#include "rsm.h"
#include "rsm_client.h"
-rsm::rsm(string _first, string _me) :
+rsm::rsm(const string & _first, const string & _me) :
stf(0), primary(_first), insync (false), inviewchange (true), vid_commit(0),
partitioned (false), dopartition(false), break1(false), break2(false)
{
- last_myvs.vid = 0;
- last_myvs.seqno = 0;
- myvs = last_myvs;
- myvs.seqno = 1;
-
- cfg = new config(_first, _me, this);
+ cfg = unique_ptr<config>(new config(_first, _me, this));
if (_first == _me) {
// Commit the first view here. We can not have acceptor::acceptor
rsmrpc->reg(rsm_protocol::joinreq, &rsm::joinreq, this);
// tester must be on different port, otherwise it may partition itself
- testsvr = new rpcs((uint32_t)stoi(_me) + 1);
+ testsvr = unique_ptr<rpcs>(new rpcs((in_port_t)stoi(_me) + 1));
testsvr->reg(rsm_test_protocol::net_repair, &rsm::test_net_repairreq, this);
testsvr->reg(rsm_test_protocol::breakpoint, &rsm::breakpointreq, this);
+}
- {
- lock ml(rsm_mutex);
- thread(&rsm::recovery, this).detach();
- }
+void rsm::start() {
+ lock ml(rsm_mutex);
+ rsmrpc->start();
+ testsvr->start();
+ thread(&rsm::recovery, this).detach();
}
void rsm::reg1(int proc, handler *h) {
commit_change(cfg->view_id(), ml);
} else {
ml.unlock();
- this_thread::sleep_for(seconds(30)); // XXX make another node in cfg primary?
+ this_thread::sleep_for(seconds(3)); // XXX make another node in cfg primary?
ml.lock();
}
}
insync = true;
cfg->get_view(vid_insync, backups);
backups.erase(find(backups.begin(), backups.end(), cfg->myaddr()));
- LOG("rsm::sync_with_backups " << backups);
+ LOG("backups " << backups);
sync_cond.wait(rsm_mutex_lock);
insync = false;
return true;
}
-/**
- * Call to transfer state from m to the local node.
- * Assumes that rsm_mutex is already held.
- */
-bool rsm::statetransfer(string m, lock & rsm_mutex_lock)
+//
+// Call to transfer state from m to the local node.
+// Assumes that rsm_mutex is already held.
+//
+bool rsm::statetransfer(const string & m, lock & rsm_mutex_lock)
{
rsm_protocol::transferres r;
handle h(m);
int ret = 0;
- LOG("rsm::statetransfer: contact " << m << " w. my last_myvs(" << last_myvs.vid << "," << last_myvs.seqno << ")");
+ LOG("contact " << m << " w. my last_myvs(" << last_myvs.vid << "," << last_myvs.seqno << ")");
rpcc *cl;
{
rsm_mutex_lock.unlock();
cl = h.safebind();
if (cl) {
- ret = cl->call_timeout(rsm_protocol::transferreq, rpcc::to(1000),
+ ret = cl->call_timeout(rsm_protocol::transferreq, milliseconds(100),
r, cfg->myaddr(), last_myvs, vid_insync);
}
rsm_mutex_lock.lock();
}
if (cl == 0 || ret != rsm_protocol::OK) {
- LOG("rsm::statetransfer: couldn't reach " << m << " " << hex << cl << " " << dec << ret);
+ LOG("couldn't reach " << m << " " << hex << cl << " " << dec << ret);
return false;
}
if (stf && last_myvs != r.last) {
stf->unmarshal_state(r.state);
}
last_myvs = r.last;
- LOG("rsm::statetransfer transfer from " << m << " success, vs(" << last_myvs.vid << "," << last_myvs.seqno << ")");
+ LOG("transfer from " << m << " success, vs(" << last_myvs.vid << "," << last_myvs.seqno << ")");
return true;
}
-bool rsm::statetransferdone(string m, lock & rsm_mutex_lock) {
+bool rsm::statetransferdone(const string & m, lock & rsm_mutex_lock) {
rsm_mutex_lock.unlock();
handle h(m);
rpcc *cl = h.safebind();
}
-bool rsm::join(string m, lock & rsm_mutex_lock) {
+bool rsm::join(const string & m, lock & rsm_mutex_lock) {
handle h(m);
int ret = 0;
string log;
- LOG("rsm::join: " << m << " mylast (" << last_myvs.vid << "," << last_myvs.seqno << ")");
+ LOG("contacting " << m << " mylast (" << last_myvs.vid << "," << last_myvs.seqno << ")");
rpcc *cl;
{
rsm_mutex_lock.unlock();
cl = h.safebind();
if (cl != 0) {
- ret = cl->call_timeout(rsm_protocol::joinreq, rpcc::to(120000), log,
+ ret = cl->call_timeout(rsm_protocol::joinreq, milliseconds(12000), log,
cfg->myaddr(), last_myvs);
}
rsm_mutex_lock.lock();
}
if (cl == 0 || ret != rsm_protocol::OK) {
- LOG("rsm::join: couldn't reach " << m << " " << hex << cl << " " << dec << ret);
+ LOG("couldn't reach " << m << " " << hex << cl << " " << dec << ret);
return false;
}
- LOG("rsm::join: succeeded " << log);
+ LOG("succeeded " << log);
cfg->restore(log);
return true;
}
-/*
- * Config informs rsm whenever it has successfully
- * completed a view change
- */
+//
+// Config informs rsm whenever it has successfully
+// completed a view change
+//
void rsm::commit_change(unsigned vid) {
lock ml(rsm_mutex);
commit_change(vid, ml);
}
-void rsm::execute(int procno, string req, string &r) {
+void rsm::execute(int procno, const string & req, string & r) {
LOG("execute");
handler *h = procs[procno];
VERIFY(h);
unmarshall args(req, false);
marshall rep;
- string reps;
auto ret = (rsm_protocol::status)(*h)(args, rep);
- marshall rep1;
- rep1 << ret;
- rep1 << rep.content();
- r = rep1.content();
+ r = marshall{ret, rep.content()}.content();
}
//
// number, and invokes it on all members of the replicated state
// machine.
//
-rsm_client_protocol::status rsm::client_invoke(string &r, int procno, string req) {
- LOG("rsm::client_invoke: procno 0x" << hex << procno);
+rsm_client_protocol::status rsm::client_invoke(string & r, int procno, const string & req) {
+ LOG("invoke procno 0x" << hex << procno);
lock ml(invoke_mutex);
vector<string> m;
string myaddr;
if (!cl)
return rsm_client_protocol::BUSY;
int ignored_rval;
- auto ret = (rsm_protocol::status)cl->call_timeout(rsm_protocol::invoke, rpcc::to(1000), ignored_rval, procno, vs, req);
+ auto ret = (rsm_protocol::status)cl->call_timeout(rsm_protocol::invoke, milliseconds(100), ignored_rval, procno, vs, req);
LOG("Invoke returned " << ret);
if (ret != rsm_protocol::OK)
return rsm_client_protocol::BUSY;
// the replica must execute requests in order (with no gaps)
// according to requests' seqno
-rsm_protocol::status rsm::invoke(int &, int proc, viewstamp vs, string req) {
- LOG("rsm::invoke: procno 0x" << hex << proc);
+rsm_protocol::status rsm::invoke(int &, int proc, viewstamp vs, const string & req) {
+ LOG("invoke procno 0x" << hex << proc);
lock ml(invoke_mutex);
vector<string> m;
string myaddr;
return rsm_protocol::OK;
}
-/**
- * RPC handler: Send back the local node's state to the caller
- */
-rsm_protocol::status rsm::transferreq(rsm_protocol::transferres &r, string src,
+//
+// RPC handler: Send back the local node's state to the caller
+//
+rsm_protocol::status rsm::transferreq(rsm_protocol::transferres &r, const string & src,
viewstamp last, unsigned vid) {
lock ml(rsm_mutex);
LOG("transferreq from " << src << " (" << last.vid << "," << last.seqno << ") vs (" <<
return rsm_protocol::OK;
}
-/**
- * RPC handler: Inform the local node (the primary) that node m has synchronized
- * for view vid
- */
-rsm_protocol::status rsm::transferdonereq(int &, string m, unsigned vid) {
+//
+// RPC handler: Inform the local node (the primary) that node m has synchronized
+// for view vid
+//
+rsm_protocol::status rsm::transferdonereq(int &, const string & m, unsigned vid) {
lock ml(rsm_mutex);
if (!insync || vid != vid_insync)
return rsm_protocol::BUSY;
// a node that wants to join an RSM as a server sends a
// joinreq to the RSM's current primary; this is the
// handler for that RPC.
-rsm_protocol::status rsm::joinreq(string & log, string m, viewstamp last) {
+rsm_protocol::status rsm::joinreq(string & log, const string & m, viewstamp last) {
auto ret = rsm_protocol::OK;
lock ml(rsm_mutex);
return ret;
}
-/*
- * RPC handler: Send back all the nodes this local knows about to client
- * so the client can switch to a different primary
- * when it existing primary fails
- */
+//
+// RPC handler: Send back all the nodes this local knows about to client
+// so the client can switch to a different primary
+// when it existing primary fails
+//
rsm_client_protocol::status rsm::client_members(vector<string> &r, int) {
vector<string> m;
lock ml(rsm_mutex);
cfg->get_view(vid_commit, m);
m.push_back(primary);
r = m;
- LOG("rsm::client_members return " << m << " m " << primary);
+ LOG("return " << m << " m " << primary);
return rsm_client_protocol::OK;
}
for (unsigned i = 0; i < m.size(); i++) {
if (m[i] != cfg->myaddr()) {
handle h(m[i]);
- LOG("rsm::net_repair: " << m[i] << " " << heal);
+ LOG("member " << m[i] << " " << heal);
if (h.safebind()) h.safebind()->set_reachable(heal);
}
}
rsm_test_protocol::status rsm::test_net_repairreq(rsm_test_protocol::status &r, int heal) {
lock ml(rsm_mutex);
- LOG("rsm::test_net_repairreq: " << heal << " (dopartition " <<
+ LOG("heal " << heal << " (dopartition " <<
dopartition << ", partitioned " << partitioned << ")");
if (heal) {
net_repair(heal, ml);
rsm_test_protocol::status rsm::breakpointreq(rsm_test_protocol::status &r, int b) {
r = rsm_test_protocol::OK;
lock ml(rsm_mutex);
- LOG("rsm::breakpointreq: " << b);
+ LOG("breakpoint " << b);
if (b == 1) break1 = true;
else if (b == 2) break2 = true;
else if (b == 3 || b == 4) cfg->breakpoint(b);
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