-/*
- The rpcc class handles client-side RPC. Each rpcc is bound to a
- single RPC server. The jobs of rpcc include maintaining a connection to
- server, sending RPC requests and waiting for responses, retransmissions,
- at-most-once delivery etc.
-
- The rpcs class handles the server side of RPC. Each rpcs handles multiple
- connections from different rpcc objects. The jobs of rpcs include accepting
- connections, dispatching requests to registered RPC handlers, at-most-once
- delivery etc.
-
- Both rpcc and rpcs use the connection class as an abstraction for the
- underlying communication channel. To send an RPC request/reply, one calls
- connection::send() which blocks until data is sent or the connection has failed
- (thus the caller can free the buffer when send() returns). When a
- request/reply is received, connection makes a callback into the corresponding
- rpcc or rpcs (see rpcc::got_pdu() and rpcs::got_pdu()).
-
- Thread organization:
- rpcc uses application threads to send RPC requests and blocks to receive the
- reply or error. All connections use a single PollMgr object to perform async
- socket IO. PollMgr creates a single thread to examine the readiness of socket
- file descriptors and informs the corresponding connection whenever a socket is
- ready to be read or written. (We use asynchronous socket IO to reduce the
- number of threads needed to manage these connections; without async IO, at
- least one thread is needed per connection to read data without blocking other
- activities.) Each rpcs object creates one thread for listening on the server
- port and a pool of threads for executing RPC requests. The
- thread pool allows us to control the number of threads spawned at the server
- (spawning one thread per request will hurt when the server faces thousands of
- requests).
-
- In order to delete a connection object, we must maintain a reference count.
- For rpcc,
- multiple client threads might be invoking the rpcc::call() functions and thus
- holding multiple references to the underlying connection object. For rpcs,
- multiple dispatch threads might be holding references to the same connection
- object. A connection object is deleted only when the underlying connection is
- dead and the reference count reaches zero.
-
- This version of the RPC library explicitly joins exited threads to make sure
- no outstanding references exist before deleting objects.
-
- To delete a rpcc object safely, the users of the library must ensure that
- there are no outstanding calls on the rpcc object.
-
- To delete a rpcs object safely, we do the following in sequence: 1. stop
- accepting new incoming connections. 2. close existing active connections.
- 3. delete the dispatch thread pool which involves waiting for current active
- RPC handlers to finish. It is interesting how a thread pool can be deleted
- without using thread cancellation. The trick is to inject x "poison pills" for
- a thread pool of x threads. Upon getting a poison pill instead of a normal
- task, a worker thread will exit (and thread pool destructor waits to join all
- x exited worker threads).
- */
+//
+// The rpcc class handles client-side RPC. Each rpcc is bound to a single RPC
+// server. The jobs of rpcc include maintaining a connection to server, sending
+// RPC requests and waiting for responses, retransmissions, at-most-once delivery
+// etc.
+//
+// The rpcs class handles the server side of RPC. Each rpcs handles multiple
+// connections from different rpcc objects. The jobs of rpcs include accepting
+// connections, dispatching requests to registered RPC handlers, at-most-once
+// delivery etc.
+//
+// Both rpcc and rpcs use the connection class as an abstraction for the
+// underlying communication channel. To send an RPC request/reply, one calls
+// connection::send() which blocks until data is sent or the connection has
+// failed (thus the caller can free the buffer when send() returns). When a
+// request/reply is received, connection makes a callback into the corresponding
+// rpcc or rpcs (see rpcc::got_pdu() and rpcs::got_pdu()).
+//
+// Thread organization:
+// rpcc uses application threads to send RPC requests and blocks to receive the
+// reply or error. All connections use a single PollMgr object to perform async
+// socket IO. PollMgr creates a single thread to examine the readiness of socket
+// file descriptors and informs the corresponding connection whenever a socket is
+// ready to be read or written. (We use asynchronous socket IO to reduce the
+// number of threads needed to manage these connections; without async IO, at
+// least one thread is needed per connection to read data without blocking other
+// activities.) Each rpcs object creates one thread for listening on the server
+// port and a pool of threads for executing RPC requests. The thread pool allows
+// us to control the number of threads spawned at the server (spawning one thread
+// per request will hurt when the server faces thousands of requests).
+//
+// In order to delete a connection object, we must maintain a reference count.
+// For rpcc, multiple client threads might be invoking the rpcc::call() functions
+// and thus holding multiple references to the underlying connection object. For
+// rpcs, multiple dispatch threads might be holding references to the same
+// connection object. A connection object is deleted only when the underlying
+// connection is dead and the reference count reaches zero.
+//
+// This version of the RPC library explicitly joins exited threads to make sure
+// no outstanding references exist before deleting objects.
+//
+// To delete a rpcc object safely, the users of the library must ensure that
+// there are no outstanding calls on the rpcc object.
+//
+// To delete a rpcs object safely, we do the following in sequence: 1. stop
+// accepting new incoming connections. 2. close existing active connections. 3.
+// delete the dispatch thread pool which involves waiting for current active RPC
+// handlers to finish. It is interesting how a thread pool can be deleted
+// without using thread cancellation. The trick is to inject x "poison pills" for
+// a thread pool of x threads. Upon getting a poison pill instead of a normal
+// task, a worker thread will exit (and thread pool destructor waits to join all
+// x exited worker threads).
+//
#include "rpc.h"
-#include <sys/types.h>
#include <arpa/inet.h>
#include <netinet/tcp.h>
#include <netdb.h>
#include <unistd.h>
-#include "lock.h"
-
-#include "jsl_log.h"
-#include "threaded_log.h"
-#include "lang/verify.h"
-
-using std::stoi;
-
-const rpcc::TO rpcc::to_max = { 120000 };
-const rpcc::TO rpcc::to_min = { 1000 };
-
-rpcc::caller::caller(int xxid, unmarshall *xun)
-: xid(xxid), un(xun), done(false)
-{
-}
-
-rpcc::caller::~caller()
-{
-}
+#include <string.h>
-inline
-void set_rand_seed()
-{
- auto now = std::chrono::time_point_cast<std::chrono::nanoseconds>(std::chrono::steady_clock::now());
+inline void set_rand_seed() {
+ auto now = time_point_cast<nanoseconds>(steady_clock::now());
srandom((uint32_t)now.time_since_epoch().count()^(uint32_t)getpid());
}
-rpcc::rpcc(const string & d, bool retrans) :
- dst_(make_sockaddr(d)), srv_nonce_(0), bind_done_(false), xid_(1), lossytest_(0),
- retrans_(retrans), reachable_(true), chan_(NULL), destroy_wait_ (false), xid_rep_done_(-1)
+static sockaddr_in make_sockaddr(const string & hostandport);
+
+rpcc::rpcc(const string & d) : dst_(make_sockaddr(d))
{
- if(retrans){
- set_rand_seed();
- clt_nonce_ = (unsigned int)random();
- } else {
- // special client nonce 0 means this client does not
- // require at-most-once logic from the server
- // because it uses tcp and never retries a failed connection
- clt_nonce_ = 0;
- }
+ set_rand_seed();
+ clt_nonce_ = (nonce_t)random();
char *loss_env = getenv("RPC_LOSSY");
- if(loss_env != NULL){
+ if (loss_env)
lossytest_ = atoi(loss_env);
- }
- // xid starts with 1 and latest received reply starts with 0
- xid_rep_window_.push_back(0);
-
- jsl_log(JSL_DBG_2, "rpcc::rpcc cltn_nonce is %d lossy %d\n",
- clt_nonce_, lossytest_);
+ IF_LEVEL(2) LOG("cltn_nonce is " << clt_nonce_ << " lossy " << lossytest_);
}
// IMPORTANT: destruction should happen only when no external threads
// are blocked inside rpcc or will use rpcc in the future
-rpcc::~rpcc()
-{
- jsl_log(JSL_DBG_2, "rpcc::~rpcc delete nonce %d channo=%d\n",
- clt_nonce_, chan_?chan_->channo():-1);
- if(chan_){
- chan_->closeconn();
- chan_->decref();
- }
+rpcc::~rpcc() {
+ cancel();
+ IF_LEVEL(2) LOG("delete nonce " << clt_nonce_ << " chan " << (chan_?(int)chan_->fd:-1));
+ chan_.reset();
VERIFY(calls_.size() == 0);
}
-int
-rpcc::bind(TO to)
-{
- unsigned int r;
- int ret = call_timeout(rpc_const::bind, to, r, 0);
- if(ret == 0){
+int rpcc::bind(milliseconds to) {
+ nonce_t r;
+ rpc_protocol::status ret = call_timeout(rpc_protocol::bind, to, r);
+ if (ret == 0) {
lock ml(m_);
bind_done_ = true;
srv_nonce_ = r;
} else {
- jsl_log(JSL_DBG_2, "rpcc::bind %s failed %d\n",
- inet_ntoa(dst_.sin_addr), ret);
+ IF_LEVEL(2) LOG("bind " << inet_ntoa(dst_.sin_addr) << " failed " << ret);
}
return ret;
};
// Cancel all outstanding calls
- void
-rpcc::cancel(void)
-{
+void rpcc::cancel(void) {
lock ml(m_);
- LOG("rpcc::cancel: force callers to fail");
- for(auto &p : calls_){
- caller *ca = p.second;
+ if (calls_.size()) {
+ LOG("force callers to fail");
+ for (auto & p : calls_) {
+ caller *ca = p.second;
+
+ IF_LEVEL(2) LOG("force caller to fail");
- jsl_log(JSL_DBG_2, "rpcc::cancel: force caller to fail\n");
- {
lock cl(ca->m);
ca->done = true;
- ca->intret = rpc_const::cancel_failure;
+ ca->intret = rpc_protocol::cancel_failure;
ca->c.notify_one();
}
- }
- while (calls_.size () > 0){
destroy_wait_ = true;
- destroy_wait_c_.wait(ml);
+ while (calls_.size () > 0)
+ destroy_wait_c_.wait(ml);
+
+ LOG("done");
}
- LOG("rpcc::cancel: done");
}
-int
-rpcc::call1(proc_t proc, marshall &req, unmarshall &rep,
- TO to)
-{
+int rpcc::call1(proc_id_t proc, milliseconds to, string & rep, marshall & req) {
caller ca(0, &rep);
- int xid_rep;
+ xid_t xid_rep;
{
lock ml(m_);
- if((proc != rpc_const::bind && !bind_done_) ||
- (proc == rpc_const::bind && bind_done_)){
- jsl_log(JSL_DBG_1, "rpcc::call1 rpcc has not been bound to dst or binding twice\n");
- return rpc_const::bind_failure;
+ if ((proc != rpc_protocol::bind.id && !bind_done_) || (proc == rpc_protocol::bind.id && bind_done_)) {
+ IF_LEVEL(1) LOG("rpcc has not been bound to dst or binding twice");
+ return rpc_protocol::bind_failure;
}
- if(destroy_wait_){
- return rpc_const::cancel_failure;
- }
+ if (destroy_wait_)
+ return rpc_protocol::cancel_failure;
ca.xid = xid_++;
calls_[ca.xid] = &ca;
- req.pack_req_header({ca.xid, proc, clt_nonce_, srv_nonce_, xid_rep_window_.front()});
+ req.pack_header(rpc_protocol::request_header{
+ ca.xid, proc, clt_nonce_, srv_nonce_, xid_rep_window_.front()
+ });
xid_rep = xid_rep_window_.front();
}
- TO curr_to;
- std::chrono::time_point<std::chrono::steady_clock> finaldeadline =
- std::chrono::steady_clock::now() +
- std::chrono::milliseconds(to.to),
- nextdeadline;
-
- curr_to.to = to_min.to;
+ milliseconds curr_to = rpc::to_min;
+ auto finaldeadline = steady_clock::now() + to;
bool transmit = true;
- connection *ch = NULL;
+ shared_ptr<connection> ch;
- while (1){
- if(transmit){
- get_refconn(&ch);
- if(ch){
- if(reachable_) {
+ while (1) {
+ if (transmit) {
+ get_latest_connection(ch);
+ if (ch) {
+ if (reachable_) {
request forgot;
{
lock ml(m_);
}
}
if (forgot.isvalid())
- ch->send((char *)forgot.buf.c_str(), forgot.buf.size());
- ch->send(req.cstr(), req.size());
+ ch->send(forgot.buf);
+ ch->send(req);
}
- else jsl_log(JSL_DBG_1, "not reachable\n");
- jsl_log(JSL_DBG_2,
- "rpcc::call1 %u just sent req proc %x xid %d clt_nonce %d\n",
- clt_nonce_, proc, ca.xid, clt_nonce_);
+ else IF_LEVEL(1) LOG("not reachable");
+ IF_LEVEL(2) LOG(clt_nonce_ << " just sent req proc " << hex << proc <<
+ " xid " << dec << ca.xid << " clt_nonce " << clt_nonce_);
}
transmit = false; // only send once on a given channel
}
- if(finaldeadline == std::chrono::time_point<std::chrono::steady_clock>::min())
- break;
-
- nextdeadline = std::chrono::steady_clock::now() + std::chrono::milliseconds(curr_to.to);
- if(nextdeadline > finaldeadline) {
- nextdeadline = finaldeadline;
- finaldeadline = std::chrono::time_point<std::chrono::steady_clock>::min();
- }
+ auto nextdeadline = min(steady_clock::now() + curr_to, finaldeadline);
+ curr_to *= 2;
{
lock cal(ca.m);
- while (!ca.done){
- jsl_log(JSL_DBG_2, "rpcc:call1: wait\n");
- if(ca.c.wait_until(cal, nextdeadline) == std::cv_status::timeout){
- jsl_log(JSL_DBG_2, "rpcc::call1: timeout\n");
+ while (!ca.done) {
+ IF_LEVEL(2) LOG("wait");
+ if (ca.c.wait_until(cal, nextdeadline) == cv_status::timeout) {
+ IF_LEVEL(2) LOG("timeout");
break;
}
}
- if(ca.done){
- jsl_log(JSL_DBG_2, "rpcc::call1: reply received\n");
+ if (ca.done) {
+ IF_LEVEL(2) LOG("reply received");
break;
}
}
- if(retrans_ && (!ch || ch->isdead())){
- // since connection is dead, retransmit
- // on the new connection
+ if (nextdeadline >= finaldeadline)
+ break;
+
+ // retransmit on new connection if connection is dead
+ if (!ch || ch->isdead())
transmit = true;
- }
- curr_to.to <<= 1;
}
{
// may need to update the xid again here, in case the
// packet times out before it's even sent by the channel.
// I don't think there's any harm in maybe doing it twice
- update_xid_rep(ca.xid);
+ update_xid_rep(ca.xid, ml);
- if(destroy_wait_){
- destroy_wait_c_.notify_one();
- }
+ if (destroy_wait_)
+ destroy_wait_c_.notify_one();
}
if (ca.done && lossytest_)
{
lock ml(m_);
if (!dup_req_.isvalid()) {
- dup_req_.buf.assign(req.cstr(), req.size());
+ dup_req_.buf = req;
dup_req_.xid = ca.xid;
}
if (xid_rep > xid_rep_done_)
lock cal(ca.m);
- jsl_log(JSL_DBG_2,
- "rpcc::call1 %u call done for req proc %x xid %d %s:%d done? %d ret %d \n",
- clt_nonce_, proc, ca.xid, inet_ntoa(dst_.sin_addr),
- ntohs(dst_.sin_port), ca.done, ca.intret);
-
- if(ch)
- ch->decref();
+ IF_LEVEL(2) LOG(clt_nonce_ << " call done for req proc " << hex << proc <<
+ " xid " << dec << ca.xid << " " << inet_ntoa(dst_.sin_addr) << ":" <<
+ ntoh(dst_.sin_port) << " done? " << ca.done << " ret " << ca.intret);
// destruction of req automatically frees its buffer
- return (ca.done? ca.intret : rpc_const::timeout_failure);
+ return (ca.done? ca.intret : rpc_protocol::timeout_failure);
}
-void
-rpcc::get_refconn(connection **ch)
-{
+void rpcc::get_latest_connection(shared_ptr<connection> & ch) {
lock ml(chan_m_);
- if(!chan_ || chan_->isdead()){
- if(chan_)
- chan_->decref();
- chan_ = connect_to_dst(dst_, this, lossytest_);
- }
- if(ch && chan_){
- if(*ch){
- (*ch)->decref();
- }
- *ch = chan_;
- (*ch)->incref();
- }
+ if (!chan_ || chan_->isdead())
+ chan_ = connection::to_dst(dst_, this, lossytest_);
+
+ if (chan_)
+ ch = chan_;
}
// PollMgr's thread is being used to
//
// this function keeps no reference for connection *c
bool
-rpcc::got_pdu(connection *, char *b, size_t sz)
+rpcc::got_pdu(const shared_ptr<connection> &, const string & b)
{
- unmarshall rep(b, sz);
- reply_header h;
- rep.unpack_reply_header(&h);
+ unmarshall rep(b, true);
+ rpc_protocol::reply_header h;
+ rep.unpack_header(h);
- if(!rep.ok()){
- jsl_log(JSL_DBG_1, "rpcc:got_pdu unmarshall header failed!!!\n");
+ if (!rep.ok()) {
+ IF_LEVEL(1) LOG("unmarshall header failed!!!");
return true;
}
lock ml(m_);
- update_xid_rep(h.xid);
+ update_xid_rep(h.xid, ml);
- if(calls_.find(h.xid) == calls_.end()){
- jsl_log(JSL_DBG_2, "rpcc::got_pdu xid %d no pending request\n", h.xid);
+ if (calls_.find(h.xid) == calls_.end()) {
+ IF_LEVEL(2) LOG("xid " << h.xid << " no pending request");
return true;
}
caller *ca = calls_[h.xid];
lock cl(ca->m);
- if(!ca->done){
- ca->un->take_in(rep);
+ if (!ca->done) {
+ *ca->rep = b;
ca->intret = h.ret;
- if(ca->intret < 0){
- jsl_log(JSL_DBG_2, "rpcc::got_pdu: RPC reply error for xid %d intret %d\n",
- h.xid, ca->intret);
+ if (ca->intret < 0) {
+ IF_LEVEL(2) LOG("RPC reply error for xid " << h.xid << " intret " << ca->intret);
}
ca->done = 1;
}
return true;
}
-// assumes thread holds mutex m
-void
-rpcc::update_xid_rep(int xid)
-{
- if(xid <= xid_rep_window_.front()){
+void rpcc::update_xid_rep(xid_t xid, lock & m_lock) {
+ VERIFY(m_lock);
+ if (xid <= xid_rep_window_.front())
return;
- }
- for (auto it = xid_rep_window_.begin(); it != xid_rep_window_.end(); it++){
- if(*it > xid){
+ for (auto it = xid_rep_window_.begin(); it != xid_rep_window_.end(); it++) {
+ if (*it > xid) {
xid_rep_window_.insert(it, xid);
goto compress;
}
compress:
auto it = xid_rep_window_.begin();
- for (it++; it != xid_rep_window_.end(); it++){
+ for (it++; it != xid_rep_window_.end(); it++) {
while (xid_rep_window_.front() + 1 == *it)
xid_rep_window_.pop_front();
}
}
-rpcs::rpcs(unsigned int p1, size_t count)
- : port_(p1), counting_(count), curr_counts_(count), lossytest_(0), reachable_ (true)
+rpcs::rpcs(in_port_t p1) : port_(p1)
{
set_rand_seed();
- nonce_ = (unsigned int)random();
- jsl_log(JSL_DBG_2, "rpcs::rpcs created with nonce %d\n", nonce_);
+ nonce_ = (nonce_t)random();
+ IF_LEVEL(2) LOG("created with nonce " << nonce_);
- char *loss_env = getenv("RPC_LOSSY");
- if(loss_env != NULL){
- lossytest_ = atoi(loss_env);
- }
-
- reg(rpc_const::bind, &rpcs::rpcbind, this);
- dispatchpool_ = new ThrPool(6,false);
+ reg(rpc_protocol::bind, &rpcs::rpcbind, this);
+}
- listener_ = new tcpsconn(this, port_, lossytest_);
+void rpcs::start() {
+ char *loss_env = getenv("RPC_LOSSY");
+ listener_.reset(new connection_listener(this, port_, loss_env ? atoi(loss_env) : 0));
}
-rpcs::~rpcs()
-{
+rpcs::~rpcs() {
// must delete listener before dispatchpool
- delete listener_;
- delete dispatchpool_;
- free_reply_window();
+ listener_ = nullptr;
+ dispatchpool_ = nullptr;
}
-bool
-rpcs::got_pdu(connection *c, char *b, size_t sz)
-{
- if(!reachable_){
- jsl_log(JSL_DBG_1, "rpcss::got_pdu: not reachable\n");
- return true;
- }
-
- djob_t *j = new djob_t(c, b, sz);
- c->incref();
- bool succ = dispatchpool_->addJob(std::bind(&rpcs::dispatch, this, j));
- if(!succ || !reachable_){
- c->decref();
- delete j;
+bool rpcs::got_pdu(const shared_ptr<connection> & c, const string & b) {
+ if (!reachable_) {
+ IF_LEVEL(1) LOG("not reachable");
+ return true;
}
- return succ;
-}
-void
-rpcs::reg1(proc_t proc, handler *h)
-{
- lock pl(procs_m_);
- VERIFY(procs_.count(proc) == 0);
- procs_[proc] = h;
- VERIFY(procs_.count(proc) >= 1);
+ return dispatchpool_->addJob(std::bind(&rpcs::dispatch, this, c, b));
}
-void
-rpcs::updatestat(proc_t proc)
-{
- lock cl(count_m_);
- counts_[proc]++;
- curr_counts_--;
- if(curr_counts_ == 0){
- LOG("RPC STATS: ");
- for (auto i = counts_.begin(); i != counts_.end(); i++)
- LOG(std::hex << i->first << ":" << std::dec << i->second);
+void rpcs::dispatch(shared_ptr<connection> c, const string & buf) {
+ unmarshall req(buf, true);
- lock rwl(reply_window_m_);
- map<unsigned int,list<reply_t> >::iterator clt;
+ rpc_protocol::request_header h;
+ req.unpack_header(h);
+ proc_id_t proc = h.proc;
- size_t totalrep = 0, maxrep = 0;
- for (clt = reply_window_.begin(); clt != reply_window_.end(); clt++){
- totalrep += clt->second.size();
- if(clt->second.size() > maxrep)
- maxrep = clt->second.size();
- }
- jsl_log(JSL_DBG_1, "REPLY WINDOW: clients %d total reply %lu max per client %lu\n",
- (int) reply_window_.size()-1, totalrep, maxrep);
- curr_counts_ = counting_;
- }
-}
-
-void
-rpcs::dispatch(djob_t *j)
-{
- connection *c = j->conn;
- unmarshall req(j->buf, j->sz);
- delete j;
-
- request_header h;
- req.unpack_req_header(&h);
- proc_t proc = h.proc;
-
- if(!req.ok()){
- jsl_log(JSL_DBG_1, "rpcs:dispatch unmarshall header failed!!!\n");
- c->decref();
+ if (!req.ok()) {
+ IF_LEVEL(1) LOG("unmarshall header failed");
return;
}
- jsl_log(JSL_DBG_2,
- "rpcs::dispatch: rpc %d (proc %x, last_rep %d) from clt %u for srv instance %u \n",
- h.xid, proc, h.xid_rep, h.clt_nonce, h.srv_nonce);
+ IF_LEVEL(2) LOG("rpc " << h.xid << " (proc " << hex << proc << ", last_rep " <<
+ dec << h.xid_rep << ") from clt " << h.clt_nonce << " for srv instance " << h.srv_nonce);
marshall rep;
- reply_header rh(h.xid,0);
+ rpc_protocol::reply_header rh{h.xid,0};
// is client sending to an old instance of server?
- if(h.srv_nonce != 0 && h.srv_nonce != nonce_){
- jsl_log(JSL_DBG_2,
- "rpcs::dispatch: rpc for an old server instance %u (current %u) proc %x\n",
- h.srv_nonce, nonce_, h.proc);
- rh.ret = rpc_const::oldsrv_failure;
- rep.pack_reply_header(rh);
- c->send(rep.cstr(),rep.size());
+ if (h.srv_nonce != 0 && h.srv_nonce != nonce_) {
+ IF_LEVEL(2) LOG("rpc for an old server instance " << h.srv_nonce <<
+ " (current " << nonce_ << ") proc " << hex << h.proc);
+ rh.ret = rpc_protocol::oldsrv_failure;
+ rep.pack_header(rh);
+ c->send(rep);
return;
}
// is RPC proc a registered procedure?
{
lock pl(procs_m_);
- if(procs_.count(proc) < 1){
- fprintf(stderr, "rpcs::dispatch: unknown proc %x.\n",
- proc);
- c->decref();
- VERIFY(0);
+ if (procs_.count(proc) < 1) {
+ LOG("unknown proc 0x" << hex << proc << " with h.srv_nonce=" << h.srv_nonce << ", my srv_nonce=" << nonce_);
+ VERIFY(0);
return;
}
f = procs_[proc];
}
- rpcs::rpcstate_t stat;
- char *b1 = nullptr;
- size_t sz1 = 0;
-
- if(h.clt_nonce){
- // have i seen this client before?
- {
- lock rwl(reply_window_m_);
- // if we don't know about this clt_nonce, create a cleanup object
- if(reply_window_.find(h.clt_nonce) == reply_window_.end()){
- VERIFY (reply_window_[h.clt_nonce].size() == 0); // create
- reply_window_[h.clt_nonce].push_back(reply_t(-1)); // store starting reply xid
- jsl_log(JSL_DBG_2,
- "rpcs::dispatch: new client %u xid %d chan %d, total clients %d\n",
- h.clt_nonce, h.xid, c->channo(), (int)reply_window_.size()-1);
- }
- }
-
- // save the latest good connection to the client
- {
- lock rwl(conss_m_);
- if(conns_.find(h.clt_nonce) == conns_.end()){
- c->incref();
- conns_[h.clt_nonce] = c;
- } else if(conns_[h.clt_nonce]->compare(c) < 0){
- conns_[h.clt_nonce]->decref();
- c->incref();
- conns_[h.clt_nonce] = c;
- }
+ // have i seen this client before?
+ {
+ lock rwl(reply_window_m_);
+ // if we don't know about this clt_nonce, create a cleanup object
+ if (reply_window_.find(h.clt_nonce) == reply_window_.end()) {
+ VERIFY (reply_window_[h.clt_nonce].size() == 0); // create
+ reply_window_[h.clt_nonce].push_back(reply_t(-1)); // store starting reply xid
+ IF_LEVEL(2) LOG("new client " << h.clt_nonce << " xid " << h.xid <<
+ " chan " << c->fd << ", total clients " << (reply_window_.size()-1));
}
+ }
- stat = checkduplicate_and_update(h.clt_nonce, h.xid,
- h.xid_rep, &b1, &sz1);
- } else {
- // this client does not require at most once logic
- stat = NEW;
+ // save the latest good connection to the client
+ {
+ lock rwl(conns_m_);
+ if (conns_.find(h.clt_nonce) == conns_.end())
+ conns_[h.clt_nonce] = c;
+ else if (conns_[h.clt_nonce]->create_time < c->create_time)
+ conns_[h.clt_nonce] = c;
}
- switch (stat){
- case NEW: // new request
- if(counting_){
- updatestat(proc);
- }
+ string b1;
- rh.ret = (*f)(req, rep);
- if (rh.ret == rpc_const::unmarshal_args_failure) {
- fprintf(stderr, "rpcs::dispatch: failed to"
- " unmarshall the arguments. You are"
- " probably calling RPC 0x%x with wrong"
- " types of arguments.\n", proc);
+ switch (check_duplicate_and_update(h.clt_nonce, h.xid, h.xid_rep, b1)) {
+ case NEW: // new request
+ rh.ret = (*f)(forward<unmarshall>(req), rep);
+ if (rh.ret == rpc_protocol::unmarshall_args_failure) {
+ LOG("failed to unmarshall the arguments. You are " <<
+ "probably calling RPC 0x" << hex << proc << " with the wrong " <<
+ "types of arguments.");
VERIFY(0);
}
VERIFY(rh.ret >= 0);
- rep.pack_reply_header(rh);
- rep.take_buf(&b1,&sz1);
+ rep.pack_header(rh);
+ b1 = rep;
- jsl_log(JSL_DBG_2,
- "rpcs::dispatch: sending and saving reply of size %lu for rpc %d, proc %x ret %d, clt %u\n",
- sz1, h.xid, proc, rh.ret, h.clt_nonce);
+ IF_LEVEL(2) LOG("sending and saving reply of size " << b1.size() << " for rpc " <<
+ h.xid << ", proc " << hex << proc << " ret " << dec << rh.ret << ", clt " << h.clt_nonce);
- if(h.clt_nonce > 0){
- // only record replies for clients that require at-most-once logic
- add_reply(h.clt_nonce, h.xid, b1, sz1);
- }
+ add_reply(h.clt_nonce, h.xid, b1);
// get the latest connection to the client
{
- lock rwl(conss_m_);
- if(c->isdead() && c != conns_[h.clt_nonce]){
- c->decref();
+ lock rwl(conns_m_);
+ if (c->isdead())
c = conns_[h.clt_nonce];
- c->incref();
- }
}
- c->send(b1, sz1);
- if(h.clt_nonce == 0){
- // reply is not added to at-most-once window, free it
- free(b1);
- }
+ c->send(rep);
break;
case INPROGRESS: // server is working on this request
break;
case DONE: // duplicate and we still have the response
- c->send(b1, sz1);
+ c->send(b1);
break;
case FORGOTTEN: // very old request and we don't have the response anymore
- jsl_log(JSL_DBG_2, "rpcs::dispatch: very old request %d from %u\n",
- h.xid, h.clt_nonce);
- rh.ret = rpc_const::atmostonce_failure;
- rep.pack_reply_header(rh);
- c->send(rep.cstr(),rep.size());
+ IF_LEVEL(2) LOG("very old request " << h.xid << " from " << h.clt_nonce);
+ rh.ret = rpc_protocol::atmostonce_failure;
+ rep.pack_header(rh);
+ c->send(rep);
break;
}
- c->decref();
}
// rpcs::dispatch calls this when an RPC request arrives.
// returns one of:
// NEW: never seen this xid before.
// INPROGRESS: seen this xid, and still processing it.
-// DONE: seen this xid, previous reply returned in *b and *sz.
+// DONE: seen this xid, previous reply returned in b.
// FORGOTTEN: might have seen this xid, but deleted previous reply.
rpcs::rpcstate_t
-rpcs::checkduplicate_and_update(unsigned int clt_nonce, int xid,
- int xid_rep, char **b, size_t *sz)
+rpcs::check_duplicate_and_update(nonce_t clt_nonce, xid_t xid,
+ xid_t xid_rep, string & b)
{
lock rwl(reply_window_m_);
- list<reply_t> &l = reply_window_[clt_nonce];
+ list<reply_t> & l = reply_window_[clt_nonce];
VERIFY(l.size() > 0);
VERIFY(xid >= xid_rep);
- int past_xid_rep = l.begin()->xid;
+ xid_t past_xid_rep = l.begin()->xid;
- list<reply_t>::iterator start = l.begin(), it;
- it = ++start;
+ list<reply_t>::iterator start = l.begin(), it = ++start;
if (past_xid_rep < xid_rep || past_xid_rep == -1) {
// scan for deletion candidates
- for (; it != l.end() && it->xid < xid_rep; it++) {
- if (it->cb_present)
- free(it->buf);
- }
+ while (it != l.end() && it->xid < xid_rep)
+ it++;
l.erase(start, it);
l.begin()->xid = xid_rep;
}
if (it != l.end() && it->xid == xid) {
if (it->cb_present) {
// return information about the remembered reply
- *b = it->buf;
- *sz = it->sz;
+ b = it->buf;
return DONE;
- } else {
- return INPROGRESS;
}
+ return INPROGRESS;
} else {
// remember that a new request has arrived
l.insert(it, reply_t(xid));
}
// rpcs::dispatch calls add_reply when it is sending a reply to an RPC,
-// and passes the return value in b and sz.
-// add_reply() should remember b and sz.
-// free_reply_window() and checkduplicate_and_update is responsible for
-// calling free(b).
-void
-rpcs::add_reply(unsigned int clt_nonce, int xid,
- char *b, size_t sz)
-{
+// and passes the return value in b.
+// add_reply() should remember b.
+void rpcs::add_reply(nonce_t clt_nonce, xid_t xid, const string & b) {
lock rwl(reply_window_m_);
// remember the RPC reply value
- list<reply_t> &l = reply_window_[clt_nonce];
+ list<reply_t> & l = reply_window_[clt_nonce];
list<reply_t>::iterator it = l.begin();
// skip to our place in the list
for (it++; it != l.end() && it->xid < xid; it++);
// there should already be an entry, so whine if there isn't
if (it == l.end() || it->xid != xid) {
- fprintf(stderr, "Could not find reply struct in add_reply");
- l.insert(it, reply_t(xid, b, sz));
+ LOG("Could not find reply struct in add_reply");
+ l.insert(it, reply_t(xid, b));
} else {
- *it = reply_t(xid, b, sz);
- }
-}
-
-void
-rpcs::free_reply_window(void)
-{
- lock rwl(reply_window_m_);
- for (auto clt = reply_window_.begin(); clt != reply_window_.end(); clt++){
- for (auto it = clt->second.begin(); it != clt->second.end(); it++){
- if (it->cb_present)
- free(it->buf);
- }
- clt->second.clear();
+ *it = reply_t(xid, b);
}
- reply_window_.clear();
}
-// rpc handler
-int
-rpcs::rpcbind(unsigned int &r, int)
-{
- jsl_log(JSL_DBG_2, "rpcs::rpcbind called return nonce %u\n", nonce_);
+rpc_protocol::status rpcs::rpcbind(nonce_t & r) {
+ IF_LEVEL(2) LOG("called return nonce " << nonce_);
r = nonce_;
return 0;
}
-marshall &
-operator<<(marshall &m, uint8_t x) {
- m.rawbyte(x);
- return m;
-}
-
-marshall &
-operator<<(marshall &m, uint16_t x) {
- x = hton(x);
- m.rawbytes((char *)&x, 2);
- return m;
-}
-
-marshall &
-operator<<(marshall &m, uint32_t x) {
- x = hton(x);
- m.rawbytes((char *)&x, 4);
- return m;
-}
-
-marshall & operator<<(marshall &m, int32_t x) { return m << (uint32_t) x; }
-marshall & operator<<(marshall &m, int8_t x) { return m << (uint8_t)x; }
-marshall & operator<<(marshall &m, bool x) { return m << (uint8_t)x; }
-marshall & operator<<(marshall &m, int16_t x) { return m << (uint16_t)x; }
-marshall & operator<<(marshall &m, uint64_t x) { return m << (uint32_t)(x>>32) << (uint32_t)x; }
-
-marshall &
-operator<<(marshall &m, const string &s) {
- m << (unsigned int) s.size();
- m.rawbytes(s.data(), s.size());
- return m;
-}
-
-void marshall::pack_req_header(const request_header &h) {
- size_t saved_sz = index_;
- //leave the first 4-byte empty for channel to fill size of pdu
- index_ = sizeof(rpc_sz_t);
- *this << h.xid << h.proc << h.clt_nonce << h.srv_nonce << h.xid_rep;
- index_ = saved_sz;
-}
-
-void marshall::pack_reply_header(const reply_header &h) {
- size_t saved_sz = index_;
- //leave the first 4-byte empty for channel to fill size of pdu
- index_ = sizeof(rpc_sz_t);
- *this << h.xid << h.ret;
- index_ = saved_sz;
-}
-
-// take the contents from another unmarshall object
-void
-unmarshall::take_in(unmarshall &another)
-{
- if(buf_)
- free(buf_);
- another.take_buf(&buf_, &sz_);
- index_ = RPC_HEADER_SZ;
- ok_ = sz_ >= RPC_HEADER_SZ?true:false;
-}
-
-inline bool
-unmarshall::ensure(size_t n) {
- if (index_+n > sz_)
- ok_ = false;
- return ok_;
-}
-
-inline uint8_t
-unmarshall::rawbyte()
-{
- if (!ensure(1))
- return 0;
- return (uint8_t)buf_[index_++];
-}
-
-void
-unmarshall::rawbytes(string &ss, size_t n)
-{
- VERIFY(ensure(n));
- ss.assign(buf_+index_, n);
- index_ += n;
-}
-
-template <class T>
-void
-unmarshall::rawbytes(T &t)
-{
- const size_t n = sizeof(T);
- VERIFY(ensure(n));
- memcpy(&t, buf_+index_, n);
- t = ntoh(t);
- index_ += n;
-}
-
-unmarshall & operator>>(unmarshall &u, bool &x) { x = (bool)u.rawbyte(); return u; }
-unmarshall & operator>>(unmarshall &u, uint8_t &x) { x = u.rawbyte(); return u; }
-unmarshall & operator>>(unmarshall &u, int8_t &x) { x = (int8_t)u.rawbyte(); return u; }
-unmarshall & operator>>(unmarshall &u, uint16_t &x) { u.rawbytes<uint16_t>(x); return u; }
-unmarshall & operator>>(unmarshall &u, int16_t &x) { u.rawbytes<int16_t>(x); return u; }
-unmarshall & operator>>(unmarshall &u, uint32_t &x) { u.rawbytes<uint32_t>(x); return u; }
-unmarshall & operator>>(unmarshall &u, int32_t &x) { u.rawbytes<int32_t>(x); return u; }
-unmarshall & operator>>(unmarshall &u, size_t &x) { uint32_t xx; u.rawbytes<uint32_t>(xx); x = xx; return u; }
-unmarshall & operator>>(unmarshall &u, uint64_t &x) { u.rawbytes<uint64_t>(x); return u; }
-unmarshall & operator>>(unmarshall &u, int64_t &x) { u.rawbytes<int64_t>(x); return u; }
-unmarshall & operator>>(unmarshall &u, string &s) {
- unsigned sz = u.grab<unsigned>();
- if(u.ok())
- u.rawbytes(s, sz);
- return u;
-}
-
-bool operator<(const sockaddr_in &a, const sockaddr_in &b){
- return ((a.sin_addr.s_addr < b.sin_addr.s_addr) ||
- ((a.sin_addr.s_addr == b.sin_addr.s_addr) &&
- ((a.sin_port < b.sin_port))));
-}
-
-/*---------------auxilary function--------------*/
-sockaddr_in make_sockaddr(const string &hostandport) {
+static sockaddr_in make_sockaddr(const string & hostandport) {
+ string host = "127.0.0.1";
+ string port = hostandport;
auto colon = hostandport.find(':');
- if (colon == string::npos)
- return make_sockaddr("127.0.0.1", hostandport);
- else
- return make_sockaddr(hostandport.substr(0, colon), hostandport.substr(colon+1));
-}
+ if (colon != string::npos) {
+ host = hostandport.substr(0, colon);
+ port = hostandport.substr(colon+1);
+ }
-sockaddr_in make_sockaddr(const string &host, const string &port) {
- sockaddr_in dst;
- bzero(&dst, sizeof(dst));
+ sockaddr_in dst{}; // zero initialize
dst.sin_family = AF_INET;
struct in_addr a{inet_addr(host.c_str())};
- if(a.s_addr != INADDR_NONE)
+ if (a.s_addr != INADDR_NONE)
dst.sin_addr.s_addr = a.s_addr;
else {
struct hostent *hp = gethostbyname(host.c_str());
if (!hp || hp->h_length != 4 || hp->h_addrtype != AF_INET) {
- fprintf(stderr, "cannot find host name %s\n", host.c_str());
+ LOG_NONMEMBER("cannot find host name " << host);
exit(1);
}
memcpy(&a, hp->h_addr_list[0], sizeof(in_addr_t));
dst.sin_addr.s_addr = a.s_addr;
}
- dst.sin_port = hton((uint16_t)stoi(port));
+ dst.sin_port = hton((in_port_t)stoi(port));
return dst;
}
projects / invirt/third/libt4.git / blobdiff