radsecproxy.c 59 KB
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/*
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 * Copyright (C) 2006, 2007 Stig Venaas <venaas@uninett.no>
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 *
 * Permission to use, copy, modify, and distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 */

/* TODO:
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 * accounting
 * radius keep alives (server status)
 * setsockopt(keepalive...), check if openssl has some keepalive feature
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*/

/* For UDP there is one server instance consisting of udpserverrd and udpserverth
 *              rd is responsible for init and launching wr
 * For TLS there is a server instance that launches tlsserverrd for each TLS peer
 *          each tlsserverrd launches tlsserverwr
 * For each UDP/TLS peer there is clientrd and clientwr, clientwr is responsible
 *          for init and launching rd
 *
 * serverrd will receive a request, processes it and puts it in the requestq of
 *          the appropriate clientwr
 * clientwr monitors its requestq and sends requests
 * clientrd looks for responses, processes them and puts them in the replyq of
 *          the peer the request came from
 * serverwr monitors its reply and sends replies
 *
 * In addition to the main thread, we have:
 * If UDP peers are configured, there will be 2 + 2 * #peers UDP threads
 * If TLS peers are configured, there will initially be 2 * #peers TLS threads
 * For each TLS peer connecting to us there will be 2 more TLS threads
 *       This is only for connected peers
 * Example: With 3 UDP peer and 30 TLS peers, there will be a max of
 *          1 + (2 + 2 * 3) + (2 * 30) + (2 * 30) = 129 threads
*/

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#include <sys/socket.h>
#include <netinet/in.h>
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#include <netdb.h>
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#include <string.h>
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#include <unistd.h>
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#include <sys/time.h>
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#include <libgen.h>
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#include <pthread.h>
#include <openssl/ssl.h>
#include <openssl/rand.h>
#include <openssl/err.h>
#include <openssl/md5.h>
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#include <openssl/hmac.h>
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#include "debug.h"
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#include "radsecproxy.h"
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static struct options options;
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static struct client *clients;
static struct server *servers;
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static int client_udp_count = 0;
static int client_tls_count = 0;
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static int client_count = 0;
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static int server_udp_count = 0;
static int server_tls_count = 0;
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static int server_count = 0;
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static struct peer *tcp_server_listen;
static struct peer *udp_server_listen;
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static struct replyq udp_server_replyq;
static int udp_server_sock = -1;
static pthread_mutex_t *ssl_locks;
static long *ssl_lock_count;
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static SSL_CTX *ssl_ctx = NULL;
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extern int optind;
extern char *optarg;

/* callbacks for making OpenSSL thread safe */
unsigned long ssl_thread_id() {
        return (unsigned long)pthread_self();
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}
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void ssl_locking_callback(int mode, int type, const char *file, int line) {
    if (mode & CRYPTO_LOCK) {
	pthread_mutex_lock(&ssl_locks[type]);
	ssl_lock_count[type]++;
    } else
	pthread_mutex_unlock(&ssl_locks[type]);
}

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static int pem_passwd_cb(char *buf, int size, int rwflag, void *userdata) {
    int pwdlen = strlen(userdata);
    if (rwflag != 0 || pwdlen > size) /* not for decryption or too large */
	return 0;
    memcpy(buf, userdata, pwdlen);
    return pwdlen;
}

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static int verify_cb(int ok, X509_STORE_CTX *ctx) {
  char buf[256];
  X509 *err_cert;
  int err, depth;

  err_cert = X509_STORE_CTX_get_current_cert(ctx);
  err = X509_STORE_CTX_get_error(ctx);
  depth = X509_STORE_CTX_get_error_depth(ctx);

  if (depth > MAX_CERT_DEPTH) {
      ok = 0;
      err = X509_V_ERR_CERT_CHAIN_TOO_LONG;
      X509_STORE_CTX_set_error(ctx, err);
  }

  if (!ok) {
      X509_NAME_oneline(X509_get_subject_name(err_cert), buf, 256);
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      debug(DBG_WARN, "verify error: num=%d:%s:depth=%d:%s", err, X509_verify_cert_error_string(err), depth, buf);
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      switch (err) {
      case X509_V_ERR_UNABLE_TO_GET_ISSUER_CERT:
	  X509_NAME_oneline(X509_get_issuer_name(ctx->current_cert), buf, 256);
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	  debug(DBG_WARN, "\tIssuer=%s", buf);
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	  break;
      case X509_V_ERR_CERT_NOT_YET_VALID:
      case X509_V_ERR_ERROR_IN_CERT_NOT_BEFORE_FIELD:
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	  debug(DBG_WARN, "\tCertificate not yet valid");
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	  break;
      case X509_V_ERR_CERT_HAS_EXPIRED:
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	  debug(DBG_WARN, "Certificate has expired");
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	  break;
      case X509_V_ERR_ERROR_IN_CERT_NOT_AFTER_FIELD:
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	  debug(DBG_WARN, "Certificate no longer valid (after notAfter)");
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	  break;
      }
  }
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#ifdef DEBUG  
  printf("certificate verify returns %d\n", ok);
#endif  
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  return ok;
}

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SSL_CTX *ssl_init() {
    SSL_CTX *ctx;
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    int i;
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    unsigned long error;
    
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    if (!options.tlscertificatefile || !options.tlscertificatekeyfile)
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	debugx(1, DBG_ERR, "TLSCertificateFile and TLSCertificateKeyFile must be specified for TLS");
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    if (!options.tlscacertificatefile && !options.tlscacertificatepath)
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	debugx(1, DBG_ERR, "CA Certificate file/path need to be configured");
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    ssl_locks = malloc(CRYPTO_num_locks() * sizeof(pthread_mutex_t));
    ssl_lock_count = OPENSSL_malloc(CRYPTO_num_locks() * sizeof(long));
    for (i = 0; i < CRYPTO_num_locks(); i++) {
	ssl_lock_count[i] = 0;
	pthread_mutex_init(&ssl_locks[i], NULL);
    }
    CRYPTO_set_id_callback(ssl_thread_id);
    CRYPTO_set_locking_callback(ssl_locking_callback);
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    SSL_load_error_strings();
    SSL_library_init();

    while (!RAND_status()) {
	time_t t = time(NULL);
	pid_t pid = getpid();
	RAND_seed((unsigned char *)&t, sizeof(time_t));
        RAND_seed((unsigned char *)&pid, sizeof(pid));
    }

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    ctx = SSL_CTX_new(TLSv1_method());
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    if (options.tlscertificatekeypassword) {
	SSL_CTX_set_default_passwd_cb_userdata(ctx, options.tlscertificatekeypassword);
	SSL_CTX_set_default_passwd_cb(ctx, pem_passwd_cb);
    }
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    if (SSL_CTX_use_certificate_chain_file(ctx, options.tlscertificatefile) &&
	SSL_CTX_use_PrivateKey_file(ctx, options.tlscertificatekeyfile, SSL_FILETYPE_PEM) &&
	SSL_CTX_check_private_key(ctx) &&
	SSL_CTX_load_verify_locations(ctx, options.tlscacertificatefile, options.tlscacertificatepath)) {
	SSL_CTX_set_verify(ctx, SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT, verify_cb);
	SSL_CTX_set_verify_depth(ctx, MAX_CERT_DEPTH + 1);
	return ctx;
    }

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    while ((error = ERR_get_error()))
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	debug(DBG_ERR, "SSL: %s", ERR_error_string(error, NULL));
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    debug(DBG_ERR, "Error initialising SSL/TLS");
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    exit(1);
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}    
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#ifdef DEBUG
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void printauth(char *s, unsigned char *t) {
    int i;
    printf("%s:", s);
    for (i = 0; i < 16; i++)
	    printf("%02x ", t[i]);
    printf("\n");
}
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#endif
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int resolvepeer(struct peer *peer, int ai_flags) {
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    struct addrinfo hints, *addrinfo;
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    memset(&hints, 0, sizeof(hints));
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    hints.ai_socktype = (peer->type == 'T' ? SOCK_STREAM : SOCK_DGRAM);
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    hints.ai_family = AF_UNSPEC;
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    hints.ai_flags = ai_flags;
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    if (getaddrinfo(peer->host, peer->port, &hints, &addrinfo)) {
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	debug(DBG_WARN, "resolvepeer: can't resolve %s port %s", peer->host, peer->port);
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	return 0;
    }
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    if (peer->addrinfo)
	freeaddrinfo(peer->addrinfo);
    peer->addrinfo = addrinfo;
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    return 1;
}	  

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int connecttoserver(struct addrinfo *addrinfo) {
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    int s;
    struct addrinfo *res;
    
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    for (res = addrinfo; res; res = res->ai_next) {
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        s = socket(res->ai_family, res->ai_socktype, res->ai_protocol);
        if (s < 0) {
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            debug(DBG_WARN, "connecttoserver: socket failed");
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            continue;
        }
        if (connect(s, res->ai_addr, res->ai_addrlen) == 0)
            break;
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        debug(DBG_WARN, "connecttoserver: connect failed");
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        close(s);
        s = -1;
    }
    return s;
}	  

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int bindtoaddr(struct addrinfo *addrinfo) {
    int s, on = 1;
    struct addrinfo *res;
    
    for (res = addrinfo; res; res = res->ai_next) {
        s = socket(res->ai_family, res->ai_socktype, res->ai_protocol);
        if (s < 0) {
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            debug(DBG_WARN, "bindtoaddr: socket failed");
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            continue;
        }
	setsockopt(s, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on));
	if (!bind(s, res->ai_addr, res->ai_addrlen))
	    return s;
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	debug(DBG_WARN, "bindtoaddr: bind failed");
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        close(s);
    }
    return -1;
}	  

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/* returns the client with matching address, or NULL */
/* if client argument is not NULL, we only check that one client */
struct client *find_client(char type, struct sockaddr *addr, struct client *client) {
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    struct sockaddr_in6 *sa6;
    struct in_addr *a4 = NULL;
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    struct client *c;
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    int i;
    struct addrinfo *res;

    if (addr->sa_family == AF_INET6) {
        sa6 = (struct sockaddr_in6 *)addr;
        if (IN6_IS_ADDR_V4MAPPED(&sa6->sin6_addr))
            a4 = (struct in_addr *)&sa6->sin6_addr.s6_addr[12];
    } else
	a4 = &((struct sockaddr_in *)addr)->sin_addr;

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    c = (client ? client : clients);
    for (i = 0; i < client_count; i++) {
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	if (c->peer.type == type)
	    for (res = c->peer.addrinfo; res; res = res->ai_next)
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		if ((a4 && res->ai_family == AF_INET &&
		     !memcmp(a4, &((struct sockaddr_in *)res->ai_addr)->sin_addr, 4)) ||
		    (res->ai_family == AF_INET6 &&
		     !memcmp(&sa6->sin6_addr, &((struct sockaddr_in6 *)res->ai_addr)->sin6_addr, 16)))
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		    return c;
	if (client)
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	    break;
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	c++;
    }
    return NULL;
}

/* returns the server with matching address, or NULL */
/* if server argument is not NULL, we only check that one server */
struct server *find_server(char type, struct sockaddr *addr, struct server *server) {
    struct sockaddr_in6 *sa6;
    struct in_addr *a4 = NULL;
    struct server *s;
    int i;
    struct addrinfo *res;

    if (addr->sa_family == AF_INET6) {
        sa6 = (struct sockaddr_in6 *)addr;
        if (IN6_IS_ADDR_V4MAPPED(&sa6->sin6_addr))
            a4 = (struct in_addr *)&sa6->sin6_addr.s6_addr[12];
    } else
	a4 = &((struct sockaddr_in *)addr)->sin_addr;

    s = (server ? server : servers);
    for (i = 0; i < server_count; i++) {
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	if (s->peer.type == type)
	    for (res = s->peer.addrinfo; res; res = res->ai_next)
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		if ((a4 && res->ai_family == AF_INET &&
		     !memcmp(a4, &((struct sockaddr_in *)res->ai_addr)->sin_addr, 4)) ||
		    (res->ai_family == AF_INET6 &&
		     !memcmp(&sa6->sin6_addr, &((struct sockaddr_in6 *)res->ai_addr)->sin6_addr, 16)))
		    return s;
	if (server)
	    break;
	s++;
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    }
    return NULL;
}

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/* exactly one of client and server must be non-NULL */
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/* if *peer == NULL we return who we received from, else require it to be from peer */
/* return from in sa if not NULL */
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unsigned char *radudpget(int s, struct client **client, struct server **server, struct sockaddr_storage *sa) {
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    int cnt, len;
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    void *f;
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    unsigned char buf[65536], *rad;
    struct sockaddr_storage from;
    socklen_t fromlen = sizeof(from);

    for (;;) {
	cnt = recvfrom(s, buf, sizeof(buf), 0, (struct sockaddr *)&from, &fromlen);
	if (cnt == -1) {
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	    debug(DBG_WARN, "radudpget: recv failed");
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	    continue;
	}
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	debug(DBG_DBG, "radudpget: got %d bytes from %s", cnt, addr2string((struct sockaddr *)&from, fromlen));
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	if (cnt < 20) {
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	    debug(DBG_WARN, "radudpget: packet too small");
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	    continue;
	}
    
	len = RADLEN(buf);
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	if (len < 20) {
	    debug(DBG_WARN, "radudpget: length too small");
	    continue;
	}
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	if (cnt < len) {
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	    debug(DBG_WARN, "radudpget: packet smaller than length field in radius header");
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	    continue;
	}
	if (cnt > len)
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	    debug(DBG_DBG, "radudpget: packet was padded with %d bytes", cnt - len);
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	f = (client
	     ? (void *)find_client('U', (struct sockaddr *)&from, *client)
	     : (void *)find_server('U', (struct sockaddr *)&from, *server));
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	if (!f) {
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	    debug(DBG_WARN, "radudpget: got packet from wrong or unknown UDP peer, ignoring");
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	    continue;
	}

	rad = malloc(len);
	if (rad)
	    break;
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	debug(DBG_ERR, "radudpget: malloc failed");
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    }
    memcpy(rad, buf, len);
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    if (client)
	*client = (struct client *)f; /* only need this if *client == NULL, but if not NULL *client == f here */
    else
	*server = (struct server *)f; /* only need this if *server == NULL, but if not NULL *server == f here */
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    if (sa)
	*sa = from;
    return rad;
}

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int tlsverifycert(struct peer *peer) {
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    int l, loc;
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    X509 *cert;
    X509_NAME *nm;
    X509_NAME_ENTRY *e;
    unsigned char *v;
    unsigned long error;

    if (SSL_get_verify_result(peer->ssl) != X509_V_OK) {
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	debug(DBG_ERR, "tlsverifycert: basic validation failed");
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	while ((error = ERR_get_error()))
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	    debug(DBG_ERR, "tlsverifycert: TLS: %s", ERR_error_string(error, NULL));
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	return 0;
    }
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    cert = SSL_get_peer_certificate(peer->ssl);
    if (!cert) {
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	debug(DBG_ERR, "tlsverifycert: failed to obtain certificate");
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	return 0;
    }
    nm = X509_get_subject_name(cert);
    loc = -1;
    for (;;) {
	loc = X509_NAME_get_index_by_NID(nm, NID_commonName, loc);
	if (loc == -1)
	    break;
	e = X509_NAME_get_entry(nm, loc);
	l = ASN1_STRING_to_UTF8(&v, X509_NAME_ENTRY_get_data(e));
	if (l < 0)
	    continue;
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#ifdef DEBUG
	{
	    int i;
	    printf("cn: ");
	    for (i = 0; i < l; i++)
		printf("%c", v[i]);
	    printf("\n");
	}
#endif	
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	if (l == strlen(peer->host) && !strncasecmp(peer->host, (char *)v, l)) {
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	    debug(DBG_DBG, "tlsverifycert: Found cn matching host %s, All OK", peer->host);
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	    return 1;
	}
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	debug(DBG_ERR, "tlsverifycert: cn not matching host %s", peer->host);
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    }
    X509_free(cert);
    return 0;
}

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void tlsconnect(struct server *server, struct timeval *when, char *text) {
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    struct timeval now;
    time_t elapsed;
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    debug(DBG_DBG, "tlsconnect called from %s", text);
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    pthread_mutex_lock(&server->lock);
    if (when && memcmp(&server->lastconnecttry, when, sizeof(struct timeval))) {
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	/* already reconnected, nothing to do */
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	debug(DBG_DBG, "tlsconnect(%s): seems already reconnected", text);
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	pthread_mutex_unlock(&server->lock);
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	return;
    }

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    debug(DBG_DBG, "tlsconnect %s", text);
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    for (;;) {
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	gettimeofday(&now, NULL);
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	elapsed = now.tv_sec - server->lastconnecttry.tv_sec;
	if (server->connectionok) {
	    server->connectionok = 0;
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	    sleep(10);
	} else if (elapsed < 5)
	    sleep(10);
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	else if (elapsed < 600) {
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	    debug(DBG_INFO, "tlsconnect: sleeping %lds", elapsed);
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	    sleep(elapsed);
	} else if (elapsed < 1000) {
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	    debug(DBG_INFO, "tlsconnect: sleeping %ds", 900);
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	    sleep(900);
	} else
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	    server->lastconnecttry.tv_sec = now.tv_sec;  /* no sleep at startup */
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	debug(DBG_WARN, "tlsconnect: trying to open TLS connection to %s port %s", server->peer.host, server->peer.port);
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	if (server->sock >= 0)
	    close(server->sock);
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	if ((server->sock = connecttoserver(server->peer.addrinfo)) < 0) {
	    debug(DBG_ERR, "tlsconnect: connecttoserver failed");
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	    continue;
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	}
	
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	SSL_free(server->peer.ssl);
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	server->peer.ssl = SSL_new(ssl_ctx);
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	SSL_set_fd(server->peer.ssl, server->sock);
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	if (SSL_connect(server->peer.ssl) > 0 && tlsverifycert(&server->peer))
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	    break;
    }
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    debug(DBG_WARN, "tlsconnect: TLS connection to %s port %s up", server->peer.host, server->peer.port);
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    gettimeofday(&server->lastconnecttry, NULL);
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    pthread_mutex_unlock(&server->lock);
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}

unsigned char *radtlsget(SSL *ssl) {
    int cnt, total, len;
    unsigned char buf[4], *rad;

    for (;;) {
	for (total = 0; total < 4; total += cnt) {
	    cnt = SSL_read(ssl, buf + total, 4 - total);
	    if (cnt <= 0) {
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		debug(DBG_ERR, "radtlsget: connection lost");
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		if (SSL_get_error(ssl, cnt) == SSL_ERROR_ZERO_RETURN) {
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		    /* remote end sent close_notify, send one back */
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		    SSL_shutdown(ssl);
		}
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		return NULL;
	    }
	}

	len = RADLEN(buf);
	rad = malloc(len);
	if (!rad) {
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	    debug(DBG_ERR, "radtlsget: malloc failed");
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	    continue;
	}
	memcpy(rad, buf, 4);

	for (; total < len; total += cnt) {
	    cnt = SSL_read(ssl, rad + total, len - total);
	    if (cnt <= 0) {
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		debug(DBG_ERR, "radtlsget: connection lost");
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		if (SSL_get_error(ssl, cnt) == SSL_ERROR_ZERO_RETURN) {
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		    /* remote end sent close_notify, send one back */
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		    SSL_shutdown(ssl);
		}
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		free(rad);
		return NULL;
	    }
	}
    
	if (total >= 20)
	    break;
	
	free(rad);
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	debug(DBG_WARN, "radtlsget: packet smaller than minimum radius size");
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    }
    
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    debug(DBG_DBG, "radtlsget: got %d bytes", total);
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    return rad;
}

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int clientradput(struct server *server, unsigned char *rad) {
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    int cnt;
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    size_t len;
    unsigned long error;
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    struct timeval lastconnecttry;
    
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    len = RADLEN(rad);
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    if (server->peer.type == 'U') {
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	if (send(server->sock, rad, len, 0) >= 0) {
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	    debug(DBG_DBG, "clienradput: sent UDP of length %d to %s port %s", len, server->peer.host, server->peer.port);
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	    return 1;
	}
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	debug(DBG_WARN, "clientradput: send failed");
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	return 0;
    }

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    lastconnecttry = server->lastconnecttry;
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    while ((cnt = SSL_write(server->peer.ssl, rad, len)) <= 0) {
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	while ((error = ERR_get_error()))
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	    debug(DBG_ERR, "clientradput: TLS: %s", ERR_error_string(error, NULL));
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	tlsconnect(server, &lastconnecttry, "clientradput");
	lastconnecttry = server->lastconnecttry;
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    }
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    server->connectionok = 1;
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    debug(DBG_DBG, "clientradput: Sent %d bytes, Radius packet of length %d to TLS peer %s",
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	   cnt, len, server->peer.host);
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    return 1;
}

int radsign(unsigned char *rad, unsigned char *sec) {
    static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
    static unsigned char first = 1;
    static EVP_MD_CTX mdctx;
    unsigned int md_len;
    int result;
    
    pthread_mutex_lock(&lock);
    if (first) {
	EVP_MD_CTX_init(&mdctx);
	first = 0;
    }

    result = (EVP_DigestInit_ex(&mdctx, EVP_md5(), NULL) &&
	EVP_DigestUpdate(&mdctx, rad, RADLEN(rad)) &&
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	EVP_DigestUpdate(&mdctx, sec, strlen((char *)sec)) &&
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	EVP_DigestFinal_ex(&mdctx, rad + 4, &md_len) &&
	md_len == 16);
    pthread_mutex_unlock(&lock);
    return result;
}

int validauth(unsigned char *rad, unsigned char *reqauth, unsigned char *sec) {
    static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
    static unsigned char first = 1;
    static EVP_MD_CTX mdctx;
    unsigned char hash[EVP_MAX_MD_SIZE];
    unsigned int len;
    int result;
    
    pthread_mutex_lock(&lock);
    if (first) {
	EVP_MD_CTX_init(&mdctx);
	first = 0;
    }

    len = RADLEN(rad);
    
    result = (EVP_DigestInit_ex(&mdctx, EVP_md5(), NULL) &&
	      EVP_DigestUpdate(&mdctx, rad, 4) &&
	      EVP_DigestUpdate(&mdctx, reqauth, 16) &&
	      (len <= 20 || EVP_DigestUpdate(&mdctx, rad + 20, len - 20)) &&
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	      EVP_DigestUpdate(&mdctx, sec, strlen((char *)sec)) &&
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	      EVP_DigestFinal_ex(&mdctx, hash, &len) &&
	      len == 16 &&
	      !memcmp(hash, rad + 4, 16));
    pthread_mutex_unlock(&lock);
    return result;
}
	      
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int checkmessageauth(unsigned char *rad, uint8_t *authattr, char *secret) {
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    static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
    static unsigned char first = 1;
    static HMAC_CTX hmacctx;
    unsigned int md_len;
    uint8_t auth[16], hash[EVP_MAX_MD_SIZE];
    
    pthread_mutex_lock(&lock);
    if (first) {
	HMAC_CTX_init(&hmacctx);
	first = 0;
    }

    memcpy(auth, authattr, 16);
    memset(authattr, 0, 16);
    md_len = 0;
    HMAC_Init_ex(&hmacctx, secret, strlen(secret), EVP_md5(), NULL);
    HMAC_Update(&hmacctx, rad, RADLEN(rad));
    HMAC_Final(&hmacctx, hash, &md_len);
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    memcpy(authattr, auth, 16);
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    if (md_len != 16) {
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	debug(DBG_WARN, "message auth computation failed");
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	pthread_mutex_unlock(&lock);
	return 0;
    }

    if (memcmp(auth, hash, 16)) {
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	debug(DBG_WARN, "message authenticator, wrong value");
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	pthread_mutex_unlock(&lock);
	return 0;
    }	
	
    pthread_mutex_unlock(&lock);
    return 1;
}

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int createmessageauth(unsigned char *rad, unsigned char *authattrval, char *secret) {
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    static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
    static unsigned char first = 1;
    static HMAC_CTX hmacctx;
    unsigned int md_len;

    if (!authattrval)
	return 1;
    
    pthread_mutex_lock(&lock);
    if (first) {
	HMAC_CTX_init(&hmacctx);
	first = 0;
    }

    memset(authattrval, 0, 16);
    md_len = 0;
    HMAC_Init_ex(&hmacctx, secret, strlen(secret), EVP_md5(), NULL);
    HMAC_Update(&hmacctx, rad, RADLEN(rad));
    HMAC_Final(&hmacctx, authattrval, &md_len);
    if (md_len != 16) {
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	debug(DBG_WARN, "message auth computation failed");
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	pthread_mutex_unlock(&lock);
	return 0;
    }

    pthread_mutex_unlock(&lock);
    return 1;
}

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unsigned char *attrget(unsigned char *attrs, int length, uint8_t type, uint8_t *len) {
    while (length > 1) {
	if (attrs[RAD_Attr_Type] == type) {
	    if (len)
		*len = attrs[RAD_Attr_Length] - 2;
	    return &attrs[RAD_Attr_Value];
	}
	length -= attrs[RAD_Attr_Length];
	attrs += attrs[RAD_Attr_Length];
    }
    return NULL;
}

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void sendrq(struct server *to, struct client *from, struct request *rq) {
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    int i;
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    uint8_t *attrval;
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    pthread_mutex_lock(&to->newrq_mutex);
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    /* might simplify if only try nextid, might be ok */
    for (i = to->nextid; i < MAX_REQUESTS; i++)
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	if (!to->requests[i].buf)
	    break;
    if (i == MAX_REQUESTS) {
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	for (i = 0; i < to->nextid; i++)
	    if (!to->requests[i].buf)
		break;
	if (i == to->nextid) {
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	    debug(DBG_WARN, "No room in queue, dropping request");
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	    pthread_mutex_unlock(&to->newrq_mutex);
	    return;
	}
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    }
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    to->nextid = i + 1;
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    rq->buf[1] = (char)i;
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    debug(DBG_DBG, "sendrq: inserting packet with id %d in queue for %s", i, to->peer.host);
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    attrval = attrget(rq->buf + 20, RADLEN(rq->buf) - 20, RAD_Attr_Message_Authenticator, NULL);
    if (attrval && !createmessageauth(rq->buf, attrval, to->peer.secret))
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	return;
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    to->requests[i] = *rq;

    if (!to->newrq) {
	to->newrq = 1;
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	debug(DBG_DBG, "signalling client writer");
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	pthread_cond_signal(&to->newrq_cond);
    }
    pthread_mutex_unlock(&to->newrq_mutex);
}

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void sendreply(struct client *to, struct server *from, unsigned char *buf, struct sockaddr_storage *tosa) {
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    struct replyq *replyq = to->replyq;
    
    pthread_mutex_lock(&replyq->count_mutex);
    if (replyq->count == replyq->size) {
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	debug(DBG_WARN, "No room in queue, dropping request");
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	pthread_mutex_unlock(&replyq->count_mutex);
	return;
    }

    replyq->replies[replyq->count].buf = buf;
    if (tosa)
	replyq->replies[replyq->count].tosa = *tosa;
    replyq->count++;

    if (replyq->count == 1) {
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	debug(DBG_DBG, "signalling client writer");
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	pthread_cond_signal(&replyq->count_cond);
    }
    pthread_mutex_unlock(&replyq->count_mutex);
}

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int pwdencrypt(uint8_t *in, uint8_t len, char *shared, uint8_t sharedlen, uint8_t *auth) {
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    static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
    static unsigned char first = 1;
    static EVP_MD_CTX mdctx;
    unsigned char hash[EVP_MAX_MD_SIZE], *input;
    unsigned int md_len;
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    uint8_t i, offset = 0, out[128];
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    pthread_mutex_lock(&lock);
    if (first) {
	EVP_MD_CTX_init(&mdctx);
	first = 0;
    }

    input = auth;
    for (;;) {
	if (!EVP_DigestInit_ex(&mdctx, EVP_md5(), NULL) ||
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	    !EVP_DigestUpdate(&mdctx, (uint8_t *)shared, sharedlen) ||
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	    !EVP_DigestUpdate(&mdctx, input, 16) ||
	    !EVP_DigestFinal_ex(&mdctx, hash, &md_len) ||
	    md_len != 16) {
	    pthread_mutex_unlock(&lock);
	    return 0;
	}
	for (i = 0; i < 16; i++)
	    out[offset + i] = hash[i] ^ in[offset + i];
	input = out + offset - 16;
	offset += 16;
	if (offset == len)
	    break;
    }
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    memcpy(in, out, len);
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    pthread_mutex_unlock(&lock);
    return 1;
}

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int pwddecrypt(uint8_t *in, uint8_t len, char *shared, uint8_t sharedlen, uint8_t *auth) {
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    static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
    static unsigned char first = 1;
    static EVP_MD_CTX mdctx;
    unsigned char hash[EVP_MAX_MD_SIZE], *input;
    unsigned int md_len;
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    uint8_t i, offset = 0, out[128];
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    pthread_mutex_lock(&lock);
    if (first) {
	EVP_MD_CTX_init(&mdctx);
	first = 0;
    }

    input = auth;
    for (;;) {
	if (!EVP_DigestInit_ex(&mdctx, EVP_md5(), NULL) ||
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	    !EVP_DigestUpdate(&mdctx, (uint8_t *)shared, sharedlen) ||
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	    !EVP_DigestUpdate(&mdctx, input, 16) ||
	    !EVP_DigestFinal_ex(&mdctx, hash, &md_len) ||
	    md_len != 16) {
	    pthread_mutex_unlock(&lock);
	    return 0;
	}
	for (i = 0; i < 16; i++)
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	    out[offset + i] = hash[i] ^ in[offset + i];
	input = in + offset;
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	offset += 16;
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	if (offset == len)
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	    break;
    }
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    memcpy(in, out, len);
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    pthread_mutex_unlock(&lock);
    return 1;
}

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int msmppencrypt(uint8_t *text, uint8_t len, uint8_t *shared, uint8_t sharedlen, uint8_t *auth, uint8_t *salt) {
    static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
    static unsigned char first = 1;
    static EVP_MD_CTX mdctx;
    unsigned char hash[EVP_MAX_MD_SIZE];
    unsigned int md_len;
    uint8_t i, offset;
    
    pthread_mutex_lock(&lock);
    if (first) {
	EVP_MD_CTX_init(&mdctx);
	first = 0;
    }

#if 0    
    printf("msppencrypt auth in: ");
    for (i = 0; i < 16; i++)
	printf("%02x ", auth[i]);
    printf("\n");
    
    printf("msppencrypt salt in: ");
    for (i = 0; i < 2; i++)
	printf("%02x ", salt[i]);
    printf("\n");
    
    printf("msppencrypt in: ");
    for (i = 0; i < len; i++)
	printf("%02x ", text[i]);
    printf("\n");
#endif
    
    if (!EVP_DigestInit_ex(&mdctx, EVP_md5(), NULL) ||
	!EVP_DigestUpdate(&mdctx, shared, sharedlen) ||
	!EVP_DigestUpdate(&mdctx, auth, 16) ||
	!EVP_DigestUpdate(&mdctx, salt, 2) ||
	!EVP_DigestFinal_ex(&mdctx, hash, &md_len)) {
	pthread_mutex_unlock(&lock);
	return 0;
    }

#if 0    
    printf("msppencrypt hash: ");
    for (i = 0; i < 16; i++)
	printf("%02x ", hash[i]);
    printf("\n");
#endif
    
    for (i = 0; i < 16; i++)
	text[i] ^= hash[i];
    
    for (offset = 16; offset < len; offset += 16) {
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#if 0	
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	printf("text + offset - 16 c(%d): ", offset / 16);
	for (i = 0; i < 16; i++)
	    printf("%02x ", (text + offset - 16)[i]);
	printf("\n");
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#endif
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	if (!EVP_DigestInit_ex(&mdctx, EVP_md5(), NULL) ||
	    !EVP_DigestUpdate(&mdctx, shared, sharedlen) ||
	    !EVP_DigestUpdate(&mdctx, text + offset - 16, 16) ||
	    !EVP_DigestFinal_ex(&mdctx, hash, &md_len) ||
	    md_len != 16) {
	    pthread_mutex_unlock(&lock);
	    return 0;
	}
#if 0	
	printf("msppencrypt hash: ");
	for (i = 0; i < 16; i++)
	    printf("%02x ", hash[i]);
	printf("\n");
#endif    
	
	for (i = 0; i < 16; i++)
	    text[offset + i] ^= hash[i];
    }
    
#if 0
    printf("msppencrypt out: ");
    for (i = 0; i < len; i++)
	printf("%02x ", text[i]);
    printf("\n");
#endif

    pthread_mutex_unlock(&lock);
    return 1;
}

int msmppdecrypt(uint8_t *text, uint8_t len, uint8_t *shared, uint8_t sharedlen, uint8_t *auth, uint8_t *salt) {
    static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
    static unsigned char first = 1;
    static EVP_MD_CTX mdctx;
    unsigned char hash[EVP_MAX_MD_SIZE];
    unsigned int md_len;
    uint8_t i, offset;
    char plain[255];
    
    pthread_mutex_lock(&lock);
    if (first) {
	EVP_MD_CTX_init(&mdctx);
	first = 0;
    }

#if 0    
    printf("msppdecrypt auth in: ");
    for (i = 0; i < 16; i++)
	printf("%02x ", auth[i]);
    printf("\n");
    
    printf("msppedecrypt salt in: ");
    for (i = 0; i < 2; i++)
	printf("%02x ", salt[i]);
    printf("\n");
    
    printf("msppedecrypt in: ");
    for (i = 0; i < len; i++)
	printf("%02x ", text[i]);
    printf("\n");
#endif
    
    if (!EVP_DigestInit_ex(&mdctx, EVP_md5(), NULL) ||
	!EVP_DigestUpdate(&mdctx, shared, sharedlen) ||
	!EVP_DigestUpdate(&mdctx, auth, 16) ||
	!EVP_DigestUpdate(&mdctx, salt, 2) ||
	!EVP_DigestFinal_ex(&mdctx, hash, &md_len)) {
	pthread_mutex_unlock(&lock);
	return 0;
    }

#if 0    
    printf("msppedecrypt hash: ");
    for (i = 0; i < 16; i++)
	printf("%02x ", hash[i]);
    printf("\n");
#endif
    
    for (i = 0; i < 16; i++)
	plain[i] = text[i] ^ hash[i];
    
    for (offset = 16; offset < len; offset += 16) {
#if 0 	
	printf("text + offset - 16 c(%d): ", offset / 16);
	for (i = 0; i < 16; i++)
	    printf("%02x ", (text + offset - 16)[i]);
	printf("\n");
#endif
	if (!EVP_DigestInit_ex(&mdctx, EVP_md5(), NULL) ||
	    !EVP_DigestUpdate(&mdctx, shared, sharedlen) ||
	    !EVP_DigestUpdate(&mdctx, text + offset - 16, 16) ||
	    !EVP_DigestFinal_ex(&mdctx, hash, &md_len) ||
	    md_len != 16) {
	    pthread_mutex_unlock(&lock);
	    return 0;
	}
#if 0	
    printf("msppedecrypt hash: ");
    for (i = 0; i < 16; i++)
	printf("%02x ", hash[i]);
    printf("\n");
#endif    

    for (i = 0; i < 16; i++)
	plain[offset + i] = text[offset + i] ^ hash[i];
    }

    memcpy(text, plain, len);
#if 0
    printf("msppedecrypt out: ");
    for (i = 0; i < len; i++)
	printf("%02x ", text[i]);
    printf("\n");
#endif

    pthread_mutex_unlock(&lock);
    return 1;
}

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struct server *id2server(char *id, uint8_t len) {
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    int i;
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    char **realm, *idrealm;
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    idrealm = strchr(id, '@');
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    if (idrealm) {
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	idrealm++;
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	len -= idrealm - id;
    } else {
	idrealm = "-";
	len = 1;
    }
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    for (i = 0; i < server_count; i++) {
	for (realm = servers[i].realms; *realm; realm++) {
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	    if ((strlen(*realm) == 1 && **realm == '*') ||
		(strlen(*realm) == len && !memcmp(idrealm, *realm, len))) {
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		debug(DBG_DBG, "found matching realm: %s, host %s", *realm, servers[i].peer.host);
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		return servers + i;
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	    }
	}
    }
    return NULL;
}

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int rqinqueue(struct server *to, struct client *from, uint8_t id) {
    int i;
    
    pthread_mutex_lock(&to->newrq_mutex);
    for (i = 0; i < MAX_REQUESTS; i++)
	if (to->requests[i].buf && to->requests[i].origid == id && to->requests[i].from == from)
	    break;
    pthread_mutex_unlock(&to->newrq_mutex);
    
    return i < MAX_REQUESTS;
}
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int attrvalidate(unsigned char *attrs, int length) {
    while (length > 1) {
	if (attrs[RAD_Attr_Length] < 2) {
	    debug(DBG_WARN, "attrvalidate: invalid attribute length %d", attrs[RAD_Attr_Length]);
	    return 0;
	}
	length -= attrs[RAD_Attr_Length];
	if (length < 0) {
	    debug(DBG_WARN, "attrvalidate: attribute length %d exceeds packet length", attrs[RAD_Attr_Length]);
	    return 0;
	}
	attrs += attrs[RAD_Attr_Length];
    }
    if (length)
	debug(DBG_WARN, "attrvalidate: malformed packet? remaining byte after last attribute");
    return 1;
}

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struct server *radsrv(struct request *rq, unsigned char *buf, struct client *from) {
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    uint8_t code, id, *auth, *attrs, attrvallen, *attrval;
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    uint16_t len;
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    struct server *to;
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    char username[256];
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    unsigned char newauth[16];
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#ifdef DEBUG
    int i;
#endif    
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    code = *(uint8_t *)buf;
    id = *(uint8_t *)(buf + 1);
    len = RADLEN(buf);
    auth = (uint8_t *)(buf + 4);

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    debug(DBG_DBG, "radsrv: code %d, id %d, length %d", code, id, len);
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    if (code != RAD_Access_Request) {
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	debug(DBG_INFO, "radsrv: server currently accepts only access-requests, ignoring");
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	return NULL;
    }

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    len -= 20;
    attrs = buf + 20;
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    if (!attrvalidate(attrs, len)) {
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	debug(DBG_WARN, "radsrv: attribute validation failed, ignoring packet");
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	return NULL;
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    }
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    attrval = attrget(attrs, len, RAD_Attr_User_Name, &attrvallen);
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    if (!attrval) {
	debug(DBG_WARN, "radsrv: ignoring request, no username attribute");
	return NULL;
    }
    memcpy(username, attrval, attrvallen);
    username[attrvallen] = '\0';
    debug(DBG_DBG, "Access Request with username: %s", username);
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    to = id2server(username, attrvallen);
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    if (!to) {
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	debug(DBG_INFO, "radsrv: ignoring request, don't know where to send it");
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	return NULL;
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    }
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    if (rqinqueue(to, from, id)) {
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	debug(DBG_INFO, "radsrv: ignoring request from host %s with id %d, already got one", from->peer.host, id);
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	return NULL;
    }
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    attrval = attrget(attrs, len, RAD_Attr_Message_Authenticator, &attrvallen);
    if (attrval && (attrvallen != 16 || !checkmessageauth(buf, attrval, from->peer.secret))) {
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	debug(DBG_WARN, "radsrv: message authentication failed");
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	return NULL;
    }

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    if (!RAND_bytes(newauth, 16)) {
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	debug(DBG_WARN, "radsrv: failed to generate random auth");
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	return NULL;
    }

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#ifdef DEBUG    
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    printauth("auth", auth);
    printauth("newauth", newauth);
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#endif
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    attrval = attrget(attrs, len, RAD_Attr_User_Password, &attrvallen);
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    if (attrval) {
	debug(DBG_DBG, "radsrv: found userpwdattr with value length %d", attrvallen);
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	if (attrvallen < 16 || attrvallen > 128 || attrvallen % 16) {
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	    debug(DBG_WARN, "radsrv: invalid user password length");
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	    return NULL;
	}
	
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	if (!pwddecrypt(attrval, attrvallen, from->peer.secret, strlen(from->peer.secret), auth)) {
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	    debug(DBG_WARN, "radsrv: cannot decrypt password");
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	    return NULL;
	}
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#ifdef DEBUG
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	printf("radsrv: password: ");
	for (i = 0; i < attrvallen; i++)
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	    printf("%02x ", attrval[i]);
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	printf("\n");
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#endif	
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	if (!pwdencrypt(attrval, attrvallen, to->peer.secret, strlen(to->peer.secret), newauth)) {
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	    debug(DBG_WARN, "radsrv: cannot encrypt password");
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	    return NULL;
	}
    }
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    attrval = attrget(attrs, len, RAD_Attr_Tunnel_Password, &attrvallen);
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    if (attrval) {
	debug(DBG_DBG, "radsrv: found tunnelpwdattr with value length %d", attrvallen);
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	if (attrvallen < 16 || attrvallen > 128 || attrvallen % 16) {
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	    debug(DBG_WARN, "radsrv: invalid user password length");
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	    return NULL;
	}
	
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	if (!pwddecrypt(attrval, attrvallen, from->peer.secret, strlen(from->peer.secret), auth)) {
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	    debug(DBG_WARN, "radsrv: cannot decrypt password");
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	    return NULL;
	}
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#ifdef DEBUG	
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	printf("radsrv: password: ");
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	for (i = 0; i < attrvallen; i++)
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	    printf("%02x ", attrval[i]);
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	printf("\n");
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#endif	
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	if (!pwdencrypt(attrval, attrvallen, to->peer.secret, strlen(to->peer.secret), newauth)) {
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	    debug(DBG_WARN, "radsrv: cannot encrypt password");
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	    return NULL;
	}
    }

    rq->buf = buf;
    rq->from = from;
    rq->origid = id;
    memcpy(rq->origauth, auth, 16);
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    memcpy(auth, newauth, 16);
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#ifdef DEBUG    
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    printauth("rq->origauth", (unsigned char *)rq->origauth);
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    printauth("auth", auth);
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#endif    
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    return to;
}

void *clientrd(void *arg) {
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    struct server *server = (struct server *)arg;
    struct client *from;
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    int i, len, sublen;
    unsigned char *buf, *messageauth, *subattrs, *attrs, *attrval;
    uint8_t attrvallen;
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    struct sockaddr_storage fromsa;