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#include <global/rpc/ipc_types.hpp>
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#include <global/rpc/rpc_types.hpp>
#include <global/rpc/distributor.hpp>
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#include <daemon/handler/rpc_defs.hpp>
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#include <daemon/adafs_ops/metadentry.hpp>
#include <daemon/backend/metadata/db.hpp>
#include <daemon/backend/data/chunk_storage.hpp>
#include <boost/filesystem.hpp>
#include <boost/program_options.hpp>
#include <boost/tokenizer.hpp>
#include <iostream>
#include <fstream>
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#include <csignal>
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#include <condition_variable>
#include <global/global_func.hpp>
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using namespace std;
namespace po = boost::program_options;
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static condition_variable shutdown_please;
static mutex mtx;
bool init_environment() {
// Initialize metadata db
std::string metadata_path = ADAFS_DATA->metadir() + "/rocksdb"s;
try {
ADAFS_DATA->mdb(std::make_shared<MetadataDB>(metadata_path));
} catch (const std::exception & e) {
ADAFS_DATA->spdlogger()->error("{}() unable to initialize metadata DB: {}", __func__, e.what());
}
// Initialize data backend
std::string chunk_storage_path = ADAFS_DATA->rootdir() + "/data/chunks"s;
ADAFS_DATA->spdlogger()->debug("{}() Creating chunk storage directory: '{}'", __func__, chunk_storage_path);
bfs::create_directories(chunk_storage_path);
try {
ADAFS_DATA->storage(std::make_shared<ChunkStorage>(chunk_storage_path, CHUNKSIZE));
} catch (const std::exception & e) {
ADAFS_DATA->spdlogger()->error("{}() unable to initialize storage backend: {}", __func__, e.what());
}
if (!init_rpc_server()) {
ADAFS_DATA->spdlogger()->error("{}() unable to initialize margo rpc server.", __func__);
return false;
}
// Init Argobots ESs to drive IO
if (!init_io_tasklet_pool()) {
ADAFS_DATA->spdlogger()->error("{}() Unable to initialize Argobots pool for I/O.", __func__);
return false;
}
/* Setup distributor */
auto simple_hash_dist = std::make_shared<SimpleHashDistributor>(ADAFS_DATA->host_id(), ADAFS_DATA->host_size());
ADAFS_DATA->distributor(simple_hash_dist);
// TODO set metadata configurations. these have to go into a user configurable file that is parsed here
ADAFS_DATA->atime_state(MDATA_USE_ATIME);
ADAFS_DATA->mtime_state(MDATA_USE_MTIME);
ADAFS_DATA->ctime_state(MDATA_USE_CTIME);
ADAFS_DATA->uid_state(MDATA_USE_UID);
ADAFS_DATA->gid_state(MDATA_USE_GID);
ADAFS_DATA->inode_no_state(MDATA_USE_INODE_NO);
ADAFS_DATA->link_cnt_state(MDATA_USE_LINK_CNT);
ADAFS_DATA->blocks_state(MDATA_USE_BLOCKS);
create_metadentry("/", S_IFDIR | 777);
} catch (const std::exception& e ) {
ADAFS_DATA->spdlogger()->error("{}() Unable to write root metadentry to KV store: {}", __func__, e.what());
return false;
}
// Register daemon to system
if (!register_daemon_proc()) {
ADAFS_DATA->spdlogger()->error("{}() Unable to register the daemon process to the system.", __func__);
return false;
}
ADAFS_DATA->spdlogger()->info("Startup successful. Daemon is ready.");
return true;
}
/**
* Destroys the margo, argobots, and mercury environments
*/
void destroy_enviroment() {
#ifdef MARGODIAG
cout << "\n####################\n\nMargo RPC server stats: " << endl;
margo_diag_dump(RPC_DATA->server_rpc_mid(), "-", 0);
#endif
bfs::remove_all(ADAFS_DATA->mountdir());
for (unsigned int i = 0; i < RPC_DATA->io_streams().size(); i++) {
ABT_xstream_join(RPC_DATA->io_streams().at(i));
ABT_xstream_free(&RPC_DATA->io_streams().at(i));
}
ADAFS_DATA->spdlogger()->info("{}() Freeing I/O executions streams successful", __func__);
if (!deregister_daemon_proc())
ADAFS_DATA->spdlogger()->warn("{}() Unable to clean up auxiliary files", __func__);
else
ADAFS_DATA->spdlogger()->debug("{}() Cleaning auxiliary files successful", __func__);
if (RPC_DATA->server_rpc_mid() != nullptr) {
margo_finalize(RPC_DATA->server_rpc_mid());
ADAFS_DATA->spdlogger()->info("{}() Margo RPC server shut down successful", __func__);
}
ADAFS_DATA->spdlogger()->info("{}() Closing DB...", __func__);
ADAFS_DATA->close_mdb();
ADAFS_DATA->spdlogger()->info("All services shut down. ADA-FS shutdown complete.");
unsigned int xstreams_num = DAEMON_IO_XSTREAMS;
assert(xstreams_num >= 0);
//retrieve the pool of the just created scheduler
ABT_pool pool;
auto ret = ABT_pool_create_basic(ABT_POOL_FIFO_WAIT, ABT_POOL_ACCESS_MPMC, ABT_TRUE, &pool);
ADAFS_DATA->spdlogger()->error("{}() Failed to create I/O tasks pool", __func__);
//create all subsequent xstream and the associated scheduler, all tapping into the same pool
vector<ABT_xstream> xstreams(xstreams_num);
for (unsigned int i = 0; i < xstreams_num; ++i) {
ret = ABT_xstream_create_basic(ABT_SCHED_BASIC_WAIT, 1, &pool,
ABT_SCHED_CONFIG_NULL, &xstreams[i]);
if (ret != ABT_SUCCESS) {
ADAFS_DATA->spdlogger()->error("{}() Failed to create task execution streams for I/O operations", __func__);
return false;
}
}
RPC_DATA->io_streams(xstreams);
RPC_DATA->io_pool(pool);
auto protocol_port = RPC_PROTOCOL + "://"s + get_my_hostname(false) + ":"s + to_string(RPC_PORT);
hg_addr_t addr_self;
hg_size_t addr_self_cstring_sz = 128;
char addr_self_cstring[128];
ADAFS_DATA->spdlogger()->debug("{}() Initializing Margo RPC server...", __func__);
// IMPORTANT: this struct needs to be zeroed before use
struct hg_init_info hg_options = {};
hg_options.auto_sm = HG_TRUE;
hg_options.stats = HG_FALSE;
hg_options.na_class = nullptr;
// Start Margo (this will also initialize Argobots and Mercury internally)
auto mid = margo_init_info(protocol_port.c_str(), MARGO_SERVER_MODE, &hg_options, 1, DAEMON_RPC_HANDLER_XSTREAMS);
ADAFS_DATA->spdlogger()->error("{}() margo_init failed to initialize the Margo RPC server", __func__);
return false;
}
#ifdef MARGODIAG
margo_diag_start(mid);
#endif
// Figure out what address this server is listening on (must be freed when finished)
auto hret = margo_addr_self(mid, &addr_self);
if (hret != HG_SUCCESS) {
ADAFS_DATA->spdlogger()->error("{}() margo_addr_self() Failed to retrieve server RPC address", __func__);
return false;
}
// Convert the address to a cstring (with \0 terminator).
hret = margo_addr_to_string(mid, addr_self_cstring, &addr_self_cstring_sz, addr_self);
if (hret != HG_SUCCESS) {
ADAFS_DATA->spdlogger()->error("{}() margo_addr_to_string Failed to convert address to cstring", __func__);
margo_addr_free(mid, addr_self);
margo_finalize(mid);
return false;
}
std::string addr_self_str(addr_self_cstring);
RPC_DATA->self_addr_str(addr_self_str);
ADAFS_DATA->spdlogger()->info("{}() Margo RPC server initialized. Accepting RPCs on address {}", __func__,
addr_self_cstring);
// Put context and class into RPC_data object
// register RPCs
return true;
}
* Registers RPC handlers to Margo instance
void register_server_rpcs(margo_instance_id mid) {
MARGO_REGISTER(mid, hg_tag::fs_config, ipc_config_in_t, ipc_config_out_t, ipc_srv_fs_config);
MARGO_REGISTER(mid, hg_tag::minimal, rpc_minimal_in_t, rpc_minimal_out_t, rpc_minimal);
MARGO_REGISTER(mid, hg_tag::create, rpc_mk_node_in_t, rpc_err_out_t, rpc_srv_mk_node);
MARGO_REGISTER(mid, hg_tag::access, rpc_access_in_t, rpc_err_out_t, rpc_srv_access);
MARGO_REGISTER(mid, hg_tag::stat, rpc_path_only_in_t, rpc_stat_out_t, rpc_srv_stat);
MARGO_REGISTER(mid, hg_tag::remove, rpc_rm_node_in_t, rpc_err_out_t, rpc_srv_rm_node);
MARGO_REGISTER(mid, hg_tag::update_metadentry, rpc_update_metadentry_in_t, rpc_err_out_t,
MARGO_REGISTER(mid, hg_tag::get_metadentry_size, rpc_path_only_in_t, rpc_get_metadentry_size_out_t,
rpc_srv_get_metadentry_size);
MARGO_REGISTER(mid, hg_tag::update_metadentry_size, rpc_update_metadentry_size_in_t,
rpc_update_metadentry_size_out_t, rpc_srv_update_metadentry_size);
MARGO_REGISTER(mid, hg_tag::get_dirents, rpc_get_dirents_in_t, rpc_get_dirents_out_t,
rpc_srv_get_dirents);
MARGO_REGISTER(mid, hg_tag::write_data, rpc_write_data_in_t, rpc_data_out_t, rpc_srv_write_data);
MARGO_REGISTER(mid, hg_tag::read_data, rpc_read_data_in_t, rpc_data_out_t, rpc_srv_read_data);
}
/**
* Registers the daemon process to the system.
* This will create a file with additional information for clients started on the same node.
* @return
*/
bool register_daemon_proc() {
auto daemon_aux_path = DAEMON_AUX_PATH;
if (!bfs::exists(daemon_aux_path) && !bfs::create_directories(daemon_aux_path)) {
ADAFS_DATA->spdlogger()->error("{}() Unable to create adafs auxiliary directory in {}", __func__,
daemon_aux_path);
return false;
}
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auto pid_file = daemon_pid_path();
// check if a pid file exists from another adafs_daemon
if (bfs::exists(pid_file)) {
// check if another daemon is still running
ifstream ifs(pid_file, ::ifstream::in);
if (ifs) {
string running_pid;
// first line is pid of daemon
if (getline(ifs, running_pid) && !running_pid.empty()) {
// check if pid is running and kill it
if (kill(::stoi(running_pid), 0) == 0) {
ADAFS_DATA->spdlogger()->warn("{}() Daemon with pid {} is already running. Proceed to force kill",
__func__, running_pid);
kill(::stoi(running_pid), SIGKILL);
sleep(1);
if (kill(::stoi(running_pid), 0) == 0) {
ADAFS_DATA->spdlogger()->error("{}() Running daemon with pid {} cannot be killed. Exiting ...",
__func__, running_pid);
ifs.close();
return false;
} else
ADAFS_DATA->spdlogger()->info("{}() Kill successful", __func__);
}
}
}
ifs.close();
}
auto my_pid = getpid();
if (my_pid == -1) {
ADAFS_DATA->spdlogger()->error("{}() Unable to get pid", __func__);
return false;
}
ofstream ofs(pid_file, ::ofstream::trunc);
if (ofs) {
ofs << to_string(my_pid) << std::endl;
ofs << RPC_DATA->self_addr_str() << std::endl;
ofs << ADAFS_DATA->mountdir() << std::endl;
} else {
cerr << "Unable to create daemon pid file at " << pid_file << endl;
ADAFS_DATA->spdlogger()->error("{}() Unable to create daemon pid file at {}. No permissions?", __func__,
pid_file);
return false;
}
ofs.close();
return true;
}
bool deregister_daemon_proc() {
return bfs::remove(daemon_pid_path());
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}
void shutdown_handler(int dummy) {
shutdown_please.notify_all();
}
std::string path = DEFAULT_DAEMON_LOG_PATH;
// Try to get log path from env variable
std::string env_path_key = ENV_PREFIX;
env_path_key += "DAEMON_LOG_PATH";
char* env_path = getenv(env_path_key.c_str());
if (env_path != nullptr) {
path = env_path;
}
spdlog::level::level_enum level = get_spdlog_level(DEFAULT_DAEMON_LOG_LEVEL);
// Try to get log path from env variable
std::string env_level_key = ENV_PREFIX;
env_level_key += "LOG_LEVEL";
char* env_level = getenv(env_level_key.c_str());
if (env_level != nullptr) {
level = get_spdlog_level(env_level);
}
auto logger_names = std::vector<std::string>{
"main",
setup_loggers(logger_names, level, path);
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initialize_loggers();
ADAFS_DATA->spdlogger(spdlog::get("main"));
// Parse input
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po::options_description desc("Allowed options");
desc.add_options()
("help,h", "Help message")
("mountdir,m", po::value<string>()->required(), "User Fuse mountdir")
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("rootdir,r", po::value<string>()->required(), "ADA-FS data directory")
("metadir,i", po::value<string>(), "ADA-FS metadata directory, if not set rootdir is used for metadata ")
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("hostfile", po::value<string>(), "Path to the hosts_file for all fs participants")
("hosts,h", po::value<string>(), "Comma separated list of hosts_ for all fs participants");
po::variables_map vm;
po::store(po::parse_command_line(argc, argv, desc), vm);
if (vm.count("help")) {
cout << desc << "\n";
return 1;
}
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try {
po::notify(vm);
} catch (po::required_option& e) {
std::cerr << "Error: " << e.what() << "\n";
return 1;
}
if (vm.count("mountdir")) {
ADAFS_DATA->mountdir(vm["mountdir"].as<string>());
}
if (vm.count("rootdir")) {
ADAFS_DATA->rootdir(vm["rootdir"].as<string>());
}
if (vm.count("metadir")) {
ADAFS_DATA->metadir(vm["metadir"].as<string>());
} else if (vm.count("rootdir")) {
ADAFS_DATA->metadir(vm["rootdir"].as<string>());
}
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// parse host parameters
vector<string> hosts{};
if (vm.count("hostfile")) {
auto host_path = vm["hostfile"].as<string>();
fstream host_file(host_path);
if (host_file.is_open()) {
for (string line; getline(host_file, line);) {
if (line.at(0) != '#') {
auto subline = line.substr(0, line.find(' '));
hosts.push_back(subline);
}
}
} else {
cerr << "Hostfile path does not exist. Exiting ..." << endl;
ADAFS_DATA->spdlogger()->error("{}() Hostfile path does not exist. Exiting ...", __func__);
assert(host_file.is_open());
}
} else if (vm.count("hosts")) {
// split comma separated host string
boost::char_separator<char> sep(",");
boost::tokenizer<boost::char_separator<char>> tok(vm["hosts"].as<string>(), sep);
for (auto&& s : tok) {
hosts.push_back(s);
}
}
// convert host parameters into datastructures
std::map<uint64_t, std::string> hostmap;
auto hosts_raw = ""s;
if (!hosts.empty()) {
auto i = static_cast<uint64_t>(0);
auto found_hostname = false;
auto hostname = get_my_hostname(true);
if (hostname.empty()) {
cerr << "Unable to read the machine's hostname" << endl;
ADAFS_DATA->spdlogger()->error("{}() Unable to read the machine's hostname", __func__);
assert(!hostname.empty());
}
for (auto&& host : hosts) {
hostmap[i] = host;
hosts_raw += host + ","s;
if (hostname == host) {
ADAFS_DATA->host_id(i);
found_hostname = true;
}
i++;
}
if (!found_hostname) {
ADAFS_DATA->spdlogger()->error("{}() Hostname was not found in given parameters. Exiting ...", __func__);
cerr << "Hostname was not found in given parameters. Exiting ..." << endl;
assert(found_hostname);
}
hosts_raw = hosts_raw.substr(0, hosts_raw.size() - 1);
} else {
// single node mode
ADAFS_DATA->spdlogger()->info("{}() Single node mode set to self", __func__);
auto hostname = get_my_hostname(false);
hostmap[0] = hostname;
hosts_raw = hostname;
ADAFS_DATA->host_id(0);
}
ADAFS_DATA->hosts(hostmap);
ADAFS_DATA->host_size(hostmap.size());
ADAFS_DATA->rpc_port(fmt::format_int(RPC_PORT).str());
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ADAFS_DATA->hosts_raw(hosts_raw);
ADAFS_DATA->spdlogger()->info("{}() Initializing environment. Hold on ...", __func__);
// Make sure directory structure exists
bfs::create_directories(ADAFS_DATA->metadir());
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// Create mountdir. We use this dir to get some information on the underlying fs with statfs in adafs_statfs
bfs::create_directories(ADAFS_DATA->mountdir());
if (init_environment()) {
signal(SIGINT, shutdown_handler);
signal(SIGTERM, shutdown_handler);
signal(SIGKILL, shutdown_handler);
unique_lock<mutex> lk(mtx);
// Wait for shutdown signal to initiate shutdown protocols
shutdown_please.wait(lk);
ADAFS_DATA->spdlogger()->info("{}() Shutting done signal encountered. Shutting down ...", __func__);
} else {
ADAFS_DATA->spdlogger()->info("{}() Starting up daemon environment failed. Shutting down ...", __func__);
}
destroy_enviroment();
return 0;