmd[1024];
unsigned pos = 0;
string c;
while (1) {
int ret = safe_recv(connection_fd, &cmd[pos], 1);
if (ret <= 0) {
if (ret < 0) {
lderr(m_cct) << "AdminSocket: error reading request code: "
<< cpp_strerror(ret) << dendl;
}
retry_sys_call(::compat_closesocket, connection_fd);
return;
}
if (cmd[0] == '\0') {
// old protocol: __be32
if (pos == 3 && cmd[0] == '\0') {
switch (cmd[3]) {
case 0:
c = "0";
break;
case 1:
c = "perfcounters_dump";
break;
case 2:
c = "perfcounters_schema";
break;
default:
c = "foo";
break;
}
//wrap command with new protocol
c = "{\"prefix\": \"" + c + "\"}";
break;
}
} else {
// new protocol: null or \n terminated string
if (cmd[pos] == '\n' || cmd[pos] == '\0') {
cmd[pos] = '\0';
c = cmd;
break;
}
}
if (++pos >= sizeof(cmd)) {
lderr(m_cct) << "AdminSocket: error reading request too long" << dendl;
retry_sys_call(::compat_closesocket, connection_fd);
return;
}
}
std::vector<std::string> cmdvec = { c };
bufferlist empty, out;
ostringstream err;
int rval = execute_command(cmdvec, empty /* inbl */, err, &out);
// Unfortunately, the asok wire protocol does not let us pass an error code,
// and many asok command implementations return helpful error strings. So,
// let's prepend an error string to the output if there is an error code.
if (rval < 0) {
ostringstream ss;
ss << "ERROR: " << cpp_strerror(rval) << "\n";
ss << err.str() << "\n";
bufferlist o;
o.append(ss.str());
o.claim_append(out);
out.claim_append(o);
}
uint32_t len = htonl(out.length());
int ret = safe_send(connection_fd, &len, sizeof(len));
if (ret < 0) {
lderr(m_cct) << "AdminSocket: error writing response length "
<< cpp_strerror(ret) << dendl;
} else {
int r = out.send_fd(connection_fd);
if (r < 0) {
lderr(m_cct) << "AdminSocket: error writing response payload "
<< cpp_strerror(ret) << dendl;
}
}
retry_sys_call(::compat_closesocket, connection_fd);
}
void AdminSocket::do_tell_queue()
{
ldout(m_cct,10) << __func__ << dendl;
std::list<cref_t<MCommand>> q;
std::list<cref_t<MMonCommand>> lq;
{
std::lock_guard l(tell_lock);
q.swap(tell_queue);
lq.swap(tell_legacy_queue);
}
for (auto& m : q) {
bufferlist outbl;
execute_command(
m->cmd,
m->get_data(),
[m](int r, const std::string& err, bufferlist& outbl) {
auto reply = new MCommandReply(r, err);
reply->set_tid(m->get_tid());
reply->set_data(outbl);
#ifdef WITH_SEASTAR
// TODO: crimson: handle asok commmand from alien thread
#else
m->get_connection()->send_message(reply);
#endif
});
}
for (auto& m : lq) {
bufferlist outbl;
execute_command(
m->cmd,
m->get_data(),
[m](int r, const std::string& err, bufferlist& outbl) {
auto reply = new MMonCommandAck(m->cmd, r, err, 0);
reply->set_tid(m->get_tid());
reply->set_data(outbl);
#ifdef WITH_SEASTAR
// TODO: crimson: handle asok commmand from alien thread
#else
m->get_connection()->send_message(reply);
#endif
});
}
}
int AdminSocket::execute_command(
const std::vector<std::string>& cmd,
const bufferlist& inbl,
std::ostream& errss,
bufferlist *outbl)
{
#ifdef WITH_SEASTAR
// TODO: crimson: blocking execute_command() in alien thread
return -ENOSYS;
#else
bool done = false;
int rval = 0;
ceph::mutex mylock = ceph::make_mutex("admin_socket::excute_command::mylock");
ceph::condition_variable mycond;
C_SafeCond fin(mylock, mycond, &done, &rval);
execute_command(
cmd,
inbl,
[&errss, outbl, &fin](int r, const std::string& err, bufferlist& out) {
errss << err;
*outbl = std::move(out);
fin.finish(r);
});
{
std::unique_lock l{mylock};
mycond.wait(l, [&done] { return done;});
}
return rval;
#endif
}
void AdminSocket::execute_command(
const std::vector<std::string>& cmdvec,
const bufferlist& inbl,
std::function<void(int,const std::string&,bufferlist&)> on_finish)
{
cmdmap_t cmdmap;
string format;
stringstream errss;
bufferlist empty;
ldout(m_cct,10) << __func__ << " cmdvec='" << cmdvec << "'" << dendl;
if (!cmdmap_from_json(cmdvec, &cmdmap, errss)) {
ldout(m_cct, 0) << "AdminSocket: " << errss.str() << dendl;
return on_finish(-EINVAL, "invalid json", empty);
}
string prefix;
try {
cmd_getval(cmdmap, "format", format);
cmd_getval(cmdmap, "prefix", prefix);
} catch (const bad_cmd_get& e) {
return on_finish(-EINVAL, "invalid json, missing format and/or prefix",
empty);
}
auto f = Formatter::create(format, "json-pretty", "json-pretty");
auto [retval, hook] = find_matched_hook(prefix, cmdmap);
switch (retval) {
case ENOENT:
lderr(m_cct) << "AdminSocket: request '" << cmdvec
<< "' not defined" << dendl;
delete f;
return on_finish(-EINVAL, "unknown command prefix "s + prefix, empty);
case EINVAL:
delete f;
return on_finish(-EINVAL, "invalid command json", empty);
default:
assert(retval == 0);
}
hook->call_async(
prefix, cmdmap, f, inbl,
[f, on_finish](int r, const std::string& err, bufferlist& out) {
// handle either existing output in bufferlist *or* via formatter
if (r >= 0 && out.length() == 0) {
f->flush(out);
}
delete f;
on_finish(r, err, out);
});
std::unique_lock l(lock);
in_hook = false;
in_hook_cond.notify_all();
}
std::pair<int, AdminSocketHook*>
AdminSocket::find_matched_hook(std::string& prefix,
const cmdmap_t& cmdmap)
{
std::unique_lock l(lock);
// Drop lock after done with the lookup to avoid cycles in cases where the
// hook takes the same lock that was held during calls to
// register/unregister, and set in_hook to allow unregister to wait for us
// before removing this hook.
auto [hooks_begin, hooks_end] = hooks.equal_range(prefix);
if (hooks_begin == hooks_end) {
return {ENOENT, nullptr};
}
// make sure one of the registered commands with this prefix validates.
stringstream errss;
for (auto hook = hooks_begin; hook != hooks_end; ++hook) {
if (validate_cmd(hook->second.desc, cmdmap, errss)) {
in_hook = true;
return {0, hook->second.hook};
}
}
return {EINVAL, nullptr};
}
void AdminSocket::queue_tell_command(cref_t<MCommand> m)
{
ldout(m_cct,10) << __func__ << " " << *m << dendl;
std::lock_guard l(tell_lock);
tell_queue.push_back(std::move(m));
wakeup();
}
void AdminSocket::queue_tell_command(cref_t<MMonCommand> m)
{
ldout(m_cct,10) << __func__ << " " << *m << dendl;
std::lock_guard l(tell_lock);
tell_legacy_queue.push_back(std::move(m));
wakeup();
}
int AdminSocket::register_command(std::string_view cmddesc,
AdminSocketHook *hook,
std::string_view help)
{
int ret;
std::unique_lock l(lock);
string prefix = cmddesc_get_prefix(cmddesc);
auto i = hooks.find(prefix);
if (i != hooks.cend() &&
i->second.desc == cmddesc) {
ldout(m_cct, 5) << "register_command " << prefix
<< " cmddesc " << cmddesc << " hook " << hook
<< " EEXIST" << dendl;
ret = -EEXIST;
} else {
ldout(m_cct, 5) << "register_command " << prefix << " hook " << hook
<< dendl;
hooks.emplace_hint(i,
std::piecewise_construct,
std::forward_as_tuple(prefix),
std::forward_as_tuple(hook, cmddesc, help));
ret = 0;
}
return ret;
}
void AdminSocket::unregister_commands(const AdminSocketHook *hook)
{
std::unique_lock l(lock);
auto i = hooks.begin();
while (i != hooks.end()) {
if (i->second.hook == hook) {
ldout(m_cct, 5) << __func__ << " " << i->first << dendl;
// If we are currently processing a command, wait for it to
// complete in case it referenced the hook that we are
// unregistering.
in_hook_cond.wait(l, [this]() { return !in_hook; });
hooks.erase(i++);
} else {
i++;
}
}
}
class VersionHook : public AdminSocketHook {
public:
int call(std::string_view command, const cmdmap_t& cmdmap,
const bufferlist&,
Formatter *f,
std::ostream& errss,
bufferlist& out) override {
if (command == "0"sv) {
out.append(CEPH_ADMIN_SOCK_VERSION);
} else {
f->open_object_section("version");
if (command == "version") {
f->dump_string("version", ceph_version_to_str());
f->dump_string("release", ceph_release_to_str());
f->dump_string("release_type", ceph_release_type());
} else if (command == "git_version") {
f->dump_string("git_version", git_version_to_str());
}
ostringstream ss;
f->close_section();
}
return 0;
}
};
class HelpHook : public AdminSocketHook {
AdminSocket *m_as;
public:
explicit HelpHook(AdminSocket *as) : m_as(as) {}
int call(std::string_view command, const cmdmap_t& cmdmap,
const bufferlist&,
Formatter *f,
std::ostream& errss,
bufferlist& out) override {
f->open_object_section("help");
for (const auto& [command, info] : m_as->hooks) {
if (info.help.length())
f->dump_string(command.c_str(), info.help);
}
f->close_section();
return 0;
}
};
class GetdescsHook : public AdminSocketHook {
AdminSocket *m_as;
public:
explicit GetdescsHook(AdminSocket *as) : m_as(as) {}
int call(std::string_view command, const cmdmap_t& cmdmap,
const bufferlist&,
Formatter *f,
std::ostream& errss,
bufferlist& out) override {
int cmdnum = 0;
f->open_object_section("command_descriptions");
for (const auto& [command, info] : m_as->hooks) {
// GCC 8 actually has [[maybe_unused]] on a structured binding
// do what you'd expect. GCC 7 does not.
(void)command;
ostringstream secname;
secname << "cmd" << std::setfill('0') << std::setw(3) << cmdnum;
dump_cmd_and_help_to_json(f,
CEPH_FEATURES_ALL,
secname.str().c_str(),
info.desc,
info.help);
cmdnum++;
}
f->close_section(); // command_descriptions
return 0;
}
};
bool AdminSocket::init(const std::string& path)
{
ldout(m_cct, 5) << "init " << path << dendl;
#ifdef _WIN32
OSVERSIONINFOEXW ver = {0};
ver.dwOSVersionInfoSize = sizeof(ver);
get_windows_version(&ver);
if (std::tie(ver.dwMajorVersion, ver.dwMinorVersion, ver.dwBuildNumber) <
std::make_tuple(10, 0, 17063)) {
ldout(m_cct, 5) << "Unix sockets require Windows 10.0.17063 or later. "
<< "The admin socket will not be available." << dendl;
return false;
}
#endif
/* Set up things for the new thread */
std::string err;
int pipe_rd = -1, pipe_wr = -1;
err = create_wakeup_pipe(&pipe_rd, &pipe_wr);
if (!err.empty()) {
lderr(m_cct) << "AdminSocketConfigObs::init: error: " << err << dendl;
return false;
}
int sock_fd;
err = bind_and_listen(path, &sock_fd);
if (!err.empty()) {
lderr(m_cct) << "AdminSocketConfigObs::init: failed: " << err << dendl;
close(pipe_rd);
close(pipe_wr);
return false;
}
/* Create new thread */
m_sock_fd = sock_fd;
m_wakeup_rd_fd = pipe_rd;
m_wakeup_wr_fd = pipe_wr;
m_path = path;
version_hook = std::make_unique<VersionHook>();
register_command("0", version_hook.get(), "");
register_command("version", version_hook.get(), "get ceph version");
register_command("git_version", version_hook.get(),
"get git sha1");
help_hook = std::make_unique<HelpHook>(this);
register_command("help", help_hook.get(),
"list available commands");
getdescs_hook = std::make_unique<GetdescsHook>(this);
register_command("get_command_descriptions",
getdescs_hook.get(), "list available commands");
th = make_named_thread("admin_socket", &AdminSocket::entry, this);
add_cleanup_file(m_path.c_str());
return true;
}
void AdminSocket::shutdown()
{
// Under normal operation this is unlikely to occur. However for some unit
// tests, some object members are not initialized and so cannot be deleted
// without fault.
if (m_wakeup_wr_fd < 0)
return;
ldout(m_cct, 5) << "shutdown" << dendl;
m_shutdown = true;
auto err = destroy_wakeup_pipe();
if (!err.empty()) {
lderr(m_cct) << "AdminSocket::shutdown: error: " << err << dendl;
}
retry_sys_call(::compat_closesocket, m_sock_fd);
unregister_commands(version_hook.get());
version_hook.reset();
unregister_commands(help_hook.get());
help_hook.reset();
unregister_commands(getdescs_hook.get());
getdescs_hook.reset();
remove_cleanup_file(m_path);
m_path.clear();
}
void AdminSocket::wakeup()
{
// Send a byte to the wakeup pipe that the thread is listening to
char buf[1] = { 0x0 };
int r = safe_send(m_wakeup_wr_fd, buf, sizeof(buf));
(void)r;
}
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