#include <netinet/in.h>
#include <arpa/nameser.h>
#include <resolv.h>
+#include <time.h>
#include <algorithm>
+#include <tuple>
-#include <apt-pkg/strutl.h>
+#include <apt-pkg/configuration.h>
#include <apt-pkg/error.h>
+#include <apt-pkg/strutl.h>
+
+
#include "srvrec.h"
+
+bool SrvRec::operator==(SrvRec const &other) const
+{
+ return (std::tie(target, priority, weight, port) ==
+ std::tie(other.target, other.priority, other.weight, other.port));
+}
+
bool GetSrvRecords(std::string host, int port, std::vector<SrvRec> &Result)
{
std::string target;
- struct servent *s_ent = getservbyport(htons(port), "tcp");
- if (s_ent == NULL)
+ int res;
+ struct servent s_ent_buf;
+ struct servent *s_ent = nullptr;
+ std::vector<char> buf(1024);
+
+ res = getservbyport_r(htons(port), "tcp", &s_ent_buf, buf.data(), buf.size(), &s_ent);
+ if (res != 0 || s_ent == nullptr)
return false;
strprintf(target, "_%s._tcp.%s", s_ent->s_name, host.c_str());
return _error->Errno("res_init", "Failed to init resolver");
answer_len = res_query(name.c_str(), C_IN, T_SRV, answer, sizeof(answer));
+ if (answer_len == -1)
+ return false;
if (answer_len < (int)sizeof(HEADER))
return _error->Warning("Not enough data from res_query (%i)", answer_len);
unsigned char *pt = answer+sizeof(HEADER)+compressed_name_len+QFIXEDSZ;
while ((int)Result.size() < answer_count && pt < answer+answer_len)
{
- SrvRec rec;
u_int16_t type, klass, priority, weight, port, dlen;
char buf[MAXDNAME];
pt += compressed_name_len;
// add it to our class
- rec.priority = priority;
- rec.weight = weight;
- rec.port = port;
- rec.target = buf;
- Result.push_back(rec);
+ Result.emplace_back(buf, priority, weight, port);
}
// implement load balancing as specified in RFC-2782
// sort them by priority
std::stable_sort(Result.begin(), Result.end());
+ for(std::vector<SrvRec>::iterator I = Result.begin();
+ I != Result.end(); ++I)
+ {
+ if (_config->FindB("Debug::Acquire::SrvRecs", false) == true)
+ {
+ std::cerr << "SrvRecs: got " << I->target
+ << " prio: " << I->priority
+ << " weight: " << I->weight
+ << std::endl;
+ }
+ }
+
+ return true;
+}
+
+SrvRec PopFromSrvRecs(std::vector<SrvRec> &Recs)
+{
+ // FIXME: instead of the simplistic shuffle below use the algorithm
+ // described in rfc2782 (with weights)
+ // and figure out how the weights need to be adjusted if
+ // a host refuses connections
+
+#if 0 // all code below is only needed for the weight adjusted selection
// assign random number ranges
int prev_weight = 0;
int prev_priority = 0;
I->random_number_range_end = prev_weight + I->weight;
prev_weight = I->random_number_range_end;
prev_priority = I->priority;
+
+ if (_config->FindB("Debug::Acquire::SrvRecs", false) == true)
+ std::cerr << "SrvRecs: got " << I->target
+ << " prio: " << I->priority
+ << " weight: " << I->weight
+ << std::endl;
}
// go over the code in reverse order and note the max random range
max = I->random_number_range_end;
I->random_number_range_max = max;
}
+#endif
- // FIXME: now shuffle
+ // shuffle in a very simplistic way for now (equal weights)
+ std::vector<SrvRec>::iterator I = Recs.begin();
+ std::vector<SrvRec>::iterator const J = std::find_if(Recs.begin(), Recs.end(),
+ [&I](SrvRec const &J) { return I->priority != J.priority; });
- return true;
+ // clock seems random enough.
+ I += std::max(static_cast<clock_t>(0), clock()) % std::distance(I, J);
+ SrvRec const selected = std::move(*I);
+ Recs.erase(I);
+
+ if (_config->FindB("Debug::Acquire::SrvRecs", false) == true)
+ std::cerr << "PopFromSrvRecs: selecting " << selected.target << std::endl;
+
+ return selected;
}