From: Felix Fietkau Date: Wed, 27 Apr 2005 09:42:33 +0000 (+0000) Subject: add l2tpd X-Git-Tag: reboot~32982 X-Git-Url: http://git.lede-project.org./?a=commitdiff_plain;h=6f9c4940714fa59cf2521a83bee7a46ebf8be5b4;p=openwrt%2Fopenwrt.git add l2tpd SVN-Revision: 731 --- diff --git a/openwrt/package/Config.in b/openwrt/package/Config.in index 86c2d795f4..f4dc3ea89e 100644 --- a/openwrt/package/Config.in +++ b/openwrt/package/Config.in @@ -53,6 +53,7 @@ source "package/olsrd/Config.in" source "package/usbutils/Config.in" source "package/kismet/Config.in" source "package/nmap/Config.in" +source "package/l2tpd/Config.in" comment "Libraries" source "package/libgcc/Config.in" diff --git a/openwrt/package/Makefile b/openwrt/package/Makefile index df64f302fb..71b01d0001 100644 --- a/openwrt/package/Makefile +++ b/openwrt/package/Makefile @@ -25,6 +25,7 @@ package-$(BR2_PACKAGE_HASERL) += haserl package-$(BR2_PACKAGE_IPTABLES) += iptables package-$(BR2_PACKAGE_IPROUTE2) += iproute2 package-$(BR2_PACKAGE_KISMET) += kismet +package-$(BR2_PACKAGE_L2TPD) += l2tpd package-$(BR2_PACKAGE_LCD4LINUX) += lcd4linux package-$(BR2_PACKAGE_LIBELF) += libelf package-$(BR2_PACKAGE_LIBGCC) += libgcc diff --git a/openwrt/package/l2tpd/Config.in b/openwrt/package/l2tpd/Config.in new file mode 100644 index 0000000000..5dd4a74add --- /dev/null +++ b/openwrt/package/l2tpd/Config.in @@ -0,0 +1,9 @@ +config BR2_PACKAGE_L2TPD + tristate "l2tpd" + default m if CONFIG_DEVEL + help + A layer 2 tunneling protocol implementation. + l2tpd is the open source implementation of the L2TP tunneling + protocol (RFC2661). It does implement both LAC and LNS role + in a L2TP networking architecture. The main goal of this protocol is + to tunnel PPP frame trough an ip network. diff --git a/openwrt/package/l2tpd/Makefile b/openwrt/package/l2tpd/Makefile new file mode 100644 index 0000000000..4cae74e44a --- /dev/null +++ b/openwrt/package/l2tpd/Makefile @@ -0,0 +1,52 @@ +# $Id$ + +include $(TOPDIR)/rules.mk + +PKG_NAME:=l2tpd +PKG_VERSION:=0.70pre +PKG_UPSTREAM_VERSION:=0.70-pre20031121 +PKG_RELEASE:=1 +PKG_MD5SUM:=3f2707b6e16a8cb72e7bf64f574202fa + +PKG_SOURCE_URL:=http://ftp.debian.org/debian/pool/main/l/l2tpd +PKG_SOURCE:=$(PKG_NAME)_$(PKG_UPSTREAM_VERSION).orig.tar.gz +PKG_CAT:=zcat + +PKG_BUILD_DIR:=$(BUILD_DIR)/$(PKG_NAME)-$(PKG_UPSTREAM_VERSION).orig + +IPKG_L2TPD:=$(PACKAGE_DIR)/$(PKG_NAME)_$(PKG_VERSION)-$(PKG_RELEASE)_$(ARCH).ipk +IDIR_L2TPD:=$(PKG_BUILD_DIR)/ipkg/$(PKG_NAME) +INFO_L2TPD:=$(IPKG_STATE_DIR)/info/$(PKG_NAME).list + +$(DL_DIR)/$(PKG_SOURCE): + $(SCRIPT_DIR)/download.pl $(DL_DIR) $(PKG_SOURCE) $(PKG_MD5SUM) $(PKG_SOURCE_URL) + +$(PKG_BUILD_DIR)/.prepared: $(DL_DIR)/$(PKG_SOURCE) + $(PKG_CAT) $(DL_DIR)/$(PKG_SOURCE) | tar -C $(BUILD_DIR) $(TAR_OPTIONS) - + $(PATCH) $(PKG_BUILD_DIR) ./patches + touch $(PKG_BUILD_DIR)/.prepared + +$(PKG_BUILD_DIR)/$(PKG_NAME): $(PKG_BUILD_DIR)/.prepared + $(MAKE) -C $(PKG_BUILD_DIR) \ + $(TARGET_CONFIGURE_OPTS) \ + CC=$(TARGET_CC) \ + CFLAGS="$(TARGET_CFLAGS) -I. -DLINUX -DSANITY -DIP_ALLOCATION" + +$(IPKG_L2TPD): $(PKG_BUILD_DIR)/$(PKG_NAME) + $(SCRIPT_DIR)/make-ipkg-dir.sh $(IDIR_L2TPD) $(PKG_NAME).control $(PKG_VERSION)-$(PKG_RELEASE) $(ARCH) + mkdir -p $(IDIR_L2TPD)/usr/sbin + cp $(PKG_BUILD_DIR)/$(PKG_NAME) $(IDIR_L2TPD)/usr/sbin/ + $(STRIP) $(IDIR_L2TPD)/usr/sbin/* + mkdir -p $(PACKAGE_DIR) + $(IPKG_BUILD) $(IDIR_L2TPD) $(PACKAGE_DIR) + +$(INFO_L2TPD): $(IPKG_L2TPD) + $(IPKG) install $(IPKG_L2TPD) + +source: $(DL_DIR)/$(PKG_SOURCE) +prepare: $(PKG_BUILD_DIR)/.prepared +compile: $(IPKG_L2TPD) +install: $(INFO_L2TPD) + +clean: + rm -rf $(PKG_BUILD_DIR) $(IPKG_L2TPD) diff --git a/openwrt/package/l2tpd/l2tpd.control b/openwrt/package/l2tpd/l2tpd.control new file mode 100644 index 0000000000..57d60a15b2 --- /dev/null +++ b/openwrt/package/l2tpd/l2tpd.control @@ -0,0 +1,10 @@ +Package: l2tpd +Priority: optional +Section: net +Maintainer: Felix Fietkau +Source: buildroot internal +Description: A layer 2 tunneling protocol implementation. + l2tpd is the open source implementation of the L2TP tunneling + protocol (RFC2661). It does implement both LAC and LNS role + in a L2TP networking architecture. The main goal of this protocol is + to tunnel PPP frame trough an ip network. diff --git a/openwrt/package/l2tpd/patches/debian-2.patch b/openwrt/package/l2tpd/patches/debian-2.patch new file mode 100644 index 0000000000..8a6e204c4d --- /dev/null +++ b/openwrt/package/l2tpd/patches/debian-2.patch @@ -0,0 +1,3394 @@ +--- l2tpd-0.70-pre20031121.orig/Makefile ++++ l2tpd-0.70-pre20031121/Makefile +@@ -28,7 +28,8 @@ + # become runtime options) debugging flags + # + #DFLAGS= -g -O2 -DDEBUG_PPPD +-DFLAGS= -g -O2 -DDEBUG_PPPD -DDEBUG_CONTROL -DDEBUG_ENTROPY ++#DFLAGS= -g -O2 -Wall -DDEBUG_PPPD -DDEBUG_CONTROL -DDEBUG_ENTROPY ++DFLAGS= -ggdb -Wall -DDEBUG_PPPD -DDEBUG_CONTROL -DDEBUG_ENTROPY + # + # Uncomment the next line for Linux + # +@@ -58,7 +59,7 @@ + + FFLAGS= -DIP_ALLOCATION + +-CFLAGS= $(DFLAGS) -Wall -DSANITY $(OSFLAGS) $(FFLAGS) ++CFLAGS= $(DFLAGS) -Wall -DSANITY $(OSFLAGS) $(FFLAGS) + HDRS=l2tp.h avp.h misc.h control.h call.h scheduler.h file.h aaa.h md5.h + OBJS=l2tpd.o pty.o misc.o control.o avp.o call.o network.o avpsend.o scheduler.o file.o aaa.o md5.o + LIBS= $(OSLIB) # -lefence # efence for malloc checking +--- l2tpd-0.70-pre20031121.orig/control.c ++++ l2tpd-0.70-pre20031121/control.c +@@ -227,7 +227,7 @@ + add_bearer_caps_avp (buf, t->ourbc); + /* FIXME: Tie breaker */ + add_firmware_avp (buf); +- add_hostname_avp (buf); ++ add_hostname_avp (buf, t); + add_vendor_avp (buf); + add_tunnelid_avp (buf, t->ourtid); + if (t->ourrws >= 0) +@@ -346,7 +346,6 @@ + "%s: Peer did not specify assigned tunnel ID. Closing.\n", + __FUNCTION__); + set_error (c, VENDOR_ERROR, "Specify your assigned tunnel ID"); +- c->needclose = -1; + return -EINVAL; + } + if (!(t->lns = get_lns (t))) +@@ -356,7 +355,6 @@ + "%s: Denied connection to unauthorized peer %s\n", + __FUNCTION__, IPADDY (t->peer.sin_addr)); + set_error (c, VENDOR_ERROR, "No Authorization"); +- c->needclose = -1; + return -EINVAL; + } + t->ourrws = t->lns->tun_rws; +@@ -368,7 +366,6 @@ + "%s: Peer did not specify framing capability. Closing.\n", + __FUNCTION__); + set_error (c, VENDOR_ERROR, "Specify framing capability"); +- c->needclose = -1; + return -EINVAL; + } + /* FIXME: Do we need to be sure they specified a version number? +@@ -380,7 +377,6 @@ + if (DEBUG) log(LOG_DEBUG, + "%s: Peer did not specify bearer capability. Closing.\n",__FUNCTION__); + set_error(c, VENDOR_ERROR, "Specify bearer capability"); +- c->needclose = -1; + return -EINVAL; + } */ + if ((!strlen (t->hostname)) && ((t->chal_us.state) || ((t->lns->challenge)))) +@@ -390,7 +386,6 @@ + "%s: Peer did not specify hostname. Closing.\n", + __FUNCTION__); + set_error (c, VENDOR_ERROR, "Specify your hostname"); +- c->needclose = -1; + return -EINVAL; + } + y = tunnels.head; +@@ -427,7 +422,7 @@ + add_frame_caps_avp (buf, t->ourfc); + add_bearer_caps_avp (buf, t->ourbc); + add_firmware_avp (buf); +- add_hostname_avp (buf); ++ add_hostname_avp (buf, t); + add_vendor_avp (buf); + add_tunnelid_avp (buf, t->ourtid); + if (t->ourrws >= 0) +@@ -481,7 +476,6 @@ + "%s: Peer did not specify framing capability. Closing.\n", + __FUNCTION__); + set_error (c, VENDOR_ERROR, "Specify framing capability"); +- c->needclose = -1; + return -EINVAL; + } + /* FIXME: Do we need to be sure they specified a version number? +@@ -493,7 +487,6 @@ + if (DEBUG) log(LOG_DEBUG, + "%s: Peer did not specify bearer capability. Closing.\n",__FUNCTION__); + set_error(c, VENDOR_ERROR, "Specify bearer capability"); +- c->needclose = -1; + return -EINVAL; + } */ + if ((!strlen (t->hostname)) && ((t->chal_them.state) || ((t->chal_us.state)))) +@@ -503,7 +496,6 @@ + "%s: Peer did not specify hostname. Closing.\n", + __FUNCTION__); + set_error (c, VENDOR_ERROR, "Specify your hostname"); +- c->needclose = -1; + return -EINVAL; + } + if (t->tid <= 0) +@@ -513,7 +505,6 @@ + "%s: Peer did not specify assigned tunnel ID. Closing.\n", + __FUNCTION__); + set_error (c, VENDOR_ERROR, "Specify your assigned tunnel ID"); +- c->needclose = -1; + return -EINVAL; + } + if (t->chal_them.state) +@@ -524,7 +515,6 @@ + set_error (c, VENDOR_ERROR, "No secret key on our side"); + log (LOG_WARN, "%s: No secret key for authenticating '%s'\n", + __FUNCTION__, t->hostname); +- c->needclose = -1; + return -EINVAL; + } + if (memcmp +@@ -534,7 +524,6 @@ + "Invalid challenge authentication"); + log (LOG_DEBUG, "%s: Invalid authentication for host '%s'\n", + __FUNCTION__, t->hostname); +- c->needclose = -1; + return -EINVAL; + } + } +@@ -546,7 +535,6 @@ + log (LOG_WARN, "%s: No secret for authenticating to '%s'\n", + __FUNCTION__, t->hostname); + set_error (c, VENDOR_ERROR, "No secret key on our end"); +- c->needclose = -1; + return -EINVAL; + }; + } +@@ -606,7 +594,6 @@ + "Invalid challenge authentication"); + log (LOG_DEBUG, "%s: Invalid authentication for host '%s'\n", + __FUNCTION__, t->hostname); +- c->needclose = -1; + return -EINVAL; + } + } +@@ -1584,6 +1571,14 @@ + wbuf[pos++] = e; + for (x = 0; x < buf->len; x++) + { ++ // we must at least still have 4 bytes left in the worst case scenario: ++ // 1 for a possible escape, 1 for the value and 1 to end the PPP stream. ++ if(pos >= (sizeof(wbuf) - 4)) { ++ if(DEBUG) ++ log(LOG_CRIT, "%s: rx packet is too big after PPP encoding (size %u, max is %u)\n", ++ __FUNCTION__, buf->len, MAX_RECV_SIZE); ++ return -EINVAL; ++ } + e = *((char *) buf->start + x); + if ((e < 0x20) || (e == PPP_ESCAPE) || (e == PPP_FLAG)) + { +@@ -1592,7 +1587,6 @@ + wbuf[pos++] = PPP_ESCAPE; + } + wbuf[pos++] = e; +- + } + wbuf[pos++] = PPP_FLAG; + x = write (c->fd, wbuf, pos); +--- l2tpd-0.70-pre20031121.orig/misc.h ++++ l2tpd-0.70-pre20031121/misc.h +@@ -80,4 +80,11 @@ + extern void safe_copy (char *, char *, int); + extern void opt_destroy (struct ppp_opts *); + extern struct ppp_opts *add_opt (struct ppp_opts *, char *, ...); ++extern u_int16_t get16(u_int8_t *); ++extern u_int32_t get32(u_int8_t *); ++extern u_int64_t get64(u_int8_t *); ++extern void set16(u_int8_t *, u_int16_t); ++extern void set32(u_int8_t *, u_int32_t); ++extern void set64(u_int8_t *, u_int64_t); ++ + #endif +--- l2tpd-0.70-pre20031121.orig/avp.h ++++ l2tpd-0.70-pre20031121/avp.h +@@ -19,22 +19,35 @@ + + struct avp_hdr + { +- _u16 length; +- _u16 vendorid; +- _u16 attr; ++ u_int16_t length; ++ u_int16_t vendorid; ++ u_int16_t attr; + }; + ++#define AVP_F_MANDATORY 0x1 ++#define AVP_F_FIXLEN 0x2 ++#define AVP_F_ASCII 0x4 ++ + struct avp + { +- int num; /* Number of AVP */ +- int m; /* Set M? */ +- int (*handler) (struct tunnel *, struct call *, void *, int); +- /* This should handle the AVP +- taking a tunnel, call, the data, +- and the length of the AVP as +- parameters. Should return 0 +- upon success */ +- char *description; /* A name, for debugging */ ++ u_int32_t num; /* Number of AVP */ ++ u_int32_t flags; ++ u_int32_t sz; /* expected avp payload size as ++ * (AVP_F_FIXLEN) ? (==) : (!>=) ++ * note: size checked is performed ++ * after unhiding */ ++ u_int8_t allowed_states[8]; /* List of allowed message types for ++ * a particular avp. Fixed len for ++ * alignement issues. */ ++ ++ /* This should handle the AVP taking a tunnel, call, ++ * the data, and the length of the AVP as parameters. ++ * Should return 0 upon success */ ++ int (*handle) (struct tunnel *, struct call *, void *, int); ++ ++ /* This should handle avp specifics sanity checks */ ++ int (*validate) (int, struct tunnel *, struct call *, void *, int); ++ char *description; /* A name, for debugging */ + }; + + extern int handle_avps (struct buffer *buf, struct tunnel *t, struct call *c); +@@ -84,8 +97,56 @@ + #define RESULT_CLEAR 1 + #define RESULT_ERROR 2 + #define RESULT_EXISTS 3 ++ ++/* avp id's */ ++#define MESSAGE_TYPE_AVP 0 ++#define RESULT_CODE_AVP 1 ++#define PROTOCOL_VERSION_AVP 2 ++#define FRAMING_CAP_AVP 3 ++#define BEARER_CAP_AVP 4 ++#define TIE_BREAKER_AVP 5 ++#define FIRMWARE_REV_AVP 6 ++#define HOSTNAME_AVP 7 ++#define VENDOR_NAME_AVP 8 ++#define ASSIGNED_TUN_ID_AVP 9 ++#define RX_WIN_SIZE_AVP 10 ++#define CHALLENGE_AVP 11 ++#define CHALLENGE_RESP_AVP 12 ++#define CAUSE_ERROR_AVP 13 ++#define ASSIGNED_SES_ID_AVP 14 ++#define SERIAL_NUMBER_AVP 15 ++#define MIN_BPS_AVP 16 ++#define MAX_BPS_AVP 17 ++#define BEARER_TYPE_AVP 18 ++#define FRAMING_TYPE_AVP 19 ++#define PACKET_DELAY_AVP 20 ++#define CALLED_NUMBER_AVP 21 ++#define CALLING_NUMBER_AVP 22 ++#define SUB_ADDRESS_AVP 23 ++#define TX_CONNECT_SPEED_AVP 24 ++#define PHYS_CHAN_ID_AVP 25 ++#define INIT_RX_LCP_AVP 26 ++#define LAST_TX_LCP_AVP 27 ++#define LAST_RX_LCP_AVP 28 ++#define PROXY_AUTH_TYPE_AVP 29 ++#define PROXY_AUTH_NAME_AVP 30 ++#define PROXY_AUTH_CHAL_AVP 31 ++#define PROXY_AUTH_ID_AVP 32 ++#define PROXY_AUTH_CHAL_RESP_AVP 33 ++#define CALL_ERROR_AVP 34 ++#define ACCM_AVP 35 ++#define RANDOM_VECTOR_AVP 36 ++#define PRIV_GROUP_ID_AVP 37 ++#define RX_CONNECT_SPEED_AVP 38 ++#define SEQ_REQUIRED_AVP 39 ++#define AVP_MAX SEQ_REQUIRED_AVP ++ ++extern int validate_msgtype_avp(int, struct tunnel *, struct call *, void *, int); ++extern int validate_gen_avp(int, struct tunnel *, struct call *, void *, int); ++ + extern void encrypt_avp (struct buffer *, _u16, struct tunnel *); + extern int decrypt_avp (char *, struct tunnel *); ++ + extern int message_type_avp (struct tunnel *, struct call *, void *, int); + extern int protocol_version_avp (struct tunnel *, struct call *, void *, int); + extern int framing_caps_avp (struct tunnel *, struct call *, void *, int); +@@ -97,12 +158,12 @@ + extern int receive_window_size_avp (struct tunnel *, struct call *, void *, + int); + extern int result_code_avp (struct tunnel *, struct call *, void *, int); +-extern int assigned_call_avp (struct tunnel *, struct call *, void *, int); ++extern int assigned_session_avp (struct tunnel *, struct call *, void *, int); + extern int call_serno_avp (struct tunnel *, struct call *, void *, int); + extern int bearer_type_avp (struct tunnel *, struct call *, void *, int); + extern int call_physchan_avp (struct tunnel *, struct call *, void *, int); +-extern int dialed_number_avp (struct tunnel *, struct call *, void *, int); +-extern int dialing_number_avp (struct tunnel *, struct call *, void *, int); ++extern int called_number_avp (struct tunnel *, struct call *, void *, int); ++extern int calling_number_avp (struct tunnel *, struct call *, void *, int); + extern int sub_address_avp (struct tunnel *, struct call *, void *, int); + extern int frame_type_avp (struct tunnel *, struct call *, void *, int); + extern int rx_speed_avp (struct tunnel *, struct call *, void *, int); +@@ -118,7 +179,7 @@ + extern int add_avp_rws (struct buffer *, _u16); + extern int add_tunnelid_avp (struct buffer *, _u16); + extern int add_vendor_avp (struct buffer *); +-extern int add_hostname_avp (struct buffer *); ++extern int add_hostname_avp (struct buffer *, struct tunnel*); + extern int add_firmware_avp (struct buffer *); + extern int add_bearer_caps_avp (struct buffer *buf, _u16 caps); + extern int add_frame_caps_avp (struct buffer *buf, _u16 caps); +--- l2tpd-0.70-pre20031121.orig/network.c ++++ l2tpd-0.70-pre20031121/network.c +@@ -214,6 +214,8 @@ + t->self->needclose = -1; + } + } ++ free(buf->rstart); ++ free(buf); + } + else + { +@@ -371,7 +373,9 @@ + if (debug_network) + { + log (LOG_DEBUG, "%s: recv packet from %s, size = %d," \ +-"tunnel = %d, call = %d\n", __FUNCTION__, inet_ntoa (from.sin_addr), recvsize, tunnel, call); ++ "tunnel = %d, call = %d\n", __func__, ++ inet_ntoa (from.sin_addr), recvsize, ++ tunnel, call); + } + if (packet_dump) + { +--- l2tpd-0.70-pre20031121.orig/aaa.c ++++ l2tpd-0.70-pre20031121/aaa.c +@@ -209,9 +209,11 @@ + __FUNCTION__, u, t, s); + #endif + strncpy (secret, s, size); ++ fclose(f); + return -1; + } + } ++ fclose(f); + return 0; + } + +--- l2tpd-0.70-pre20031121.orig/l2tpd.c ++++ l2tpd-0.70-pre20031121/l2tpd.c +@@ -266,6 +266,9 @@ + /* erase pid file */ + unlink (gconfig.pidfile); + ++ /* erase control pipe */ ++ unlink(CONTROL_PIPE); ++ + exit (1); + } + +@@ -333,13 +336,17 @@ + tcgetattr (c->fd, &ptyconf); + *(c->oldptyconf) = ptyconf; + ptyconf.c_cflag &= ~(ICANON | ECHO); +- ptyconf.c_lflag &= ~ECHO; ++ ptyconf.c_lflag &= ~ECHO; + tcsetattr (c->fd, TCSANOW, &ptyconf); + + snprintf (tty, sizeof (tty), "/dev/tty%c%c", a, b); + fd2 = open (tty, O_RDWR); +- stropt[pos++] = strdup(tty); +- stropt[pos] = NULL; ++ if(!fd2) ++ log(LOG_WARN, "unable to open tty %s", tty); ++ ++ /* XXX JEF: CHECK ME */ ++ stropt[pos++] = strdup(tty); ++ stropt[pos] = NULL; + + #ifdef USE_KERNEL + } +@@ -623,7 +630,13 @@ + { + struct lac *lac; + lac = (struct lac *) data; +- if (!lac->active) ++ ++ if (!lac) ++ { ++ log (LOG_WARN, "%s : called on NULL lac!\n", __FUNCTION__); ++ return; ++ } ++ if (!lac->active) + { + log (LOG_DEBUG, "%s: LAC %s not active", __FUNCTION__, lac->entname); + return; +@@ -635,11 +648,6 @@ + log (LOG_LOG, "%s: maximum retries exceeded.\n", __FUNCTION__); + return; + } +- if (!lac) +- { +- log (LOG_WARN, "%s : called on NULL lac!\n", __FUNCTION__); +- return; +- } + if (!lac->t) + { + #ifdef DEGUG_MAGIC +@@ -774,12 +782,7 @@ + void do_control () + { + char buf[1024]; +- char *host; +- char *tunstr; +- char *callstr; +- +- char *sub_str; /* jz: use by the strtok function */ +- char *tmp_ptr; /* jz: use by the strtok function */ ++ char *host, *tunstr, *callstr, *tmpstr; + struct lac *lac; + int call; + int tunl; +@@ -792,24 +795,39 @@ + if (buf[cnt - 1] == '\n') + buf[--cnt] = 0; + #ifdef DEBUG_CONTROL +- log (LOG_DEBUG, "%s: Got message %s (%d bytes long)\n", ++ log (LOG_DEBUG, "%s: Got message \"%s\" (%d bytes long)\n", + __FUNCTION__, buf, cnt); + #endif + switch (buf[0]) + { + case 't': +- host = strchr (buf, ' ') + 1; ++ host = strchr (buf, ' '); ++ if(!host) ++ goto out; ++ host++; + #ifdef DEBUG_CONTROL + log (LOG_DEBUG, "%s: Attempting to tunnel to %s\n", + __FUNCTION__, host); + #endif + l2tp_call (host, UDP_LISTEN_PORT, NULL, NULL); + break; +- case 'c': +- +- switch_io = 1; /* jz: Switch for Incoming - Outgoing Calls */ +- +- tunstr = strchr (buf, ' ') + 1; ++ case 'c': /* option 'c' for incoming call */ ++ case 'o': /* option 'o' for outgoing call */ ++ tunstr = strchr (buf, ' '); ++ if(!tunstr) ++ goto out; ++ tunstr++; ++ ++ if(buf[0] == 'c') ++ switch_io = 1; /* Switch for Incoming Calls */ ++ else { ++ switch_io = 0; /* Switch for Outgoing Calls */ ++ tmpstr = strchr(tunstr, ' '); ++ if(!tmpstr) ++ goto out; ++ strncpy(dial_no_tmp,tmpstr, sizeof(*dial_no_tmp)); ++ } ++ + lac = laclist; + while (lac) + { +@@ -842,52 +860,12 @@ + #endif + lac_call (tunl, NULL, NULL); + break; +- +- case 'o': /* jz: option 'o' for doing a outgoing call */ +- +- switch_io = 0; /* jz: Switch for incoming - outgoing Calls */ +- +- sub_str = strchr (buf, ' ') + 1; +- +- tunstr = strtok (sub_str, " "); /* jz: using strtok function to get */ +- tmp_ptr = strtok (NULL, " "); /* params out of the pipe */ +- strcpy (dial_no_tmp, tmp_ptr); +- +- lac = laclist; +- while (lac) +- { +- if (!strcasecmp (lac->entname, tunstr)) +- { +- lac->active = -1; +- lac->rtries = 0; +- if (!lac->c) +- magic_lac_dial (lac); +- else +- log (LOG_DEBUG, +- "%s: Session '%s' already active!\n", +- __FUNCTION__, lac->entname); +- break; +- } +- lac = lac->next; +- } +- if (lac) +- break; +- tunl = atoi (tunstr); +- if (!tunl) +- { +- log (LOG_DEBUG, "%s: No such tunnel '%s'\n", __FUNCTION__, +- tunstr); +- break; +- } +-#ifdef DEBUG_CONTROL +- log (LOG_DEBUG, "%s: Attempting to call on tunnel %d\n", +- __FUNCTION__, tunl); +-#endif +- lac_call (tunl, NULL, NULL); +- break; +- + case 'h': +- callstr = strchr (buf, ' ') + 1; ++ callstr = strchr (buf, ' '); ++ if(!callstr) ++ goto out; ++ callstr++; ++ + call = atoi (callstr); + #ifdef DEBUG_CONTROL + log (LOG_DEBUG, "%s: Attempting to call %d\n", __FUNCTION__, +@@ -896,7 +874,11 @@ + lac_hangup (call); + break; + case 'd': +- tunstr = strchr (buf, ' ') + 1; ++ tunstr = strchr (buf, ' '); ++ if(!tunstr) ++ goto out; ++ tunstr++; ++ + lac = laclist; + while (lac) + { +@@ -937,6 +919,8 @@ + } + } + } ++ ++out: + /* Otherwise select goes nuts */ + close (control_fd); + control_fd = open (CONTROL_PIPE, O_RDONLY | O_NONBLOCK, 0600); +@@ -1002,7 +986,6 @@ + int pid=0; + int i,l; + char buf[STRLEN]; +- int pidfilewritten=0; + + if((pid = fork()) < 0) { + log(LOG_LOG, "%s: Unable to fork ()\n",__FUNCTION__); +@@ -1012,56 +995,52 @@ + else if (pid) + exit(0); + +- close(0); +- close(1); +- close(2); ++ ++ close(0); ++ close(1); ++ close(2); ++ dup2(open("/dev/null", O_RDONLY), 0); ++ dup2(open("/dev/null", O_RDONLY), 1); ++ dup2(open("/dev/null", O_RDONLY), 2); + + /* Read previous pid file. */ +- if ((i = open(gconfig.pidfile,O_RDONLY)) > 0) { +- l=read(i,buf,sizeof(buf)-1); +- if (i < 0) { +- log(LOG_LOG, "%s: Unable to read pid file [%s]\n", +- __FUNCTION__, gconfig.pidfile); +- } +- buf[i] = '\0'; +- pid = atoi(buf); +- +- /* If the previous server process is not still running, +- write a new pid file immediately. */ +- if (pid && (pid == getpid () || kill (pid, 0) < 0)) { +- unlink (gconfig.pidfile); +- if ((i = open (gconfig.pidfile, O_WRONLY | O_CREAT, 0640)) >= 0) +- { +- snprintf (buf, sizeof(buf), "%d\n", (int)getpid()); +- write (i, buf, strlen(buf)); +- close (i); +- pidfilewritten = 1; +- } ++ if((i = open(gconfig.pidfile,O_RDONLY)) > 0) { ++ l=read(i,buf,sizeof(buf)-1); ++ if (l >= 0) { ++ buf[l] = '\0'; ++ pid = atoi(buf); + } +- else +- { ++ close(i); ++ ++ /* if pid is read and process exist exit */ ++ if(pid && !kill(pid, 0)) { + log(LOG_LOG, "%s: There's already a l2tpd server running.\n", + __FUNCTION__); + close(server_socket); + exit(1); + } ++ ++ /* remove stalled pid file */ ++ unlink(gconfig.pidfile); + } + + pid = setsid(); + +- if(! pidfilewritten) { +- unlink(gconfig.pidfile); +- if ((i = open (gconfig.pidfile, O_WRONLY | O_CREAT, 0640)) >= 0) { +- snprintf (buf, strlen(buf), "%d\n", (int)getpid()); +- write (i, buf, strlen(buf)); +- close (i); +- pidfilewritten = 1; +- } +- } ++ /* create new pid file */ ++ if ((i = open (gconfig.pidfile, O_WRONLY | O_CREAT, 0644)) >= 0) { ++ snprintf (buf, sizeof(buf), "%d", (int)getpid()); ++ write (i, buf, strlen(buf)); ++ close (i); ++ } ++ else { ++ log(LOG_LOG, "%s: could not write pid file %s error %d", ++ __FUNCTION__, gconfig.pidfile, i); ++ close(server_socket); ++ exit(1); ++ } + } + + +- + void init (int argc,char *argv[]) + { + struct lac *lac; +@@ -1103,10 +1082,6 @@ + } + log (LOG_LOG, "l2tpd version " SERVER_VERSION " started on %s PID:%d\n", + hostname, getpid ()); +- log (LOG_LOG, +- "Written by Mark Spencer, Copyright (C) 1998, Adtran, Inc.\n"); +- log (LOG_LOG, "Forked by Scott Balmos and David Stipp, (C) 2001\n"); +- log (LOG_LOG, "Inherited by Jeff McAdams, (C) 2002\n"); + listenaddr.s_addr = gconfig.listenaddr; + log (LOG_LOG, "%s version %s on a %s, listening on IP address %s, port %d\n", uts.sysname, + uts.release, uts.machine, inet_ntoa(listenaddr), gconfig.port); +--- l2tpd-0.70-pre20031121.orig/misc.c ++++ l2tpd-0.70-pre20031121/misc.c +@@ -301,3 +301,42 @@ + return -1; + } + } ++ ++u_int16_t get16(u_int8_t *p) { ++ return p[0] << 8 | p[1]; ++} ++ ++u_int32_t get32(u_int8_t *p) { ++ return p[0] << 24 | p[1] << 16 | p[2] << 8 | p[3]; ++} ++ ++u_int64_t get64(u_int8_t *p) { ++ return (u_int64_t)p[0] << 56 | (u_int64_t)p[1] << 48 | ++ (u_int64_t)p[2] << 40 | (u_int64_t)p[3] << 32 | ++ (u_int64_t)p[4] << 24 | (u_int64_t)p[5] << 16 | ++ (u_int64_t)p[6] << 8 | (u_int64_t)p[7]; ++} ++ ++void set16(u_int8_t *cp, u_int16_t x) { ++ *cp++ = x >> 8; ++ *cp = x & 0xff; ++} ++ ++void set32(u_int8_t *cp, u_int32_t x) { ++ *cp++ = x >> 24; ++ *cp++ = (x >> 16) & 0xff; ++ *cp++ = (x >> 8) & 0xff; ++ *cp = x & 0xff; ++} ++ ++void set64(u_int8_t *cp, u_int64_t x) { ++ *cp++ = x >> 56; ++ *cp++ = (x >> 48) & 0xff; ++ *cp++ = (x >> 40) & 0xff; ++ *cp++ = (x >> 32) & 0xff; ++ *cp++ = (x >> 24) & 0xff; ++ *cp++ = (x >> 16) & 0xff; ++ *cp++ = (x >> 8) & 0xff; ++ *cp = x & 0xff; ++} ++ +--- l2tpd-0.70-pre20031121.orig/avp.c ++++ l2tpd-0.70-pre20031121/avp.c +@@ -4,9 +4,12 @@ + * Layer Two Tunnelling Protocol Daemon + * Copyright (C) 1998 Adtran, Inc. + * Copyright (C) 2002 Jeff McAdams ++ * Copyright (C) 2003 Jean-Francois Dive + * + * Mark Spencer + * ++ * 12/2003 parsing sanitization, Jean-Francois Dive ++ * + * This software is distributed under the terms + * of the GPL, which you should have received + * along with this source. +@@ -20,50 +23,53 @@ + #include + #include "l2tp.h" + +-#define AVP_MAX 39 ++/* TODO: ++ * - Tie breaker. ++ * - Clean Proxy Authentication solution. ++ */ + ++/*****************************************************************************/ + struct avp avps[] = { +- +- {0, 1, &message_type_avp, "Message Type"}, +- {1, 1, &result_code_avp, "Result Code"}, +- {2, 1, &protocol_version_avp, "Protocol Version"}, +- {3, 1, &framing_caps_avp, "Framing Capabilities"}, +- {4, 1, &bearer_caps_avp, "Bearer Capabilities"}, +- {5, 0, NULL, "Tie Breaker"}, +- {6, 0, &firmware_rev_avp, "Firmware Revision"}, +- {7, 0, &hostname_avp, "Host Name"}, +- {8, 1, &vendor_avp, "Vendor Name"}, +- {9, 1, &assigned_tunnel_avp, "Assigned Tunnel ID"}, +- {10, 1, &receive_window_size_avp, "Receive Window Size"}, +- {11, 1, &challenge_avp, "Challenge"}, +- {12, 0, NULL, "Q.931 Cause Code"}, +- {13, 1, &chalresp_avp, "Challenge Response"}, +- {14, 1, &assigned_call_avp, "Assigned Call ID"}, +- {15, 1, &call_serno_avp, "Call Serial Number"}, +- {16, 1, NULL, "Minimum BPS"}, +- {17, 1, NULL, "Maximum BPS"}, +- {18, 1, &bearer_type_avp, "Bearer Type"}, +- {19, 1, &frame_type_avp, "Framing Type"}, +- {20, 1, &packet_delay_avp, "Packet Processing Delay"}, +- {21, 1, &dialed_number_avp, "Dialed Number"}, +- {22, 1, &dialing_number_avp, "Dialing Number"}, +- {23, 1, &sub_address_avp, "Sub-Address"}, +- {24, 1, &tx_speed_avp, "Transmit Connect Speed"}, +- {25, 1, &call_physchan_avp, "Physical channel ID"}, +- {26, 0, NULL, "Initial Received LCP Confreq"}, +- {27, 0, NULL, "Last Sent LCP Confreq"}, +- {28, 0, NULL, "Last Received LCP Confreq"}, +- {29, 1, &ignore_avp, "Proxy Authen Type"}, +- {30, 0, &ignore_avp, "Proxy Authen Name"}, +- {31, 0, &ignore_avp, "Proxy Authen Challenge"}, +- {32, 0, &ignore_avp, "Proxy Authen ID"}, +- {33, 1, &ignore_avp, "Proxy Authen Response"}, +- {34, 1, NULL, "Call Errors"}, +- {35, 1, &ignore_avp, "ACCM"}, +- {36, 1, &rand_vector_avp, "Random Vector"}, +- {37, 1, NULL, "Private Group ID"}, +- {38, 0, &rx_speed_avp, "Receive Connect Speed"}, +- {39, 1, &seq_reqd_avp, "Sequencing Required"} ++ {0, AVP_F_MANDATORY|AVP_F_FIXLEN, 2, {0}, &message_type_avp, &validate_msgtype_avp, "Message Type"}, ++ {1, AVP_F_MANDATORY, MAXSTRLEN, {CDN, StopCCN}, &result_code_avp, &validate_gen_avp, "Result Code"}, ++ {2, AVP_F_MANDATORY|AVP_F_FIXLEN, 2, {SCCRP, SCCRQ}, &protocol_version_avp, &validate_gen_avp, "Protocol Version"}, ++ {3, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {SCCRP, SCCRQ}, &framing_caps_avp, &validate_gen_avp, "Framing Capabilities"}, ++ {4, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {SCCRP, SCCRQ}, &bearer_caps_avp, &validate_gen_avp, "Bearer Capabilities"}, ++ {5, 0, 0, {0}, NULL, NULL, "Tie Breaker"}, ++ {6, AVP_F_FIXLEN, 2, {SCCRP, SCCRQ}, &firmware_rev_avp, &validate_gen_avp, "Firmware Revision"}, ++ {7, AVP_F_ASCII, MAXSTRLEN, {SCCRP, SCCRQ}, &hostname_avp, &validate_gen_avp, "Host Name"}, ++ {8, AVP_F_MANDATORY|AVP_F_ASCII, MAXSTRLEN, {SCCRP, SCCRQ}, &vendor_avp, &validate_gen_avp, "Vendor Name"}, ++ {9, AVP_F_MANDATORY|AVP_F_FIXLEN, 2, {SCCRP, SCCRQ, StopCCN}, &assigned_tunnel_avp, &validate_gen_avp, "Assigned Tunnel ID"}, ++ {10, AVP_F_MANDATORY|AVP_F_FIXLEN, 2,{SCCRP, SCCRQ, OCRP, OCCN, StopCCN}, &receive_window_size_avp, &validate_gen_avp, "Receive Window Size"}, ++ {11, AVP_F_MANDATORY, 128, {SCCRP, SCCRQ}, &challenge_avp, &validate_gen_avp, "Challenge"}, ++ {12, 0, 0, {0}, NULL, NULL, "Q.931 Cause Code"}, ++ {13, AVP_F_MANDATORY, MD_SIG_SIZE, {SCCRP, SCCCN}, &chalresp_avp, &validate_gen_avp, "Challenge Response"}, ++ {14, AVP_F_MANDATORY|AVP_F_FIXLEN, 2, {CDN, ICRP, ICRQ, OCRP, OCRQ}, &assigned_session_avp, &validate_gen_avp, "Assigned Session ID"}, ++ {15, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {ICRQ, OCRQ}, &call_serno_avp, &validate_gen_avp, "Call Serial Number"}, ++ {16, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {0}, NULL, NULL, "Minimum BPS"}, ++ {17, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {0}, NULL, NULL, "Maximum BPS"}, ++ {18, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {ICRQ, OCRQ}, &bearer_type_avp, &validate_gen_avp, "Bearer Type"}, ++ {19, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {ICCN, OCRQ, OCCN}, &frame_type_avp, &validate_gen_avp, "Framing Type"}, ++ {20, AVP_F_MANDATORY|AVP_F_FIXLEN, 2, {ICRP, OCRQ, ICCN, OCRP, OCCN}, &packet_delay_avp, &validate_gen_avp, "Packet Processing Delay"}, ++ {21, AVP_F_MANDATORY|AVP_F_ASCII, MAXSTRLEN, {ICRQ, OCRQ}, &called_number_avp, &validate_gen_avp, "Called Number"}, ++ {22, AVP_F_MANDATORY|AVP_F_ASCII, MAXSTRLEN, {ICRQ}, &calling_number_avp, &validate_gen_avp, "Calling Number"}, ++ {23, AVP_F_MANDATORY|AVP_F_ASCII, MAXSTRLEN, {OCRP, ICRQ}, &sub_address_avp, &validate_gen_avp, "Sub-Address"}, ++ {24, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {ICCN, OCCN, OCRP}, &tx_speed_avp, &validate_gen_avp, "Transmit Connect Speed"}, ++ {25, AVP_F_MANDATORY|AVP_F_FIXLEN, 4, {ICRQ, OCRQ, OCRP, OCCN}, &call_physchan_avp, &validate_gen_avp, "Physical channel ID"}, ++ {26, 0, 0, {0}, NULL, NULL, "Initial Received LCP Confreq"}, ++ {27, 0, 0, {0}, NULL, NULL, "Last Sent LCP Confreq"}, ++ {28, 0, 0, {0}, NULL, NULL, "Last Received LCP Confreq"}, ++ {29, AVP_F_MANDATORY, 0, {0}, &ignore_avp, NULL, "Proxy Authen Type"}, ++ {30, 0, 0, {0}, &ignore_avp, NULL, "Proxy Authen Name"}, ++ {31, 0, 0, {0}, &ignore_avp, NULL, "Proxy Authen Challenge"}, ++ {32, 0, 0, {0}, &ignore_avp, NULL, "Proxy Authen ID"}, ++ {33, AVP_F_MANDATORY, 0, {0}, &ignore_avp, NULL, "Proxy Authen Response"}, ++ {34, AVP_F_MANDATORY|AVP_F_FIXLEN, 26, {0}, NULL, NULL, "Call Errors"}, ++ {35, AVP_F_MANDATORY|AVP_F_FIXLEN, 10, {0}, &ignore_avp, NULL, "ACCM"}, ++ {36, AVP_F_MANDATORY, 1024, {0}, &rand_vector_avp, &validate_gen_avp, "Random Vector"}, ++ {37, AVP_F_MANDATORY, 0, {0}, NULL, NULL, "Private Group ID"}, ++ {38, AVP_F_FIXLEN, 4, {ICCN, OCCN, OCRP}, &rx_speed_avp, &validate_gen_avp, "Receive Connect Speed"}, ++ {39, AVP_F_MANDATORY, 0, {ICCN, OCCN, OCRP}, &seq_reqd_avp, &validate_gen_avp, "Sequencing Required"} + }; + + char *msgtypes[] = { +@@ -111,6 +117,7 @@ + "Call was connected but no appropriate framing was detect" + }; + ++/*****************************************************************************/ + void wrong_length (struct call *c, char *field, int expected, int found, + int min) + { +@@ -126,12 +133,9 @@ + c->needclose = -1; + } + +-/* +- * t, c, data, and datalen may be assumed to be defined for all avp's +- */ +- +-int message_type_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++/*****************************************************************************/ ++int validate_msgtype_avp(int attr, struct tunnel *t, struct call *c, ++ void *data, int datalen) + { + /* + * This will be with every control message. It is critical that this +@@ -139,28 +143,9 @@ + * (assuming sanity check) + */ + +- _u16 *raw = data; +- c->msgtype = ntohs (raw[3]); +- if (datalen != 8) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s: wrong size (%d != 8)\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Message Type", 8, datalen, 0); +- return -EINVAL; +- } +- if ((c->msgtype > MAX_MSG) || (!msgtypes[c->msgtype])) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s: unknown message type %d\n", __FUNCTION__, +- c->msgtype); +- return -EINVAL; +- } +- if (debug_avp) +- if (DEBUG) +- log (LOG_DEBUG, "%s: message type %d (%s)\n", __FUNCTION__, +- c->msgtype, msgtypes[c->msgtype]); +-#ifdef SANITY ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ c->msgtype = get16(p); ++ + if (t->sanity) + { + /* +@@ -172,11 +157,11 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate tunnel inside a call!\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + +- switch (c->msgtype) ++ switch (get16(p)) + { + case SCCRQ: + if ((t->state != 0) && (t->state != SCCRQ)) +@@ -189,7 +174,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate SCCRQ with state != 0\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -199,7 +184,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate SCCRP with state != SCCRQ!\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -209,7 +194,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate SCCCN with state != SCCRP!\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -219,7 +204,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate ICRQ when state != SCCCN\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + if (c != t->self) +@@ -227,7 +212,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate ICRQ on a call!\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -237,7 +222,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate ICRP on tunnel!=SCCCN\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + if (c->state != ICRQ) +@@ -245,7 +230,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate ICRP when state != ICRQ\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -255,7 +240,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate ICCN when state != ICRP\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -265,7 +250,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate SLI when state != ICCN\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -275,7 +260,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate OCRP on tunnel!=SCCCN\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + if (c->state != OCRQ) +@@ -283,7 +268,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate OCRP when state != OCRQ\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -294,7 +279,7 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: attempting to negotiate OCCN when state != OCRQ\n", +- __FUNCTION__); ++ __func__); + return -EINVAL; + } + break; +@@ -303,72 +288,33 @@ + case Hello: + break; + default: +- log (LOG_WARN, "%s: i don't know how to handle %s messages\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return -EINVAL; +- } +- } +-#endif +- if (c->msgtype == ICRQ) +- { +- struct call *tmp; +- if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s: new incoming call\n", __FUNCTION__); +- } +- tmp = new_call (t); +- if (!tmp) +- { +- log (LOG_WARN, "%s: unable to create new call\n", __FUNCTION__); ++ log (LOG_WARN, "%s: unknown messages type %d\n", ++ __func__, get16(p)); + return -EINVAL; + } +- tmp->next = t->call_head; +- t->call_head = tmp; +- t->count++; +- /* +- * Is this still safe to assume that the head will always +- * be the most recent call being negotiated? +- * Probably... FIXME anyway... +- */ +- + } +- return 0; ++ return 0; + } + +-int rand_vector_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) +-{ +- int size; +- _u16 *raw = (_u16 *) data; +- size = (raw[0] & 0x0FFF) - 6; +- if (t->sanity) +- { +- if (size < 0) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s: Random vector too small (%d < 0)\n", +- __FUNCTION__, size); +- wrong_length (c, "Random Vector", 6, datalen, 1); +- return -EINVAL; +- } +- if (size > MAX_VECTOR_SIZE) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s: Random vector too large (%d > %d)\n", +- __FUNCTION__, datalen, MAX_VECTOR_SIZE); +- wrong_length (c, "Random Vector", 6, datalen, 1); +- return -EINVAL; +- } +- } +- if (debug_avp) +- log (LOG_DEBUG, "%s: Random Vector of %d octets\n", __FUNCTION__, +- size); +- t->chal_us.vector = (unsigned char *) &raw[3]; +- t->chal_us.vector_len = size; +- return 0; ++/*****************************************************************************/ ++int validate_gen_avp(int attr, struct tunnel *t, struct call *c, ++ void *data, int datalen) { ++ (void)data; (void)datalen; ++ int i = 0, found = 0; ++ ++ if(t->sanity) { ++ for(i = 0; i < 8; i++) { ++ if(c->msgtype == avps[attr].allowed_states[i]) ++ found++; ++ } ++ if(!found) ++ return -EINVAL; ++ } ++ return 0; + } + ++/* t, c, data, and datalen may be assumed to be defined for all avp's */ ++/*****************************************************************************/ + int ignore_avp (struct tunnel *t, struct call *c, void *data, int datalen) + { + /* +@@ -383,94 +329,88 @@ + * + */ + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s : Ignoring AVP\n", __FUNCTION__); +- } ++ log (LOG_DEBUG, "%s : Ignoring AVP\n", __func__); + return 0; + } + +-int seq_reqd_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int message_type_avp (struct tunnel *t, struct call *c, void *data, ++ int avplen) + { +-#ifdef SANITY +- if (t->sanity) ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ ++ if(!c->msgtype) ++ c->msgtype = get16(p); ++ ++ if ((c->msgtype > MAX_MSG) || (!msgtypes[c->msgtype])) + { +- if (datalen != 6) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is incorrect size. %d != 6\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Sequencing Required", 6, datalen, 1); +- return -EINVAL; +- } +- switch (c->msgtype) ++ log (LOG_DEBUG, "%s: unknown message type %d\n", __func__, ++ c->msgtype); ++ return -EINVAL; ++ } ++ if (debug_avp) ++ log (LOG_DEBUG, "%s: message type %d (%s)\n", __func__, ++ c->msgtype, msgtypes[c->msgtype]); ++ if (c->msgtype == ICRQ) ++ { ++ struct call *tmp; ++ if (debug_avp) ++ log (LOG_DEBUG, "%s: new incoming call\n", __func__); ++ tmp = new_call (t); ++ if (!tmp) + { +- case ICCN: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: sequencing required not appropriate for %s!\n", +- __FUNCTION__, msgtypes[c->msgtype]); ++ log (LOG_WARN, "%s: unable to create new call\n", __func__); + return -EINVAL; + } ++ tmp->next = t->call_head; ++ t->call_head = tmp; ++ t->count++; ++ /* ++ * Is this still safe to assume that the head will always ++ * be the most recent call being negotiated? ++ * Probably... FIXME anyway... ++ */ + } +-#endif ++ return 0; ++} ++ ++/*****************************************************************************/ ++int rand_vector_avp (struct tunnel *t, struct call *c, void *data, ++ int avplen) ++{ ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ int datalen = avplen - sizeof(struct avp_hdr); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s: peer requires sequencing.\n", __FUNCTION__); +- } ++ log (LOG_DEBUG, "%s: random vector len %d\n", __func__, datalen); ++ t->chal_us.vector = (unsigned char *)p; ++ t->chal_us.vector_len = datalen; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int seq_reqd_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++{ ++ if (debug_avp) ++ log (LOG_DEBUG, "%s: peer requires sequencing.\n", __func__); + c->seq_reqd = -1; + return 0; + } + ++/*****************************************************************************/ + int result_code_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * Find out what version of l2tp the other side is using. +- * I'm not sure what we're supposed to do with this but whatever.. +- */ ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ int datalen = avplen - sizeof(struct avp_hdr); ++ u_int16_t result = get16(p); ++ u_int16_t error = get16(p + 2); + +- int error; +- int result; +- _u16 *raw = data; +-#ifdef SANITY +- if (t->sanity) +- { +- if (datalen < 10) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is incorrect size. %d < 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Result Code", 10, datalen, 1); +- return -EINVAL; +- } +- switch (c->msgtype) +- { +- case CDN: +- case StopCCN: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: result code not appropriate for %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- } +-#endif +- result = ntohs (raw[3]); +- error = ntohs (raw[4]); + if ((c->msgtype == StopCCN) && ((result > 7) || (result < 1))) + { + if (DEBUG) + log (LOG_DEBUG, +- "%s: result code out of range (%d %d %d). Ignoring.\n", +- __FUNCTION__, result, error, datalen); ++ "%s: (StopCCN) result code out of range ! (1 < %d < 7)\n", ++ __func__, result); + return 0; + } + +@@ -478,1112 +418,348 @@ + { + if (DEBUG) + log (LOG_DEBUG, +- "%s: result code out of range (%d %d %d). Ignoring.\n", +- __FUNCTION__, result, error, datalen); ++ "%s: (CDN) result code out of range !(1 < %d < 11)\n", ++ __func__, result); + return 0; + } + + c->error = error; + c->result = result; +- safe_copy (c->errormsg, (char *) &raw[5], datalen - 10); ++ memcpy(c->errormsg, (char*)p + 4, datalen - 4); ++ c->errormsg[datalen - 4] = '\0'; ++ + if (debug_avp) + { +- if (DEBUG && (c->msgtype == StopCCN)) ++ if(c->msgtype == StopCCN) + { + log (LOG_DEBUG, + "%s: peer closing for reason %d (%s), error = %d (%s)\n", +- __FUNCTION__, result, stopccn_result_codes[result], error, ++ __func__, result, stopccn_result_codes[result], error, + c->errormsg); + } + else + { + log (LOG_DEBUG, + "%s: peer closing for reason %d (%s), error = %d (%s)\n", +- __FUNCTION__, result, cdn_result_codes[result], error, ++ __func__, result, cdn_result_codes[result], error, + c->errormsg); + } + } + return 0; + } + ++/*****************************************************************************/ + int protocol_version_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * Find out what version of l2tp the other side is using. +- * I'm not sure what we're supposed to do with this but whatever.. +- */ ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +- int ver; +- _u16 *raw = data; +-#ifdef SANITY +- if (t->sanity) +- { +- if (datalen != 8) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is incorrect size. %d != 8\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Protocol Version", 8, datalen, 1); +- return -EINVAL; +- } +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: protocol version not appropriate for %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- } +-#endif +- ver = ntohs (raw[3]); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer is using version %d, revision %d.\n", __FUNCTION__, +- (ver >> 8), ver & 0xFF); +- } ++ log (LOG_DEBUG, "%s: peer is using version %d, revision %d.\n", ++ __func__,*p, *(p+1)); + return 0; + } + ++/*****************************************************************************/ + int framing_caps_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * Retrieve the framing capabilities +- * from the peer +- */ +- +- int caps; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ u_int16_t caps = get16(p + 2); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: framing capabilities not appropriate for %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 10) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is incorrect size. %d != 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Framming Capabilities", 10, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- caps = ntohs (raw[4]); + if (debug_avp) +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: supported peer frames:%s%s\n", __FUNCTION__, +- caps & ASYNC_FRAMING ? " async" : "", +- caps & SYNC_FRAMING ? " sync" : ""); ++ log (LOG_DEBUG, "%s: supported peer frames:%s %s\n", __func__, ++ caps & ASYNC_FRAMING ? "async" : "", ++ caps & SYNC_FRAMING ? "sync" : ""); ++ + t->fc = caps & (ASYNC_FRAMING | SYNC_FRAMING); + return 0; + } + ++/*****************************************************************************/ + int bearer_caps_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * What kind of bearer channels does our peer support? +- */ +- int caps; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ u_int16_t caps = get16(p + 2); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: bearer capabilities not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 10) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is incorrect size. %d != 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Bearer Capabilities", 10, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- caps = ntohs (raw[4]); + if (debug_avp) +- { +- if (DEBUG) +- { +- log (LOG_DEBUG, +- "%s: supported peer bearers:%s%s\n", +- __FUNCTION__, +- caps & ANALOG_BEARER ? " analog" : "", +- caps & DIGITAL_BEARER ? " digital" : ""); +- } ++ log (LOG_DEBUG, "%s: supported peer bearers:%s %s\n", ++ __func__, ++ caps & ANALOG_BEARER ? "analog" : "", ++ caps & DIGITAL_BEARER ? "digital" : ""); + +- } + t->bc = caps & (ANALOG_BEARER | DIGITAL_BEARER); + return 0; + } + +- +-/* FIXME: I need to handle tie breakers eventually */ +- ++/*****************************************************************************/ + int firmware_rev_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * Report and record remote firmware version +- */ +- int ver; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: firmware revision not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 8) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is incorrect size. %d != 8\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Firmware Revision", 8, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- ver = ntohs (raw[3]); ++ t->firmware = get16(p); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer reports firmware version %d (0x%.4x)\n", +- __FUNCTION__, ver, ver); +- } +- t->firmware = ver; ++ log (LOG_DEBUG, "%s: peer reports firmware version %d (0x%.4X)\n", ++ __func__, t->firmware, t->firmware); + return 0; + } + ++/*****************************************************************************/ + int bearer_type_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * What kind of bearer channel is the call on? +- */ +- int b; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case ICRQ: +- case OCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: bearer type not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 10) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is incorrect size. %d != 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Bearer Type", 10, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- b = ntohs (raw[4]); ++ t->call_head->bearer = get16(p + 2); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer bears:%s\n", __FUNCTION__, +- b & ANALOG_BEARER ? " analog" : "digital"); +- } +- t->call_head->bearer = b; ++ log (LOG_DEBUG, "%s: peer bears: %s\n", __func__, ++ (t->call_head->bearer & ANALOG_BEARER) ? "analog" : "digital"); + return 0; + } + +-int frame_type_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int frame_type_avp (struct tunnel *t, struct call *c, void *data, int avplen) + { +- /* +- * What kind of frame channel is the call on? +- */ +- int b; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case ICCN: +- case OCRQ: +- case OCCN: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: frame type not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 10) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is incorrect size. %d != 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Frame Type", 10, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- b = ntohs (raw[4]); ++ c->frame = get16(p + 2); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer uses:%s frames\n", __FUNCTION__, +- b & ASYNC_FRAMING ? " async" : "sync"); +- } +- c->frame = b; ++ log (LOG_DEBUG, "%s: peer uses:%s frames\n", __func__, ++ (c->frame & ASYNC_FRAMING) ? "async" : "sync"); + return 0; + } + +-int hostname_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int hostname_avp (struct tunnel *t, struct call *c, void *data, int avplen) + { +- /* +- * What is the peer's name? +- */ +- int size; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ int datalen = avplen - sizeof(struct avp_hdr); ++ ++ memcpy(t->hostname, p, datalen); ++ t->hostname[datalen] = '\0'; + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: hostname not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen < 6) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is too small. %d < 6\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Hostname", 6, datalen, 1); +- return -EINVAL; +- } +- } +-#endif +- size = raw[0] & 0x0FFF; +- if (size > MAXSTRLEN - 1) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s: truncating reported hostname (size is %d)\n", +- __FUNCTION__, size); +- size = MAXSTRLEN - 1; +- } +- safe_copy (t->hostname, (char *) &raw[3], size - 6); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer reports hostname '%s'\n", __FUNCTION__, +- t->hostname); +- } ++ log (LOG_DEBUG, "%s: peer reports hostname '%s'\n", __func__, ++ t->hostname); ++ + return 0; + } + +-int dialing_number_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++/*****************************************************************************/ ++int calling_number_avp (struct tunnel *t, struct call *c, void *data, ++ int avplen) + { +- /* +- * What is the peer's name? +- */ +- int size; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ int datalen = avplen - sizeof(struct avp_hdr); ++ ++ memcpy(t->call_head->dialing, p, datalen); ++ t->call_head->dialing[datalen] = '\0'; + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case ICRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: dialing number not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen < 6) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is too small. %d < 6\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Dialing Number", 6, datalen, 1); +- return -EINVAL; +- } +- } +-#endif +- size = raw[0] & 0x0FFF; +- if (size > MAXSTRLEN - 1) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: truncating reported dialing number (size is %d)\n", +- __FUNCTION__, size); +- size = MAXSTRLEN - 1; +- } +- safe_copy (t->call_head->dialing, (char *) &raw[3], size); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer reports dialing number '%s'\n", __FUNCTION__, +- t->call_head->dialing); +- } ++ log (LOG_DEBUG, "%s: peer reports dialing number '%s'\n", __func__, ++ t->call_head->dialing); ++ + return 0; + } + +-int dialed_number_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++/*****************************************************************************/ ++int called_number_avp (struct tunnel *t, struct call *c, void *data, ++ int avplen) + { +- /* +- * What is the peer's name? +- */ +- int size; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ int datalen = avplen - sizeof(struct avp_hdr); ++ ++ memcpy(t->call_head->dialed, p, datalen); ++ t->call_head->dialed[datalen] = '\0'; + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case OCRQ: +- case ICRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: dialed number not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen < 6) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is too small. %d < 6\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Dialed Number", 6, datalen, 1); +- return -EINVAL; +- } +- } +-#endif +- size = raw[0] & 0x0FFF; +- if (size > MAXSTRLEN - 1) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: truncating reported dialed number (size is %d)\n", +- __FUNCTION__, size); +- size = MAXSTRLEN - 1; +- } +- safe_copy (t->call_head->dialed, (char *) &raw[3], size); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer reports dialed number '%s'\n", __FUNCTION__, +- t->call_head->dialed); +- } ++ log (LOG_DEBUG, "%s: peer reports dialed number '%s'\n", __func__, ++ t->call_head->dialed); ++ + return 0; + } + ++/*****************************************************************************/ + int sub_address_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * What is the peer's name? +- */ +- int size; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ int datalen = avplen - sizeof(struct avp_hdr); ++ ++ memcpy(t->call_head->subaddy, p, datalen); ++ t->call_head->subaddy[datalen] = '\0'; + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case OCRP: +- case ICRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: sub_address not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen < 6) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is too small. %d < 6\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Sub-address", 6, datalen, 1); +- return -EINVAL; +- } +- } +-#endif +- size = raw[0] & 0x0FFF; +- if (size > MAXSTRLEN - 1) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: truncating reported sub address (size is %d)\n", +- __FUNCTION__, size); +- size = MAXSTRLEN - 1; +- } +- safe_copy (t->call_head->subaddy, (char *) &raw[3], size); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer reports subaddress '%s'\n", __FUNCTION__, +- t->call_head->subaddy); +- } ++ log (LOG_DEBUG, "%s: peer reports subaddress '%s'\n", __func__, ++ t->call_head->subaddy); + return 0; + } + +-int vendor_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int vendor_avp (struct tunnel *t, struct call *c, void *data, int avplen) + { +- /* +- * What vendor makes the other end? +- */ +- int size; +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ int datalen = avplen - sizeof(struct avp_hdr); ++ ++ memcpy(t->vendor, p, datalen); ++ t->vendor[datalen] = '\0'; + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: vendor not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen < 6) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is too small. %d < 6\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Vendor", 6, datalen, 1); +- return -EINVAL; +- } +- } +-#endif +- size = raw[0] & 0x0FFF; +- if (size > MAXSTRLEN - 1) +- { +- if (DEBUG) +- log (LOG_DEBUG, "%s: truncating reported vendor (size is %d)\n", +- __FUNCTION__, size); +- size = MAXSTRLEN - 1; +- } +- safe_copy (t->vendor, (char *) &raw[3], size); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer reports vendor '%s'\n", __FUNCTION__, t->vendor); +- } ++ log (LOG_DEBUG, "%s: peer reports vendor '%s'\n", __func__, t->vendor); + return 0; + } + +-int challenge_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int challenge_avp (struct tunnel *t, struct call *c, void *data, int avplen) + { +- /* +- * We are sent a challenge +- */ +- _u16 *raw = data; +- int size; +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: challenge not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen < 6) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is too small. %d < 6\n", __FUNCTION__, +- datalen); +- wrong_length (c, "challenge", 6, datalen, 1); +- return -EINVAL; +- } +- } +-#endif +- /* size = raw[0] & 0x0FFF; */ +- /* length field of AVP's is only 10 bits long, not 12 */ +- size = raw[0] & 0x03FF; +- size -= sizeof (struct avp_hdr); +- /* if (size != MD_SIG_SIZE) +- { +- log (LOG_DEBUG, "%s: Challenge is not the right length (%d != %d)\n", +- __FUNCTION__, size, MD_SIG_SIZE); +- return -EINVAL; +- } */ +- t->chal_us.challenge = malloc(size+1); +- if (t->chal_us.challenge == NULL) +- { ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ int datalen = avplen - sizeof(struct avp_hdr); ++ ++ t->chal_us.challenge = calloc(datalen, 1); ++ if (!t->chal_us.challenge) + return -ENOMEM; +- } +- memset(t->chal_us.challenge, 0, size+1); +- bcopy (&raw[3], (t->chal_us.challenge), size); ++ memcpy(t->chal_us.challenge, p, datalen); + t->chal_us.state = STATE_CHALLENGED; ++ + if (debug_avp) +- { +- log (LOG_DEBUG, "%s: challenge avp found\n", __FUNCTION__); +- } ++ log (LOG_DEBUG, "%s: challenge avp found\n", __func__); ++ + return 0; + } + +-int chalresp_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int chalresp_avp (struct tunnel *t, struct call *c, void *data, int avplen) + { +- /* +- * We are sent a challenge +- */ +- _u16 *raw = data; +- int size; +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCCN: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: challenge response not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen < 6) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is too small. %d < 6\n", __FUNCTION__, +- datalen); +- wrong_length (c, "challenge", 6, datalen, 1); +- return -EINVAL; +- } +- } +-#endif +- size = raw[0] & 0x0FFF; +- size -= sizeof (struct avp_hdr); +- if (size != MD_SIG_SIZE) +- { +- log (LOG_DEBUG, "%s: Challenge is not the right length (%d != %d)\n", +- __FUNCTION__, size, MD_SIG_SIZE); +- return -EINVAL; +- } ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +- bcopy (&raw[3], t->chal_them.reply, MD_SIG_SIZE); +- if (debug_avp) +- { +- log (LOG_DEBUG, "%s: Challenge reply found\n", __FUNCTION__); +- } ++ memcpy(t->chal_them.reply, p, MD_SIG_SIZE); ++ if(debug_avp) ++ log(LOG_DEBUG, "%s: Challenge reply found\n", __func__); + return 0; + } + ++/*****************************************************************************/ + int assigned_tunnel_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * What is their TID that we must use from now on? +- */ +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ u_int16_t id = get16(p); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- case StopCCN: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: tunnel ID not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 8) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is wrong size. %d != 8\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Assigned Tunnel ID", 8, datalen, 0); +- return -EINVAL; +- } +- } +-#endif + if (c->msgtype == StopCCN) +- { +- t->qtid = ntohs (raw[3]); +- } ++ t->qtid = id; + else +- { +- t->tid = ntohs (raw[3]); +- } ++ t->tid = id; + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: using peer's tunnel %d\n", __FUNCTION__, +- ntohs (raw[3])); +- } ++ log (LOG_DEBUG, "%s: using peer's tunnel %d\n", __func__, id); + return 0; + } + +-int assigned_call_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++/*****************************************************************************/ ++int assigned_session_avp (struct tunnel *t, struct call *c, void *data, ++ int avplen) + { +- /* +- * What is their CID that we must use from now on? +- */ +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); ++ u_int16_t id = get16(p); ++ ++ switch(c->msgtype) { ++ case CDN: ++ case ICRP: ++ case OCRP: ++ c->cid = id; ++ break; ++ case ICRQ: ++ t->call_head->cid = id; ++ break; ++ }; + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case CDN: +- case ICRP: +- case ICRQ: +- case OCRP: /* jz: deleting the debug message */ +- break; +- case OCRQ: +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: call ID not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 8) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is wrong size. %d != 8\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Assigned Call ID", 8, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- if (c->msgtype == CDN) +- { +- c->qcid = ntohs (raw[3]); +- } +- else if (c->msgtype == ICRQ) +- { +- t->call_head->cid = ntohs (raw[3]); +- } +- else if (c->msgtype == ICRP) +- { +- c->cid = ntohs (raw[3]); +- } +- else if (c->msgtype == OCRP) +- { /* jz: copy callid to c->cid */ +- c->cid = ntohs (raw[3]); +- } +- else +- { +- log (LOG_DEBUG, "%s: Dunno what to do when it's state %s!\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- } + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: using peer's call %d\n", __FUNCTION__, ntohs (raw[3])); +- } ++ log (LOG_DEBUG, "%s: assigned session id: %d\n", __func__, id); + return 0; + } + ++/*****************************************************************************/ + int packet_delay_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * What is their CID that we must use from now on? +- */ +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case ICRP: +- case OCRQ: +- case ICCN: +- case OCRP: +- case OCCN: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: packet delay not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 8) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is wrong size. %d != 8\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Assigned Call ID", 8, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- c->ppd = ntohs (raw[3]); ++ c->ppd = get16(p); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer's delay is %d 1/10's of a second\n", __FUNCTION__, +- ntohs (raw[3])); +- } ++ log (LOG_DEBUG, "%s: peer's delay is %d 1/10's of a second\n", __func__, ++ c->ppd); + return 0; + } + +-int call_serno_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int call_serno_avp (struct tunnel *t, struct call *c, void *data, int avplen) + { + /* + * What is the serial number of the call? + */ +- _u16 *raw = data; +- +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case ICRQ: +- case OCRQ: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: call ID not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 10) +- { +-#ifdef STRICT +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is wrong size. %d != 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Serial Number", 10, datalen, 0); +- return -EINVAL; +-#else +- log (LOG_DEBUG, +- "%s: peer is using old style serial number. Will be invalid.\n", +- __FUNCTION__); +-#endif ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +- } +- } +-#endif +- t->call_head->serno = (((unsigned int) ntohs (raw[3])) << 16) | +- ((unsigned int) ntohs (raw[4])); ++ t->call_head->serno = get32(p); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: serial number is %d\n", __FUNCTION__, +- t->call_head->serno); +- } ++ log (LOG_DEBUG, "%s: serial number is %d\n", __func__, ++ t->call_head->serno); + return 0; + } + +-int rx_speed_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int rx_speed_avp (struct tunnel *t, struct call *c, void *data, int avplen) + { +- /* +- * What is the received baud rate of the call? +- */ +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case ICCN: +- case OCCN: +- case OCRP: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: rx connect speed not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 10) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is wrong size. %d != 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Connect Speed (RX)", 10, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- c->rxspeed = (((unsigned int) ntohs (raw[3])) << 16) | +- ((unsigned int) ntohs (raw[4])); +- if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: receive baud rate is %d\n", __FUNCTION__, c->rxspeed); +- } ++ c->rxspeed = get32(p); ++ if(debug_avp) ++ log(LOG_DEBUG, "%s: receive baud rate is %d\n", __func__, c->rxspeed); + return 0; + } + +-int tx_speed_avp (struct tunnel *t, struct call *c, void *data, int datalen) ++/*****************************************************************************/ ++int tx_speed_avp (struct tunnel *t, struct call *c, void *data, int avplen) + { +- /* +- * What is the tranmsit baud rate of the call? +- */ +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case ICCN: +- case OCCN: +- case OCRP: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: tx connect speed not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 10) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is wrong size. %d != 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Connect Speed (tx)", 10, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- c->txspeed = (((unsigned int) ntohs (raw[3])) << 16) | +- ((unsigned int) ntohs (raw[4])); ++ c->txspeed = get32(p); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: transmit baud rate is %d\n", __FUNCTION__, c->txspeed); +- } ++ log (LOG_DEBUG, "%s: transmit baud rate is %d\n", ++ __func__, c->txspeed); + return 0; + } ++ ++/*****************************************************************************/ + int call_physchan_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * What is the physical channel? +- */ +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case ICRQ: +- case OCRQ: +- case OCRP: +- case OCCN: +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: physical channel not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 10) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is wrong size. %d != 10\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Physical Channel", 10, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- t->call_head->physchan = (((unsigned int) ntohs (raw[3])) << 16) | +- ((unsigned int) ntohs (raw[4])); ++ t->call_head->physchan = get32(p); + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: physical channel is %d\n", __FUNCTION__, +- t->call_head->physchan); +- } ++ log(LOG_DEBUG, "%s: physical channel is %d\n", __func__, ++ t->call_head->physchan); + return 0; + } + ++/*****************************************************************************/ + int receive_window_size_avp (struct tunnel *t, struct call *c, void *data, +- int datalen) ++ int avplen) + { +- /* +- * What is their RWS? +- */ +- _u16 *raw = data; ++ u_int8_t *p = data + sizeof(struct avp_hdr); + +-#ifdef SANITY +- if (t->sanity) +- { +- switch (c->msgtype) +- { +- case SCCRP: +- case SCCRQ: +- case OCRP: /* jz */ +- case OCCN: /* jz */ +- case StopCCN: +-/* case ICRP: +- case ICCN: */ +- break; +- default: +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: RWS not appropriate for message %s. Ignoring.\n", +- __FUNCTION__, msgtypes[c->msgtype]); +- return 0; +- } +- if (datalen != 8) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: avp is wrong size. %d != 8\n", __FUNCTION__, +- datalen); +- wrong_length (c, "Receive Window Size", 8, datalen, 0); +- return -EINVAL; +- } +- } +-#endif +- t->rws = ntohs (raw[3]); ++ t->rws = get16(p); + /* if (c->rws >= 0) + c->fbit = FBIT; */ + if (debug_avp) +- { +- if (DEBUG) +- log (LOG_DEBUG, +- "%s: peer wants RWS of %d. Will use flow control.\n", +- __FUNCTION__, t->rws); +- } ++ log (LOG_DEBUG, "%s: peer wants RWS of %d. Will use flow control.\n", ++ __func__, t->rws); + return 0; + } + + ++/*****************************************************************************/ + int handle_avps (struct buffer *buf, struct tunnel *t, struct call *c) + { + /* +@@ -1594,82 +770,100 @@ + + struct avp_hdr *avp; + int len = buf->len - sizeof (struct control_hdr); ++ u_int16_t rlen = 0; ++ u_int16_t attr = 0; + int firstavp = -1; +- int hidlen; ++ int hidlen = 0; + char *data = buf->start + sizeof (struct control_hdr); + avp = (struct avp_hdr *) data; ++ + if (debug_avp) + log (LOG_DEBUG, "%s: handling avp's for tunnel %d, call %d\n", +- __FUNCTION__, t->ourtid, c->ourcid); ++ __func__, t->ourtid, c->ourcid); ++ ++ if(len < 6) { ++ log (LOG_WARN, "%s: packet too small\n", __func__); ++ set_error(c, ERROR_LENGTH, "Invalid message length"); ++ return -EINVAL; ++ } ++ + while (len > 0) + { +- /* Go ahead and byte-swap the header */ +- swaps (avp, sizeof (struct avp_hdr)); +- if (avp->attr > AVP_MAX) ++ rlen = get16((u_int8_t*)&avp->length); ++ attr = get16((u_int8_t*)&avp->attr); ++ ++ /* AVP header checks */ ++ if (attr > AVP_MAX) + { +- if (AMBIT (avp->length)) ++ if (AMBIT(rlen)) + { + log (LOG_WARN, +- "%s: dont know how to handle mandatory attribute %d. Closing %s.\n" +- __FUNCTION__, avp->attr, +- (c != t->self) ? "call" : "tunnel"); +- set_error (c, VENDOR_ERROR, +- "mandatory attribute %d cannot be handled", +- avp->attr); +- c->needclose = -1; ++ "%s: unhandeled mandatory attribute %d. Closing %s.\n", ++ __func__, attr, (c != t->self) ? "call" : "tunnel"); ++ set_error (c, VENDOR_ERROR, ++ "mandatory attribute %d cannot be handled", attr); + return -EINVAL; + } + else + { + if (DEBUG) + log (LOG_WARN, +- "%s: dont know how to handle atribute %d.\n", +- __FUNCTION__, avp->attr); ++ "%s: handeled attribute %d.\n", ++ __func__, attr); + goto next; + } + } +- if (ALENGTH (avp->length) > len) ++ if (ALENGTH (rlen) > len) + { + log (LOG_WARN, +- "%s: AVP received with length > remaining packet length!\n", +- __FUNCTION__); ++ "%s: AVP reported length > remaining packet length\n", ++ __func__); + set_error (c, ERROR_LENGTH, "Invalid AVP length"); +- c->needclose = -1; + return -EINVAL; + } +- if (avp->attr && firstavp) ++ if (ALENGTH (rlen) < sizeof (struct avp_hdr)) + { +- log (LOG_WARN, "%s: First AVP was not message type.\n", +- __FUNCTION__); +- set_error (c, VENDOR_ERROR, "First AVP must be message type"); +- c->needclose = -1; ++ log (LOG_WARN, "%s: AVP reported length too small (%d).\n", ++ __func__, ALENGTH (rlen)); ++ set_error (c, ERROR_LENGTH, "AVP too small"); + return -EINVAL; + } +- if (ALENGTH (avp->length) < sizeof (struct avp_hdr)) ++ if (avps[attr].sz) { ++ if((avps[attr].flags & AVP_F_FIXLEN) ? ++ (ALENGTH(rlen) - sizeof(struct avp_hdr)) != avps[attr].sz : ++ (ALENGTH(rlen) - sizeof(struct avp_hdr)) > avps[attr].sz) { ++ log (LOG_DEBUG, "%s: %s avp size mismatch (%d %s %d)\n", ++ __func__, ++ avps[attr].description, ++ (avps[attr].flags & AVP_F_FIXLEN) ? "!=" : "<", ++ ALENGTH(rlen), avps[attr].sz); ++ set_error (c, ERROR_LENGTH, "AVP size check failed"); ++ return -EINVAL; ++ } ++ } ++ if (attr && firstavp) + { +- log (LOG_WARN, "%s: AVP with too small of size (%d).\n", +- __FUNCTION__, ALENGTH (avp->length)); +- set_error (c, ERROR_LENGTH, "AVP too small"); +- c->needclose = -1; ++ log (LOG_WARN, "%s: First AVP was not message type.\n", ++ __func__); ++ set_error (c, VENDOR_ERROR, "First AVP must be message type"); + return -EINVAL; + } +- if (AZBITS (avp->length)) ++ if (AZBITS (rlen)) + { +- log (LOG_WARN, "%s: %sAVP has reserved bits set.\n", __FUNCTION__, +- AMBIT (avp->length) ? "Mandatory " : ""); +- if (AMBIT (avp->length)) ++ log (LOG_WARN, "%s: %sAVP has reserved bits set.\n", __func__, ++ AMBIT (rlen) ? "Mandatory " : ""); ++ if (AMBIT (rlen)) + { + set_error (c, ERROR_RESERVED, "reserved bits set in AVP"); +- c->needclose = -1; + return -EINVAL; + } + goto next; + } +- if (AHBIT (avp->length)) ++ ++ /* decryption */ ++ if (AHBIT (rlen)) + { +-#ifdef DEBUG_HIDDEN +- log (LOG_DEBUG, "%s: Hidden bit set on AVP.\n", __FUNCTION__); +-#endif ++ log (LOG_DEBUG, "%s: Hidden bit set on AVP.\n", __func__); + /* We want to rewrite the AVP as an unhidden AVP + and then pass it along as normal. Remeber how + long the AVP was in the first place though! */ +@@ -1678,12 +872,11 @@ + { + if (debug_avp) + log (LOG_WARN, "%s: Unable to handle hidden %sAVP\n:", +- __FUNCTION__, +- (AMBIT (avp->length) ? "mandatory " : "")); +- if (AMBIT (avp->length)) ++ __func__, ++ (AMBIT (rlen) ? "mandatory " : "")); ++ if (AMBIT (rlen)) + { + set_error (c, VENDOR_ERROR, "Invalid Hidden AVP"); +- c->needclose = -1; + return -EINVAL; + } + goto next; +@@ -1696,17 +889,43 @@ + } + else + hidlen = 0; +- if (avps[avp->attr].handler) ++ ++ /* validate */ ++ if (avps[attr].validate) ++ { ++ if(avps[attr].validate(attr, t, c, avp, ALENGTH (rlen))) { ++ if (AMBIT (rlen)) ++ { ++ log (LOG_WARN, ++ "%s: verification of AVP %d (%s) failed.\n", ++ __func__, attr, ++ avps[attr].description); ++ set_error (c, VENDOR_ERROR, "processing failed on mandatory AVP"); ++ return -EINVAL; ++ } ++ else ++ { ++ if (DEBUG) ++ log (LOG_DEBUG, ++ "%s: Bad exit status handling attribute %d (%s).\n", ++ __func__, attr, ++ avps[attr].description); ++ } ++ } ++ } ++ ++ /* handling */ ++ if (avps[attr].handle) + { +- if (avps[avp->attr].handler (t, c, avp, ALENGTH (avp->length))) ++ if (avps[attr].handle(t, c, avp, ALENGTH (rlen))) + { +- if (AMBIT (avp->length)) ++ if (AMBIT (rlen)) + { + log (LOG_WARN, +- "%s: Bad exit status handling attribute %d (%s) on mandatory packet.\n", +- __FUNCTION__, avp->attr, +- avps[avp->attr].description); +- c->needclose = -1; ++ "%s: Bad exit status handling mandatory attribute %d (%s).\n", ++ __func__, attr, ++ avps[attr].description); ++ set_error (c, VENDOR_ERROR, "processing failed on mandatory AVP"); + return -EINVAL; + } + else +@@ -1714,29 +933,31 @@ + if (DEBUG) + log (LOG_DEBUG, + "%s: Bad exit status handling attribute %d (%s).\n", +- __FUNCTION__, avp->attr, +- avps[avp->attr].description); ++ __func__, attr, ++ avps[attr].description); + } + } + } + else + { +- if (AMBIT (avp->length)) ++ if (AMBIT (rlen)) + { + log (LOG_WARN, + "%s: No handler for mandatory attribute %d (%s). Closing %s.\n", +- __FUNCTION__, avp->attr, avps[avp->attr].description, ++ __func__, attr, ++ avps[attr].description, + (c != t->self) ? "call" : "tunnel"); + set_error (c, VENDOR_ERROR, "No handler for attr %d (%s)\n", +- avp->attr, avps[avp->attr].description); ++ attr, ++ avps[attr].description); + return -EINVAL; + } + else + { + if (DEBUG) + log (LOG_WARN, "%s: no handler for atribute %d (%s).\n", +- __FUNCTION__, avp->attr, +- avps[avp->attr].description); ++ __func__, attr, ++ avps[attr].description); + } + } + next: +@@ -1748,16 +969,17 @@ + } + else + { +- len -= ALENGTH (avp->length); +- data += ALENGTH (avp->length); /* Next AVP, please */ ++ len -= ALENGTH (rlen); ++ data += ALENGTH (rlen); /* Next AVP, please */ + } + avp = (struct avp_hdr *) data; + firstavp = 0; + } + if (len != 0) + { +- log (LOG_WARN, "%s: negative overall packet length\n", __FUNCTION__); ++ log (LOG_WARN, "%s: negative overall packet length\n", __func__); + return -EINVAL; + } ++ + return 0; + } +--- l2tpd-0.70-pre20031121.orig/avpsend.c ++++ l2tpd-0.70-pre20031121/avpsend.c +@@ -1,11 +1,5 @@ + /* +- * $Id$ +- * +- * Layer Two Tunnelling Protocol Daemon +- * Copyright (C) 1998 Adtran, Inc. +- * Copyright (C) 2002 Jeff McAdams +- * +- * Mark Spencer ++ * Copyright (C) 2004 Jean-Francois Dive + * + * This software is distributed under the terms + * of the GPL, which you should have received +@@ -14,337 +8,288 @@ + * Attribute Value Pair creating routines + */ + ++/* TODO: Handle Tie break */ ++/* TODO: Get real hostname / config */ ++/* TODO: There should be an overflow check on ++ * the buffer size. (safe for now as ++ * packet size = 4k ++ */ ++ + #include + #include +-#include ++#include + #include "l2tp.h" + +-/* +- * These routines should add avp's to a buffer +- * to be sent +- */ ++extern struct avp avps[]; + ++/* We could add here padding support which would allow ++ * to keep alignemnt straight */ ++static int add_avp(struct buffer *buf, u_int32_t avpid, unsigned char *v, ++ u_int32_t sz, u_int8_t setpayload) { ++ u_int8_t *p = buf->start + buf->len; ++ ++ if(avpid > AVP_MAX || !avps[avpid].flags) { ++ log(LOG_DEBUG, "%s: invalid avp id %d\n", __func__, avpid); ++ return 1; ++ } ++ ++ set16(p, (sz + 6) | (avps[avpid].flags & AVP_F_MANDATORY ? MBIT : 0)); ++ set16(p + 2, VENDOR_ID); ++ set16(p + 4, avpid); ++ if(setpayload) ++ memcpy(p + 6, v, sz); + +-/* FIXME: If SANITY is on, we should check for buffer overruns */ ++ buf->len += (sz + 6); ++ return 0; ++} + +-/* FIXME: Can't this be condensed alot? */ ++/*****************************************************************************/ ++int add_message_type_avp(struct buffer *buf, _u16 type) { ++ u_int8_t t[2]; ++ set16(t, type); ++ if(add_avp(buf, MESSAGE_TYPE_AVP, t, 2, 1)) ++ return 1; ++ return 0; ++} + +-int add_message_type_avp (struct buffer *buf, _u16 type) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x8 | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = 0; +- raw[3] = htons (type); +- buf->len += 8; ++/*****************************************************************************/ ++int add_protocol_avp(struct buffer *buf) { ++ u_int8_t t[2]; ++ set16(t, OUR_L2TP_VERSION); ++ if(add_avp(buf, PROTOCOL_VERSION_AVP, t, 2, 1)) ++ return 1; + return 0; + } + +-int add_protocol_avp (struct buffer *buf) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x8 | MBIT); /* Length and M bit */ +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x2); /* Value of our AVP */ +- raw[3] = htons (OUR_L2TP_VERSION); +- buf->len += 8; ++/*****************************************************************************/ ++int add_frame_caps_avp(struct buffer *buf, _u16 caps) { ++ u_int8_t t[4]; ++ t[0] = 0; ++ t[1] = 0; ++ set16(&t[2], caps); ++ if(add_avp(buf, FRAMING_CAP_AVP, t, 4, 1)) ++ return 1; + return 0; + } + +-int add_frame_caps_avp (struct buffer *buf, _u16 caps) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x3); +- raw[3] = 0; +- raw[4] = htons (caps); +- buf->len += 10; ++/*****************************************************************************/ ++int add_bearer_caps_avp(struct buffer *buf, _u16 caps) { ++ u_int8_t t[4]; ++ t[0] = 0; ++ t[1] = 0; ++ set16(&t[2], caps); ++ if(add_avp(buf, BEARER_CAP_AVP, t, 4, 1)) ++ return 1; + return 0; + } + +-int add_bearer_caps_avp (struct buffer *buf, _u16 caps) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x4); +- raw[3] = 0; +- raw[4] = htons (caps); +- buf->len += 10; ++/*****************************************************************************/ ++int add_firmware_avp(struct buffer *buf) { ++ u_int8_t t[2]; ++ set16(t, OUR_L2TP_VERSION); ++ if(add_avp(buf, FIRMWARE_REV_AVP, t, 2, 1)) ++ return 1; + return 0; + } + +-/* FIXME: I need to send tie breaker AVP's */ +- +-int add_firmware_avp (struct buffer *buf) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x8); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x6); +- raw[3] = htons (FIRMWARE_REV); +- buf->len += 8; ++/*****************************************************************************/ ++int add_hostname_avp(struct buffer *buf, struct tunnel *t) { ++ char n[STRLEN]; ++ int sz = 0; ++ if(t->lac && t->lac->hostname[0]) { ++ strncpy(n,t->lac->hostname, sizeof(n)); ++ sz = strnlen(t->lac->hostname, sizeof(t->lac->hostname)); ++ } ++ else if(t->lns && t->lns->hostname[0]) { ++ strncpy(n,t->lns->hostname, sizeof(n)); ++ sz = strnlen(t->lns->hostname, sizeof(t->lns->hostname)); ++ } ++ else { ++ if(gethostname(n, STRLEN)) { ++ strcpy(n,"eriwan"); ++ sz = 6; ++ } ++ else ++ sz = strnlen(n, sizeof(n)); ++ } ++ if(add_avp(buf, HOSTNAME_AVP, n, sz, 1)) ++ return 1; + return 0; + } + +-/* +-int add_hostname_avp(struct buffer *buf) { +- _u16 *raw = (_u16 *)(buf->start + buf->len); +- raw[0] = htons((0x6 + strlen(hostname)) | MBIT); +- raw[1] = htons(VENDOR_ID); +- raw[2] = htons(0x7); +- strcpy((char *)(&raw[3]), hostname); +- buf->len += 6 + strlen(hostname); +- return 0; ++/*****************************************************************************/ ++int add_vendor_avp(struct buffer *buf) { ++ if(add_avp(buf, VENDOR_NAME_AVP, VENDOR_NAME, strlen(VENDOR_NAME), 1)) ++ return 1; ++ return 0; + } +-*/ + +-int add_hostname_avp (struct buffer *buf) +-{ +- char names[6] = "eriwan"; +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xC | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x7); +- strcpy ((char *) (&raw[3]), names); +- buf->len += 12; +- return 0; +-} +- +-int add_vendor_avp (struct buffer *buf) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x6 + strlen (VENDOR_NAME)); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x8); +- strcpy ((char *) (&raw[3]), VENDOR_NAME); +- buf->len += 6 + strlen (VENDOR_NAME); +- return 0; +-} +- +-int add_tunnelid_avp (struct buffer *buf, _u16 tid) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x8 | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x9); +- raw[3] = htons (tid); +- buf->len += 8; +- return 0; +-} +- +-int add_avp_rws (struct buffer *buf, _u16 rws) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x8 | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0xA); +- raw[3] = htons (rws); +- buf->len += 8; +- return 0; +-} +- +-int add_challenge_avp (struct buffer *buf, char *c, int len) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons ((0x6 + len) | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0xB); +- bcopy (c, (char *) (&raw[3]), len); +- buf->len += 6 + len; +- return 0; +-} +- +-int add_chalresp_avp (struct buffer *buf, char *c, int len) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons ((0x6 + len) | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0xD); +- bcopy (c, (char *) (&raw[3]), len); +- buf->len += 6 + len; +- return 0; +-} +- +-int add_randvect_avp (struct buffer *buf, char *c, int len) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons ((0x6 + len) | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x24); +- bcopy (c, (char *) (&raw[3]), len); +- buf->len += 6 + len; +- return 0; +-} +- +-int add_result_code_avp (struct buffer *buf, _u16 result, _u16 error, +- char *msg, int len) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons ((0xA + len) | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x1); +- raw[3] = htons (result); +- raw[4] = htons (error); +- bcopy (msg, (char *) &raw[5], len); +- buf->len += (10 + len); ++/*****************************************************************************/ ++int add_tunnelid_avp(struct buffer *buf, _u16 tid) { ++ u_int8_t t[2]; ++ set16(t, tid); ++ if(add_avp(buf, ASSIGNED_TUN_ID_AVP, t, 2, 1)) ++ return 1; + return 0; + } + ++/*****************************************************************************/ ++int add_avp_rws(struct buffer *buf, _u16 rws) { ++ u_int8_t t[2]; ++ set16(t, rws); ++ if(add_avp(buf, RX_WIN_SIZE_AVP, t, 2, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_challenge_avp(struct buffer *buf, char *c, int len) { ++ if(add_avp(buf, CHALLENGE_AVP, c, len, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_chalresp_avp(struct buffer *buf, char *c, int len) { ++ if(add_avp(buf, CHALLENGE_RESP_AVP, c, len, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_randvect_avp(struct buffer *buf, char *c, int len) { ++ if(add_avp(buf, RANDOM_VECTOR_AVP, c, len, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_result_code_avp(struct buffer *buf, _u16 result, _u16 error, ++ char *msg, int len) { ++ u_int8_t t[4]; ++ set16(t, result); ++ set16(&t[2], error); ++ memcpy((u_int8_t*)(buf->start + buf->len + 10), msg, len); ++ memcpy((u_int8_t*)(buf->start + buf->len + 6), t, 4); ++ if(add_avp(buf, RESULT_CODE_AVP, 0, 4 + len, 0)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ + #ifdef TEST_HIDDEN +-int add_callid_avp (struct buffer *buf, _u16 callid, struct tunnel *t) +-{ +-#else +-int add_callid_avp (struct buffer *buf, _u16 callid) +-{ +-#endif +- _u16 *raw = (_u16 *) (buf->start + buf->len); +-#ifdef TEST_HIDDEN ++int add_callid_avp(struct buffer *buf, _u16 callid, struct tunnel *t) { ++ u_int8_t t[2]; + if (t->hbit) + raw++; +-#endif +- raw[0] = htons (0x8 | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0xE); +- raw[3] = htons (callid); +- buf->len += 8; +-#ifdef TEST_HIDDEN ++ set16(t, callid); ++ if(add_avp(buf, ASSIGNED_SES_ID_AVP, t, 2, 1)) ++ return 1; + if (t->hbit) + encrypt_avp (buf, 8, t); ++ return 0; ++} ++#else ++int add_callid_avp(struct buffer *buf, _u16 callid) { ++ u_int8_t t[2]; ++ set16(t, callid); ++ if(add_avp(buf, ASSIGNED_SES_ID_AVP, t, 2, 1)) ++ return 1; ++ return 0; ++} + #endif ++ ++/*****************************************************************************/ ++int add_serno_avp(struct buffer *buf, unsigned int serno) { ++ u_int8_t t[4]; ++ set32(t, serno); ++ if(add_avp(buf, SERIAL_NUMBER_AVP, t, 4, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_bearer_avp(struct buffer *buf, int bearer) { ++ u_int8_t t[4]; ++ set32(t, bearer); ++ if(add_avp(buf, BEARER_TYPE_AVP, t, 4, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_frame_avp(struct buffer *buf, int frame) { ++ u_int8_t t[4]; ++ set32(t, frame); ++ if(add_avp(buf, FRAMING_TYPE_AVP, t, 4, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_txspeed_avp(struct buffer *buf, int speed) { ++ u_int8_t t[4]; ++ set32(t, speed); ++ if(add_avp(buf, TX_CONNECT_SPEED_AVP, t, 4, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_rxspeed_avp(struct buffer *buf, int speed) { ++ u_int8_t t[4]; ++ set32(t, speed); ++ if(add_avp(buf, RX_CONNECT_SPEED_AVP, t, 4, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_physchan_avp(struct buffer *buf, unsigned int physchan) { ++ u_int8_t t[4]; ++ set32(t, physchan); ++ if(add_avp(buf, PHYS_CHAN_ID_AVP, t, 4, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_ppd_avp(struct buffer *buf, _u16 ppd) { ++ u_int8_t t[2]; ++ set16(t, ppd); ++ if(add_avp(buf, PACKET_DELAY_AVP, t, 2, 1)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_seqreqd_avp(struct buffer *buf) { ++ if(add_avp(buf, SEQ_REQUIRED_AVP, 0, 0, 0)) ++ return 1; ++ return 0; ++} ++ ++/*****************************************************************************/ ++int add_minbps_avp(struct buffer *buf, int speed) { ++ u_int8_t t[4]; ++ set32(t, speed); ++ if(add_avp(buf, MIN_BPS_AVP, t, 4, 1)) ++ return 1; + return 0; + } + +-int add_serno_avp (struct buffer *buf, unsigned int serno) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0xF); +- raw[3] = htons ((serno >> 16) & 0xFFFF); +- raw[4] = htons (serno & 0xFFFF); +- buf->len += 10; +- return 0; +-} +- +-int add_bearer_avp (struct buffer *buf, int bearer) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x12); +- raw[3] = htons ((bearer >> 16) & 0xFFFF); +- raw[4] = htons (bearer & 0xFFFF); +- buf->len += 10; +- return 0; +-} +- +-int add_frame_avp (struct buffer *buf, int frame) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x13); +- raw[3] = htons ((frame >> 16) & 0xFFFF); +- raw[4] = htons (frame & 0xFFFF); +- buf->len += 10; +- return 0; +-} +- +-int add_txspeed_avp (struct buffer *buf, int speed) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x18); +- raw[3] = htons ((speed >> 16) & 0xFFFF); +- raw[4] = htons (speed & 0xFFFF); +- buf->len += 10; +- return 0; +-} +- +-int add_rxspeed_avp (struct buffer *buf, int speed) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x26); +- raw[3] = htons ((speed >> 16) & 0xFFFF); +- raw[4] = htons (speed & 0xFFFF); +- buf->len += 10; +- return 0; +-} +- +-int add_physchan_avp (struct buffer *buf, unsigned int physchan) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x8 | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x19); +- raw[3] = htons ((physchan >> 16) & 0xFFFF); +- raw[4] = htons (physchan & 0xFFFF); +- buf->len += 10; +- return 0; +-} +- +-int add_ppd_avp (struct buffer *buf, _u16 ppd) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x8 | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x14); +- raw[3] = htons (ppd); +- buf->len += 8; +- return 0; +-} +- +-int add_seqreqd_avp (struct buffer *buf) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0x6 | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x27); +- buf->len += 6; +- return 0; +-} +- +-/* jz: options dor the outgoing call */ +- +-/* jz: Minimum BPS - 16 */ +-int add_minbps_avp (struct buffer *buf, int speed) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x10); +- raw[3] = htons ((speed >> 16) & 0xFFFF); +- raw[4] = htons (speed & 0xFFFF); +- buf->len += 10; +- return 0; +-} +- +-/* jz: Maximum BPS - 17 */ +-int add_maxbps_avp (struct buffer *buf, int speed) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons (0xA | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x11); +- raw[3] = htons ((speed >> 16) & 0xFFFF); +- raw[4] = htons (speed & 0xFFFF); +- buf->len += 10; +- return 0; +-} +- +-/* jz: Dialed Number 21 */ +-int add_number_avp (struct buffer *buf, char *no) +-{ +- _u16 *raw = (_u16 *) (buf->start + buf->len); +- raw[0] = htons ((0x6 + strlen (no)) | MBIT); +- raw[1] = htons (VENDOR_ID); +- raw[2] = htons (0x15); +- strncpy ((char *) (&(raw[3])), no, strlen (no)); +- buf->len += 6 + strlen (no); ++/*****************************************************************************/ ++int add_maxbps_avp(struct buffer *buf, int speed) { ++ u_int8_t t[4]; ++ set32(t, speed); ++ if(add_avp(buf, MAX_BPS_AVP, t, 4, 1)) ++ return 1; + return 0; + } ++ ++/*****************************************************************************/ ++int add_number_avp(struct buffer *buf, char *no) { ++ if(add_avp(buf, CALLED_NUMBER_AVP, no, strlen(no), 1)) ++ return 1; ++ return 0; ++}