/* * Module: lbdata.cc * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 as published * by the Free Software Foundation. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "rl_str_proc.hh" #include "lbtest.hh" #include "lbdata.hh" int LBHealthHistory::_buffer_size = 10; /** * * **/ void LBHealth::put(int rtt) { int activity_ct = _hresults.push(rtt); if (rtt == -1) { if (activity_ct >= _failure_ct) { if (_is_active == true) { _state_changed = true; } _is_active = false; } } else { if (activity_ct >= _success_ct) { if (_is_active == false) { _state_changed = true; } _is_active = true; } } } /** * * **/ void LBHealth::start_new_test_cycle() { _test_iter = _test_coll.begin(); // _test_iter->second->start(); } /** * * **/ void LBHealth::start_new_test() { if (_test_iter == _test_coll.end()) { return; } _test_iter->second->start(); } /** * * **/ void LBHealth::send_test() { if (_test_iter == _test_coll.end()) { return; //means we are done } _test_iter->second->send(*this); } /** * * **/ int LBHealth::recv_test() { if (_test_iter == _test_coll.end()) { put(-1); return 0; //means stop iteration, no more tests... } int rtt = _test_iter->second->recv(*this); ++_test_iter; if (rtt >= 0) { put(rtt); return 0; //means success, testing is done } return -1; //means testing is not done for this interface } /** * * **/ LBHealthHistory::LBHealthHistory(int buffer_size) : _last_success(0), _last_failure(0), _failure_count(0), _index(0) { _resp_data.resize(10); for (int i = 0; i < _buffer_size; ++i) { _resp_data[i] = 0; } } /** * * **/ int LBHealthHistory::get_last_resp() { if (_resp_data.size() == 0) { return -1; } return (_resp_data[0]); } /** * * **/ int LBHealthHistory::push(int rtt) { struct timeval tv; gettimeofday(&tv,NULL); if (rtt == -1) { _last_failure = tv.tv_sec; ++_failure_count; } else { _failure_count = 0; _last_success = tv.tv_sec; } _resp_data[_index % _buffer_size] = rtt; ++_index; //compute count of sequence of same responses int ct = 0; int start_index = (_index - 1) % _buffer_size; for (int i = 0; i < _buffer_size; ++i) { int index = start_index - i; if (index < 0) { //handle wrap around of index here index = _buffer_size - index; } if (_resp_data[index] == -1 && rtt == -1) { ++ct; } else if (_resp_data[index] != -1 && rtt != -1) { ++ct; } else { break; } } return ct; } /** * * **/ bool LBData::is_active(const string &iface) { InterfaceHealthIter iter = _iface_health_coll.find(iface); if (iter != _iface_health_coll.end()) { return iter->second._is_active; } return false; } /** * * **/ void LBData::dump() { cout << "health:" << endl; LBData::InterfaceHealthIter h_iter = _iface_health_coll.begin(); while (h_iter != _iface_health_coll.end()) { cout << " interface: " << h_iter->first << endl; cout << " nexthop: " << h_iter->second._nexthop << endl; cout << " success ct: " << h_iter->second._success_ct << endl; cout << " failure ct: " << h_iter->second._failure_ct << endl; LBHealth::TestIter t_iter = h_iter->second._test_coll.begin(); while (t_iter != h_iter->second._test_coll.end()) { cout << " test: " << t_iter->first << endl; string foo = t_iter->second->dump(); cout << " " << foo << endl; ++t_iter; } ++h_iter; } cout << endl << "wan:" << endl; LBData::LBRuleIter r_iter = _lb_rule_coll.begin(); while (r_iter != _lb_rule_coll.end()) { cout << " rule: " << r_iter->first << endl; cout << " " << r_iter->second._proto << endl; cout << " " << r_iter->second._s_addr << endl; cout << " " << r_iter->second._s_port << endl; cout << " " << r_iter->second._d_addr << endl; cout << " " << r_iter->second._d_port << endl; if (r_iter->second._limit) { cout << " limit:" << endl; cout << " burst: " << r_iter->second._limit_burst << endl; cout << " rate: " << r_iter->second._limit_burst << endl; if (r_iter->second._limit_mode) { cout << " thresh: above" << endl; } else { cout << " thresh: below" << endl; } if (r_iter->second._limit_period == LBRule::K_SECOND) { cout << " period: second" << endl; } else if (r_iter->second._limit_period == LBRule::K_MINUTE) { cout << " period: minute" << endl; } else if (r_iter->second._limit_period == LBRule::K_HOUR) { cout << " period: hour" << endl; } } LBRule::InterfaceDistIter ri_iter = r_iter->second._iface_dist_coll.begin(); while (ri_iter != r_iter->second._iface_dist_coll.end()) { cout << " interface: " << ri_iter->first << endl; cout << " weight: " << ri_iter->second << endl; ++ri_iter; } ++r_iter; } cout << "end dump" << endl; } /** * * **/ map LBData::state_changed() { map coll; LBData::InterfaceHealthIter h_iter = _iface_health_coll.begin(); while (h_iter != _iface_health_coll.end()) { if (h_iter->second.state_changed()) { string tmp = (h_iter->second._is_active ? string("ACTIVE") : string("FAILED")); struct timeval tv; gettimeofday(&tv,NULL); h_iter->second._last_time_state_changed = (unsigned long)tv.tv_sec; syslog(LOG_WARNING, "Interface %s has changed state to %s",h_iter->first.c_str(),tmp.c_str()); coll.insert(pair(h_iter->first,tmp)); } ++h_iter; } return coll; } /** * * **/ void LBData::reset_state_changed() { LBData::InterfaceHealthIter h_iter = _iface_health_coll.begin(); while (h_iter != _iface_health_coll.end()) { h_iter->second._state_changed = false; ++h_iter; } } /** * * **/ void LBData::update_dhcp_nexthop() { /** * currently only reads the nexthop as maintained by the dhcp client **/ LBData::InterfaceHealthIter h_iter = _iface_health_coll.begin(); while (h_iter != _iface_health_coll.end()) { if (h_iter->second._nexthop == "dhcp") { string file("/var/lib/dhcp3/dhclient_"+h_iter->first+"_lease"); FILE *fp = fopen(file.c_str(),"r"); if (fp) { char str[1025]; while (fgets(str, 1024, fp)) { StrProc tokens(str, "="); if (tokens.get(0) == "new_routers") { string tmp = tokens.get(1); //need to watch out for the case where there are mult routers... StrProc tokens2(tmp," "); tmp = tokens2.get(0); long len = tmp.length()-2; h_iter->second._dhcp_nexthop = tmp.substr(1,len); break; } } fclose(fp); } else { //check if this is a ppp interface string pppfile("/var/run/load-balance/ppp/"+h_iter->first); FILE *fp = fopen(pppfile.c_str(),"r"); if (fp) { char str[1025]; if (fgets(str, 1024, fp)) { h_iter->second._dhcp_nexthop = string(str); } fclose(fp); } } } ++h_iter; } }