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#include <daemon/adafs_daemon.hpp>
#include <db/db_util.hpp>
#include <rpc/rpc_types.hpp>
#include <rpc/rpc_defs.hpp>
#include <preload/ipc_types.hpp>
void init_environment() {
// Initialize rocksdb
auto err = init_rocksdb();
assert(err);
// init margo
err = init_rpc_server();
assert(err);
err = init_ipc_server();
assert(err);
// 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 for root directory
create_metadentry(ADAFS_DATA->mountdir(), S_IFDIR | 777);
}
/**
* Destroys the margo, argobots, and mercury environments
*/
void destroy_enviroment() {
#ifdef MARGODIAG
cout << "\n####################\n\nMargo IPC server stats: " << endl;
margo_diag_dump(RPC_DATA->server_ipc_mid(), "-", 0);
cout << "\n####################\n\nMargo RPC server stats: " << endl;
margo_diag_dump(RPC_DATA->server_rpc_mid(), "-", 0);
#endif
ADAFS_DATA->spdlogger()->info("About to finalize the margo server");
// The shutdown order is important because the RPC server is started first, it has to be stopped last due to Argobots
margo_finalize(RPC_DATA->server_ipc_mid());
ADAFS_DATA->spdlogger()->info("Shut down Margo IPC server successful");
margo_finalize(RPC_DATA->server_rpc_mid());
ADAFS_DATA->spdlogger()->info("Shut down Margo RPC server successful");
ADAFS_DATA->spdlogger()->info("All services shut down. ADA-FS shutdown complete.");
bool init_ipc_server() {
auto protocol_port = "na+sm://"s;
hg_addr_t addr_self;
hg_size_t addr_self_cstring_sz = 128;
char addr_self_cstring[128];
ADAFS_DATA->spdlogger()->info("Initializing Margo IPC server...");
// Start Margo (this will also initialize Argobots and Mercury internally)
auto mid = margo_init(protocol_port.c_str(), MARGO_SERVER_MODE, 1, 16);
if (mid == MARGO_INSTANCE_NULL) {
ADAFS_DATA->spdlogger()->error("margo_init failed to initialize the Margo IPC server");
#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 IPC address");
margo_finalize(mid);
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");
margo_addr_free(mid, addr_self);
margo_finalize(mid);
ADAFS_DATA->spdlogger()->info("Success. Accepting IPCs on PID {}", addr_self_cstring);
// Put context and class into RPC_data object
bool init_rpc_server() {
auto protocol_port = RPC_PROTOCOL + "://localhost:"s + to_string(RPCPORT);
hg_addr_t addr_self;
hg_size_t addr_self_cstring_sz = 128;
char addr_self_cstring[128];
ADAFS_DATA->spdlogger()->info("Initializing Margo RPC server...");
// Start Margo (this will also initialize Argobots and Mercury internally)
auto mid = margo_init(protocol_port.c_str(), MARGO_SERVER_MODE, 1, 16);
if (mid == MARGO_INSTANCE_NULL) {
ADAFS_DATA->spdlogger()->error("margo_init failed to initialize the Margo RPC server");
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");
margo_finalize(mid);
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");
margo_addr_free(mid, addr_self);
margo_finalize(mid);
return false;
}
ADAFS_DATA->spdlogger()->info("Success. Accepting RPCs on address {}", addr_self_cstring);
// Put context and class into RPC_data object
// register RPCs
return true;
}
void register_server_rpcs(margo_instance_id mid) {
if (RPC_DATA->server_ipc_mid() == 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_stat_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::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::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);