/* * Copyright (c) 2000-2008 3APA3A * * please read License Agreement * * $Id: datatypes.c,v 1.27 2009/02/02 10:04:55 vlad Exp $ */ #include "proxy.h" static void pr_integer(struct node *node, CBFUNC cbf, void*cb){ char buf[16]; if(node->value)(*cbf)(cb, buf, sprintf(buf, "%d", *(int *)node->value)); } static void pr_short(struct node *node, CBFUNC cbf, void*cb){ char buf[8]; if(node->value)(*cbf)(cb, buf, sprintf(buf, "%hu", *(unsigned short*)node->value)); } static void pr_char(struct node *node, CBFUNC cbf, void*cb){ if(node->value)(*cbf)(cb, (char *)node->value, 1); } static void pr_unsigned(struct node *node, CBFUNC cbf, void*cb){ char buf[16]; if(node->value)(*cbf)(cb, buf, sprintf(buf, "%u", *(unsigned *)node->value)); } static void pr_traffic(struct node *node, CBFUNC cbf, void*cb){ char buf[16]; unsigned long u1, u2; if(node->value){ u1 = ((unsigned long *)node->value)[0]; u2 = ((unsigned long *)node->value)[0]; (*cbf)(cb, buf, sprintf(buf, "%lu", (u1>>20) + (u2<<10))); } } static void pr_port(struct node *node, CBFUNC cbf, void*cb){ char buf[8]; if(node->value)(*cbf)(cb, buf, sprintf(buf, "%hu", ntohs(*(unsigned short*)node->value))); } static void pr_datetime(struct node *node, CBFUNC cbf, void*cb){ char *s; if(node->value){ s = ctime((time_t *)node->value); (*cbf)(cb, s, (int)strlen(s)-1); } } int ipprint(char *buf, unsigned uu){ unsigned u = ntohl(uu); return sprintf(buf, "%u.%u.%u.%u", ((u&0xFF000000)>>24), ((u&0x00FF0000)>>16), ((u&0x0000FF00)>>8), ((u&0x000000FF))); } static void pr_ip(struct node *node, CBFUNC cbf, void*cb){ char buf[16]; if(node->value)(*cbf)(cb, buf, ipprint(buf, *(unsigned *)node -> value)); } static void pr_wdays(struct node *node, CBFUNC cbf, void*cb){ char buf[16]; int i, found = 0; if(node -> value)for(i = 0; i<8; i++){ if( (1< value ) { sprintf(buf, "%s%d", found?",":"", i); (*cbf)(cb, buf, found? 2:1); found = 1; } } } static void pr_time(struct node *node, CBFUNC cbf, void*cb){ char buf[16]; int t = *(int *)node; (*cbf)(cb, buf, sprintf(buf, "%02d:%02d:%02d", (t/3600)%24, (t/60)%60, t%60)); } int cidrprint(char *buf, unsigned long u){ unsigned long u1 = 0xffffffff; int i; u = ntohl(u); for(i = 32; i && (u1!=u); i--){ u1 = (u1 << 1); } if (i == 32) { return 0; } return sprintf(buf, "/%d", i); } static void pr_cidr(struct node *node, CBFUNC cbf, void*cb){ char buf[4]; int i; if(node->value){ if ((i = cidrprint(buf, *(unsigned *)node -> value))) (*cbf)(cb, buf, i); else (*cbf)(cb, "/32", 3); } } static void pr_string(struct node *node, CBFUNC cbf, void*cb){ if(node->value){ (*cbf)(cb, (char*)node->value, (int)strlen((char*)node->value)); } else (*cbf)(cb, "(NULL)", 6); } static void pr_rotation(struct node *node, CBFUNC cbf, void*cb){ char * lstrings[] = { "N", "C", "H", "D", "W", "M", "Y", "N" }; int i; if(node->value && (i = *(int*)node->value) > 1 && i < 6){ (*cbf)(cb, lstrings[i], 1); } } static void pr_operations(struct node *node, CBFUNC cbf, void*cb){ char buf[64]; int operation; int delim = 0; *buf = 0; if(!node->value || !(operation = *(int*)node->value)){ (*cbf)(cb, "*", 1); return; } if(operation & HTTP){ if((operation & HTTP) == HTTP) (*cbf)(cb, buf, sprintf(buf, "HTTP")); else (*cbf)(cb, buf, sprintf(buf, "%s%s%s%s%s%s%s%s%s", (operation & HTTP_GET)? "HTTP_GET" : "", ((operation & HTTP_GET) && (operation & (HTTP_PUT|HTTP_POST|HTTP_HEAD|HTTP_OTHER)))? "," : "", (operation & HTTP_PUT)? "HTTP_PUT" : "", ((operation & HTTP_PUT) && (operation & (HTTP_POST|HTTP_HEAD|HTTP_OTHER)))? "," : "", (operation & HTTP_POST)? "HTTP_POST" : "", ((operation & HTTP_POST) && (operation & (HTTP_HEAD|HTTP_OTHER)))? "," : "", (operation & HTTP_HEAD)? "HTTP_HEAD" : "", ((operation & HTTP_HEAD) && (operation & HTTP_OTHER))? "," : "", (operation & HTTP_OTHER)? "HTTP_OTHER" : "")); delim = 1; } if(operation & HTTP_CONNECT){ (*cbf)(cb, buf, sprintf(buf, "%s%s", delim?",":"", "HTTP_CONNECT")); delim = 1; } if(operation & FTP) { if((operation & FTP) == FTP) (*cbf)(cb, buf, sprintf(buf, "%s%s", delim?",":"", "FTP")); else (*cbf)(cb, buf, sprintf(buf, "%s%s%s%s%s%s", delim? ",":"", (operation & FTP_GET)? "FTP_GET" : "", ((operation & FTP_GET) && (operation & (FTP_PUT|FTP_LIST)))? ",":"", (operation & FTP_PUT)? "FTP_PUT" : "", ((operation & FTP_PUT) && (operation & FTP_LIST))? ",":"", (operation & FTP_LIST)? "FTP_LIST" : "")); delim = 1; } if(operation & CONNECT){ (*cbf)(cb, buf, sprintf(buf, "%s%s", delim?",":"", "CONNECT")); delim = 1; } if(operation & BIND){ (*cbf)(cb, buf, sprintf(buf, "%s%s", delim?",":"", "BIND")); delim = 1; } if(operation & UDPASSOC){ (*cbf)(cb, buf, sprintf(buf, "%s%s", delim?",":"", "UDPASSOC")); delim = 1; } if(operation & ICMPASSOC){ (*cbf)(cb, buf, sprintf(buf, "%s%s", delim?",":"", "ICMPASSOC")); delim = 1; } if(operation & DNSRESOLVE){ (*cbf)(cb, buf, sprintf(buf, "%s%s", delim?",":"", "DNSRESOLVE")); delim = 1; } if(operation & ADMIN){ (*cbf)(cb, buf, sprintf(buf, "%s%s", delim?",":"", "ADMIN")); } } static void pr_portlist(struct node *node, CBFUNC cbf, void*cb){ struct portlist *pl= (struct portlist *)node->value; char buf[16]; if(!pl) { (*cbf)(cb, "*", 1); return; } for(; pl; pl = pl->next) { if(pl->startport == pl->endport) (*cbf)(cb, buf, sprintf(buf, "%hu", pl->startport)); else (*cbf)(cb, buf, sprintf(buf, "%hu-%hu", pl->startport, pl->endport)); if(pl->next)(*cbf)(cb, ",", 1); } } static void pr_userlist(struct node *node, CBFUNC cbf, void*cb){ struct userlist *ul= (struct userlist *)node->value; if(!ul) { (*cbf)(cb, "*", 1); return; } for(; ul; ul = ul->next){ (*cbf)(cb, (char *)ul->user, (int)strlen((char *)ul->user)); if(ul->next)(*cbf)(cb, ",", 1); } } static void pr_iplist(struct node *node, CBFUNC cbf, void*cb){ char buf[20]; int i; struct iplist *il = (struct iplist *)node->value; if(!il) { (*cbf)(cb, "*", 1); return; } for(; il; il = il->next){ i = ipprint(buf, il->ip); i += cidrprint(buf+i, il->mask); if(il->next)buf[i++] = ','; (*cbf)(cb, buf, i); } } static void * ef_portlist_next(struct node *node){ return (((struct portlist *)node->value) -> next); } static void * ef_portlist_start(struct node *node){ return &(((struct portlist *)node->value) -> startport); } static void * ef_portlist_end(struct node *node){ return &(((struct portlist *)node->value) -> endport); } static void * ef_iplist_next(struct node *node){ return (((struct iplist *)node->value) -> next); } static void * ef_iplist_ip(struct node *node){ return &(((struct iplist *)node->value) -> ip); } static void * ef_iplist_cidr(struct node *node){ return &(((struct iplist *)node->value) -> mask); } static void * ef_iplist_mask(struct node *node){ return &(((struct iplist *)node->value) -> mask); } static void * ef_userlist_next(struct node * node){ return (((struct userlist *)node->value) -> next); } static void * ef_userlist_user(struct node * node){ return (((struct userlist *)node->value) -> user); } static void * ef_pwlist_next(struct node * node){ return (((struct passwords *)node->value) -> next); } static void * ef_pwlist_user(struct node * node){ return (((struct passwords *)node->value) -> user); } static void * ef_pwlist_password(struct node * node){ return (((struct passwords *)node->value) -> password); } static void * ef_pwlist_type(struct node * node){ switch (((struct passwords *)node->value) -> pwtype) { case SYS: return "SYS"; case CL: return "CL"; case CR: return "CR"; case NT: return "NT"; case LM: return "LM"; default: return "UNKNOWN"; } } static void * ef_chain_next(struct node * node){ return ((struct chain *)node->value) -> next; } static void * ef_chain_type(struct node * node){ switch (((struct chain *)node->value) -> type) { case R_TCP: return "tcp"; case R_CONNECT: return "connect"; case R_SOCKS4: return "socks4"; case R_SOCKS5: return "socks5"; case R_HTTP: return "http"; case R_FTP: return "ftp"; case R_POP3: return "pop3"; default: return ""; } } static void * ef_chain_ip(struct node * node){ return &((struct chain *)node->value) -> redirip; } static void * ef_chain_port(struct node * node){ return &((struct chain *)node->value) -> redirport; } static void * ef_chain_weight(struct node * node){ return &((struct chain *)node->value) -> weight; } static void * ef_chain_user(struct node * node){ return ((struct chain *)node->value) -> extuser; } static void * ef_chain_password(struct node * node){ return ((struct chain *)node->value) -> extpass; } static void * ef_ace_next(struct node * node){ return ((struct ace *)node->value) -> next; } static void * ef_ace_type(struct node * node){ switch (((struct ace *)node->value) -> action) { case ALLOW: case REDIRECT: return "allow"; case DENY: return "deny"; case BANDLIM: return "bandlim"; case NOBANDLIM: return "nobandlim"; case COUNTIN: return "countin"; case NOCOUNTIN: return "nocountin"; case COUNTOUT: return "countout"; case NOCOUNTOUT: return "nocountout"; default: return "unknown"; } } static void * ef_ace_operations(struct node * node){ if(!((struct ace *)node->value) -> operation) return NULL; return &((struct ace *)node->value) -> operation; } static void * ef_ace_users(struct node * node){ return ((struct ace *)node->value) -> users; } static void * ef_ace_src(struct node * node){ return ((struct ace *)node->value) -> src; } static void * ef_ace_dst(struct node * node){ return ((struct ace *)node->value) -> dst; } static void * ef_ace_ports(struct node * node){ return ((struct ace *)node->value) -> ports; } static void * ef_ace_chain(struct node * node){ return ((struct ace *)node->value) -> chains; } static void * ef_ace_weekdays(struct node * node){ return (((struct ace *)node->value) -> wdays) ? &((struct ace *)node->value) -> wdays : NULL; } static void * ef_ace_period(struct node * node){ return ((struct ace *)node->value) -> periods; } static void * ef_bandlimit_next(struct node * node){ return ((struct bandlim *)node->value) -> next; } static void * ef_bandlimit_ace(struct node * node){ return ((struct bandlim *)node->value) -> ace; } static void * ef_bandlimit_rate(struct node * node){ return &((struct bandlim *)node->value) -> rate; } static void * ef_trafcounter_next(struct node * node){ return ((struct trafcount *)node->value) -> next; } static void * ef_trafcounter_ace(struct node * node){ return ((struct trafcount *)node->value) -> ace; } static void * ef_trafcounter_number(struct node * node){ return &((struct trafcount *)node->value) -> number; } static void * ef_trafcounter_type(struct node * node){ return &((struct trafcount *)node->value) -> type; } static void * ef_trafcounter_traffic(struct node * node){ return &((struct trafcount *)node->value) -> traf; } static void * ef_trafcounter_limit(struct node * node){ return &((struct trafcount *)node->value) -> traflim; } static void * ef_trafcounter_cleared(struct node * node){ return &((struct trafcount *)node->value) -> cleared; } static void * ef_trafcounter_updated(struct node * node){ return &((struct trafcount *)node->value) -> updated; } static void * ef_trafcounter_comment(struct node * node){ return ((struct trafcount *)node->value) -> comment; } static void * ef_trafcounter_disabled(struct node * node){ return &((struct trafcount *)node->value) -> disabled; } static void * ef_server_next(struct node * node){ return ((struct srvparam *)node->value) -> next; } static void * ef_server_type(struct node * node){ int service = ((struct srvparam *)node->value) -> service; return (service>=0 && service < 15)? (void *)conf.stringtable[SERVICES + service] : (void *)"unknown"; } static void * ef_server_child(struct node * node){ return ((struct srvparam *)node->value) -> child; } static void * ef_server_auth(struct node * node){ AUTHFUNC af = ((struct srvparam *)node->value) -> authfunc; if(af == alwaysauth) return "none"; if(af == nbnameauth) return "nbname"; if(af == ipauth) return "iponly"; if(af == strongauth) return "strong"; return "uknown"; } static void * ef_server_childcount(struct node * node){ return &((struct srvparam *)node->value) -> childcount; } static void * ef_server_log(struct node * node){ if(((struct srvparam *)node->value) -> logfunc == lognone) return "none"; else if(((struct srvparam *)node->value) -> logfunc == logstdout) return (((struct srvparam *)node->value) -> logtarget)?"file":"stdout"; #ifndef _WIN32 else if(((struct srvparam *)node->value) -> logfunc == logsyslog) return "syslog"; #endif #ifndef NOODBC else if(((struct srvparam *)node->value) -> logfunc == logsql) return "odbc"; #endif return NULL; } static void * ef_server_logformat(struct node * node){ return ((struct srvparam *)node->value) -> logformat; } static void * ef_server_nonprintable(struct node * node){ return ((struct srvparam *)node->value) -> nonprintable; } static void * ef_server_replacement(struct node * node){ if(((struct srvparam *)node->value) -> nonprintable)return &((struct srvparam *)node->value) -> replace; return NULL; } static void * ef_server_logtarget(struct node * node){ return ((struct srvparam *)node->value) -> logtarget; } static void * ef_server_target(struct node * node){ return ((struct srvparam *)node->value) -> target; } static void * ef_server_targetport(struct node * node){ return &((struct srvparam *)node->value) -> targetport; } static void * ef_server_intip(struct node * node){ return &((struct srvparam *)node->value) -> intip; } static void * ef_server_extip(struct node * node){ return &((struct srvparam *)node->value) -> extip; } static void * ef_server_intport(struct node * node){ return &((struct srvparam *)node->value) -> intport; } static void * ef_server_extport(struct node * node){ return &((struct srvparam *)node->value) -> extport; } static void * ef_server_acl(struct node * node){ return ((struct srvparam *)node->value) -> acl; } static void * ef_server_singlepacket(struct node * node){ return &((struct srvparam *)node->value) -> singlepacket; } static void * ef_server_usentlm(struct node * node){ return &((struct srvparam *)node->value) -> usentlm; } static void * ef_server_starttime(struct node * node){ return &((struct srvparam *)node->value) -> time_start; } static void * ef_client_next(struct node * node){ return ((struct clientparam *)node->value) -> next; } static void * ef_client_maxtrafin(struct node * node){ return &((struct clientparam *)node->value) -> maxtrafin; } static void * ef_client_maxtrafout(struct node * node){ return &((struct clientparam *)node->value) -> maxtrafout; } static void * ef_client_type(struct node * node){ int service = ((struct clientparam *)node->value) -> service; return (service>=0 && service < 15)? (void *)conf.stringtable[SERVICES + service] : (void *)"unknown"; } static void * ef_client_operation(struct node * node){ if(!((struct clientparam *)node->value) -> operation) return NULL; return &((struct clientparam *)node->value) -> operation; } static void * ef_client_redirected(struct node * node){ return &((struct clientparam *)node->value) -> redirected; } static void * ef_client_hostname(struct node * node){ return ((struct clientparam *)node->value) -> hostname; } static void * ef_client_username(struct node * node){ return ((struct clientparam *)node->value) -> username; } static void * ef_client_password(struct node * node){ return ((struct clientparam *)node->value) -> password; } static void * ef_client_extusername(struct node * node){ return ((struct clientparam *)node->value) -> extusername; } static void * ef_client_extpassword(struct node * node){ return ((struct clientparam *)node->value) -> extpassword; } static void * ef_client_cliip(struct node * node){ return &((struct clientparam *)node->value) -> sinc.sin_addr.s_addr; } static void * ef_client_srvip(struct node * node){ return &((struct clientparam *)node->value) -> sins.sin_addr.s_addr; } static void * ef_client_reqip(struct node * node){ return &((struct clientparam *)node->value) -> req.sin_addr.s_addr; } static void * ef_client_reqport(struct node * node){ return &((struct clientparam *)node->value) -> req.sin_port; } static void * ef_client_srvport(struct node * node){ return &((struct clientparam *)node->value) -> sins.sin_port; } static void * ef_client_cliport(struct node * node){ return &((struct clientparam *)node->value) -> sinc.sin_port; } static void * ef_client_bytesin(struct node * node){ return &((struct clientparam *)node->value) -> statssrv; } static void * ef_client_bytesout(struct node * node){ return &((struct clientparam *)node->value) -> statscli; } static void * ef_client_pwtype(struct node * node){ return &((struct clientparam *)node->value) -> pwtype; } static void * ef_client_threadid(struct node * node){ return &((struct clientparam *)node->value) -> threadid; } static void * ef_client_starttime(struct node * node){ return &((struct clientparam *)node->value) -> time_start; } static void * ef_client_starttime_msec(struct node * node){ return &((struct clientparam *)node->value) -> msec_start; } static void * ef_period_fromtime(struct node * node){ return &((struct period *)node->value) -> fromtime; } static void * ef_period_totime(struct node * node){ return &((struct period *)node->value) -> totime; } static void * ef_period_next(struct node * node){ return ((struct period *)node->value) -> next; } static struct property prop_portlist[] = { {prop_portlist + 1, "start", ef_portlist_start, TYPE_PORT, "port range start"}, {prop_portlist + 2, "end", ef_portlist_end, TYPE_PORT, "port range end"}, {NULL, "next", ef_portlist_next, TYPE_PORTLIST, "next"} }; static struct property prop_userlist[] = { {prop_userlist+1, "user", ef_userlist_user, TYPE_STRING, "user name"}, {NULL, "next", ef_userlist_next, TYPE_USERLIST, "next"} }; static struct property prop_pwlist[] = { {prop_pwlist + 1, "user", ef_pwlist_user, TYPE_STRING, "user name"}, {prop_pwlist + 2, "password", ef_pwlist_password, TYPE_STRING, "password string"}, {prop_pwlist + 3, "type", ef_pwlist_type, TYPE_STRING, "password type"}, {NULL, "next", ef_pwlist_next, TYPE_PWLIST, "next"} }; static struct property prop_iplist[] = { {prop_iplist + 1, "ip", ef_iplist_ip, TYPE_IP, "ip address"}, {prop_iplist + 2, "cidr", ef_iplist_cidr, TYPE_CIDR, "ip mask length"}, {prop_iplist + 3, "mask", ef_iplist_mask, TYPE_IP, "ip mask"}, {NULL, "next", ef_iplist_next, TYPE_IPLIST, "next"} }; static struct property prop_chain[] = { {prop_chain + 1, "ip", ef_chain_ip, TYPE_IP, "parent ip address"}, {prop_chain + 2, "port", ef_chain_port, TYPE_PORT, "parent port"}, {prop_chain + 3, "type", ef_chain_type, TYPE_STRING, "parent type"}, {prop_chain + 4, "weight", ef_chain_weight, TYPE_SHORT, "parent weight 0-1000"}, {prop_chain + 5, "user", ef_chain_user, TYPE_STRING, "parent login"}, {prop_chain + 6, "password", ef_chain_password, TYPE_STRING, "parent password"}, {NULL, "next", ef_chain_next, TYPE_CHAIN, "next"} }; static struct property prop_period[] = { {prop_period + 1, "fromtime", ef_period_fromtime, TYPE_TIME, "from time" }, {prop_period + 2, "totime", ef_period_totime, TYPE_TIME, "to time" }, {NULL, "next", ef_period_next, TYPE_PERIOD, "next"} }; static struct property prop_ace[] = { {prop_ace + 1, "type", ef_ace_type, TYPE_STRING, "ace action"}, {prop_ace + 2, "operations", ef_ace_operations, TYPE_OPERATIONS, "request type"}, {prop_ace + 3, "users", ef_ace_users, TYPE_USERLIST, "list of users"}, {prop_ace + 4, "src", ef_ace_src, TYPE_IPLIST, "list of source ips"}, {prop_ace + 5, "dst", ef_ace_dst, TYPE_IPLIST, "list of destination ips"}, {prop_ace + 6, "ports", ef_ace_ports, TYPE_PORTLIST, "list of destination ports"}, {prop_ace + 7, "chain", ef_ace_chain, TYPE_CHAIN, "redirect to parent(s)"}, {prop_ace + 8, "wdays", ef_ace_weekdays, TYPE_WEEKDAYS, "days of week"}, {prop_ace + 9, "periods", ef_ace_period, TYPE_PERIOD, "time of the day"}, {NULL, "next", ef_ace_next, TYPE_ACE, "next"} }; static struct property prop_bandlimit[] = { {prop_bandlimit + 1, "ace", ef_bandlimit_ace, TYPE_ACE, "acl to apply"}, {prop_bandlimit + 2, "rate", ef_bandlimit_rate, TYPE_UNSIGNED, "max allowed bandwidth"}, {NULL, "next", ef_bandlimit_next, TYPE_BANDLIMIT, "next"} }; static struct property prop_trafcounter[] = { {prop_trafcounter + 1, "disabled", ef_trafcounter_disabled, TYPE_INTEGER, "counter status"}, {prop_trafcounter + 2, "ace", ef_trafcounter_ace, TYPE_ACE, "traffic to count"}, {prop_trafcounter + 3, "number", ef_trafcounter_number, TYPE_UNSIGNED, "counter number"}, {prop_trafcounter + 4, "type", ef_trafcounter_type, TYPE_ROTATION, "rotation type"}, {prop_trafcounter + 5, "traffic", ef_trafcounter_traffic, TYPE_TRAFFIC, "counter value"}, {prop_trafcounter + 6, "limit", ef_trafcounter_limit, TYPE_TRAFFIC, "counter limit"}, {prop_trafcounter + 7, "cleared", ef_trafcounter_cleared, TYPE_DATETIME, "last rotated"}, {prop_trafcounter + 8, "updated", ef_trafcounter_updated, TYPE_DATETIME, "last updated"}, {prop_trafcounter + 9, "comment", ef_trafcounter_comment, TYPE_STRING, "counter comment"}, {NULL, "next", ef_trafcounter_next, TYPE_TRAFCOUNTER} }; /* */ static struct property prop_server[] = { {prop_server + 1, "servicetype", ef_server_type, TYPE_STRING, "type of the service/client"}, {prop_server + 2, "target", ef_server_target, TYPE_STRING, "portmapper target ip"}, {prop_server + 3, "targetport", ef_server_targetport, TYPE_PORT, "portmapper target port"}, {prop_server + 4, "starttime", ef_server_starttime, TYPE_DATETIME, "service started seconds"}, {prop_server + 5, "intip", ef_server_intip, TYPE_IP, "ip address of internal interface"}, {prop_server + 6, "extip", ef_server_extip, TYPE_IP, "ip address of external interface"}, {prop_server + 7, "intport", ef_server_intport, TYPE_PORT, "port to listen"}, {prop_server + 8, "extport", ef_server_extport, TYPE_PORT, "port to use for outgoing connection"}, {prop_server + 9, "auth", ef_server_auth, TYPE_STRING, "service authentication type"}, {prop_server + 10, "acl", ef_server_acl, TYPE_ACE, "access control list"}, {prop_server + 11, "singlepacket", ef_server_singlepacket, TYPE_INTEGER, "is single packet redirection"}, {prop_server + 12, "usentlm", ef_server_usentlm, TYPE_INTEGER, "allow NTLM authentication"}, {prop_server + 13, "log", ef_server_log, TYPE_STRING, "type of logging"}, {prop_server + 14, "logtarget", ef_server_logtarget, TYPE_STRING, "log target options"}, {prop_server + 15, "logformat", ef_server_logformat, TYPE_STRING, "logging format string"}, {prop_server + 16, "nonprintable", ef_server_nonprintable, TYPE_STRING, "non printable characters"}, {prop_server + 17, "replacement", ef_server_replacement, TYPE_CHAR, "replacement character"}, {prop_server + 18, "childcount", ef_server_childcount, TYPE_INTEGER, "number of servers connected"}, {prop_server + 19, "child", ef_server_child, TYPE_CLIENT, "connected clients"}, {NULL, "next", ef_server_next, TYPE_SERVER, "next"} }; static struct property prop_client[] = { {prop_client + 1, "servicetype", ef_client_type, TYPE_STRING, "type of the client"}, {prop_client + 2, "threadid", ef_client_threadid, TYPE_INTEGER, "process thread id"}, {prop_client + 3, "starttime", ef_client_starttime, TYPE_DATETIME, "client started seconds"}, {prop_client + 4, "starttime_msec", ef_client_starttime_msec, TYPE_UNSIGNED, "client started milliseconds"}, {prop_client + 5, "redirected", ef_client_redirected, TYPE_INTEGER, "number of redirections"}, {prop_client + 6, "operation", ef_client_operation, TYPE_OPERATIONS, "action requested by client"}, {prop_client + 7, "hostname", ef_client_hostname, TYPE_STRING, "name of the requested host"}, {prop_client + 8, "extusername", ef_client_extusername, TYPE_STRING, "username for requested host"}, {prop_client + 9, "extpassword", ef_client_extpassword, TYPE_STRING, "password for requested host"}, {prop_client + 10, "username", ef_client_username, TYPE_STRING, "client username"}, {prop_client + 11, "password", ef_client_password, TYPE_STRING, "client password"}, {prop_client + 12, "cliip", ef_client_cliip, TYPE_IP, "client ip"}, {prop_client + 13, "cliport", ef_client_cliport, TYPE_PORT, "client port"}, {prop_client + 14, "srvip", ef_client_srvip, TYPE_IP, "target server ip"}, {prop_client + 15, "srvport", ef_client_srvport, TYPE_PORT, "target server port"}, {prop_client + 16, "reqip", ef_client_reqip, TYPE_IP, "requested server ip"}, {prop_client + 17, "reqport", ef_client_reqport, TYPE_PORT, "requested server port"}, {prop_client + 18, "bytesin", ef_client_bytesin, TYPE_UNSIGNED, "bytes from server to client"}, {prop_client + 19, "bytesout", ef_client_bytesout, TYPE_UNSIGNED, "bytes from client to server"}, {prop_client + 20, "pwtype", ef_client_pwtype, TYPE_INTEGER, "type of client password"}, {prop_client + 21, "maxtrafin", ef_client_maxtrafin, TYPE_UNSIGNED, "maximum traffic allowed for download"}, {prop_client + 22, "maxtrafout", ef_client_maxtrafout, TYPE_UNSIGNED, "maximum traffic allowed for upload"}, {NULL, "next", ef_client_next, TYPE_CLIENT, "next"} }; struct datatype datatypes[64] = { {"integer", NULL, pr_integer, NULL}, {"short", NULL, pr_short, NULL}, {"char", NULL, pr_char, NULL}, {"unsigned", NULL, pr_unsigned, NULL}, {"traffic", NULL, pr_traffic, NULL}, {"port", NULL, pr_port, NULL}, {"ip", NULL, pr_ip, NULL}, {"cidr", NULL, pr_cidr, NULL}, {"string", NULL, pr_string, NULL}, {"datetime", NULL, pr_datetime, NULL}, {"operations", NULL, pr_operations, NULL}, {"rotation", NULL, pr_rotation, NULL}, {"portlist", ef_portlist_next, pr_portlist, prop_portlist}, {"iplist", ef_iplist_next, pr_iplist, prop_iplist}, {"userlist", ef_userlist_next, pr_userlist, prop_userlist}, {"pwlist", ef_pwlist_next, NULL, prop_pwlist}, {"chain", ef_chain_next, NULL, prop_chain}, {"ace", ef_ace_next, NULL, prop_ace}, {"bandlimit", ef_bandlimit_next, NULL, prop_bandlimit}, {"trafcounter", ef_trafcounter_next, NULL, prop_trafcounter}, {"client", ef_client_next, NULL, prop_client}, {"weekdays", NULL, pr_wdays, NULL}, {"time", NULL, pr_time, NULL}, {"period", ef_period_next, NULL, prop_period}, {"server", ef_server_next, NULL, prop_server} };