#include #include #include #include /* RADIUS support for tcpdump, Thomas Ptacek */ #include "interface.h" #include "radius.h" static void r_print_att(int code, int len, const u_char *val); static void r_print_int(int code, int len, const u_char *val); static void r_print_address(int code, int len, const u_char *val); static void r_print_string(int code, int len, const u_char *val); static void r_print_hex(int code, int len, const u_char *val); /* --------------------------------------------------------------- */ struct radius_ctable { int code; char *name; }; /* map opcodes to strings */ #define DEFINED_OPCODES 11 static struct radius_ctable radius_codes[] = { { -1, NULL }, { RADIUS_CODE_ACCESS_REQUEST, "Axs?" }, { RADIUS_CODE_ACCESS_ACCEPT, "Axs+" }, { RADIUS_CODE_ACCESS_REJECT, "Axs-" }, { RADIUS_CODE_ACCOUNT_REQUEST, "Act?" }, { RADIUS_CODE_ACCOUNT_RESPONSE, "Act+" }, { RADIUS_CODE_ACCOUNT_STATUS, "ActSt" }, { RADIUS_CODE_PASSCHG_REQUEST, "Pchg?" }, { RADIUS_CODE_PASSCHG_ACCEPT, "Pchg+" }, { RADIUS_CODE_PASSCHG_REJECT, "Pchg-" }, { RADIUS_CODE_ACCOUNT_MESSAGE, "ActMg" }, { RADIUS_CODE_ACCESS_CHALLENGE, "Axs!" }, { -1, NULL } }; /* --------------------------------------------------------------- */ #define MAX_VALUES 20 struct radius_atable { int code; int encoding; char *name; char *values[MAX_VALUES]; }; /* map attributes to strings */ /* the right way to do this is probably to read these values out * of the actual RADIUS dictionary; this would require the machine * running tcpdump to have that file installed, and it's not my * program, so I'm not going to introduce new dependancies. Oh well. */ static struct radius_atable radius_atts[] = { { RADIUS_ATT_USER_NAME, RD_STRING, "Name", NULL }, { RADIUS_ATT_PASSWORD, RD_HEX, "Pass", NULL }, { RADIUS_ATT_CHAP_PASS, RD_HEX, "CPass", NULL }, { RADIUS_ATT_NAS_IP, RD_ADDRESS, "NAS-IP", NULL }, { RADIUS_ATT_NAS_PORT, RD_INT, "NAS-Pt", NULL }, { RADIUS_ATT_USER_SERVICE, RD_INT, "USvc", { "", "Login", "Framed", "DB-Lgn", "DB-Frm", "Out", "Shell", NULL } }, { RADIUS_ATT_PROTOCOL, RD_INT, "FProt", { "", "PPP", "SLIP", NULL } }, { RADIUS_ATT_FRAMED_ADDRESS, RD_ADDRESS, "F-IP", NULL }, { RADIUS_ATT_NETMASK, RD_ADDRESS, "F-Msk", NULL }, { RADIUS_ATT_ROUTING, RD_INT, "F-Rtg", NULL }, { RADIUS_ATT_FILTER, RD_STRING, "FltID", NULL }, { RADIUS_ATT_MTU, RD_INT, "F-MTU", NULL }, { RADIUS_ATT_COMPRESSION, RD_INT, "F-Comp", NULL }, { RADIUS_ATT_LOGIN_HOST, RD_ADDRESS, "L-Hst", NULL }, { RADIUS_ATT_LOGIN_SERVICE, RD_INT, "L-Svc", { "", "Telnt", "Rlog", "Clear", "PortM", NULL } }, { RADIUS_ATT_LOGIN_TCP_PORT, RD_INT, "L-Pt", NULL }, { RADIUS_ATT_OLD_PASSWORD, RD_HEX, "OPass", NULL }, { RADIUS_ATT_PORT_MESSAGE, RD_STRING, "PMsg", NULL }, { RADIUS_ATT_DIALBACK_NO, RD_STRING, "DB#", NULL }, { RADIUS_ATT_DIALBACK_NAME, RD_STRING, "DBNm", NULL }, { RADIUS_ATT_EXPIRATION, RD_DATE, "PExp", NULL }, { RADIUS_ATT_FRAMED_ROUTE, RD_STRING, "F-Rt", NULL }, { RADIUS_ATT_FRAMED_IPX, RD_ADDRESS, "F-IPX", NULL }, { RADIUS_ATT_CHALLENGE_STATE, RD_STRING, "CState", NULL }, { RADIUS_ATT_CLASS, RD_STRING, "Class", NULL }, { RADIUS_ATT_VENDOR_SPECIFIC, RD_HEX, "Vendor", NULL }, { RADIUS_ATT_SESSION_TIMEOUT, RD_INT, "S-TO", NULL }, { RADIUS_ATT_IDLE_TIMEOUT, RD_INT, "I-TO", NULL }, { RADIUS_ATT_TERMINATE_ACTION, RD_INT, "TermAct", NULL }, { RADIUS_ATT_CALLED_ID, RD_STRING, "Callee", NULL }, { RADIUS_ATT_CALLER_ID, RD_STRING, "Caller", NULL }, { RADIUS_ATT_STATUS_TYPE, RD_INT, "Stat", { "", "Start", "Stop", NULL } }, { -1, -1, NULL, NULL } }; typedef void (*aselector)(int code, int len, const u_char *data); aselector atselector[] = { r_print_hex, r_print_int, r_print_int, r_print_address, r_print_string, r_print_hex }; static void r_print_att(int code, int len, const u_char *data) { struct radius_atable *atp; int i; for(atp = radius_atts; atp->code != -1; atp++) if(atp->code == code) break; if(atp->code == -1) { if(vflag > 1) { fprintf(stdout, " %d =", code); atselector[RD_HEX](code, len, data); } else fprintf(stdout, " %d", code); return; } fprintf(stdout, " %s =", atp->name); if(atp->encoding == RD_INT && *atp->values) { int k = ntohl((*(int *)data)); for(i = 0; atp->values[i] != NULL; i++) /* SHOOT ME */ ; if(k < i) { fprintf(stdout, " %s", atp->values[k]); return; } } atselector[atp->encoding](code, len, data); } static void r_print_int(int code, int len, const u_char *data) { if(len < 4) { fputs(" ?", stdout); return; } fprintf(stdout, " %d", ntohl((*(int *)data))); } static void r_print_address(int code, int len, const u_char *data) { if(len < 4) { fputs(" ?", stdout); return; } fprintf(stdout, " %s", inet_ntoa((*(struct in_addr *)data))); } static void r_print_string(int code, int len, const u_char *data) { char string[128]; if(!len) { fputs(" ?", stdout); return; } if(len > 127) len = 127; memset(string, 0, 128); memcpy(string, data, len); fprintf(stdout, " %s", string); } static void r_print_hex(int code, int len, const u_char *data) { int i; /* excuse me */ fputs(" [", stdout); for(i = 0; i < len; i++) fprintf(stdout, "%x", data[i]); fputc(']', stdout); } void radius_print(register const u_char *data, u_int len) { const struct radius_header *rhp; const u_char *pp; int i, l, ac, al; if(len < sizeof(struct radius_header)) { fputs(" [|radius]", stdout); return; } rhp = (struct radius_header *) data; if(rhp->code > DEFINED_OPCODES || rhp->code < 1) fprintf(stdout, " Code:%d id:%x [%d]", rhp->code, rhp->id, ntohs(rhp->len)); else fprintf(stdout, " %s id:%x [%d]", radius_codes[rhp->code].name, rhp->id, ntohs(rhp->len)); if(ntohs(rhp->len) > len) { fputs(" [|radius]", stdout); return; } l = len - RADFIXEDSZ; if(!l) return; else pp = data + RADFIXEDSZ; while(l) { if(!i) fputc(',', stdout); i = 0; ac = *pp++; al = *pp++; if(al > l || al < 2) { fputs(" [|radius]", stdout); return; } al -= 2; r_print_att(ac, al, pp); pp += al; l -= al + 2; } }