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5 Commits
v1.2.1 ... v1.1.1

Author SHA1 Message Date
Moritz Rosenthal
25da5ad965 Wrong option for ./configure in README.md 2016-03-29 16:53:25 +02:00
Tobias Hintze
04b1f205c5 rework bssid handling and stop all used bssids when leaving RUN 
(this has been backported from master)
Instead of haing a pool of unsused BSS Id's and a list of active
BSS's (wlans), use a single array and only mark the BSS Id as used
or unused.

When leaving RUN state, release (stop) all used BSS.

Conflicts:
	src/wtp/wtp.c
	src/wtp/wtp_radio.c
 2016-03-29 16:49:45 +02:00
Andreas Schultz
c2a07804db reset WTP state when going into DTLS TD 2016-03-29 10:10:25 +02:00
Tobias Hintze
a96bb07868 Merge remote-tracking branch 'nm-mrt/dns-support' into v1.1.x 2016-03-25 13:13:02 +01:00
Andreas Schultz
9ee69a6778 fix libnl-genl detection for libnl3 2016-03-23 12:36:59 +01:00
239 changed files with 4613 additions and 6821 deletions
Expand all files Collapse all files

18
NEWS.md
View File

@ -1,18 +0,0 @@
SmartCAPWAP
===========
CAPWAP WTP and AC implementation
Version 1.2.1 - 06 May 2016
---------------------------
* fix Add WLAN's capability field
* fix mssing IEEE 802.11 Assigned WTP BSSID IE in Add WLAN response
Version 1.2.0 - 29 Apr 2016
---------------------------
* 802.11n support
* WMM/WME support
* ported to libev
* ported to Linux 4.4

21
README.md
View File

@ -6,26 +6,21 @@ This fork is currently focusing on the WTP side only.
## STATUS
NOTE: The WTP has been ported to libev, the AC has not been adjusted and is therefor broken for the moment.
### WTP tested and working features:
* 802.11b
* 802.11g
* 802.11a
* WMM/WME (mostly)
* Local MAC
* single radio, single WLAN mode
* 802.11n ([draft-ietf-opsawg-capwap-extension-06](https://tools.ietf.org/html/draft-ietf-opsawg-capwap-extension-06))
Only cards with cfg80211 netlink API are supported. The following devices
have been tested:
* Atheros AR9280 (Compex WLE200NX)
* Mediatek MT7602E, MT7612E (ZBT WG2626, ALL-WR1200AC_WRT)
Only cards with cfg80211 netlink API are supported and only
ath9k cards (in particular Qualcomm Atheros AR5418) have
been tested.
### Planned WTP features:
* 802.11n ([draft-ietf-opsawg-capwap-extension-06](https://tools.ietf.org/html/draft-ietf-opsawg-capwap-extension-06))
* encryption (WPA2)
* Hybrid-MAC ([RFC-7494](https://tools.ietf.org/html/rfc7494))
@ -42,21 +37,19 @@ NOTE: To run WTP you must have a wireless card that has Linux driver based on th
* libconfig-dev
* libjson0-dev
* libnl-dev
* libev-dev
* libtool
* libxml2-dev
* wolfssl 3.8 or newer
### Build
WolfSSL:
./configure --enable-dtls --enable-ipv6 --enable-aesgcm \
--enable-aesccm --enable-aesni --enable-poly1305 \
--enable-ecc --enable-ecc25519 --enable-chacha \
--enable-supportedcurves --enable-dh --enable-psk \
--disable-des3 --disable-arc4 --prefix=/usr/
--enable-ecc --enable-ecc25519 --enable-chacha \
--enable-supportedcurves --enable-dh --enable-psk \
--disable-des3 --disable-arc4 --prefix=/usr/
make
make install

5
build/Makefile_common.am
View File

@ -100,10 +100,7 @@ capwap_SOURCES = $(top_srcdir)/src/common/capwap.c \
$(top_srcdir)/src/common/capwap_element_80211_wtpqos.c \
$(top_srcdir)/src/common/capwap_element_80211_wtpradioconf.c \
$(top_srcdir)/src/common/capwap_element_80211_wtpradiofailalarm.c \
$(top_srcdir)/src/common/capwap_element_80211_wtpradioinformation.c \
$(top_srcdir)/src/common/capwap_element_80211n_radioconf.c \
$(top_srcdir)/src/common/capwap_element_80211n_station_information.c \
$(top_srcdir)/src/common/capwap_element_vendor_travelping_wtp_timestamp.c
$(top_srcdir)/src/common/capwap_element_80211_wtpradioinformation.c
if DEBUG_BUILD
capwap_SOURCES += $(top_srcdir)/src/common/capwap_debug.c

1
build/wtp/Makefile.am
View File

@ -23,7 +23,6 @@ bin_PROGRAMS = wtp
AM_CFLAGS = -D_REENTRANT \
-D_GNU_SOURCE \
-fno-strict-aliasing \
${LIBNL_CFLAGS}
if DTLS_ENABLED

12
conf/wtp.conf
View File

@ -49,7 +49,6 @@ application: {
timer: {
statistics = 120;
inactivity = 300;
};
dtls: {
@ -150,17 +149,6 @@ application: {
dscp = 0; # not used yet
};
};
ieee80211n = {
a-msdu = true;
a-mpdu = true;
require-ht = false;
short-gi = true;
ht40 = false;
max-sup-mcs = 15;
max-mand-mcs = 7;
tx-antenna = 0;
rx-antenna = 0;
};
}
);

24
configure.ac
View File

@ -19,7 +19,7 @@
AC_PREREQ(2.63)
AC_INIT([SmartCAPWAP], [1.2.1], [https://github.com/travelping/smartcapwap], [smartcapwap])
AC_INIT([SmartCAPWAP], [1.1.0], [https://github.com/travelping/smartcapwap], [smartcapwap])
AC_CONFIG_AUX_DIR([build])
AC_CONFIG_MACRO_DIR([m4])
AM_INIT_AUTOMAKE([1.11 -Wall])
@ -60,8 +60,12 @@ AC_ARG_ENABLE(
[enable_logging="yes"]
)
AC_ARG_ENABLE([ac],
[AS_HELP_STRING([--enable-ac], [enable ac support])])
AC_ARG_ENABLE(
[ac],
[AS_HELP_STRING([--disable-ac], [disable ac support])],
,
[enable_ac="yes"]
)
AC_ARG_ENABLE(
[wtp],
@ -174,7 +178,6 @@ AC_DEFINE_UNQUOTED([LIBCONFIG_LOOKUP_INT_ARG], [$LIBCONFIG_LOOKUP_INT_ARG], [con
# Check PTHREAD library
AC_CHECK_HEADER([pthread.h], [], [AC_MSG_ERROR(You need the pthread headers)])
AC_CHECK_LIB([pthread], [pthread_create], [PTHREAD_LIBS="-lpthread"], [AC_MSG_ERROR(You need the pthread library)])
AC_CHECK_LIB([ev], [ev_run],, [AC_MSG_ERROR(Required library ev missing)])
# Check SSL library
PKG_CHECK_MODULES([WOLFSSL], [wolfssl >= 3.8.0], [have_wolfssl_ssl="yes"], [have_wolfssl_ssl="no"])
@ -184,10 +187,15 @@ if test "${enable_ac}" = "yes"; then
test "x${have_wolfssl_ssl}" != "xyes" && AC_MSG_ERROR(You need the wolfssl library)
PKG_CHECK_MODULES(
[LIBJSON],
[json-c >= 0.11],
[],
[AC_MSG_ERROR(You need the libjson)]
[LIBJSON],
[json-c >= 0.11],
[],
[PKG_CHECK_MODULES(
[LIBJSON],
[json >= 0.9],
[],
[AC_MSG_ERROR(You need the libjson)]
)]
)
# Check XML2 library

29
openwrt/Makefile
View File

@ -9,21 +9,10 @@ include $(TOPDIR)/rules.mk
include $(INCLUDE_DIR)/kernel.mk
PKG_NAME:=smartcapwap
PKG_VERSION:=1.2.1
PKG_VERSION:=1.0
PKG_RELEASE:=1
SRC_SMARTCAPWAP := /usr/src/tplino/components/smartcapwap
PKG_SOURCE_PROTO:=git
PKG_SOURCE_URL:=git://github.com/travelping/smartcapwap.git
PKG_SOURCE_SUBDIR:=$(PKG_NAME)-$(PKG_VERSION)
PKG_SOURCE_VERSION:=v1.2.1
PKG_SOURCE:=$(PKG_NAME)-$(PKG_VERSION)-$(PKG_SOURCE_VERSION).tar.gz
PKG_BUILD_DIR:=$(BUILD_DIR)/$(PKG_NAME)-$(PKG_VERSION)
PKG_MAINTAINER:=Travelping GmbH <info@travelping.com>
PKG_LICENSE:=GPL-v2
PKG_LICENSE_FILES:=LICENSE
PKG_BUILD_DIR:=$(BUILD_DIR)/$(PKG_NAME)
PKG_FIXUP:=autoreconf
@ -40,25 +29,18 @@ define Package/smartcapwap
CATEGORY:=Network
TITLE:=SmartCAPWAP WTP
MAINTAINER:=Massimo Vellucci <vemax78@gmail.com>
DEPENDS:=+libnl +libev +libconfig +libcyassl +kmod-smartcapwap
DEPENDS:=+libnl-tiny +libconfig +libwolfssl +kmod-smartcapwap
endef
define Package/smartcapwap/description
This package contains the SmartCAPWAP WTP daemon.
endef
define Package/smartcapwap/conffiles
/etc/capwap/wtp.conf
/etc/capwap/ca.crt
/etc/capwap/wtp.crt
/etc/capwap/wtp.key
endef
define KernelPackage/smartcapwap
SUBMENU:=Network Support
TITLE:=SmartCAPWAP Data Channel Module
MAINTAINER:=Massimo Vellucci <vemax78@gmail.com>
DEPENDS:=+kmod-mac80211 +kmod-udptunnel4 +IPV6:kmod-udptunnel6
DEPENDS:=+kmod-mac80211 +kmod-ipv6
FILES:=$(PKG_BUILD_DIR)/src/wtp/kmod/smartcapwap.ko
AUTOLOAD:=$(call AutoLoad,70,smartcapwap)
endef
@ -67,7 +49,8 @@ define KernelPackage/smartcapwap/description
This package contains the SmartCAPWAP Data Transport kernel module.
endef
TARGET_CFLAGS += -I$(STAGING_DIR)/usr/include/libnl3
TARGET_CFLAGS += -I$(STAGING_DIR)/usr/include/libnl-tiny
SRC_SMARTCAPWAP := /mnt/hgfs/shared/smartcapwap
define Build/Prepare
mkdir -p $(PKG_BUILD_DIR)

86
src/ac/ac.c
View File

@ -214,22 +214,22 @@ static int ac_parsing_configuration_1_0(config_t* config) {
/* Logging configuration */
if (config_lookup_bool(config, "logging.enable", &configBool) == CONFIG_TRUE) {
if (!configBool) {
capwap_logging_verboselevel(LOG_NONE);
capwap_logging_verboselevel(CAPWAP_LOGGING_NONE);
capwap_logging_disable_allinterface();
} else {
if (config_lookup_string(config, "logging.level", &configString) == CONFIG_TRUE) {
if (!strcmp(configString, "fatal")) {
capwap_logging_verboselevel(LOG_EMERG);
capwap_logging_verboselevel(CAPWAP_LOGGING_FATAL);
} else if (!strcmp(configString, "error")) {
capwap_logging_verboselevel(LOG_ERR);
capwap_logging_verboselevel(CAPWAP_LOGGING_ERROR);
} else if (!strcmp(configString, "warning")) {
capwap_logging_verboselevel(LOG_WARNING);
capwap_logging_verboselevel(CAPWAP_LOGGING_WARNING);
} else if (!strcmp(configString, "info")) {
capwap_logging_verboselevel(LOG_INFO);
capwap_logging_verboselevel(CAPWAP_LOGGING_INFO);
} else if (!strcmp(configString, "debug")) {
capwap_logging_verboselevel(LOG_DEBUG);
capwap_logging_verboselevel(CAPWAP_LOGGING_DEBUG);
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown logging.level value");
capwap_logging_error("Invalid configuration file, unknown logging.level value");
return 0;
}
}
@ -251,7 +251,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
} else if (!strcmp(configString, "stderr")) {
capwap_logging_enable_console(1);
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown logging.output value");
capwap_logging_error("Invalid configuration file, unknown logging.output value");
return 0;
}
}
@ -268,7 +268,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
/* Set name of AC */
if (config_lookup_string(config, "application.name", &configString) == CONFIG_TRUE) {
if (strlen(configString) > CAPWAP_ACNAME_MAXLENGTH) {
log_printf(LOG_ERR, "Invalid configuration file, application.name string length exceeded");
capwap_logging_error("Invalid configuration file, application.name string length exceeded");
return 0;
}
@ -291,7 +291,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
} else if (!strcmp(bindingName, "EPCGlobal")) {
*binding = CAPWAP_WIRELESS_BINDING_EPCGLOBAL;
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown application.binding value");
capwap_logging_error("Invalid configuration file, unknown application.binding value");
return 0;
}
}
@ -303,7 +303,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
if ((configInt > 0) && (configInt < 65536)) {
g_ac.descriptor.stationlimit = (unsigned short)configInt;
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown application.descriptor.maxstations value");
capwap_logging_error("Invalid configuration file, unknown application.descriptor.maxstations value");
return 0;
}
}
@ -313,7 +313,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
if ((configInt > 0) && (configInt < 65536)) {
g_ac.descriptor.maxwtp = (unsigned short)configInt;
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown application.descriptor.maxwtp value");
capwap_logging_error("Invalid configuration file, unknown application.descriptor.maxwtp value");
return 0;
}
}
@ -379,7 +379,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
} else if (!strcmp(configType, "software")) {
type = CAPWAP_ACDESC_SUBELEMENT_SOFTWAREVERSION;
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown application.descriptor.info.type value");
capwap_logging_error("Invalid configuration file, unknown application.descriptor.info.type value");
return 0;
}
@ -392,19 +392,19 @@ static int ac_parsing_configuration_1_0(config_t* config) {
strcpy((char*)desc->data, configValue);
desc->data[desc->length] = 0;
} else {
log_printf(LOG_ERR, "Invalid configuration file, application.descriptor.info.value string length exceeded");
capwap_logging_error("Invalid configuration file, application.descriptor.info.value string length exceeded");
return 0;
}
} else {
log_printf(LOG_ERR, "Invalid configuration file, element application.descriptor.info.value not found");
capwap_logging_error("Invalid configuration file, element application.descriptor.info.value not found");
return 0;
}
} else {
log_printf(LOG_ERR, "Invalid configuration file, element application.descriptor.info.type not found");
capwap_logging_error("Invalid configuration file, element application.descriptor.info.type not found");
return 0;
}
} else {
log_printf(LOG_ERR, "Invalid configuration file, element application.descriptor.info.idvendor not found");
capwap_logging_error("Invalid configuration file, element application.descriptor.info.idvendor not found");
return 0;
}
}
@ -418,7 +418,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
} else if (!strcmp(configString, "limited")) {
g_ac.dfa.ecn.flag = CAPWAP_LIMITED_ECN_SUPPORT;
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown application.ecn value");
capwap_logging_error("Invalid configuration file, unknown application.ecn value");
return 0;
}
}
@ -429,7 +429,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
if ((configInt >= AC_MIN_DISCOVERY_INTERVAL) && (configInt <= AC_MAX_DISCOVERY_INTERVAL)) {
g_ac.dfa.timers.discovery = (unsigned char)(configInt / 1000);
} else {
log_printf(LOG_ERR, "Invalid configuration file, invalid application.timer.discovery value");
capwap_logging_error("Invalid configuration file, invalid application.timer.discovery value");
return 0;
}
}
@ -439,7 +439,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
if ((configInt >= AC_MIN_ECHO_INTERVAL) && (configInt <= AC_MAX_ECHO_INTERVAL)) {
g_ac.dfa.timers.echorequest = (unsigned char)(configInt / 1000);
} else {
log_printf(LOG_ERR, "Invalid configuration file, invalid application.timer.echorequest value");
capwap_logging_error("Invalid configuration file, invalid application.timer.echorequest value");
return 0;
}
}
@ -448,7 +448,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
if ((configInt > 0) && (configInt < 65536)) {
g_ac.dfa.decrypterrorreport_interval = (unsigned short)configInt;
} else {
log_printf(LOG_ERR, "Invalid configuration file, invalid application.timer.decrypterrorreport value");
capwap_logging_error("Invalid configuration file, invalid application.timer.decrypterrorreport value");
return 0;
}
}
@ -457,7 +457,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
if (configInt > 0) {
g_ac.dfa.idletimeout.timeout = (unsigned long)configInt;
} else {
log_printf(LOG_ERR, "Invalid configuration file, invalid application.timer.idletimeout value");
capwap_logging_error("Invalid configuration file, invalid application.timer.idletimeout value");
return 0;
}
}
@ -483,7 +483,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
} else if (!strcmp(configString, "presharedkey")) {
dtlsparam.mode = CAPWAP_DTLS_MODE_PRESHAREDKEY;
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown application.dtls.type value");
capwap_logging_error("Invalid configuration file, unknown application.dtls.type value");
return 0;
}
}
@ -576,7 +576,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
/* Set interface binding of AC */
if (config_lookup_string(config, "application.network.binding", &configString) == CONFIG_TRUE) {
if (strlen(configString) > (IFNAMSIZ - 1)) {
log_printf(LOG_ERR, "Invalid configuration file, application.network.binding string length exceeded");
capwap_logging_error("Invalid configuration file, application.network.binding string length exceeded");
return 0;
}
@ -588,7 +588,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
if ((configInt > 0) && (configInt < 65536)) {
g_ac.mtu = (unsigned short)configInt;
} else {
log_printf(LOG_ERR, "Invalid configuration file, invalid application.network.mtu value");
capwap_logging_error("Invalid configuration file, invalid application.network.mtu value");
return 0;
}
}
@ -600,7 +600,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
} else if (!strcmp(configString, "udplite")) {
g_ac.dfa.transport.type = CAPWAP_UDPLITE_TRANSPORT;
} else {
log_printf(LOG_ERR, "Invalid configuration file, unknown application.network.transport value");
capwap_logging_error("Invalid configuration file, unknown application.network.transport value");
return 0;
}
}
@ -633,7 +633,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
/* */
server = ac_soapclient_create_server(configString);
if (!server) {
log_printf(LOG_ERR, "Invalid configuration file, invalid backend.server value");
capwap_logging_error("Invalid configuration file, invalid backend.server value");
return 0;
}
@ -647,7 +647,7 @@ static int ac_parsing_configuration_1_0(config_t* config) {
/* */
configSSL = config_setting_get_member(configServer, "x509");
if (!configSSL) {
log_printf(LOG_ERR, "Invalid configuration file, invalid backend.server.x509 value");
capwap_logging_error("Invalid configuration file, invalid backend.server.x509 value");
return 0;
}
@ -673,11 +673,11 @@ static int ac_parsing_configuration_1_0(config_t* config) {
if (calist && certificate && privatekey) {
server->sslcontext = capwap_socket_crypto_createcontext(calist, certificate, privatekey);
if (!server->sslcontext) {
log_printf(LOG_ERR, "Invalid configuration file, unable to initialize crypto library");
capwap_logging_error("Invalid configuration file, unable to initialize crypto library");
return 0;
}
} else {
log_printf(LOG_ERR, "Invalid configuration file, invalid backend.server.x509 value");
capwap_logging_error("Invalid configuration file, invalid backend.server.x509 value");
return 0;
}
@ -707,9 +707,9 @@ static int ac_parsing_configuration(config_t* config) {
return ac_parsing_configuration_1_0(config);
}
log_printf(LOG_ERR, "Invalid configuration file, '%s' is not supported", configString);
capwap_logging_error("Invalid configuration file, '%s' is not supported", configString);
} else {
log_printf(LOG_ERR, "Invalid configuration file, unable to found version tag");
capwap_logging_error("Invalid configuration file, unable to found version tag");
}
return 0;
@ -738,7 +738,7 @@ static int ac_load_configuration(int argc, char** argv) {
if (strlen(optarg) < sizeof(g_configurationfile)) {
strcpy(g_configurationfile, optarg);
} else {
log_printf(LOG_ERR, "Invalid -%c argument", optopt);
capwap_logging_error("Invalid -%c argument", optopt);
return -1;
}
@ -747,9 +747,9 @@ static int ac_load_configuration(int argc, char** argv) {
case '?': {
if (optopt == 'c') {
log_printf(LOG_ERR, "Option -%c requires an argument", optopt);
capwap_logging_error("Option -%c requires an argument", optopt);
} else {
log_printf(LOG_ERR, "Unknown option character `\\x%x'", optopt);
capwap_logging_error("Unknown option character `\\x%x'", optopt);
}
ac_print_usage();
@ -766,7 +766,7 @@ static int ac_load_configuration(int argc, char** argv) {
result = ac_parsing_configuration(&config);
} else {
result = -1;
log_printf(LOG_ERR, "Unable load the configuration file '%s': %s (%d)", g_configurationfile, config_error_text(&config), config_error_line(&config));
capwap_logging_error("Unable load the configuration file '%s': %s (%d)", g_configurationfile, config_error_text(&config), config_error_line(&config));
}
/* Free libconfig */
@ -778,7 +778,7 @@ static int ac_load_configuration(int argc, char** argv) {
static int ac_configure(void) {
/* Bind control channel to any address */
if (capwap_bind_sockets(&g_ac.net)) {
log_printf(LOG_EMERG, "Cannot bind address");
capwap_logging_fatal("Cannot bind address");
return AC_ERROR_NETWORK;
}
@ -821,7 +821,7 @@ int main(int argc, char** argv) {
/* Init capwap */
if (geteuid() != 0) {
log_printf(LOG_EMERG, "Request root privileges");
capwap_logging_fatal("Request root privileges");
return CAPWAP_REQUEST_ROOT;
}
@ -830,7 +830,7 @@ int main(int argc, char** argv) {
/* Init crypt */
if (capwap_crypt_init()) {
log_printf(LOG_EMERG, "Error to init crypt engine");
capwap_logging_fatal("Error to init crypt engine");
return CAPWAP_CRYPT_ERROR;
}
@ -852,7 +852,7 @@ int main(int argc, char** argv) {
/* Console logging is disabled in daemon mode */
capwap_logging_disable_console();
log_printf(LOG_INFO, "Running AC in daemon mode");
capwap_logging_info("Running AC in daemon mode");
}
/* Complete configuration AC */
@ -862,18 +862,18 @@ int main(int argc, char** argv) {
if (!ac_kmod_init()) {
/* Bind data channel */
if (!ac_kmod_createdatachannel(g_ac.net.localaddr.ss.ss_family, CAPWAP_GET_NETWORK_PORT(&g_ac.net.localaddr) + 1)) {
log_printf(LOG_INFO, "SmartCAPWAP kernel module connected");
capwap_logging_info("SmartCAPWAP kernel module connected");
/* Running AC */
result = ac_execute();
} else {
log_printf(LOG_EMERG, "Unable to create kernel data channel");
capwap_logging_fatal("Unable to create kernel data channel");
}
/* Disconnect kernel module */
ac_kmod_free();
} else {
log_printf(LOG_EMERG, "Unable to connect to kernel module");
capwap_logging_fatal("Unable to connect to kernel module");
}
/* Close connection */

2
src/ac/ac.h
View File

@ -14,7 +14,7 @@
#include <pthread.h>
#include <linux/if_ether.h>
#include <json-c/json.h>
#include <json/json.h>
#include <ac_kmod.h>

103
src/ac/ac_80211_json.c
View File

@ -31,29 +31,26 @@ static struct ac_json_ieee80211_ops* ac_json_80211_message_elements[] = {
};
/* */
static struct ac_json_ieee80211_ops *
ac_json_80211_getops_by_capwaptype(const struct capwap_message_element_id type)
{
static struct ac_json_ieee80211_ops* ac_json_80211_getops_by_capwaptype(uint16_t type) {
int i;
for (i = 0; i < CAPWAP_80211_MESSAGE_ELEMENTS_COUNT; i++) {
if (ac_json_80211_message_elements[i] &&
memcmp(&ac_json_80211_message_elements[i]->type, &type, sizeof(type)) == 0)
if (ac_json_80211_message_elements[i] && (ac_json_80211_message_elements[i]->type == type)) {
return ac_json_80211_message_elements[i];
}
}
return NULL;
}
/* */
static struct ac_json_ieee80211_ops* ac_json_80211_getops_by_jsontype(char* type)
{
static struct ac_json_ieee80211_ops* ac_json_80211_getops_by_jsontype(char* type) {
int i;
for (i = 0; i < CAPWAP_80211_MESSAGE_ELEMENTS_COUNT; i++) {
if (ac_json_80211_message_elements[i] &&
strcmp(ac_json_80211_message_elements[i]->json_type, type) == 0)
if (ac_json_80211_message_elements[i] && !strcmp(ac_json_80211_message_elements[i]->json_type, type)) {
return ac_json_80211_message_elements[i];
}
}
return NULL;
@ -77,113 +74,111 @@ void ac_json_ieee80211_free(struct ac_json_ieee80211_wtpradio* wtpradio) {
if (item->valid) {
if (item->addwlan) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ADD_WLAN)->free(item->addwlan);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ADD_WLAN)->free_message_element(item->addwlan);
}
if (item->antenna) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ANTENNA)->free(item->antenna);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ANTENNA)->free_message_element(item->antenna);
}
if (item->assignbssid) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ASSIGN_BSSID)->free(item->assignbssid);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ASSIGN_BSSID)->free_message_element(item->assignbssid);
}
if (item->deletewlan) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_DELETE_WLAN)->free(item->deletewlan);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_DELETE_WLAN)->free_message_element(item->deletewlan);
}
if (item->directsequencecontrol) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL)->free(item->directsequencecontrol);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL)->free_message_element(item->directsequencecontrol);
}
if (item->iearray) {
const struct capwap_message_elements_ops* ieops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_IE);
struct capwap_message_elements_ops* ieops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_IE);
for (j = 0; j < item->iearray->count; j++) {
ieops->free(*(struct capwap_80211_ie_element**)capwap_array_get_item_pointer(item->iearray, j));
ieops->free_message_element(*(struct capwap_80211_ie_element**)capwap_array_get_item_pointer(item->iearray, j));
}
capwap_array_free(item->iearray);
}
if (item->macoperation) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MACOPERATION)->free(item->macoperation);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MACOPERATION)->free_message_element(item->macoperation);
}
if (item->miccountermeasures) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES)->free(item->miccountermeasures);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES)->free_message_element(item->miccountermeasures);
}
if (item->multidomaincapability) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY)->free(item->multidomaincapability);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY)->free_message_element(item->multidomaincapability);
}
if (item->ofdmcontrol) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_OFDMCONTROL)->free(item->ofdmcontrol);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_OFDMCONTROL)->free_message_element(item->ofdmcontrol);
}
if (item->rateset) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_RATESET)->free(item->rateset);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_RATESET)->free_message_element(item->rateset);
}
if (item->rsnaerrorreport) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT)->free(item->rsnaerrorreport);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT)->free_message_element(item->rsnaerrorreport);
}
if (item->statistics) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_STATISTICS)->free(item->statistics);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_STATISTICS)->free_message_element(item->statistics);
}
if (item->supportedrates) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_SUPPORTEDRATES)->free(item->supportedrates);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_SUPPORTEDRATES)->free_message_element(item->supportedrates);
}
if (item->txpower) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_TXPOWER)->free(item->txpower);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_TXPOWER)->free_message_element(item->txpower);
}
if (item->txpowerlevel) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_TXPOWERLEVEL)->free(item->txpowerlevel);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_TXPOWERLEVEL)->free_message_element(item->txpowerlevel);
}
if (item->updatewlan) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_UPDATE_WLAN)->free(item->updatewlan);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_UPDATE_WLAN)->free_message_element(item->updatewlan);
}
if (item->wtpqos) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_QOS)->free(item->wtpqos);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_QOS)->free_message_element(item->wtpqos);
}
if (item->wtpradioconf) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_CONF)->free(item->wtpradioconf);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_CONF)->free_message_element(item->wtpradioconf);
}
if (item->wtpradiofailalarm) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_FAIL_ALARM)->free(item->wtpradiofailalarm);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_FAIL_ALARM)->free_message_element(item->wtpradiofailalarm);
}
if (item->wtpradioinformation) {
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTPRADIOINFORMATION)->free(item->wtpradioinformation);
capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTPRADIOINFORMATION)->free_message_element(item->wtpradioinformation);
}
}
}
}
/* */
int ac_json_ieee80211_addmessageelement(struct ac_json_ieee80211_wtpradio *wtpradio,
const struct capwap_message_element_id id,
void *data, int overwrite)
{
int ac_json_ieee80211_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, uint16_t type, void* data, int overwrite) {
struct ac_json_ieee80211_ops* ops;
ASSERT(wtpradio != NULL);
ASSERT(IS_80211_MESSAGE_ELEMENTS(id));
ASSERT(IS_80211_MESSAGE_ELEMENTS(type));
ASSERT(data != NULL);
/* */
ops = ac_json_80211_getops_by_capwaptype(id);
if (!ops)
ops = ac_json_80211_getops_by_capwaptype(type);
if (!ops) {
return 0;
}
return ops->add_message_element(wtpradio, data, overwrite);
}
@ -194,27 +189,21 @@ int ac_json_ieee80211_parsingmessageelement(struct ac_json_ieee80211_wtpradio* w
ASSERT(wtpradio != NULL);
ASSERT(messageelement != NULL);
ASSERT(IS_80211_MESSAGE_ELEMENTS(messageelement->id));
ASSERT(IS_80211_MESSAGE_ELEMENTS(messageelement->type));
switch (messageelement->category) {
case CAPWAP_MESSAGE_ELEMENT_SINGLE:
if (!ac_json_ieee80211_addmessageelement(wtpradio, messageelement->id,
messageelement->data, 0))
if (messageelement->category == CAPWAP_MESSAGE_ELEMENT_SINGLE) {
if (!ac_json_ieee80211_addmessageelement(wtpradio, messageelement->type, messageelement->data, 0)) {
return 0;
break;
}
} else if (messageelement->category == CAPWAP_MESSAGE_ELEMENT_ARRAY) {
struct capwap_array* items = (struct capwap_array*)messageelement->data;
case CAPWAP_MESSAGE_ELEMENT_ARRAY: {
struct capwap_array* items =
(struct capwap_array*)messageelement->data;
for (i = 0; i < items->count; i++)
if (!ac_json_ieee80211_addmessageelement(wtpradio, messageelement->id,
*(void**)capwap_array_get_item_pointer(items, i), 0))
for (i = 0; i < items->count; i++) {
if (!ac_json_ieee80211_addmessageelement(wtpradio, messageelement->type, *(void**)capwap_array_get_item_pointer(items, i), 0)) {
return 0;
break;
}
default:
}
}
} else {
return 0;
}
@ -250,13 +239,13 @@ int ac_json_ieee80211_parsingjson(struct ac_json_ieee80211_wtpradio* wtpradio, s
for(entry = json_object_get_object(jsonradio)->head; entry != NULL; entry = entry->next) {
struct ac_json_ieee80211_ops* ops = ac_json_80211_getops_by_jsontype((char*)entry->k); /* Retrieve JSON handler */
if (ops) {
void* data = ops->create((struct json_object*)entry->v, radioid);
void* data = ops->create_message_element((struct json_object*)entry->v, radioid);
if (data) {
/* Message element complete */
ac_json_ieee80211_addmessageelement(wtpradio, ops->type, data, 1);
/* Free resource */
capwap_get_message_element_ops(ops->type)->free(data);
capwap_get_message_element_ops(ops->type)->free_message_element(data);
}
}
}

8
src/ac/ac_80211_json_addwlan.c
View File

@ -10,18 +10,18 @@ static void* ac_json_80211_addwlan_createmessageelement(struct json_object* json
static int ac_json_80211_addwlan_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_addwlan_element* addwlan = (struct capwap_80211_addwlan_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[addwlan->radioid - 1];
const struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ADD_WLAN);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ADD_WLAN);
if (item->addwlan) {
if (!overwrite) {
return 0;
}
ops->free(item->addwlan);
ops->free_message_element(item->addwlan);
}
item->valid = 1;
item->addwlan = (struct capwap_80211_addwlan_element*)ops->clone(addwlan);
item->addwlan = (struct capwap_80211_addwlan_element*)ops->clone_message_element(addwlan);
return 1;
}
@ -35,7 +35,7 @@ static void ac_json_80211_addwlan_createjson(struct json_object* jsonparent, voi
struct ac_json_ieee80211_ops ac_json_80211_addwlan_ops = {
.type = CAPWAP_ELEMENT_80211_ADD_WLAN,
.json_type = "IEEE80211AddWLAN",
.create = ac_json_80211_addwlan_createmessageelement,
.create_message_element = ac_json_80211_addwlan_createmessageelement,
.add_message_element = ac_json_80211_addwlan_addmessageelement,
.create_json = ac_json_80211_addwlan_createjson
};

8
src/ac/ac_80211_json_antenna.c
View File

@ -64,18 +64,18 @@ static void* ac_json_80211_antenna_createmessageelement(struct json_object* json
static int ac_json_80211_antenna_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_antenna_element* antenna = (struct capwap_80211_antenna_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[antenna->radioid - 1];
const struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ANTENNA);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ANTENNA);
if (item->antenna) {
if (!overwrite) {
return 0;
}
ops->free(item->antenna);
ops->free_message_element(item->antenna);
}
item->valid = 1;
item->antenna = (struct capwap_80211_antenna_element*)ops->clone(antenna);
item->antenna = (struct capwap_80211_antenna_element*)ops->clone_message_element(antenna);
return 1;
}
@ -103,7 +103,7 @@ static void ac_json_80211_antenna_createjson(struct json_object* jsonparent, voi
struct ac_json_ieee80211_ops ac_json_80211_antenna_ops = {
.type = CAPWAP_ELEMENT_80211_ANTENNA,
.json_type = "IEEE80211Antenna",
.create = ac_json_80211_antenna_createmessageelement,
.create_message_element = ac_json_80211_antenna_createmessageelement,
.add_message_element = ac_json_80211_antenna_addmessageelement,
.create_json = ac_json_80211_antenna_createjson
};

8
src/ac/ac_80211_json_assignbssid.c
View File

@ -10,18 +10,18 @@ static void* ac_json_80211_assignbssid_createmessageelement(struct json_object*
static int ac_json_80211_assignbssid_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_assignbssid_element* assignbssid = (struct capwap_80211_assignbssid_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[assignbssid->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ASSIGN_BSSID);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_ASSIGN_BSSID);
if (item->assignbssid) {
if (!overwrite) {
return 0;
}
ops->free(item->assignbssid);
ops->free_message_element(item->assignbssid);
}
item->valid = 1;
item->assignbssid = (struct capwap_80211_assignbssid_element*)ops->clone(assignbssid);
item->assignbssid = (struct capwap_80211_assignbssid_element*)ops->clone_message_element(assignbssid);
return 1;
}
@ -35,7 +35,7 @@ static void ac_json_80211_assignbssid_createjson(struct json_object* jsonparent,
struct ac_json_ieee80211_ops ac_json_80211_assignbssid_ops = {
.type = CAPWAP_ELEMENT_80211_ASSIGN_BSSID,
.json_type = "IEEE80211AssignBSSID",
.create = ac_json_80211_assignbssid_createmessageelement,
.create_message_element = ac_json_80211_assignbssid_createmessageelement,
.add_message_element = ac_json_80211_assignbssid_addmessageelement,
.create_json = ac_json_80211_assignbssid_createjson
};

8
src/ac/ac_80211_json_deletewlan.c
View File

@ -10,18 +10,18 @@ static void* ac_json_80211_deletewlan_createmessageelement(struct json_object* j
static int ac_json_80211_deletewlan_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_deletewlan_element* deletewlan = (struct capwap_80211_deletewlan_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[deletewlan->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_DELETE_WLAN);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_DELETE_WLAN);
if (item->deletewlan) {
if (!overwrite) {
return 0;
}
ops->free(item->deletewlan);
ops->free_message_element(item->deletewlan);
}
item->valid = 1;
item->deletewlan = (struct capwap_80211_deletewlan_element*)ops->clone(deletewlan);
item->deletewlan = (struct capwap_80211_deletewlan_element*)ops->clone_message_element(deletewlan);
return 1;
}
@ -35,7 +35,7 @@ static void ac_json_80211_deletewlan_createjson(struct json_object* jsonparent,
struct ac_json_ieee80211_ops ac_json_80211_deletewlan_ops = {
.type = CAPWAP_ELEMENT_80211_DELETE_WLAN,
.json_type = "IEEE80211DeleteWLAN",
.create = ac_json_80211_deletewlan_createmessageelement,
.create_message_element = ac_json_80211_deletewlan_createmessageelement,
.add_message_element = ac_json_80211_deletewlan_addmessageelement,
.create_json = ac_json_80211_deletewlan_createjson
};

8
src/ac/ac_80211_json_directsequencecontrol.c
View File

@ -50,18 +50,18 @@ static void* ac_json_80211_directsequencecontrol_createmessageelement(struct jso
static int ac_json_80211_directsequencecontrol_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_directsequencecontrol_element* directsequencecontrol = (struct capwap_80211_directsequencecontrol_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[directsequencecontrol->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL);
if (item->directsequencecontrol) {
if (!overwrite) {
return 0;
}
ops->free(item->directsequencecontrol);
ops->free_message_element(item->directsequencecontrol);
}
item->valid = 1;
item->directsequencecontrol = (struct capwap_80211_directsequencecontrol_element*)ops->clone(directsequencecontrol);
item->directsequencecontrol = (struct capwap_80211_directsequencecontrol_element*)ops->clone_message_element(directsequencecontrol);
return 1;
}
@ -82,7 +82,7 @@ static void ac_json_80211_directsequencecontrol_createjson(struct json_object* j
struct ac_json_ieee80211_ops ac_json_80211_directsequencecontrol_ops = {
.type = CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL,
.json_type = "IEEE80211DirectSequenceControl",
.create = ac_json_80211_directsequencecontrol_createmessageelement,
.create_message_element = ac_json_80211_directsequencecontrol_createmessageelement,
.add_message_element = ac_json_80211_directsequencecontrol_addmessageelement,
.create_json = ac_json_80211_directsequencecontrol_createjson
};

6
src/ac/ac_80211_json_ie.c
View File

@ -11,7 +11,7 @@ static int ac_json_80211_ie_addmessageelement(struct ac_json_ieee80211_wtpradio*
struct capwap_80211_ie_element** ieclone;
struct capwap_80211_ie_element* ie = (struct capwap_80211_ie_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[ie->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_IE);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_IE);
if (!item->iearray) {
item->iearray = capwap_array_create(sizeof(struct capwap_80211_ie_element*), 0, 0);
@ -19,7 +19,7 @@ static int ac_json_80211_ie_addmessageelement(struct ac_json_ieee80211_wtpradio*
item->valid = 1;
ieclone = (struct capwap_80211_ie_element**)capwap_array_get_item_pointer(item->iearray, item->iearray->count);
*ieclone = (struct capwap_80211_ie_element*)ops->clone(ie);
*ieclone = (struct capwap_80211_ie_element*)ops->clone_message_element(ie);
return 1;
}
@ -33,7 +33,7 @@ static void ac_json_80211_ie_createjson(struct json_object* jsonparent, void* da
struct ac_json_ieee80211_ops ac_json_80211_ie_ops = {
.type = CAPWAP_ELEMENT_80211_IE,
.json_type = "IEEE80211IE",
.create = ac_json_80211_ie_createmessageelement,
.create_message_element = ac_json_80211_ie_createmessageelement,
.add_message_element = ac_json_80211_ie_addmessageelement,
.create_json = ac_json_80211_ie_createjson
};

8
src/ac/ac_80211_json_macoperation.c
View File

@ -77,18 +77,18 @@ static void* ac_json_80211_macoperation_createmessageelement(struct json_object*
static int ac_json_80211_macoperation_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_macoperation_element* macoperation = (struct capwap_80211_macoperation_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[macoperation->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MACOPERATION);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MACOPERATION);
if (item->macoperation) {
if (!overwrite) {
return 0;
}
ops->free(item->macoperation);
ops->free_message_element(item->macoperation);
}
item->valid = 1;
item->macoperation = (struct capwap_80211_macoperation_element*)ops->clone(macoperation);
item->macoperation = (struct capwap_80211_macoperation_element*)ops->clone_message_element(macoperation);
return 1;
}
@ -112,7 +112,7 @@ static void ac_json_80211_macoperation_createjson(struct json_object* jsonparent
struct ac_json_ieee80211_ops ac_json_80211_macoperation_ops = {
.type = CAPWAP_ELEMENT_80211_MACOPERATION,
.json_type = "IEEE80211MACOperation",
.create = ac_json_80211_macoperation_createmessageelement,
.create_message_element = ac_json_80211_macoperation_createmessageelement,
.add_message_element = ac_json_80211_macoperation_addmessageelement,
.create_json = ac_json_80211_macoperation_createjson
};

8
src/ac/ac_80211_json_miccountermeasures.c
View File

@ -10,18 +10,18 @@ static void* ac_json_80211_miccountermeasures_createmessageelement(struct json_o
static int ac_json_80211_miccountermeasures_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_miccountermeasures_element* miccountermeasures = (struct capwap_80211_miccountermeasures_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[miccountermeasures->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES);
if (item->miccountermeasures) {
if (!overwrite) {
return 0;
}
ops->free(item->miccountermeasures);
ops->free_message_element(item->miccountermeasures);
}
item->valid = 1;
item->miccountermeasures = (struct capwap_80211_miccountermeasures_element*)ops->clone(miccountermeasures);
item->miccountermeasures = (struct capwap_80211_miccountermeasures_element*)ops->clone_message_element(miccountermeasures);
return 1;
}
@ -35,7 +35,7 @@ static void ac_json_80211_miccountermeasures_createjson(struct json_object* json
struct ac_json_ieee80211_ops ac_json_80211_miccountermeasures_ops = {
.type = CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES,
.json_type = "IEEE80211MicCounterMeasures",
.create = ac_json_80211_miccountermeasures_createmessageelement,
.create_message_element = ac_json_80211_miccountermeasures_createmessageelement,
.add_message_element = ac_json_80211_miccountermeasures_addmessageelement,
.create_json = ac_json_80211_miccountermeasures_createjson
};

8
src/ac/ac_80211_json_multidomaincapability.c
View File

@ -50,18 +50,18 @@ static void* ac_json_80211_multidomaincapability_createmessageelement(struct jso
static int ac_json_80211_multidomaincapability_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_multidomaincapability_element* multidomaincapability = (struct capwap_80211_multidomaincapability_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[multidomaincapability->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY);
if (item->multidomaincapability) {
if (!overwrite) {
return 0;
}
ops->free(item->multidomaincapability);
ops->free_message_element(item->multidomaincapability);
}
item->valid = 1;
item->multidomaincapability = (struct capwap_80211_multidomaincapability_element*)ops->clone(multidomaincapability);
item->multidomaincapability = (struct capwap_80211_multidomaincapability_element*)ops->clone_message_element(multidomaincapability);
return 1;
}
@ -82,7 +82,7 @@ static void ac_json_80211_multidomaincapability_createjson(struct json_object* j
struct ac_json_ieee80211_ops ac_json_80211_multidomaincapability_ops = {
.type = CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY,
.json_type = "IEEE80211MultiDomainCapability",
.create = ac_json_80211_multidomaincapability_createmessageelement,
.create_message_element = ac_json_80211_multidomaincapability_createmessageelement,
.add_message_element = ac_json_80211_multidomaincapability_addmessageelement,
.create_json = ac_json_80211_multidomaincapability_createjson
};

8
src/ac/ac_80211_json_ofdmcontrol.c
View File

@ -50,18 +50,18 @@ static void* ac_json_80211_ofdmcontrol_createmessageelement(struct json_object*
static int ac_json_80211_ofdmcontrol_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_ofdmcontrol_element* ofdmcontrol = (struct capwap_80211_ofdmcontrol_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[ofdmcontrol->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_OFDMCONTROL);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_OFDMCONTROL);
if (item->ofdmcontrol) {
if (!overwrite) {
return 0;
}
ops->free(item->ofdmcontrol);
ops->free_message_element(item->ofdmcontrol);
}
item->valid = 1;
item->ofdmcontrol = (struct capwap_80211_ofdmcontrol_element*)ops->clone(ofdmcontrol);
item->ofdmcontrol = (struct capwap_80211_ofdmcontrol_element*)ops->clone_message_element(ofdmcontrol);
return 1;
}
@ -82,7 +82,7 @@ static void ac_json_80211_ofdmcontrol_createjson(struct json_object* jsonparent,
struct ac_json_ieee80211_ops ac_json_80211_ofdmcontrol_ops = {
.type = CAPWAP_ELEMENT_80211_OFDMCONTROL,
.json_type = "IEEE80211OFDMControl",
.create = ac_json_80211_ofdmcontrol_createmessageelement,
.create_message_element = ac_json_80211_ofdmcontrol_createmessageelement,
.add_message_element = ac_json_80211_ofdmcontrol_addmessageelement,
.create_json = ac_json_80211_ofdmcontrol_createjson
};

8
src/ac/ac_80211_json_rateset.c
View File

@ -41,18 +41,18 @@ static void* ac_json_80211_rateset_createmessageelement(struct json_object* json
static int ac_json_80211_rateset_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_rateset_element* rateset = (struct capwap_80211_rateset_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[rateset->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_RATESET);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_RATESET);
if (item->rateset) {
if (!overwrite) {
return 0;
}
ops->free(item->rateset);
ops->free_message_element(item->rateset);
}
item->valid = 1;
item->rateset = (struct capwap_80211_rateset_element*)ops->clone(rateset);
item->rateset = (struct capwap_80211_rateset_element*)ops->clone_message_element(rateset);
return 1;
}
@ -75,7 +75,7 @@ static void ac_json_80211_rateset_createjson(struct json_object* jsonparent, voi
struct ac_json_ieee80211_ops ac_json_80211_rateset_ops = {
.type = CAPWAP_ELEMENT_80211_RATESET,
.json_type = "IEEE80211Rateset",
.create = ac_json_80211_rateset_createmessageelement,
.create_message_element = ac_json_80211_rateset_createmessageelement,
.add_message_element = ac_json_80211_rateset_addmessageelement,
.create_json = ac_json_80211_rateset_createjson
};

8
src/ac/ac_80211_json_rsnaerrorreport.c
View File

@ -10,18 +10,18 @@ static void* ac_json_80211_rsnaerrorreport_createmessageelement(struct json_obje
static int ac_json_80211_rsnaerrorreport_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_rsnaerrorreport_element* rsnaerrorreport = (struct capwap_80211_rsnaerrorreport_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[rsnaerrorreport->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT);
if (item->rsnaerrorreport) {
if (!overwrite) {
return 0;
}
ops->free(item->rsnaerrorreport);
ops->free_message_element(item->rsnaerrorreport);
}
item->valid = 1;
item->rsnaerrorreport = (struct capwap_80211_rsnaerrorreport_element*)ops->clone(rsnaerrorreport);
item->rsnaerrorreport = (struct capwap_80211_rsnaerrorreport_element*)ops->clone_message_element(rsnaerrorreport);
return 1;
}
@ -35,7 +35,7 @@ static void ac_json_80211_rsnaerrorreport_createjson(struct json_object* jsonpar
struct ac_json_ieee80211_ops ac_json_80211_rsnaerrorreport_ops = {
.type = CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT,
.json_type = "IEEE80211RSNAErrorReport",
.create = ac_json_80211_rsnaerrorreport_createmessageelement,
.create_message_element = ac_json_80211_rsnaerrorreport_createmessageelement,
.add_message_element = ac_json_80211_rsnaerrorreport_addmessageelement,
.create_json = ac_json_80211_rsnaerrorreport_createjson
};

8
src/ac/ac_80211_json_statistics.c
View File

@ -10,18 +10,18 @@ static void* ac_json_80211_statistics_createmessageelement(struct json_object* j
static int ac_json_80211_statistics_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_statistics_element* statistics = (struct capwap_80211_statistics_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[statistics->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_STATISTICS);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_STATISTICS);
if (item->statistics) {
if (!overwrite) {
return 0;
}
ops->free(item->statistics);
ops->free_message_element(item->statistics);
}
item->valid = 1;
item->statistics = (struct capwap_80211_statistics_element*)ops->clone(statistics);
item->statistics = (struct capwap_80211_statistics_element*)ops->clone_message_element(statistics);
return 1;
}
@ -35,7 +35,7 @@ static void ac_json_80211_statistics_createjson(struct json_object* jsonparent,
struct ac_json_ieee80211_ops ac_json_80211_statistics_ops = {
.type = CAPWAP_ELEMENT_80211_STATISTICS,
.json_type = "IEEE80211Statistics",
.create = ac_json_80211_statistics_createmessageelement,
.create_message_element = ac_json_80211_statistics_createmessageelement,
.add_message_element = ac_json_80211_statistics_addmessageelement,
.create_json = ac_json_80211_statistics_createjson
};

8
src/ac/ac_80211_json_supportedrates.c
View File

@ -41,18 +41,18 @@ static void* ac_json_80211_supportedrates_createmessageelement(struct json_objec
static int ac_json_80211_supportedrates_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_supportedrates_element* supportedrates = (struct capwap_80211_supportedrates_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[supportedrates->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_SUPPORTEDRATES);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_SUPPORTEDRATES);
if (item->supportedrates) {
if (!overwrite) {
return 0;
}
ops->free(item->supportedrates);
ops->free_message_element(item->supportedrates);
}
item->valid = 1;
item->supportedrates = (struct capwap_80211_supportedrates_element*)ops->clone(supportedrates);
item->supportedrates = (struct capwap_80211_supportedrates_element*)ops->clone_message_element(supportedrates);
return 1;
}
@ -75,7 +75,7 @@ static void ac_json_80211_supportedrates_createjson(struct json_object* jsonpare
struct ac_json_ieee80211_ops ac_json_80211_supportedrates_ops = {
.type = CAPWAP_ELEMENT_80211_SUPPORTEDRATES,
.json_type = "IEEE80211SupportedRates",
.create = ac_json_80211_supportedrates_createmessageelement,
.create_message_element = ac_json_80211_supportedrates_createmessageelement,
.add_message_element = ac_json_80211_supportedrates_addmessageelement,
.create_json = ac_json_80211_supportedrates_createjson
};

8
src/ac/ac_80211_json_txpower.c
View File

@ -32,18 +32,18 @@ static void* ac_json_80211_txpower_createmessageelement(struct json_object* json
static int ac_json_80211_txpower_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_txpower_element* txpower = (struct capwap_80211_txpower_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[txpower->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_TXPOWER);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_TXPOWER);
if (item->txpower) {
if (!overwrite) {
return 0;
}
ops->free(item->txpower);
ops->free_message_element(item->txpower);
}
item->valid = 1;
item->txpower = (struct capwap_80211_txpower_element*)ops->clone(txpower);
item->txpower = (struct capwap_80211_txpower_element*)ops->clone_message_element(txpower);
return 1;
}
@ -62,7 +62,7 @@ static void ac_json_80211_txpower_createjson(struct json_object* jsonparent, voi
struct ac_json_ieee80211_ops ac_json_80211_txpower_ops = {
.type = CAPWAP_ELEMENT_80211_TXPOWER,
.json_type = "IEEE80211TxPower",
.create = ac_json_80211_txpower_createmessageelement,
.create_message_element = ac_json_80211_txpower_createmessageelement,
.add_message_element = ac_json_80211_txpower_addmessageelement,
.create_json = ac_json_80211_txpower_createjson
};

8
src/ac/ac_80211_json_txpowerlevel.c
View File

@ -41,18 +41,18 @@ static void* ac_json_80211_txpowerlevel_createmessageelement(struct json_object*
static int ac_json_80211_txpowerlevel_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_txpowerlevel_element* txpowerlevel = (struct capwap_80211_txpowerlevel_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[txpowerlevel->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_TXPOWERLEVEL);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_TXPOWERLEVEL);
if (item->txpowerlevel) {
if (!overwrite) {
return 0;
}
ops->free(item->txpowerlevel);
ops->free_message_element(item->txpowerlevel);
}
item->valid = 1;
item->txpowerlevel = (struct capwap_80211_txpowerlevel_element*)ops->clone(txpowerlevel);
item->txpowerlevel = (struct capwap_80211_txpowerlevel_element*)ops->clone_message_element(txpowerlevel);
return 1;
}
@ -75,7 +75,7 @@ static void ac_json_80211_txpowerlevel_createjson(struct json_object* jsonparent
struct ac_json_ieee80211_ops ac_json_80211_txpowerlevel_ops = {
.type = CAPWAP_ELEMENT_80211_TXPOWERLEVEL,
.json_type = "IEEE80211TXPowerLevel",
.create = ac_json_80211_txpowerlevel_createmessageelement,
.create_message_element = ac_json_80211_txpowerlevel_createmessageelement,
.add_message_element = ac_json_80211_txpowerlevel_addmessageelement,
.create_json = ac_json_80211_txpowerlevel_createjson
};

8
src/ac/ac_80211_json_updatewlan.c
View File

@ -10,18 +10,18 @@ static void* ac_json_80211_updatewlan_createmessageelement(struct json_object* j
static int ac_json_80211_updatewlan_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_updatewlan_element* updatewlan = (struct capwap_80211_updatewlan_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[updatewlan->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_UPDATE_WLAN);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_UPDATE_WLAN);
if (item->updatewlan) {
if (!overwrite) {
return 0;
}
ops->free(item->updatewlan);
ops->free_message_element(item->updatewlan);
}
item->valid = 1;
item->updatewlan = (struct capwap_80211_updatewlan_element*)ops->clone(updatewlan);
item->updatewlan = (struct capwap_80211_updatewlan_element*)ops->clone_message_element(updatewlan);
return 1;
}
@ -35,7 +35,7 @@ static void ac_json_80211_updatewlan_createjson(struct json_object* jsonparent,
struct ac_json_ieee80211_ops ac_json_80211_updatewlan_ops = {
.type = CAPWAP_ELEMENT_80211_UPDATE_WLAN,
.json_type = "IEEE80211UpdateWLAN",
.create = ac_json_80211_updatewlan_createmessageelement,
.create_message_element = ac_json_80211_updatewlan_createmessageelement,
.add_message_element = ac_json_80211_updatewlan_addmessageelement,
.create_json = ac_json_80211_updatewlan_createjson
};

8
src/ac/ac_80211_json_wtpqos.c
View File

@ -48,18 +48,18 @@ static void* ac_json_80211_wtpqos_createmessageelement(struct json_object* jsonp
static int ac_json_80211_wtpqos_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_wtpqos_element* wtpqos = (struct capwap_80211_wtpqos_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[wtpqos->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_QOS);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_QOS);
if (item->wtpqos) {
if (!overwrite) {
return 0;
}
ops->free(item->wtpqos);
ops->free_message_element(item->wtpqos);
}
item->valid = 1;
item->wtpqos = (struct capwap_80211_wtpqos_element*)ops->clone(wtpqos);
item->wtpqos = (struct capwap_80211_wtpqos_element*)ops->clone_message_element(wtpqos);
return 1;
}
@ -73,7 +73,7 @@ static void ac_json_80211_wtpqos_createjson(struct json_object* jsonparent, void
struct ac_json_ieee80211_ops ac_json_80211_wtpqos_ops = {
.type = CAPWAP_ELEMENT_80211_WTP_QOS,
.json_type = "IEEE80211WTPQoS",
.create = ac_json_80211_wtpqos_createmessageelement,
.create_message_element = ac_json_80211_wtpqos_createmessageelement,
.add_message_element = ac_json_80211_wtpqos_addmessageelement,
.create_json = ac_json_80211_wtpqos_createjson
};

8
src/ac/ac_80211_json_wtpradioconf.c
View File

@ -86,18 +86,18 @@ static void* ac_json_80211_wtpradioconf_createmessageelement(struct json_object*
static int ac_json_80211_wtpradioconf_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_wtpradioconf_element* wtpradioconf = (struct capwap_80211_wtpradioconf_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[wtpradioconf->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_CONF);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_CONF);
if (item->wtpradioconf) {
if (!overwrite) {
return 0;
}
ops->free(item->wtpradioconf);
ops->free_message_element(item->wtpradioconf);
}
item->valid = 1;
item->wtpradioconf = (struct capwap_80211_wtpradioconf_element*)ops->clone(wtpradioconf);
item->wtpradioconf = (struct capwap_80211_wtpradioconf_element*)ops->clone_message_element(wtpradioconf);
return 1;
}
@ -122,7 +122,7 @@ static void ac_json_80211_wtpradioconf_createjson(struct json_object* jsonparent
struct ac_json_ieee80211_ops ac_json_80211_wtpradioconf_ops = {
.type = CAPWAP_ELEMENT_80211_WTP_RADIO_CONF,
.json_type = "IEEE80211WTPRadioConfiguration",
.create = ac_json_80211_wtpradioconf_createmessageelement,
.create_message_element = ac_json_80211_wtpradioconf_createmessageelement,
.add_message_element = ac_json_80211_wtpradioconf_addmessageelement,
.create_json = ac_json_80211_wtpradioconf_createjson
};

8
src/ac/ac_80211_json_wtpradiofailalarm.c
View File

@ -42,18 +42,18 @@ static void* ac_json_80211_wtpradiofailalarm_createmessageelement(struct json_ob
static int ac_json_80211_wtpradiofailalarm_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_wtpradiofailalarm_element* wtpradiofailalarm = (struct capwap_80211_wtpradiofailalarm_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[wtpradiofailalarm->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_FAIL_ALARM);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_FAIL_ALARM);
if (item->wtpradiofailalarm) {
if (!overwrite) {
return 0;
}
ops->free(item->wtpradiofailalarm);
ops->free_message_element(item->wtpradiofailalarm);
}
item->valid = 1;
item->wtpradiofailalarm = (struct capwap_80211_wtpradiofailalarm_element*)ops->clone(wtpradiofailalarm);
item->wtpradiofailalarm = (struct capwap_80211_wtpradiofailalarm_element*)ops->clone_message_element(wtpradiofailalarm);
return 1;
}
@ -73,7 +73,7 @@ static void ac_json_80211_wtpradiofailalarm_createjson(struct json_object* jsonp
struct ac_json_ieee80211_ops ac_json_80211_wtpradiofailalarm_ops = {
.type = CAPWAP_ELEMENT_80211_WTP_RADIO_FAIL_ALARM,
.json_type = "IEEE80211WTPRadioFailAlarm",
.create = ac_json_80211_wtpradiofailalarm_createmessageelement,
.create_message_element = ac_json_80211_wtpradiofailalarm_createmessageelement,
.add_message_element = ac_json_80211_wtpradiofailalarm_addmessageelement,
.create_json = ac_json_80211_wtpradiofailalarm_createjson
};

8
src/ac/ac_80211_json_wtpradioinformation.c
View File

@ -32,18 +32,18 @@ static void* ac_json_80211_wtpradioinformation_createmessageelement(struct json_
static int ac_json_80211_wtpradioinformation_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite) {
struct capwap_80211_wtpradioinformation_element* wtpradioinformation = (struct capwap_80211_wtpradioinformation_element*)data;
struct ac_json_ieee80211_item* item = &wtpradio->items[wtpradioinformation->radioid - 1];
const struct capwap_message_elements_ops *ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTPRADIOINFORMATION);
struct capwap_message_elements_ops* ops = capwap_get_message_element_ops(CAPWAP_ELEMENT_80211_WTPRADIOINFORMATION);
if (item->wtpradioinformation) {
if (!overwrite) {
return 0;
}
ops->free(item->wtpradioinformation);
ops->free_message_element(item->wtpradioinformation);
}
item->valid = 1;
item->wtpradioinformation = (struct capwap_80211_wtpradioinformation_element*)ops->clone(wtpradioinformation);
item->wtpradioinformation = (struct capwap_80211_wtpradioinformation_element*)ops->clone_message_element(wtpradioinformation);
return 1;
}
@ -62,7 +62,7 @@ static void ac_json_80211_wtpradioinformation_createjson(struct json_object* jso
struct ac_json_ieee80211_ops ac_json_80211_wtpradioinformation_ops = {
.type = CAPWAP_ELEMENT_80211_WTPRADIOINFORMATION,
.json_type = "IEEE80211WTPRadioInformation",
.create = ac_json_80211_wtpradioinformation_createmessageelement,
.create_message_element = ac_json_80211_wtpradioinformation_createmessageelement,
.add_message_element = ac_json_80211_wtpradioinformation_addmessageelement,
.create_json = ac_json_80211_wtpradioinformation_createjson
};

26
src/ac/ac_backend.c
View File

@ -66,7 +66,7 @@ static int ac_backend_parsing_closewtpsession_event(const char* idevent, struct
ac_session_send_action(session, AC_SESSION_ACTION_NOTIFY_EVENT, 0, (void*)&notify, sizeof(struct ac_session_notify_event_t));
/* Async close session */
log_printf(LOG_DEBUG, "Receive close wtp session for WTP %s", session->wtpid);
capwap_logging_debug("Receive close wtp session for WTP %s", session->wtpid);
ac_session_send_action(session, AC_SESSION_ACTION_CLOSE, 0, NULL, 0);
/* */
@ -138,7 +138,7 @@ static int ac_backend_parsing_resetwtp_event(const char* idevent, struct json_ob
ac_session_send_action(session, AC_SESSION_ACTION_NOTIFY_EVENT, 0, (void*)&notify, sizeof(struct ac_session_notify_event_t));
/* Notify Action */
log_printf(LOG_DEBUG, "Receive reset request for WTP %s", session->wtpid);
capwap_logging_debug("Receive reset request for WTP %s", session->wtpid);
ac_session_send_action(session, AC_SESSION_ACTION_RESET_WTP, 0, (void*)reset, length);
result = 0;
@ -289,7 +289,7 @@ static int ac_backend_parsing_addwlan_event(const char* idevent, struct json_obj
ac_session_send_action(session, AC_SESSION_ACTION_NOTIFY_EVENT, 0, (void*)&notify, sizeof(struct ac_session_notify_event_t));
/* Notify Action */
log_printf(LOG_DEBUG, "Receive AddWLAN request for WTP %s with SSID: %s", session->wtpid, addwlan->ssid);
capwap_logging_debug("Receive AddWLAN request for WTP %s with SSID: %s", session->wtpid, addwlan->ssid);
ac_session_send_action(session, AC_SESSION_ACTION_ADDWLAN, 0, (void*)addwlan, length);
/* */
@ -506,7 +506,7 @@ static int ac_backend_soap_join(int forcereset) {
/* Retrieve AC configuration */
if (g_ac_backend.backendsessionid && forcereset) {
if (ac_backend_soap_getconfiguration()) {
log_printf(LOG_ERR, "Unable to get AC configuration from Backend Server");
capwap_logging_error("Unable to get AC configuration from Backend Server");
capwap_free(g_ac_backend.backendsessionid);
g_ac_backend.backendsessionid = NULL;
}
@ -725,7 +725,7 @@ static void ac_backend_run(void) {
/* Connection error, change Backend Server */
connected = 0;
log_printf(LOG_DEBUG, "Lost connection with Backend Server");
capwap_logging_debug("Lost connection with Backend Server");
capwap_lock_enter(&g_ac_backend.backendlock);
/* Lost session id */
@ -738,7 +738,7 @@ static void ac_backend_run(void) {
} else {
/* Join with a Backend Server */
if (!ac_backend_soap_join(forcereset)) {
log_printf(LOG_DEBUG, "Joined with Backend Server");
capwap_logging_debug("Joined with Backend Server");
/* Join Complete */
connected = 1;
@ -753,7 +753,7 @@ static void ac_backend_run(void) {
/* Wait timeout before continue */
if (g_ac_backend.errorjoinbackend >= g_ac.availablebackends->count) {
log_printf(LOG_DEBUG, "Unable to join with Backend Server");
capwap_logging_debug("Unable to join with Backend Server");
/* */
forcereset = 1;
@ -792,9 +792,9 @@ static void ac_backend_run(void) {
/* */
static void* ac_backend_thread(void* param) {
log_printf(LOG_DEBUG, "Backend start");
capwap_logging_debug("Backend start");
ac_backend_run();
log_printf(LOG_DEBUG, "Backend stop");
capwap_logging_debug("Backend stop");
/* Thread exit */
pthread_exit(NULL);
@ -843,13 +843,13 @@ int ac_backend_start(void) {
/* */
if (!g_ac.backendacid) {
log_printf(LOG_ERR, "AC Backend ID isn't set");
capwap_logging_error("AC Backend ID isn't set");
return 0;
} else if (!g_ac.backendversion) {
log_printf(LOG_ERR, "Backend Protocol Version isn't set");
capwap_logging_error("Backend Protocol Version isn't set");
return 0;
} else if (!g_ac.availablebackends->count) {
log_printf(LOG_ERR, "List of available backends is empty");
capwap_logging_error("List of available backends is empty");
return 0;
}
@ -861,7 +861,7 @@ int ac_backend_start(void) {
/* Create thread */
result = pthread_create(&g_ac_backend.threadid, NULL, ac_backend_thread, NULL);
if (result) {
log_printf(LOG_DEBUG, "Unable create backend thread");
capwap_logging_debug("Unable create backend thread");
return 0;
}

6
src/ac/ac_dfa_configure.c
View File

@ -4,7 +4,7 @@
#include "ac_session.h"
#include "ac_json.h"
#include "ac_wlans.h"
#include <json-c/json.h>
#include <json/json.h>
#include <arpa/inet.h>
/* */
@ -222,7 +222,7 @@ static struct ac_soap_response* ac_dfa_state_configure_parsing_request(struct ac
struct capwap_message_element_itemlist* messageelement = (struct capwap_message_element_itemlist*)search->item;
/* Parsing only IEEE 802.11 message element */
if (IS_80211_MESSAGE_ELEMENTS(messageelement->id)) {
if (IS_80211_MESSAGE_ELEMENTS(messageelement->type)) {
if (!ac_json_ieee80211_parsingmessageelement(&wtpradio, messageelement)) {
json_object_put(jsonparam);
return NULL;
@ -759,7 +759,7 @@ void ac_dfa_state_configure(struct ac_session_t* session, struct capwap_parsed_p
/* Send Configure response to WTP */
if (!capwap_crypt_sendto_fragmentpacket(&session->dtls, session->responsefragmentpacket)) {
/* Response is already created and saved. When receive a re-request, DFA autoresponse */
log_printf(LOG_DEBUG, "Warning: error to send configuration status response packet");
capwap_logging_debug("Warning: error to send configuration status response packet");
}
/* Change state */

6
src/ac/ac_dfa_datacheck.c
View File

@ -3,7 +3,7 @@
#include "capwap_array.h"
#include "ac_session.h"
#include "ac_json.h"
#include <json-c/json.h>
#include <json/json.h>
/* */
static struct ac_soap_response* ac_dfa_state_datacheck_parsing_request(struct ac_session_t* session, struct capwap_parsed_packet* packet) {
@ -91,7 +91,7 @@ static struct ac_soap_response* ac_dfa_state_datacheck_parsing_request(struct ac
struct capwap_message_element_itemlist* messageelement = (struct capwap_message_element_itemlist*)search->item;
/* Parsing only IEEE 802.11 message element */
if (IS_80211_MESSAGE_ELEMENTS(messageelement->id)) {
if (IS_80211_MESSAGE_ELEMENTS(messageelement->type)) {
if (!ac_json_ieee80211_parsingmessageelement(&wtpradio, messageelement)) {
json_object_put(jsonparam);
return NULL;
@ -205,7 +205,7 @@ void ac_dfa_state_datacheck(struct ac_session_t* session, struct capwap_parsed_p
/* Send Change event response to WTP */
if (!capwap_crypt_sendto_fragmentpacket(&session->dtls, session->responsefragmentpacket)) {
/* Response is already created and saved. When receive a re-request, DFA autoresponse */
log_printf(LOG_DEBUG, "Warning: error to send change event response packet");
capwap_logging_debug("Warning: error to send change event response packet");
}
/* Change state */

10
src/ac/ac_dfa_join.c
View File

@ -4,7 +4,7 @@
#include "ac_session.h"
#include "ac_backend.h"
#include "ac_json.h"
#include <json-c/json.h>
#include <json/json.h>
#include <arpa/inet.h>
/* */
@ -240,7 +240,7 @@ static struct ac_soap_response* ac_dfa_state_join_parsing_request(struct ac_sess
struct capwap_message_element_itemlist* messageelement = (struct capwap_message_element_itemlist*)search->item;
/* Parsing only IEEE 802.11 message element */
if (IS_80211_MESSAGE_ELEMENTS(messageelement->id)) {
if (IS_80211_MESSAGE_ELEMENTS(messageelement->type)) {
if (!ac_json_ieee80211_parsingmessageelement(&wtpradio, messageelement)) {
json_object_put(jsonparam);
return NULL;
@ -590,7 +590,7 @@ void ac_dfa_state_join(struct ac_session_t* session, struct capwap_parsed_packet
resultcode.code = CAPWAP_RESULTCODE_JOIN_FAILURE_UNKNOWN_SOURCE;
}
} else {
log_printf(LOG_INFO, "WTP Id %s already used in another session", wtpid);
capwap_logging_info("WTP Id %s already used in another session", wtpid);
resultcode.code = CAPWAP_RESULTCODE_JOIN_FAILURE_UNKNOWN_SOURCE;
}
@ -606,7 +606,7 @@ void ac_dfa_state_join(struct ac_session_t* session, struct capwap_parsed_packet
char sessionname[33];
capwap_sessionid_printf(sessionid, sessionname);
log_printf(LOG_INFO, "Session Id %s already used in another session", sessionname);
capwap_logging_info("Session Id %s already used in another session", sessionname);
resultcode.code = CAPWAP_RESULTCODE_JOIN_FAILURE_ID_ALREADY_IN_USE;
}
@ -657,7 +657,7 @@ void ac_dfa_state_join(struct ac_session_t* session, struct capwap_parsed_packet
}
} else {
/* Error to send packets */
log_printf(LOG_DEBUG, "Warning: error to send join response packet");
capwap_logging_debug("Warning: error to send join response packet");
ac_session_teardown(session);
}
}

2
src/ac/ac_dfa_reset.c
View File

@ -20,7 +20,7 @@ void ac_dfa_state_reset(struct ac_session_t* session, struct capwap_parsed_packe
/* Check the success of the Request */
resultcode = (struct capwap_resultcode_element*)capwap_get_message_element_data(packet, CAPWAP_ELEMENT_RESULTCODE);
if (resultcode && !CAPWAP_RESULTCODE_OK(resultcode->code)) {
log_printf(LOG_WARNING, "Receive Reset Response with error: %d", (int)resultcode->code);
capwap_logging_warning("Receive Reset Response with error: %d", (int)resultcode->code);
}
/* */

16
src/ac/ac_dfa_run.c
View File

@ -58,14 +58,14 @@ static int receive_echo_request(struct ac_session_t* session, struct capwap_pars
{
char sessionname[33];
capwap_sessionid_printf(&session->sessionid, sessionname);
log_printf(LOG_DEBUG, "Send Echo Response to %s", sessionname);
capwap_logging_debug("Send Echo Response to %s", sessionname);
}
#endif
/* Send Configure response to WTP */
if (!capwap_crypt_sendto_fragmentpacket(&session->dtls, session->responsefragmentpacket)) {
/* Response is already created and saved. When receive a re-request, DFA autoresponse */
log_printf(LOG_DEBUG, "Warning: error to send echo response packet");
capwap_logging_debug("Warning: error to send echo response packet");
}
return 0;
@ -88,7 +88,7 @@ static void execute_ieee80211_wlan_configuration_addwlan(struct ac_session_t* se
/* Assign BSSID to session */
if (ac_wlans_assign_bssid(session, wlan)) {
log_printf(LOG_WARNING, "Unable to add new wlan with radioid: %d, wlanid: %d", (int)assignbssid->radioid, (int)assignbssid->wlanid);
capwap_logging_warning("Unable to add new wlan with radioid: %d, wlanid: %d", (int)assignbssid->radioid, (int)assignbssid->wlanid);
ac_wlans_free_bssid(wlan);
/* TODO: add remove wlan from wtp */
@ -142,7 +142,7 @@ static void receive_ieee80211_wlan_configuration_response(struct ac_session_t* s
capwap_packet_rxmng_free(rxmngrequestpacket);
}
} else {
log_printf(LOG_WARNING, "Receive IEEE802.11 WLAN Configuration Response with error: %d", (int)resultcode->code);
capwap_logging_warning("Receive IEEE802.11 WLAN Configuration Response with error: %d", (int)resultcode->code);
}
/* */
@ -170,8 +170,7 @@ static void execute_ieee80211_station_configuration_response_addstation(struct a
station = ac_stations_get_station(session, station80211->radioid, wlan->address, addstation->address);
if (station) {
if (CAPWAP_RESULTCODE_OK(resultcode->code)) {
log_printf(LOG_INFO, "Authorized station: " MACSTR,
MAC2STR(station->address));
capwap_logging_info("Authorized station: %s", station->addrtext);
/* */
station->flags |= AC_STATION_FLAGS_AUTHORIZED;
@ -199,8 +198,7 @@ static void execute_ieee80211_station_configuration_response_deletestation(struc
/* */
station = ac_stations_get_station(session, deletestation->radioid, NULL, deletestation->address);
if (station) {
log_printf(LOG_INFO, "Deauthorized station: " MACSTR " with %d result code",
MAC2STR(station->address), (int)resultcode->code);
capwap_logging_info("Deauthorized station: %s with %d result code", station->addrtext, (int)resultcode->code);
/* */
ac_stations_delete_station(session, station);
@ -260,7 +258,7 @@ void ac_dfa_state_run(struct ac_session_t* session, struct capwap_parsed_packet*
{
char sessionname[33];
capwap_sessionid_printf(&session->sessionid, sessionname);
log_printf(LOG_DEBUG, "Receive Echo Request from %s", sessionname);
capwap_logging_debug("Receive Echo Request from %s", sessionname);
}
#endif

10
src/ac/ac_discovery.c
View File

@ -167,7 +167,7 @@ static void ac_discovery_run(void) {
struct capwap_packet_txmng* txmngpacket;
/* */
log_printf(LOG_DEBUG, "Receive discovery request packet");
capwap_logging_debug("Receive discovery request packet");
/* Creare discovery response */
txmngpacket = ac_create_discovery_response(&packet);
@ -186,7 +186,7 @@ static void ac_discovery_run(void) {
/* Send discovery response to WTP */
if (!capwap_sendto_fragmentpacket(acpacket->sendsock, responsefragmentpacket, &acpacket->sender)) {
log_printf(LOG_DEBUG, "Warning: error to send discovery response packet");
capwap_logging_debug("Warning: error to send discovery response packet");
}
/* Don't buffering a packets sent */
@ -211,9 +211,9 @@ static void ac_discovery_run(void) {
/* */
static void* ac_discovery_thread(void* param) {
log_printf(LOG_DEBUG, "Discovery start");
capwap_logging_debug("Discovery start");
ac_discovery_run();
log_printf(LOG_DEBUG, "Discovery stop");
capwap_logging_debug("Discovery stop");
/* Thread exit */
pthread_exit(NULL);
@ -234,7 +234,7 @@ int ac_discovery_start(void) {
/* Create thread */
result = pthread_create(&g_ac_discovery.threadid, NULL, ac_discovery_thread, NULL);
if (result) {
log_printf(LOG_DEBUG, "Unable create discovery thread");
capwap_logging_debug("Unable create discovery thread");
return 0;
}

18
src/ac/ac_execute.c
View File

@ -203,7 +203,7 @@ static void ac_session_msgqueue_parsing_item(struct ac_session_msgqueue_item_t*
}
default: {
log_printf(LOG_DEBUG, "Unknown message queue item: %lu", item->message);
capwap_logging_debug("Unknown message queue item: %lu", item->message);
break;
}
}
@ -215,11 +215,11 @@ static void ac_wait_terminate_allsessions(void) {
/* Wait that list is empty */
while (g_ac.sessionsthread->count > 0) {
log_printf(LOG_DEBUG, "Waiting for %d session terminate", g_ac.sessionsthread->count);
capwap_logging_debug("Waiting for %d session terminate", g_ac.sessionsthread->count);
/* Receive message queue packet */
if (!ac_recvmsgqueue(g_ac.fdmsgsessions[1], &item)) {
log_printf(LOG_DEBUG, "Unable to receive message queue");
capwap_logging_debug("Unable to receive message queue");
break;
}
@ -229,7 +229,7 @@ static void ac_wait_terminate_allsessions(void) {
}
}
log_printf(LOG_DEBUG, "Close all sessions");
capwap_logging_debug("Close all sessions");
}
/* Initialize message queue */
@ -682,7 +682,7 @@ static struct ac_session_t* ac_create_session(int sock, union sockaddr_capwap* f
/* */
capwap_itemlist_insert_after(g_ac.sessionsthread, NULL, itemlist);
} else {
log_printf(LOG_EMERG, "Unable create session thread, error code %d", result);
capwap_logging_fatal("Unable create session thread, error code %d", result);
capwap_exit(CAPWAP_OUT_OF_MEMORY);
}
@ -828,7 +828,7 @@ int ac_execute(void) {
/* Set file descriptor pool */
if (ac_execute_init_fdspool(&fds, &g_ac.net, g_ac.fdmsgsessions[1]) <= 0) {
log_printf(LOG_DEBUG, "Unable to initialize file descriptor pool");
capwap_logging_debug("Unable to initialize file descriptor pool");
return AC_ERROR_SYSTEM_FAILER;
}
@ -841,7 +841,7 @@ int ac_execute(void) {
/* Start discovery thread */
if (!ac_discovery_start()) {
ac_execute_free_fdspool(&fds);
log_printf(LOG_DEBUG, "Unable to start discovery thread");
capwap_logging_debug("Unable to start discovery thread");
return AC_ERROR_SYSTEM_FAILER;
}
@ -849,7 +849,7 @@ int ac_execute(void) {
if (!ac_backend_start()) {
ac_execute_free_fdspool(&fds);
ac_discovery_stop();
log_printf(LOG_ERR, "Unable start backend management");
capwap_logging_error("Unable start backend management");
return AC_ERROR_SYSTEM_FAILER;
}
@ -859,7 +859,7 @@ int ac_execute(void) {
buffersize = sizeof(buffer);
index = ac_recvfrom(&fds, buffer, &buffersize, &fromaddr, &toaddr);
if (!g_ac.running) {
log_printf(LOG_DEBUG, "Closing AC");
capwap_logging_debug("Closing AC");
break;
}

43
src/ac/ac_ieee80211_data.c
View File

@ -42,8 +42,7 @@ static void ac_ieee80211_mgmt_authentication_packet(struct ac_session_t* session
}
/* */
log_printf(LOG_INFO, "Receive IEEE802.11 Authentication Request "
"from " MACSTR " station", MAC2STR(station->address));
capwap_logging_info("Receive IEEE802.11 Authentication Request from %s station", station->addrtext);
/* A station is removed if the association does not complete within a given period of time */
station->timeoutaction = AC_STATION_TIMEOUT_ACTION_DEAUTHENTICATE;
@ -63,8 +62,7 @@ static void ac_ieee80211_mgmt_authentication_packet(struct ac_session_t* session
/* Parsing Information Elements */
if (ieee80211_retrieve_information_elements_position(&ieitems, &mgmt->authetication.ie[0], ielength)) {
log_printf(LOG_INFO, "Invalid IEEE802.11 Authentication Request "
"from " MACSTR " station", MAC2STR(station->address));
capwap_logging_info("Invalid IEEE802.11 Authentication Request from %s station", station->addrtext);
return;
}
@ -97,18 +95,14 @@ static void ac_ieee80211_mgmt_authentication_packet(struct ac_session_t* session
if (responselength > 0) {
/* Send authentication response */
if (!ac_kmod_send_data(&session->sessionid, wlan->device->radioid, session->binding, buffer, responselength)) {
log_printf(LOG_INFO, "Sent IEEE802.11 Authentication Response "
"to " MACSTR " station with %d status code",
MAC2STR(station->address), (int)responsestatuscode);
capwap_logging_info("Sent IEEE802.11 Authentication Response to %s station with %d status code", station->addrtext, (int)responsestatuscode);
station->flags |= AC_STATION_FLAGS_AUTHENTICATED;
} else {
log_printf(LOG_WARNING, "Unable to send IEEE802.11 Authentication Response "
"to " MACSTR " station", MAC2STR(station->address));
capwap_logging_warning("Unable to send IEEE802.11 Authentication Response to %s station", station->addrtext);
ac_stations_delete_station(session, station);
}
} else {
log_printf(LOG_WARNING, "Unable to create IEEE802.11 Authentication Response "
"to " MACSTR " station", MAC2STR(station->address));
capwap_logging_warning("Unable to create IEEE802.11 Authentication Response to %s station", station->addrtext);
ac_stations_delete_station(session, station);
}
}
@ -123,9 +117,7 @@ static void ac_ieee80211_mgmt_authentication_packet(struct ac_session_t* session
statuscode = __le16_to_cpu(mgmt->authetication.statuscode);
/* */
log_printf(LOG_INFO, "Receive IEEE802.11 Authentication Response "
"to " MACSTR " station with %d status code",
MAC2STR(station->address), (int)statuscode);
capwap_logging_info("Receive IEEE802.11 Authentication Response to %s station with %d status code", station->addrtext, (int)statuscode);
if (statuscode == IEEE80211_STATUS_SUCCESS) {
algorithm = __le16_to_cpu(mgmt->authetication.algorithm);
@ -163,15 +155,13 @@ static void ac_ieee80211_mgmt_association_request_packet(struct ac_session_t* se
}
/* */
log_printf(LOG_INFO, "Receive IEEE802.11 Association Request "
"from " MACSTR " station", MAC2STR(station->address));
capwap_logging_info("Receive IEEE802.11 Association Request from %s station", station->addrtext);
/* */
wlan = station->wlan;
if (!(station->flags & AC_STATION_FLAGS_AUTHENTICATED)) {
/* Invalid station, delete station */
log_printf(LOG_INFO, "Receive IEEE802.11 Association Request "
"from " MACSTR " unauthorized station", MAC2STR(station->address));
capwap_logging_info("Receive IEEE802.11 Association Request from %s unauthorized station", station->addrtext);
ac_stations_delete_station(session, station);
return;
}
@ -201,8 +191,7 @@ static void ac_ieee80211_mgmt_association_request_packet(struct ac_session_t* se
/* Parsing Information Elements */
if (ieee80211_retrieve_information_elements_position(&ieitems, &mgmt->associationrequest.ie[0], ielength)) {
log_printf(LOG_INFO, "Invalid IEEE802.11 Association Request "
"from " MACSTR " station", MAC2STR(station->address));
capwap_logging_info("Invalid IEEE802.11 Association Request from %s station", station->addrtext);
ac_stations_delete_station(session, station);
return;
}
@ -248,21 +237,17 @@ static void ac_ieee80211_mgmt_association_request_packet(struct ac_session_t* se
if (responselength > 0) {
/* Send association response */
if (!ac_kmod_send_data(&session->sessionid, wlan->device->radioid, session->binding, buffer, responselength)) {
log_printf(LOG_INFO, "Sent IEEE802.11 Association Response "
"to " MACSTR " station with %d status code",
MAC2STR(station->address), (int)resultstatuscode);
capwap_logging_info("Sent IEEE802.11 Association Response to %s station with %d status code", station->addrtext, (int)resultstatuscode);
/* Active Station */
station->flags |= AC_STATION_FLAGS_ASSOCIATE;
ac_stations_authorize_station(session, station);
} else {
log_printf(LOG_WARNING, "Unable to send IEEE802.11 Association Response "
"to " MACSTR " station", MAC2STR(station->address));
capwap_logging_warning("Unable to send IEEE802.11 Association Response to %s station", station->addrtext);
ac_stations_delete_station(session, station);
}
} else {
log_printf(LOG_WARNING, "Unable to create IEEE802.11 Association Response "
"to " MACSTR " station", MAC2STR(station->address));
capwap_logging_warning("Unable to create IEEE802.11 Association Response to %s station", station->addrtext);
ac_stations_delete_station(session, station);
}
}
@ -286,9 +271,7 @@ static void ac_ieee80211_mgmt_association_response_packet(struct ac_session_t* s
if (!memcmp(mgmt->bssid, mgmt->sa, MACADDRESS_EUI48_LENGTH) && memcmp(mgmt->bssid, mgmt->da, MACADDRESS_EUI48_LENGTH)) {
station = ac_stations_get_station(session, radioid, mgmt->bssid, mgmt->da);
if (station && station->wlan && (station->wlan->macmode == CAPWAP_ADD_WLAN_MACMODE_LOCAL)) {
log_printf(LOG_INFO, "Receive IEEE802.11 Association Response "
"to " MACSTR " station with %d status code",
MAC2STR(station->address), (int)mgmt->associationresponse.statuscode);
capwap_logging_info("Receive IEEE802.11 Association Response to %s station with %d status code", station->addrtext, (int)mgmt->associationresponse.statuscode);
if (mgmt->associationresponse.statuscode == IEEE80211_STATUS_SUCCESS) {
/* Get Station Info */

10
src/ac/ac_json.h
View File

@ -2,7 +2,7 @@
#define __AC_JSON_HEADER__
#include "capwap_array.h"
#include <json-c/json.h>
#include <json/json.h>
#define IEEE80211_BINDING_JSON_ROOT "WTPRadio"
@ -61,13 +61,13 @@ struct ac_json_ieee80211_wtpradio {
/* */
struct ac_json_ieee80211_ops {
/* Message Element Type */
struct capwap_message_element_id type;
uint16_t type;
/* Message Element JSON Type */
char* json_type;
/* Build message element */
void* (*create)(struct json_object* jsonparent, uint16_t radioid);
void* (*create_message_element)(struct json_object* jsonparent, uint16_t radioid);
int (*add_message_element)(struct ac_json_ieee80211_wtpradio* wtpradio, void* data, int overwrite);
/* Build JSON */
@ -79,9 +79,7 @@ void ac_json_ieee80211_init(struct ac_json_ieee80211_wtpradio* wtpradio);
void ac_json_ieee80211_free(struct ac_json_ieee80211_wtpradio* wtpradio);
/* */
int ac_json_ieee80211_addmessageelement(struct ac_json_ieee80211_wtpradio *wtpradio,
const struct capwap_message_element_id id,
void *data, int overwrite);
int ac_json_ieee80211_addmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, uint16_t type, void* data, int overwrite);
int ac_json_ieee80211_parsingmessageelement(struct ac_json_ieee80211_wtpradio* wtpradio, struct capwap_message_element_itemlist* messageelement);
int ac_json_ieee80211_parsingjson(struct ac_json_ieee80211_wtpradio* wtpradio, struct json_object* jsonroot);

32
src/ac/ac_kmod.c
View File

@ -191,7 +191,7 @@ static int ac_kmod_link(void) {
if (result == -EALREADY) {
result = 0;
} else {
log_printf(LOG_WARNING, "Unable to connect kernel module, error code: %d", result);
capwap_logging_warning("Unable to connect kernel module, error code: %d", result);
}
}
@ -211,7 +211,7 @@ static void ac_kmod_event_receive(int fd, void** params, int paramscount) {
/* */
res = nl_recvmsgs((struct nl_sock*)params[0], (struct nl_cb*)params[1]);
if (res) {
log_printf(LOG_WARNING, "Receive kernel module message failed: %d", res);
capwap_logging_warning("Receive kernel module message failed: %d", res);
}
}
@ -233,12 +233,12 @@ int ac_kmod_send_keepalive(struct capwap_sessionid_element* sessionid) {
nla_put(msg, NLSMARTCAPWAP_ATTR_SESSION_ID, sizeof(struct capwap_sessionid_element), sessionid);
/* */
log_printf(LOG_DEBUG, "Prepare to send keep-alive");
capwap_logging_debug("Prepare to send keep-alive");
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result) {
log_printf(LOG_ERR, "Unable to send keep-alive: %d", result);
capwap_logging_error("Unable to send keep-alive: %d", result);
}
log_printf(LOG_DEBUG, "Sent keep-alive");
capwap_logging_debug("Sent keep-alive");
/* */
nlmsg_free(msg);
@ -270,7 +270,7 @@ int ac_kmod_send_data(struct capwap_sessionid_element* sessionid, uint8_t radioi
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result) {
log_printf(LOG_ERR, "Unable to send data: %d", result);
capwap_logging_error("Unable to send data: %d", result);
}
/* */
@ -342,7 +342,7 @@ int ac_kmod_createdatachannel(int family, unsigned short port) {
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result) {
log_printf(LOG_ERR, "Unable to bind kernel socket: %d", result);
capwap_logging_error("Unable to bind kernel socket: %d", result);
}
/* */
@ -372,7 +372,7 @@ int ac_kmod_new_datasession(struct capwap_sessionid_element* sessionid, uint8_t
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result) {
log_printf(LOG_ERR, "Unable to create data session: %d", result);
capwap_logging_error("Unable to create data session: %d", result);
}
/* */
@ -400,7 +400,7 @@ int ac_kmod_delete_datasession(struct capwap_sessionid_element* sessionid) {
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result && (result != ENOENT)) {
log_printf(LOG_ERR, "Unable to delete data session: %d", result);
capwap_logging_error("Unable to delete data session: %d", result);
}
/* */
@ -436,7 +436,7 @@ int ac_kmod_addwlan(struct capwap_sessionid_element* sessionid, uint8_t radioid,
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result) {
log_printf(LOG_ERR, "Unable to add wlan: %d", result);
capwap_logging_error("Unable to add wlan: %d", result);
}
/* */
@ -464,7 +464,7 @@ int ac_kmod_removewlan(struct capwap_sessionid_element* sessionid) {
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result && (result != ENOENT)) {
log_printf(LOG_ERR, "Unable to remove wlan: %d", result);
capwap_logging_error("Unable to remove wlan: %d", result);
}
/* */
@ -512,7 +512,7 @@ int ac_kmod_create_iface(const char* ifname, uint16_t mtu) {
if (!result) {
result = (ifindex ? (int)ifindex : -1);
} else {
log_printf(LOG_ERR, "Unable to create data session: %d", result);
capwap_logging_error("Unable to create data session: %d", result);
}
/* */
@ -540,7 +540,7 @@ int ac_kmod_delete_iface(int ifindex) {
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result && (result != ENOENT)) {
log_printf(LOG_ERR, "Unable to delete interface: %d", result);
capwap_logging_error("Unable to delete interface: %d", result);
}
/* */
@ -580,7 +580,7 @@ int ac_kmod_authorize_station(struct capwap_sessionid_element* sessionid, const
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result) {
log_printf(LOG_ERR, "Unable to authorize station: %d", result);
capwap_logging_error("Unable to authorize station: %d", result);
}
/* */
@ -610,7 +610,7 @@ int ac_kmod_deauthorize_station(struct capwap_sessionid_element* sessionid, cons
/* */
result = ac_kmod_send_and_recv_msg(msg, NULL, NULL);
if (result) {
log_printf(LOG_ERR, "Unable to deauthorize station: %d", result);
capwap_logging_error("Unable to deauthorize station: %d", result);
}
/* */
@ -644,7 +644,7 @@ int ac_kmod_init(void) {
/* Get nlsmartcapwap netlink family */
g_ac.kmodhandle.nlsmartcapwap_id = genl_ctrl_resolve(g_ac.kmodhandle.nl, NLSMARTCAPWAP_GENL_NAME);
if (g_ac.kmodhandle.nlsmartcapwap_id < 0) {
log_printf(LOG_WARNING, "Unable to found kernel module");
capwap_logging_warning("Unable to found kernel module");
ac_kmod_free();
return -1;
}

52
src/ac/ac_session.c
View File

@ -165,12 +165,12 @@ static int ac_session_action_authorizestation_response(struct ac_session_t* sess
session->retransmitcount = 0;
capwap_timeout_set(session->timeout, session->idtimercontrol, AC_RETRANSMIT_INTERVAL, ac_dfa_retransmition_timeout, session, NULL);
} else {
log_printf(LOG_WARNING, "Unable to authorize station into kernel module data channel");
capwap_logging_warning("Unable to authorize station into kernel module data channel");
ac_free_reference_last_request(session);
ac_session_teardown(session);
}
} else {
log_printf(LOG_DEBUG, "Warning: error to send Station Configuration Request packet");
capwap_logging_debug("Warning: error to send Station Configuration Request packet");
ac_free_reference_last_request(session);
ac_session_teardown(session);
}
@ -219,7 +219,7 @@ static int ac_session_action_resetwtp(struct ac_session_t* session, struct ac_no
ac_dfa_change_state(session, CAPWAP_RESET_STATE);
capwap_timeout_set(session->timeout, session->idtimercontrol, AC_RETRANSMIT_INTERVAL, ac_dfa_retransmition_timeout, session, NULL);
} else {
log_printf(LOG_DEBUG, "Warning: error to send Reset Request packet");
capwap_logging_debug("Warning: error to send Reset Request packet");
ac_free_reference_last_request(session);
ac_session_teardown(session);
}
@ -279,7 +279,7 @@ static int ac_session_action_addwlan(struct ac_session_t* session, struct ac_not
session->retransmitcount = 0;
capwap_timeout_set(session->timeout, session->idtimercontrol, AC_RETRANSMIT_INTERVAL, ac_dfa_retransmition_timeout, session, NULL);
} else {
log_printf(LOG_DEBUG, "Warning: error to send WLAN Configuration Request packet");
capwap_logging_debug("Warning: error to send WLAN Configuration Request packet");
ac_free_reference_last_request(session);
ac_session_teardown(session);
}
@ -302,7 +302,7 @@ static int ac_session_action_station_configuration_ieee8011_add_station(struct a
response = ac_session_action_authorizestation_request(session, notify->radioid, notify->wlanid, notify->address);
if (response) {
if (ac_session_action_authorizestation_response(session, response, notify)) {
log_printf(LOG_INFO, "Station is not authorized");
capwap_logging_info("Station is not authorized");
/* TODO kickoff station */
}
@ -353,7 +353,7 @@ static int ac_session_action_station_configuration_ieee8011_delete_station(struc
session->retransmitcount = 0;
capwap_timeout_set(session->timeout, session->idtimercontrol, AC_RETRANSMIT_INTERVAL, ac_dfa_retransmition_timeout, session, NULL);
} else {
log_printf(LOG_DEBUG, "Warning: error to send Station Configuration Request packet");
capwap_logging_debug("Warning: error to send Station Configuration Request packet");
ac_free_reference_last_request(session);
ac_session_teardown(session);
}
@ -399,7 +399,7 @@ static int ac_session_action_execute(struct ac_session_t* session, struct ac_ses
{
char sessionname[33];
capwap_sessionid_printf(&session->sessionid, sessionname);
log_printf(LOG_DEBUG, "Receive Keep-Alive from %s", sessionname);
capwap_logging_debug("Receive Keep-Alive from %s", sessionname);
}
#endif
/* Send keep-alive response */
@ -601,7 +601,7 @@ static void ac_dfa_execute(struct ac_session_t* session, struct capwap_parsed_pa
}
default: {
log_printf(LOG_DEBUG, "Unknown AC action event: %lu", session->state);
capwap_logging_debug("Unknown AC action event: %lu", session->state);
ac_session_teardown(session);
break;
}
@ -659,7 +659,7 @@ static void ac_session_destroy(struct ac_session_t* session) {
#ifdef DEBUG
capwap_sessionid_printf(&session->sessionid, sessionname);
log_printf(LOG_DEBUG, "Release Session AC %s", sessionname);
capwap_logging_debug("Release Session AC %s", sessionname);
#endif
/* Release last reference */
@ -674,7 +674,7 @@ static void ac_session_destroy(struct ac_session_t* session) {
/* Check if all reference is release */
while (session->count > 0) {
#ifdef DEBUG
log_printf(LOG_DEBUG, "Wait for release Session AC %s (count=%d)", sessionname, session->count);
capwap_logging_debug("Wait for release Session AC %s (count=%d)", sessionname, session->count);
#endif
/* */
capwap_event_reset(&session->changereference);
@ -777,9 +777,9 @@ static void ac_session_run(struct ac_session_t* session) {
if (capwap_is_request_type(session->rxmngpacket->ctrlmsg.type) && (session->remotetype == session->rxmngpacket->ctrlmsg.type) && (session->remoteseqnumber == session->rxmngpacket->ctrlmsg.seq)) {
/* Retransmit response */
if (!capwap_crypt_sendto_fragmentpacket(&session->dtls, session->responsefragmentpacket)) {
log_printf(LOG_ERR, "Error to resend response packet");
capwap_logging_error("Error to resend response packet");
} else {
log_printf(LOG_DEBUG, "Retrasmitted control packet");
capwap_logging_debug("Retrasmitted control packet");
}
} else {
/* Check message type */
@ -832,24 +832,24 @@ static void ac_session_run(struct ac_session_t* session) {
/* */
ac_dfa_execute(session, &packet);
} else {
log_printf(LOG_DEBUG, "Failed validation parsed control packet");
capwap_logging_debug("Failed validation parsed control packet");
if (capwap_is_request_type(session->rxmngpacket->ctrlmsg.type)) {
log_printf(LOG_WARNING, "Missing Mandatory Message Element, send Response Packet with error");
capwap_logging_warning("Missing Mandatory Message Element, send Response Packet with error");
ac_send_invalid_request(session, CAPWAP_RESULTCODE_FAILURE_MISSING_MANDATORY_MSG_ELEMENT);
}
}
} else {
log_printf(LOG_DEBUG, "Failed parsing packet");
capwap_logging_debug("Failed parsing packet");
if ((res == UNRECOGNIZED_MESSAGE_ELEMENT) && capwap_is_request_type(session->rxmngpacket->ctrlmsg.type)) {
log_printf(LOG_WARNING, "Unrecognized Message Element, send Response Packet with error");
capwap_logging_warning("Unrecognized Message Element, send Response Packet with error");
ac_send_invalid_request(session, CAPWAP_RESULTCODE_FAILURE_UNRECOGNIZED_MESSAGE_ELEMENT);
/* TODO: add the unrecognized message element */
}
}
} else {
log_printf(LOG_DEBUG, "Invalid message type");
capwap_logging_debug("Invalid message type");
if (res == INVALID_REQUEST_MESSAGE_TYPE) {
log_printf(LOG_WARNING, "Unexpected Unrecognized Request, send Response Packet with error");
capwap_logging_warning("Unexpected Unrecognized Request, send Response Packet with error");
ac_send_invalid_request(session, CAPWAP_RESULTCODE_MSG_UNEXPECTED_UNRECOGNIZED_REQUEST);
}
}
@ -890,7 +890,7 @@ void ac_dfa_change_state(struct ac_session_t* session, int state) {
#ifdef DEBUG
char sessionname[33];
capwap_sessionid_printf(&session->sessionid, sessionname);
log_printf(LOG_DEBUG, "Session AC %s change state from %s to %s", sessionname, capwap_dfa_getname(session->state), capwap_dfa_getname(state));
capwap_logging_debug("Session AC %s change state from %s to %s", sessionname, capwap_dfa_getname(session->state), capwap_dfa_getname(state));
#endif
session->state = state;
@ -984,9 +984,9 @@ void* ac_session_thread(void* param) {
threadid = session->threadid;
/* */
log_printf(LOG_DEBUG, "Session start");
capwap_logging_debug("Session start");
ac_session_run(session);
log_printf(LOG_DEBUG, "Session end");
capwap_logging_debug("Session end");
/* Notify terminate thread */
ac_msgqueue_notify_closethread(threadid);
@ -1100,21 +1100,21 @@ void ac_dfa_retransmition_timeout(struct capwap_timeout* timeout, unsigned long
struct ac_session_t* session = (struct ac_session_t*)context;
if (!session->requestfragmentpacket->count) {
log_printf(LOG_WARNING, "Invalid retransmition request packet");
capwap_logging_warning("Invalid retransmition request packet");
ac_session_teardown(session);
} else {
session->retransmitcount++;
if (session->retransmitcount >= AC_MAX_RETRANSMIT) {
log_printf(LOG_INFO, "Retransmition request packet timeout");
capwap_logging_info("Retransmition request packet timeout");
/* Timeout reset state */
ac_free_reference_last_request(session);
ac_session_teardown(session);
} else {
/* Retransmit Request */
log_printf(LOG_DEBUG, "Retransmition request packet");
capwap_logging_debug("Retransmition request packet");
if (!capwap_crypt_sendto_fragmentpacket(&session->dtls, session->requestfragmentpacket)) {
log_printf(LOG_ERR, "Error to send request packet");
capwap_logging_error("Error to send request packet");
}
/* Update timeout */
@ -1124,6 +1124,6 @@ void ac_dfa_retransmition_timeout(struct capwap_timeout* timeout, unsigned long
}
void ac_dfa_teardown_timeout(struct capwap_timeout* timeout, unsigned long index, void* context, void* param) {
log_printf(LOG_INFO, "Session timeout, teardown");
capwap_logging_info("Session timeout, teardown");
ac_session_teardown((struct ac_session_t*)context);
}

27
src/ac/ac_wlans.c
View File

@ -45,7 +45,7 @@ static void ac_stations_destroy_station(struct ac_session_t* session, struct ac_
ASSERT(station != NULL);
/* */
log_printf(LOG_INFO, "Destroy station: " MACSTR, MAC2STR(station->address));
capwap_logging_info("Destroy station: %s", station->addrtext);
/* Remove reference from Authoritative Stations List */
capwap_rwlock_wrlock(&g_ac.authstationslock);
@ -139,8 +139,9 @@ void ac_wlans_destroy(struct ac_session_t* session) {
}
/* */
int ac_wlans_assign_bssid(struct ac_session_t* session, struct ac_wlan* wlan)
{
int ac_wlans_assign_bssid(struct ac_session_t* session, struct ac_wlan* wlan) {
char buffer[CAPWAP_MACADDRESS_EUI48_BUFFER];
ASSERT(session != NULL);
ASSERT(session->wlans != NULL);
ASSERT(wlan != NULL);
@ -165,8 +166,7 @@ int ac_wlans_assign_bssid(struct ac_session_t* session, struct ac_wlan* wlan)
capwap_itemlist_insert_after(session->wlans->devices[wlan->device->radioid - 1].wlans, NULL, wlan->wlanitem);
/* */
log_printf(LOG_INFO, "Added new wlan with radioid: %d, wlanid: %d, bssid: " MACSTR,
(int)wlan->device->radioid, (int)wlan->wlanid, MAC2STR(wlan->address));
capwap_logging_info("Added new wlan with radioid: %d, wlanid: %d, bssid: %s", (int)wlan->device->radioid, (int)wlan->wlanid, capwap_printf_macaddress(buffer, wlan->address, MACADDRESS_EUI48_LENGTH));
return 0;
}
@ -325,8 +325,9 @@ struct ac_station* ac_stations_get_station(struct ac_session_t* session, uint8_t
}
/* */
struct ac_station* ac_stations_create_station(struct ac_session_t* session, uint8_t radioid, const uint8_t* bssid, const uint8_t* address)
{
struct ac_station* ac_stations_create_station(struct ac_session_t* session, uint8_t radioid, const uint8_t* bssid, const uint8_t* address) {
char buffer1[CAPWAP_MACADDRESS_EUI48_BUFFER];
char buffer2[CAPWAP_MACADDRESS_EUI48_BUFFER];
struct ac_wlan* wlan;
struct ac_station* authoritativestation;
struct ac_station* station = NULL;
@ -339,8 +340,9 @@ struct ac_station* ac_stations_create_station(struct ac_session_t* session, uint
ASSERT(address != NULL);
/* */
log_printf(LOG_INFO, "Create station to radioid: %d, bssid: " MACSTR ", station address: " MACSTR,
(int)radioid, MAC2STR(bssid), MAC2STR(address));
capwap_printf_macaddress(buffer1, bssid, MACADDRESS_EUI48_LENGTH);
capwap_printf_macaddress(buffer2, address, MACADDRESS_EUI48_LENGTH);
capwap_logging_info("Create station to radioid: %d, bssid: %s, station address: %s", (int)radioid, buffer1, buffer2);
/* */
wlan = ac_wlans_get_bssid(session, radioid, bssid);
@ -355,6 +357,7 @@ struct ac_station* ac_stations_create_station(struct ac_session_t* session, uint
/* */
station->idtimeout = CAPWAP_TIMEOUT_INDEX_NO_SET;
memcpy(station->address, address, MACADDRESS_EUI48_LENGTH);
capwap_printf_macaddress(station->addrtext, address, MACADDRESS_EUI48_LENGTH);
station->wlanitem = stationitem;
station->session = session;
@ -389,8 +392,7 @@ struct ac_station* ac_stations_create_station(struct ac_session_t* session, uint
}
}
} else {
log_printf(LOG_WARNING, "Unable to find radioid: %d, bssid: " MACSTR,
(int)radioid, MAC2STR(bssid));
capwap_logging_warning("Unable to find radioid: %d, bssid: %s", (int)radioid, buffer1);
}
return station;
@ -477,8 +479,7 @@ void ac_stations_timeout(struct capwap_timeout* timeout, unsigned long index, vo
if (station->idtimeout == index) {
switch (station->timeoutaction) {
case AC_STATION_TIMEOUT_ACTION_DEAUTHENTICATE: {
log_printf(LOG_WARNING, "The " MACSTR " station has not completed "
"the association in time", MAC2STR(station->address));
capwap_logging_warning("The %s station has not completed the association in time", station->addrtext);
ac_stations_delete_station((struct ac_session_t*)param, station);
break;
}

1
src/ac/ac_wlans.h
View File

@ -74,6 +74,7 @@ struct ac_wlans {
/* AC Station */
struct ac_station {
uint8_t address[MACADDRESS_EUI48_LENGTH];
char addrtext[CAPWAP_MACADDRESS_EUI48_BUFFER];
/* */
unsigned long flags;

24
src/common/binding/ieee80211/ieee80211.c
View File

@ -764,27 +764,3 @@ int ieee80211_create_deauthentication(uint8_t* buffer, int length, struct ieee80
return (int)((uint8_t*)&header->deauthetication.ie[0] - (uint8_t*)header);
}
/* */
int ieee80211_create_disassociation(uint8_t* buffer, int length,
struct ieee80211_disassociation_params* params)
{
struct ieee80211_header_mgmt* header;
ASSERT(buffer != NULL);
/* */
header = (struct ieee80211_header_mgmt*)buffer;
/* Management header frame */
header->framecontrol = IEEE80211_FRAME_CONTROL(IEEE80211_FRAMECONTROL_TYPE_MGMT,
IEEE80211_FRAMECONTROL_MGMT_SUBTYPE_DISASSOCIATION);
header->durationid = __cpu_to_le16(0);
memcpy(header->da, params->station, ETH_ALEN);
memcpy(header->sa, params->bssid, ETH_ALEN);
memcpy(header->bssid, params->bssid, ETH_ALEN);
header->sequencecontrol = __cpu_to_le16(0);
header->disassociation.reasoncode = __cpu_to_le16(params->reasoncode);
return (int)((uint8_t*)&header->disassociation.ie[0] - (uint8_t*)header);
}

86
src/common/binding/ieee80211/ieee80211.h
View File

@ -500,80 +500,6 @@ struct ieee80211_ie_wmm_information_element {
uint8_t qos_info;
} STRUCT_PACKED;
#define IEEE80211_HT_MCS_MASK_LEN 10
struct ieee80211_mcs_info {
uint8_t rx_mask[IEEE80211_HT_MCS_MASK_LEN];
uint16_t rx_highest;
uint8_t tx_params;
uint8_t reserved[3];
} STRUCT_PACKED;
/**
* struct ieee80211_ht_cap - HT capabilities
*
* This structure is the "HT capabilities element" as
* described in 802.11n D5.0 7.3.2.57
*/
#define IEEE80211_IE_HT_CAPABILITY 45
struct ieee80211_ht_cap {
uint16_t cap_info;
uint8_t ampdu_params_info;
/* 16 bytes MCS information */
struct ieee80211_mcs_info mcs;
uint16_t extended_ht_cap_info;
uint32_t tx_BF_cap_info;
uint8_t antenna_selection_info;
} STRUCT_PACKED;
struct ieee80211_ie_ht_cap {
uint8_t id;
uint8_t len;
struct ieee80211_ht_cap ht_cap;
} STRUCT_PACKED;
/* 802.11n HT capabilities masks (for cap_info) */
#define IEEE80211_HT_CAP_LDPC_CODING 0x0001
#define IEEE80211_HT_CAP_SUP_WIDTH_20_40 0x0002
#define IEEE80211_HT_CAP_SM_PS 0x000C
#define IEEE80211_HT_CAP_SM_PS_SHIFT 2
#define IEEE80211_HT_CAP_GRN_FLD 0x0010
#define IEEE80211_HT_CAP_SGI_20 0x0020
#define IEEE80211_HT_CAP_SGI_40 0x0040
#define IEEE80211_HT_CAP_TX_STBC 0x0080
#define IEEE80211_HT_CAP_RX_STBC 0x0300
#define IEEE80211_HT_CAP_RX_STBC_SHIFT 8
#define IEEE80211_HT_CAP_DELAY_BA 0x0400
#define IEEE80211_HT_CAP_MAX_AMSDU 0x0800
#define IEEE80211_HT_CAP_DSSSCCK40 0x1000
#define IEEE80211_HT_CAP_RESERVED 0x2000
#define IEEE80211_HT_CAP_40MHZ_INTOLERANT 0x4000
#define IEEE80211_HT_CAP_LSIG_TXOP_PROT 0x8000
/**
* struct ieee80211_ht_operation - HT operation IE
*
* This structure is the "HT operation element" as
* described in 802.11n-2009 7.3.2.57
*/
#define IEEE80211_IE_HT_OPERATION 61
struct ieee80211_ht_operation {
uint8_t id;
uint8_t len;
uint8_t primary_chan;
uint8_t ht_param;
uint16_t operation_mode;
uint16_t stbc_param;
uint8_t basic_set[16];
} STRUCT_PACKED;
/* 802.11 All information elements */
struct ieee80211_ie_items {
struct ieee80211_ie_ssid *ssid;
@ -588,8 +514,6 @@ struct ieee80211_ie_items {
struct ieee80211_ie_power_constraint *power_constraint;
struct ieee80211_ie_ssid_list *ssid_list;
struct ieee80211_ie_wmm_information_element *wmm_ie;
struct ieee80211_ie_ht_cap *ht_cap;
struct ieee80211_ht_operation *ht_oper;
};
/* IEEE 802.11 functions */
@ -697,16 +621,6 @@ struct ieee80211_deauthentication_params {
int ieee80211_create_deauthentication(uint8_t* buffer, int length, struct ieee80211_deauthentication_params* params);
/* Management Disassociation */
struct ieee80211_disassociation_params {
uint8_t bssid[ETH_ALEN];
uint8_t station[ETH_ALEN];
uint16_t reasoncode;
};
int ieee80211_create_disassociation(uint8_t* buffer, int length, struct ieee80211_disassociation_params* params);
/* Utils */
int ieee80211_retrieve_information_elements_position(struct ieee80211_ie_items* items, const uint8_t* data, int length);
unsigned long ieee80211_frequency_to_channel(uint32_t freq);

2
src/common/capwap.h
View File

@ -76,7 +76,7 @@ void capwap_daemon(void);
/* */
#define capwap_outofmemory() do { \
log_printf(LOG_EMERG, "Out of memory %s(%d)", __FILE__, __LINE__); \
capwap_logging_fatal("Out of memory %s(%d)", __FILE__, __LINE__); \
capwap_exit(CAPWAP_OUT_OF_MEMORY); \
} while(0)

23
src/common/capwap_debug.c
View File

@ -36,14 +36,14 @@ void* capwap_alloc_debug(size_t size, const char* file, const int line) {
/* Request size > 0 */
if (size <= 0) {
log_printf(LOG_DEBUG, "%s(%d): Invalid memory size %zu", file, line, size);
capwap_logging_debug("%s(%d): Invalid memory size %d", file, line, size);
exit(CAPWAP_ASSERT_CONDITION);
}
/* Alloc block with memory block */
block = (struct capwap_memory_block*)malloc(sizeof(struct capwap_memory_block) + size);
if (!block) {
log_printf(LOG_DEBUG, "Out of memory %s(%d)", file, line);
capwap_logging_debug("Out of memory %s(%d)", file, line);
exit(CAPWAP_OUT_OF_MEMORY);
}
@ -69,19 +69,19 @@ void capwap_free_debug(void* p, const char* file, const int line) {
struct capwap_memory_block* prevblock;
if (!p) {
log_printf(LOG_DEBUG, "%s(%d): Free NULL pointer", file, line);
capwap_logging_debug("%s(%d): Free NULL pointer", file, line);
exit(CAPWAP_ASSERT_CONDITION);
}
/* Memory block */
if ((size_t)p <= sizeof(struct capwap_memory_block)) {
log_printf(LOG_DEBUG, "%s(%d): Invalid pointer", file, line);
capwap_logging_debug("%s(%d): Invalid pointer", file, line);
exit(CAPWAP_ASSERT_CONDITION);
}
block = (struct capwap_memory_block*)((char*)p - sizeof(struct capwap_memory_block));
if (block->item != p) {
log_printf(LOG_DEBUG, "%s(%d): Invalid pointer", file, line);
capwap_logging_debug("%s(%d): Invalid pointer", file, line);
exit(CAPWAP_ASSERT_CONDITION);
}
@ -107,7 +107,7 @@ void capwap_free_debug(void* p, const char* file, const int line) {
findblock = findblock->next;
}
log_printf(LOG_DEBUG, "%s(%d): Unable to find memory block", file, line);
capwap_logging_debug("%s(%d): Unable to find memory block", file, line);
}
/* Dump memory alloced */
@ -119,8 +119,7 @@ void capwap_dump_memory(void) {
findblock = g_memoryblocks;
while (findblock != NULL) {
log_printf(LOG_DEBUG, "%s(%d): block at %p, %zu bytes long",
findblock->file, findblock->line, findblock->item, findblock->size);
capwap_logging_debug("%s(%d): block at %p, %d bytes long", findblock->file, findblock->line, findblock->item, findblock->size);
#ifdef USE_DEBUG_BACKTRACE
backtrace_functions = backtrace_symbols(findblock->backtrace, findblock->backtrace_count);
@ -129,7 +128,7 @@ void capwap_dump_memory(void) {
/* Skipping capwap_alloc_debug function print out */
for (j = 1; j < findblock->backtrace_count; j++) {
log_printf(LOG_DEBUG, "\t%s", backtrace_functions[j]);
capwap_logging_debug("\t%s", backtrace_functions[j]);
}
free(backtrace_functions);
@ -144,9 +143,9 @@ void capwap_dump_memory(void) {
/* Check if all memory is free */
int capwap_check_memory_leak(int verbose) {
if ((g_memoryblocks != NULL) && (verbose != 0)) {
log_printf(LOG_DEBUG, "*** Detected memory leaks ! ***");
capwap_logging_debug("*** Detected memory leaks ! ***");
capwap_dump_memory();
log_printf(LOG_DEBUG, "*******************************");
capwap_logging_debug("*******************************");
}
return ((g_memoryblocks != NULL) ? 1 : 0);
@ -168,7 +167,7 @@ void capwap_backtrace_callstack(void) {
/* Skipping capwap_backtrace_callstack function print out */
for (i = 1; i < count; i++) {
log_printf(LOG_DEBUG, "\t%s", functions[i]);
capwap_logging_debug("\t%s", functions[i]);
}
free(functions);

4
src/common/capwap_debug.h
View File

@ -3,7 +3,7 @@
#ifdef DEBUG
#define ASSERT(expr) if (!(expr)) { log_printf(LOG_EMERG, "Assertion failed \'%s\': %s(%d)", #expr, __FILE__, __LINE__); capwap_exit(CAPWAP_ASSERT_CONDITION); }
#define ASSERT(expr) if (!(expr)) { capwap_logging_fatal("Assertion failed \'%s\': %s(%d)", #expr, __FILE__, __LINE__); capwap_exit(CAPWAP_ASSERT_CONDITION); }
/* Custom memory management */
#define capwap_alloc(x) capwap_alloc_debug(x, __FILE__, __LINE__)
@ -29,7 +29,7 @@ void capwap_backtrace_callstack(void);
/* Standard memory management */
#define capwap_alloc(l) ({ void* __x = malloc(l); if (!__x) capwap_outofmemory(); __x; })
#define capwap_free(x) free(x)
#define capwap_check_memory_leak(x) (0)
#define capwap_check_memory_leak(x)
#define capwap_dump_memory()
#define capwap_backtrace_callstack()

38
src/common/capwap_dtls.c
View File

@ -33,7 +33,7 @@ static int capwap_bio_method_recv(WOLFSSL* ssl, char* buffer, int length, void*
/* Check DTLS Capwap Preamble */
dtlspreamble = (struct capwap_dtls_header*)dtls->buffer;
if ((dtlspreamble->preamble.version != CAPWAP_PROTOCOL_VERSION) || (dtlspreamble->preamble.type != CAPWAP_PREAMBLE_DTLS_HEADER)) {
log_printf(LOG_DEBUG, "Wrong DTLS Capwap Preamble");
capwap_logging_debug("Wrong DTLS Capwap Preamble");
return WOLFSSL_CBIO_ERR_GENERAL; /* Wrong DTLS Capwap Preamble */
}
@ -75,7 +75,7 @@ static int capwap_bio_method_send(WOLFSSL* ssl, char* buffer, int length, void*
/* Send packet */
err = capwap_sendto(dtls->sock, data, length + sizeof(struct capwap_dtls_header), &dtls->peeraddr);
if (err <= 0) {
log_printf(LOG_WARNING, "Unable to send crypt packet, sentto return error %d", err);
capwap_logging_warning("Unable to send crypt packet, sentto return error %d", err);
return WOLFSSL_CBIO_ERR_GENERAL;
}
@ -236,7 +236,7 @@ int capwap_crypt_createcontext(struct capwap_dtls_context* dtlscontext, struct c
/* Alloc context */
dtlscontext->sslcontext = (void*)wolfSSL_CTX_new(((param->type == CAPWAP_DTLS_SERVER) ? wolfDTLSv1_server_method() : wolfDTLSv1_client_method()));
if (!dtlscontext->sslcontext) {
log_printf(LOG_DEBUG, "Error to initialize dtls context");
capwap_logging_debug("Error to initialize dtls context");
return 0;
}
@ -249,42 +249,42 @@ int capwap_crypt_createcontext(struct capwap_dtls_context* dtlscontext, struct c
if (dtlscontext->mode == CAPWAP_DTLS_MODE_CERTIFICATE) {
/* Check context */
if (!param->cert.filecert || !strlen(param->cert.filecert)) {
log_printf(LOG_DEBUG, "Error, request certificate file");
capwap_logging_debug("Error, request certificate file");
capwap_crypt_freecontext(dtlscontext);
return 0;
} else if (!param->cert.filekey || !strlen(param->cert.filekey)) {
log_printf(LOG_DEBUG, "Error, request privatekey file");
capwap_logging_debug("Error, request privatekey file");
capwap_crypt_freecontext(dtlscontext);
return 0;
} else if (!param->cert.fileca || !strlen(param->cert.fileca)) {
log_printf(LOG_DEBUG, "Error, request ca file");
capwap_logging_debug("Error, request ca file");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
/* Public certificate */
if (!wolfSSL_CTX_use_certificate_file((WOLFSSL_CTX*)dtlscontext->sslcontext, param->cert.filecert, SSL_FILETYPE_PEM)) {
log_printf(LOG_DEBUG, "Error to load certificate file");
capwap_logging_debug("Error to load certificate file");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
/* Private key */
if (!wolfSSL_CTX_use_PrivateKey_file((WOLFSSL_CTX*)dtlscontext->sslcontext, param->cert.filekey, SSL_FILETYPE_PEM)) {
log_printf(LOG_DEBUG, "Error to load private key file");
capwap_logging_debug("Error to load private key file");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
if (!wolfSSL_CTX_check_private_key((WOLFSSL_CTX*)dtlscontext->sslcontext)) {
log_printf(LOG_DEBUG, "Error to check private key");
capwap_logging_debug("Error to check private key");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
/* Certificate Authority */
if (!wolfSSL_CTX_load_verify_locations((WOLFSSL_CTX*)dtlscontext->sslcontext, param->cert.fileca, NULL)) {
log_printf(LOG_DEBUG, "Error to load ca file");
capwap_logging_debug("Error to load ca file");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
@ -299,7 +299,7 @@ int capwap_crypt_createcontext(struct capwap_dtls_context* dtlscontext, struct c
TLS_DHE_RSA_WITH_AES_256_CBC_SHA
*/
if (!wolfSSL_CTX_set_cipher_list((WOLFSSL_CTX*)dtlscontext->sslcontext, "AES128-SHA:DHE-RSA-AES128-SHA:AES256-SHA:DHE-RSA-AES256-SHA")) {
log_printf(LOG_DEBUG, "Error to select cipher list");
capwap_logging_debug("Error to select cipher list");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
@ -311,7 +311,7 @@ int capwap_crypt_createcontext(struct capwap_dtls_context* dtlscontext, struct c
TLS_DHE_PSK_WITH_AES_256_CBC_SHA
*/
if (!wolfSSL_CTX_set_cipher_list((WOLFSSL_CTX*)dtlscontext->sslcontext, "PSK-AES128-CBC-SHA:PSK-AES256-CBC-SHA")) {
log_printf(LOG_DEBUG, "Error to select cipher list");
capwap_logging_debug("Error to select cipher list");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
@ -321,7 +321,7 @@ int capwap_crypt_createcontext(struct capwap_dtls_context* dtlscontext, struct c
if (param->presharedkey.hint) {
wolfSSL_CTX_use_psk_identity_hint((WOLFSSL_CTX*)dtlscontext->sslcontext, param->presharedkey.hint);
} else {
log_printf(LOG_DEBUG, "Error to presharedkey hint");
capwap_logging_debug("Error to presharedkey hint");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
@ -331,7 +331,7 @@ int capwap_crypt_createcontext(struct capwap_dtls_context* dtlscontext, struct c
dtlscontext->presharedkey.identity = capwap_duplicate_string(param->presharedkey.identity);
dtlscontext->presharedkey.pskkeylength = capwap_crypt_psk_to_bin(param->presharedkey.pskkey, &dtlscontext->presharedkey.pskkey);
if (!dtlscontext->presharedkey.pskkeylength) {
log_printf(LOG_DEBUG, "Error to presharedkey");
capwap_logging_debug("Error to presharedkey");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
@ -343,7 +343,7 @@ int capwap_crypt_createcontext(struct capwap_dtls_context* dtlscontext, struct c
wolfSSL_CTX_set_psk_client_callback((WOLFSSL_CTX*)dtlscontext->sslcontext, capwap_crypt_psk_client);
}
} else {
log_printf(LOG_DEBUG, "Invalid DTLS mode");
capwap_logging_debug("Invalid DTLS mode");
capwap_crypt_freecontext(dtlscontext);
return 0;
}
@ -383,7 +383,7 @@ int capwap_crypt_createsession(struct capwap_dtls* dtls, struct capwap_dtls_cont
/* Create ssl session */
dtls->sslsession = (void*)wolfSSL_new((WOLFSSL_CTX*)dtlscontext->sslcontext);
if (!dtls->sslsession) {
log_printf(LOG_DEBUG, "Error to initialize dtls session");
capwap_logging_debug("Error to initialize dtls session");
return 0;
}
@ -498,7 +498,7 @@ int capwap_crypt_sendto(struct capwap_dtls* dtls, void* buffer, int size) {
if (!dtls->enable) {
err = capwap_sendto(dtls->sock, buffer, size, &dtls->peeraddr);
if (err <= 0) {
log_printf(LOG_WARNING, "Unable to send plain packet, sentto return error %d", err);
capwap_logging_warning("Unable to send plain packet, sentto return error %d", err);
}
return err;
@ -535,7 +535,7 @@ int capwap_crypt_sendto_fragmentpacket(struct capwap_dtls* dtls, struct capwap_l
err = capwap_crypt_sendto(dtls, fragmentpacket->buffer, fragmentpacket->offset);
if (err <= 0) {
log_printf(LOG_WARNING, "Unable to send crypt fragment, sentto return error %d", err);
capwap_logging_warning("Unable to send crypt fragment, sentto return error %d", err);
return 0;
}
@ -572,7 +572,7 @@ int capwap_decrypt_packet(struct capwap_dtls* dtls, void* encrybuffer, int size,
/* */
if (dtls->action == CAPWAP_DTLS_ACTION_HANDSHAKE) {
if (capwap_crypt_handshake(dtls) == CAPWAP_HANDSHAKE_ERROR) {
log_printf(LOG_DEBUG, "Error in DTLS handshake");
capwap_logging_debug("Error in DTLS handshake");
result = CAPWAP_ERROR_CLOSE; /* Error handshake */
} else {
result = CAPWAP_ERROR_AGAIN; /* Don't parsing DTLS packet */

379
src/common/capwap_element.c
View File

@ -4,132 +4,136 @@
#include "capwap_array.h"
/* */
#define element_ops(Id, Ops) [(Id) - CAPWAP_MESSAGE_ELEMENTS_START] = &(Ops)
static const struct capwap_message_elements_ops * capwap_message_elements[] = {
element_ops(CAPWAP_ELEMENT_ACDESCRIPTION_TYPE, capwap_element_acdescriptor_ops),
element_ops(CAPWAP_ELEMENT_ACIPV4LIST_TYPE, capwap_element_acipv4list_ops),
element_ops(CAPWAP_ELEMENT_ACIPV6LIST_TYPE, capwap_element_acipv6list_ops),
element_ops(CAPWAP_ELEMENT_ACNAME_TYPE, capwap_element_acname_ops),
element_ops(CAPWAP_ELEMENT_ACNAMEPRIORITY_TYPE, capwap_element_acnamepriority_ops),
element_ops(CAPWAP_ELEMENT_ACTIMESTAMP_TYPE, capwap_element_actimestamp_ops),
element_ops(CAPWAP_ELEMENT_ADDMACACL_TYPE, capwap_element_addmacacl_ops),
element_ops(CAPWAP_ELEMENT_ADDSTATION_TYPE, capwap_element_addstation_ops),
element_ops(CAPWAP_ELEMENT_CONTROLIPV4_TYPE, capwap_element_controlipv4_ops),
element_ops(CAPWAP_ELEMENT_CONTROLIPV6_TYPE, capwap_element_controlipv6_ops),
element_ops(CAPWAP_ELEMENT_TIMERS_TYPE, capwap_element_timers_ops),
element_ops(CAPWAP_ELEMENT_DATATRANSFERDATA_TYPE, capwap_element_datatransferdata_ops),
element_ops(CAPWAP_ELEMENT_DATATRANSFERMODE_TYPE, capwap_element_datatransfermode_ops),
element_ops(CAPWAP_ELEMENT_DECRYPTERRORREPORT_TYPE, capwap_element_decrypterrorreport_ops),
element_ops(CAPWAP_ELEMENT_DECRYPTERRORREPORTPERIOD_TYPE, capwap_element_decrypterrorreportperiod_ops),
element_ops(CAPWAP_ELEMENT_DELETEMACACL_TYPE, capwap_element_deletemacacl_ops),
element_ops(CAPWAP_ELEMENT_DELETESTATION_TYPE, capwap_element_deletestation_ops),
element_ops(CAPWAP_ELEMENT_DISCOVERYTYPE_TYPE, capwap_element_discoverytype_ops),
element_ops(CAPWAP_ELEMENT_DUPLICATEIPV4_TYPE, capwap_element_duplicateipv4_ops),
element_ops(CAPWAP_ELEMENT_DUPLICATEIPV6_TYPE, capwap_element_duplicateipv6_ops),
element_ops(CAPWAP_ELEMENT_IDLETIMEOUT_TYPE, capwap_element_idletimeout_ops),
element_ops(CAPWAP_ELEMENT_IMAGEDATA_TYPE, capwap_element_imagedata_ops),
element_ops(CAPWAP_ELEMENT_IMAGEIDENTIFIER_TYPE, capwap_element_imageidentifier_ops),
element_ops(CAPWAP_ELEMENT_IMAGEINFO_TYPE, capwap_element_imageinfo_ops),
element_ops(CAPWAP_ELEMENT_INITIATEDOWNLOAD_TYPE, capwap_element_initdownload_ops),
element_ops(CAPWAP_ELEMENT_LOCATION_TYPE, capwap_element_location_ops),
element_ops(CAPWAP_ELEMENT_MAXIMUMLENGTH_TYPE, capwap_element_maximumlength_ops),
element_ops(CAPWAP_ELEMENT_LOCALIPV4_TYPE, capwap_element_localipv4_ops),
element_ops(CAPWAP_ELEMENT_RADIOADMSTATE_TYPE, capwap_element_radioadmstate_ops),
element_ops(CAPWAP_ELEMENT_RADIOOPRSTATE_TYPE, capwap_element_radiooprstate_ops),
element_ops(CAPWAP_ELEMENT_RESULTCODE_TYPE, capwap_element_resultcode_ops),
element_ops(CAPWAP_ELEMENT_RETURNEDMESSAGE_TYPE, capwap_element_returnedmessage_ops),
element_ops(CAPWAP_ELEMENT_SESSIONID_TYPE, capwap_element_sessionid_ops),
element_ops(CAPWAP_ELEMENT_STATISTICSTIMER_TYPE, capwap_element_statisticstimer_ops),
element_ops(CAPWAP_ELEMENT_VENDORPAYLOAD_TYPE, capwap_element_vendorpayload_ops),
element_ops(CAPWAP_ELEMENT_WTPBOARDDATA_TYPE, capwap_element_wtpboarddata_ops),
element_ops(CAPWAP_ELEMENT_WTPDESCRIPTOR_TYPE, capwap_element_wtpdescriptor_ops),
element_ops(CAPWAP_ELEMENT_WTPFALLBACK_TYPE, capwap_element_wtpfallback_ops),
element_ops(CAPWAP_ELEMENT_WTPFRAMETUNNELMODE_TYPE, capwap_element_wtpframetunnelmode_ops),
element_ops(CAPWAP_ELEMENT_WTPMACTYPE_TYPE, capwap_element_wtpmactype_ops),
element_ops(CAPWAP_ELEMENT_WTPNAME_TYPE, capwap_element_wtpname_ops),
element_ops(CAPWAP_ELEMENT_WTPRADIOSTAT_TYPE, capwap_element_wtpradiostat_ops),
element_ops(CAPWAP_ELEMENT_WTPREBOOTSTAT_TYPE, capwap_element_wtprebootstat_ops),
element_ops(CAPWAP_ELEMENT_WTPSTATICIPADDRESS_TYPE, capwap_element_wtpstaticipaddress_ops),
element_ops(CAPWAP_ELEMENT_LOCALIPV6_TYPE, capwap_element_localipv6_ops),
element_ops(CAPWAP_ELEMENT_TRANSPORT_TYPE, capwap_element_transport_ops),
element_ops(CAPWAP_ELEMENT_MTUDISCOVERY_TYPE, capwap_element_mtudiscovery_ops),
element_ops(CAPWAP_ELEMENT_ECNSUPPORT_TYPE, capwap_element_ecnsupport_ops)
};
#undef element_ops
/* */
#define element_ops(Id, Ops) [(Id) - CAPWAP_80211_MESSAGE_ELEMENTS_START] = &(Ops)
static const struct capwap_message_elements_ops * capwap_80211_message_elements[] = {
element_ops(CAPWAP_ELEMENT_80211_ADD_WLAN_TYPE, capwap_element_80211_addwlan_ops),
element_ops(CAPWAP_ELEMENT_80211_ANTENNA_TYPE, capwap_element_80211_antenna_ops),
element_ops(CAPWAP_ELEMENT_80211_ASSIGN_BSSID_TYPE, capwap_element_80211_assignbssid_ops),
element_ops(CAPWAP_ELEMENT_80211_DELETE_WLAN_TYPE, capwap_element_80211_deletewlan_ops),
element_ops(CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL_TYPE, capwap_element_80211_directsequencecontrol_ops),
element_ops(CAPWAP_ELEMENT_80211_IE_TYPE, capwap_element_80211_ie_ops),
element_ops(CAPWAP_ELEMENT_80211_MACOPERATION_TYPE, capwap_element_80211_macoperation_ops),
element_ops(CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES_TYPE, capwap_element_80211_miccountermeasures_ops),
element_ops(CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY_TYPE, capwap_element_80211_multidomaincapability_ops),
element_ops(CAPWAP_ELEMENT_80211_OFDMCONTROL_TYPE, capwap_element_80211_ofdmcontrol_ops),
element_ops(CAPWAP_ELEMENT_80211_RATESET_TYPE, capwap_element_80211_rateset_ops),
element_ops(CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT_TYPE, capwap_element_80211_rsnaerrorreport_ops),
element_ops(CAPWAP_ELEMENT_80211_STATION_TYPE, capwap_element_80211_station_ops),
element_ops(CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE_TYPE, capwap_element_80211_stationqos_ops),
element_ops(CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_PROFILE_TYPE, capwap_element_80211_stationkey_ops),
element_ops(CAPWAP_ELEMENT_80211_STATISTICS_TYPE, capwap_element_80211_statistics_ops),
element_ops(CAPWAP_ELEMENT_80211_SUPPORTEDRATES_TYPE, capwap_element_80211_supportedrates_ops),
element_ops(CAPWAP_ELEMENT_80211_TXPOWER_TYPE, capwap_element_80211_txpower_ops),
element_ops(CAPWAP_ELEMENT_80211_TXPOWERLEVEL_TYPE, capwap_element_80211_txpowerlevel_ops),
element_ops(CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS_TYPE, capwap_element_80211_updatestationqos_ops),
element_ops(CAPWAP_ELEMENT_80211_UPDATE_WLAN_TYPE, capwap_element_80211_updatewlan_ops),
element_ops(CAPWAP_ELEMENT_80211_WTP_QOS_TYPE, capwap_element_80211_wtpqos_ops),
element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_CONF_TYPE, capwap_element_80211_wtpradioconf_ops),
element_ops(CAPWAP_ELEMENT_80211_WTP_RADIO_FAIL_ALARM_TYPE, capwap_element_80211_wtpradiofailalarm_ops),
element_ops(CAPWAP_ELEMENT_80211_WTPRADIOINFORMATION_TYPE, capwap_element_80211_wtpradioinformation_ops)
};
#undef element_ops
/* */
#define element_ops(Id, Ops) [(Id) - 1] = &(Ops)
static const struct capwap_message_elements_ops * capwap_vendor_travelping_message_elements[] = {
element_ops(CAPWAP_ELEMENT_VENDOR_TRAVELPING_WTP_TIMESTAMP_TYPE, capwap_element_vendor_travelping_wtp_timestamp_ops),
element_ops(CAPWAP_ELEMENT_80211N_RADIO_CONF_TYPE, capwap_element_80211n_radioconf_ops),
element_ops(CAPWAP_ELEMENT_80211N_STATION_INFO_TYPE, capwap_element_80211n_station_info_ops)
};
#undef element_ops
/* */
const struct capwap_message_elements_ops *
capwap_get_message_element_ops(const struct capwap_message_element_id id)
{
#define ARRAY_SIZE(x) (sizeof((x)) / sizeof((x)[0]))
switch (id.vendor) {
case 0:
if (id.type >= CAPWAP_MESSAGE_ELEMENTS_START &&
id.type - CAPWAP_MESSAGE_ELEMENTS_START < ARRAY_SIZE(capwap_message_elements)) {
return capwap_message_elements[id.type - CAPWAP_MESSAGE_ELEMENTS_START];
int capwap_get_message_element_category(uint16_t type) {
switch (type) {
case CAPWAP_ELEMENT_ACNAMEPRIORITY:
case CAPWAP_ELEMENT_CONTROLIPV4:
case CAPWAP_ELEMENT_CONTROLIPV6:
case CAPWAP_ELEMENT_DECRYPTERRORREPORTPERIOD:
case CAPWAP_ELEMENT_RADIOADMSTATE:
case CAPWAP_ELEMENT_RADIOOPRSTATE:
case CAPWAP_ELEMENT_RETURNEDMESSAGE:
case CAPWAP_ELEMENT_VENDORPAYLOAD:
case CAPWAP_ELEMENT_80211_ANTENNA:
case CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL:
case CAPWAP_ELEMENT_80211_IE:
case CAPWAP_ELEMENT_80211_MACOPERATION:
case CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY:
case CAPWAP_ELEMENT_80211_OFDMCONTROL:
case CAPWAP_ELEMENT_80211_RATESET:
case CAPWAP_ELEMENT_80211_STATISTICS:
case CAPWAP_ELEMENT_80211_SUPPORTEDRATES:
case CAPWAP_ELEMENT_80211_TXPOWER:
case CAPWAP_ELEMENT_80211_TXPOWERLEVEL:
case CAPWAP_ELEMENT_80211_WTP_QOS:
case CAPWAP_ELEMENT_80211_WTP_RADIO_CONF:
case CAPWAP_ELEMENT_80211_WTPRADIOINFORMATION: {
return CAPWAP_MESSAGE_ELEMENT_ARRAY;
}
else if (id.type >= CAPWAP_80211_MESSAGE_ELEMENTS_START &&
id.type - CAPWAP_80211_MESSAGE_ELEMENTS_START < ARRAY_SIZE(capwap_80211_message_elements)) {
return capwap_80211_message_elements[id.type - CAPWAP_80211_MESSAGE_ELEMENTS_START];
}
break;
case CAPWAP_VENDOR_TRAVELPING_ID:
if (id.type >= 1 &&
id.type - 1 < ARRAY_SIZE(capwap_vendor_travelping_message_elements))
return capwap_vendor_travelping_message_elements[id.type - 1];
break;
}
return NULL;
#undef ARRAY_SIZE
return CAPWAP_MESSAGE_ELEMENT_SINGLE;
}
/* */
struct capwap_list_item* capwap_get_message_element(struct capwap_parsed_packet* packet,
const struct capwap_message_element_id id)
{
static struct capwap_message_elements_ops* capwap_message_elements[] = {
/* CAPWAP_ELEMENT_ACDESCRIPTION */ &capwap_element_acdescriptor_ops,
/* CAPWAP_ELEMENT_ACIPV4LIST */ &capwap_element_acipv4list_ops,
/* CAPWAP_ELEMENT_ACIPV6LIST */ &capwap_element_acipv6list_ops,
/* CAPWAP_ELEMENT_ACNAME */ &capwap_element_acname_ops,
/* CAPWAP_ELEMENT_ACNAMEPRIORITY */ &capwap_element_acnamepriority_ops,
/* CAPWAP_ELEMENT_ACTIMESTAMP */ &capwap_element_actimestamp_ops,
/* CAPWAP_ELEMENT_ADDMACACL */ &capwap_element_addmacacl_ops,
/* CAPWAP_ELEMENT_ADDSTATION */ &capwap_element_addstation_ops,
/* Reserved */ NULL,
/* CAPWAP_ELEMENT_CONTROLIPV4 */ &capwap_element_controlipv4_ops,
/* CAPWAP_ELEMENT_CONTROLIPV6 */ &capwap_element_controlipv6_ops,
/* CAPWAP_ELEMENT_TIMERS */ &capwap_element_timers_ops,
/* CAPWAP_ELEMENT_DATATRANSFERDATA */ &capwap_element_datatransferdata_ops,
/* CAPWAP_ELEMENT_DATATRANSFERMODE */ &capwap_element_datatransfermode_ops,
/* CAPWAP_ELEMENT_DECRYPTERRORREPORT */ &capwap_element_decrypterrorreport_ops,
/* CAPWAP_ELEMENT_DECRYPTERRORREPORTPERIOD */ &capwap_element_decrypterrorreportperiod_ops,
/* CAPWAP_ELEMENT_DELETEMACACL */ &capwap_element_deletemacacl_ops,
/* CAPWAP_ELEMENT_DELETESTATION */ &capwap_element_deletestation_ops,
/* Reserved */ NULL,
/* CAPWAP_ELEMENT_DISCOVERYTYPE */ &capwap_element_discoverytype_ops,
/* CAPWAP_ELEMENT_DUPLICATEIPV4 */ &capwap_element_duplicateipv4_ops,
/* CAPWAP_ELEMENT_DUPLICATEIPV6 */ &capwap_element_duplicateipv6_ops,
/* CAPWAP_ELEMENT_IDLETIMEOUT */ &capwap_element_idletimeout_ops,
/* CAPWAP_ELEMENT_IMAGEDATA */ &capwap_element_imagedata_ops,
/* CAPWAP_ELEMENT_IMAGEIDENTIFIER */ &capwap_element_imageidentifier_ops,
/* CAPWAP_ELEMENT_IMAGEINFO */ &capwap_element_imageinfo_ops,
/* CAPWAP_ELEMENT_INITIATEDOWNLOAD */ &capwap_element_initdownload_ops,
/* CAPWAP_ELEMENT_LOCATION */ &capwap_element_location_ops,
/* CAPWAP_ELEMENT_MAXIMUMLENGTH */ &capwap_element_maximumlength_ops,
/* CAPWAP_ELEMENT_LOCALIPV4 */ &capwap_element_localipv4_ops,
/* CAPWAP_ELEMENT_RADIOADMSTATE */ &capwap_element_radioadmstate_ops,
/* CAPWAP_ELEMENT_RADIOOPRSTATE */ &capwap_element_radiooprstate_ops,
/* CAPWAP_ELEMENT_RESULTCODE */ &capwap_element_resultcode_ops,
/* CAPWAP_ELEMENT_RETURNEDMESSAGE */ &capwap_element_returnedmessage_ops,
/* CAPWAP_ELEMENT_SESSIONID */ &capwap_element_sessionid_ops,
/* CAPWAP_ELEMENT_STATISTICSTIMER */ &capwap_element_statisticstimer_ops,
/* CAPWAP_ELEMENT_VENDORPAYLOAD */ &capwap_element_vendorpayload_ops,
/* CAPWAP_ELEMENT_WTPBOARDDATA */ &capwap_element_wtpboarddata_ops,
/* CAPWAP_ELEMENT_WTPDESCRIPTOR */ &capwap_element_wtpdescriptor_ops,
/* CAPWAP_ELEMENT_WTPFALLBACK */ &capwap_element_wtpfallback_ops,
/* CAPWAP_ELEMENT_WTPFRAMETUNNELMODE */ &capwap_element_wtpframetunnelmode_ops,
/* Reserved */ NULL,
/* Reserved */ NULL,
/* CAPWAP_ELEMENT_WTPMACTYPE */ &capwap_element_wtpmactype_ops,
/* CAPWAP_ELEMENT_WTPNAME */ &capwap_element_wtpname_ops,
/* Reserved */ NULL,
/* CAPWAP_ELEMENT_WTPRADIOSTAT */ &capwap_element_wtpradiostat_ops,
/* CAPWAP_ELEMENT_WTPREBOOTSTAT */ &capwap_element_wtprebootstat_ops,
/* CAPWAP_ELEMENT_WTPSTATICIPADDRESS */ &capwap_element_wtpstaticipaddress_ops,
/* CAPWAP_ELEMENT_LOCALIPV6 */ &capwap_element_localipv6_ops,
/* CAPWAP_ELEMENT_TRANSPORT */ &capwap_element_transport_ops,
/* CAPWAP_ELEMENT_MTUDISCOVERY */ &capwap_element_mtudiscovery_ops,
/* CAPWAP_ELEMENT_ECNSUPPORT */ &capwap_element_ecnsupport_ops
};
/* */
static struct capwap_message_elements_ops* capwap_80211_message_elements[] = {
/* CAPWAP_ELEMENT_80211_ADD_WLAN */ &capwap_element_80211_addwlan_ops,
/* CAPWAP_ELEMENT_80211_ANTENNA */ &capwap_element_80211_antenna_ops,
/* CAPWAP_ELEMENT_80211_ASSIGN_BSSID */ &capwap_element_80211_assignbssid_ops,
/* CAPWAP_ELEMENT_80211_DELETE_WLAN */ &capwap_element_80211_deletewlan_ops,
/* CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL */ &capwap_element_80211_directsequencecontrol_ops,
/* CAPWAP_ELEMENT_80211_IE */ &capwap_element_80211_ie_ops,
/* CAPWAP_ELEMENT_80211_MACOPERATION */ &capwap_element_80211_macoperation_ops,
/* CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES */ &capwap_element_80211_miccountermeasures_ops,
/* CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY */ &capwap_element_80211_multidomaincapability_ops,
/* CAPWAP_ELEMENT_80211_OFDMCONTROL */ &capwap_element_80211_ofdmcontrol_ops,
/* CAPWAP_ELEMENT_80211_RATESET */ &capwap_element_80211_rateset_ops,
/* CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT */ &capwap_element_80211_rsnaerrorreport_ops,
/* CAPWAP_ELEMENT_80211_STATION */ &capwap_element_80211_station_ops,
/* CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE */ &capwap_element_80211_stationqos_ops,
/* CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_PROFILE */ &capwap_element_80211_stationkey_ops,
/* CAPWAP_ELEMENT_80211_STATISTICS */ &capwap_element_80211_statistics_ops,
/* CAPWAP_ELEMENT_80211_SUPPORTEDRATES */ &capwap_element_80211_supportedrates_ops,
/* CAPWAP_ELEMENT_80211_TXPOWER */ &capwap_element_80211_txpower_ops,
/* CAPWAP_ELEMENT_80211_TXPOWERLEVEL */ &capwap_element_80211_txpowerlevel_ops,
/* CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS */ &capwap_element_80211_updatestationqos_ops,
/* CAPWAP_ELEMENT_80211_UPDATE_WLAN */ &capwap_element_80211_updatewlan_ops,
/* CAPWAP_ELEMENT_80211_WTP_QOS */ &capwap_element_80211_wtpqos_ops,
/* CAPWAP_ELEMENT_80211_WTP_RADIO_CONF */ &capwap_element_80211_wtpradioconf_ops,
/* CAPWAP_ELEMENT_80211_WTP_RADIO_FAIL_ALARM */ &capwap_element_80211_wtpradiofailalarm_ops,
/* CAPWAP_ELEMENT_80211_WTPRADIOINFORMATION */ &capwap_element_80211_wtpradioinformation_ops
};
/* */
struct capwap_message_elements_ops* capwap_get_message_element_ops(unsigned short code) {
if (IS_MESSAGE_ELEMENTS(code)) {
return capwap_message_elements[code - CAPWAP_MESSAGE_ELEMENTS_START];
} else if (IS_80211_MESSAGE_ELEMENTS(code)) {
return capwap_80211_message_elements[code - CAPWAP_80211_MESSAGE_ELEMENTS_START];
}
return NULL;
}
/* */
struct capwap_list_item* capwap_get_message_element(struct capwap_parsed_packet* packet, uint16_t type) {
struct capwap_list_item* search;
ASSERT(packet != NULL);
@ -137,10 +141,11 @@ struct capwap_list_item* capwap_get_message_element(struct capwap_parsed_packet*
search = packet->messages->first;
while (search) {
struct capwap_message_element_itemlist* messageelement =
(struct capwap_message_element_itemlist*)search->item;
if (message_element_id_eq(id, messageelement->id))
struct capwap_message_element_itemlist* messageelement = (struct capwap_message_element_itemlist*)search->item;
if (messageelement->type == type) {
return search;
}
/* */
search = search->next;
@ -150,14 +155,12 @@ struct capwap_list_item* capwap_get_message_element(struct capwap_parsed_packet*
}
/* */
void* capwap_get_message_element_data(struct capwap_parsed_packet* packet,
const struct capwap_message_element_id id)
{
void* capwap_get_message_element_data(struct capwap_parsed_packet* packet, uint16_t type) {
struct capwap_list_item* itemlist;
struct capwap_message_element_itemlist* messageelement;
/* Retrieve item list */
itemlist = capwap_get_message_element(packet, id);
itemlist = capwap_get_message_element(packet, type);
if (!itemlist) {
return NULL;
}
@ -190,75 +193,53 @@ int capwap_parsing_packet(struct capwap_packet_rxmng* rxmngpacket, struct capwap
/* */
bodylength = rxmngpacket->ctrlmsg.length - CAPWAP_CONTROL_MESSAGE_MIN_LENGTH;
while (bodylength > 0) {
struct capwap_message_element_id id = { .vendor = 0 };
uint16_t type;
uint16_t msglength;
int category;
struct capwap_list_item* itemlist;
struct capwap_message_element_itemlist* messageelement;
void *element;
const struct capwap_message_elements_ops* read_ops;
struct capwap_message_elements_ops* read_ops;
/* Get type and length */
rxmngpacket->readerpacketallowed = sizeof(struct capwap_message_element);
if (rxmngpacket->read_ops.read_u16((capwap_message_elements_handle)rxmngpacket, &id.type) != sizeof(uint16_t) ||
rxmngpacket->read_ops.read_u16((capwap_message_elements_handle)rxmngpacket, &msglength) != sizeof(uint16_t) ||
msglength > bodylength)
if (rxmngpacket->read_ops.read_u16((capwap_message_elements_handle)rxmngpacket, &type) != sizeof(uint16_t)) {
return INVALID_MESSAGE_ELEMENT;
}
/* Check type */
capwap_logging_debug("MESSAGE ELEMENT: %d", type);
if (!IS_VALID_MESSAGE_ELEMENTS(type)) {
return UNRECOGNIZED_MESSAGE_ELEMENT;
}
/* Check binding */
if (IS_80211_MESSAGE_ELEMENTS(type) && (binding != CAPWAP_WIRELESS_BINDING_IEEE80211)) {
return UNRECOGNIZED_MESSAGE_ELEMENT;
}
if (rxmngpacket->read_ops.read_u16((capwap_message_elements_handle)rxmngpacket, &msglength) != sizeof(uint16_t)) {
return INVALID_MESSAGE_ELEMENT;
}
/* Check length */
if (msglength > bodylength) {
return INVALID_MESSAGE_ELEMENT;
}
/* Reader function */
read_ops = capwap_get_message_element_ops(type);
capwap_logging_debug("read_ops: %p", read_ops);
if (!read_ops) {
return INVALID_MESSAGE_ELEMENT;
}
/* Allowed to parsing only the size of message element */
rxmngpacket->readerpacketallowed = msglength;
/* Check binding */
if (IS_80211_MESSAGE_ELEMENTS(id) &&
(binding != CAPWAP_WIRELESS_BINDING_IEEE80211))
return UNRECOGNIZED_MESSAGE_ELEMENT;
log_printf(LOG_DEBUG, "MESSAGE ELEMENT: %d", id.type);
if (id.type == CAPWAP_ELEMENT_VENDORPAYLOAD_TYPE) {
struct capwap_message_element_id vendor_id;
if (msglength < 7) {
log_printf(LOG_DEBUG, "Invalid Vendor Specific Payload element: underbuffer");
return INVALID_MESSAGE_ELEMENT;
}
if ((msglength - 6) > CAPWAP_VENDORPAYLOAD_MAXLENGTH) {
log_printf(LOG_DEBUG, "Invalid Vendor Specific Payload element: overbuffer");
return INVALID_MESSAGE_ELEMENT;
}
rxmngpacket->read_ops.read_u32((capwap_message_elements_handle)rxmngpacket, &vendor_id.vendor);
rxmngpacket->read_ops.read_u16((capwap_message_elements_handle)rxmngpacket, &vendor_id.type);
log_printf(LOG_DEBUG, "VENDOR MESSAGE ELEMENT: %06x:%d", vendor_id.vendor, vendor_id.type);
read_ops = capwap_get_message_element_ops(vendor_id);
log_printf(LOG_DEBUG, "vendor read_ops: %p", read_ops);
if (read_ops) {
id = vendor_id;
element = read_ops->parse((capwap_message_elements_handle)rxmngpacket, &rxmngpacket->read_ops);
} else {
read_ops = capwap_get_message_element_ops(id);
element = capwap_unknown_vendorpayload_element_parsing((capwap_message_elements_handle)rxmngpacket,
&rxmngpacket->read_ops, msglength - 6, vendor_id);
}
} else {
/* Reader function */
read_ops = capwap_get_message_element_ops(id);
log_printf(LOG_DEBUG, "read_ops: %p", read_ops);
if (!read_ops)
return UNRECOGNIZED_MESSAGE_ELEMENT;
/* Get message element */
element = read_ops->parse((capwap_message_elements_handle)rxmngpacket, &rxmngpacket->read_ops);
}
if (!element)
return INVALID_MESSAGE_ELEMENT;
/* */
itemlist = capwap_get_message_element(packet, id);
if (read_ops->category == CAPWAP_MESSAGE_ELEMENT_SINGLE) {
itemlist = capwap_get_message_element(packet, type);
category = capwap_get_message_element_category(type);
if (category == CAPWAP_MESSAGE_ELEMENT_SINGLE) {
/* Check for multiple message element */
if (itemlist) {
return INVALID_MESSAGE_ELEMENT;
@ -267,14 +248,18 @@ int capwap_parsing_packet(struct capwap_packet_rxmng* rxmngpacket, struct capwap
/* Create new message element */
itemlist = capwap_itemlist_create(sizeof(struct capwap_message_element_itemlist));
messageelement = (struct capwap_message_element_itemlist*)itemlist->item;
messageelement->id = id;
messageelement->type = type;
messageelement->category = CAPWAP_MESSAGE_ELEMENT_SINGLE;
messageelement->data = element;
messageelement->data = read_ops->parsing_message_element((capwap_message_elements_handle)rxmngpacket, &rxmngpacket->read_ops);
if (!messageelement->data) {
capwap_itemlist_free(itemlist);
return INVALID_MESSAGE_ELEMENT;
}
/* */
capwap_itemlist_insert_after(packet->messages, NULL, itemlist);
}
else if (read_ops->category == CAPWAP_MESSAGE_ELEMENT_ARRAY) {
} else if (category == CAPWAP_MESSAGE_ELEMENT_ARRAY) {
void* datamsgelement;
struct capwap_array* arraymessageelement;
if (itemlist) {
@ -286,7 +271,7 @@ int capwap_parsing_packet(struct capwap_packet_rxmng* rxmngpacket, struct capwap
/* */
itemlist = capwap_itemlist_create(sizeof(struct capwap_message_element_itemlist));
messageelement = (struct capwap_message_element_itemlist*)itemlist->item;
messageelement->id = id;
messageelement->type = type;
messageelement->category = CAPWAP_MESSAGE_ELEMENT_ARRAY;
messageelement->data = (void*)arraymessageelement;
@ -294,8 +279,14 @@ int capwap_parsing_packet(struct capwap_packet_rxmng* rxmngpacket, struct capwap
capwap_itemlist_insert_after(packet->messages, NULL, itemlist);
}
/* Get message element */
datamsgelement = read_ops->parsing_message_element((capwap_message_elements_handle)rxmngpacket, &rxmngpacket->read_ops);
if (!datamsgelement) {
return INVALID_MESSAGE_ELEMENT;
}
/* */
*(void **)capwap_array_get_item_pointer(arraymessageelement, arraymessageelement->count) = element;
memcpy(capwap_array_get_item_pointer(arraymessageelement, arraymessageelement->count), &datamsgelement, sizeof(void*));
}
/* Check if read all data of message element */
@ -639,7 +630,7 @@ void capwap_free_parsed_packet(struct capwap_parsed_packet* packet) {
int i;
struct capwap_list_item* itemlist;
struct capwap_message_element_itemlist* messageelement;
const struct capwap_message_elements_ops* msgops;
struct capwap_message_elements_ops* msgops;
ASSERT(packet != NULL);
@ -648,15 +639,15 @@ void capwap_free_parsed_packet(struct capwap_parsed_packet* packet) {
while (itemlist) {
messageelement = (struct capwap_message_element_itemlist*)itemlist->item;
if (messageelement->data) {
msgops = capwap_get_message_element_ops(messageelement->id);
msgops = capwap_get_message_element_ops(messageelement->type);
if (messageelement->category == CAPWAP_MESSAGE_ELEMENT_SINGLE) {
msgops->free(messageelement->data);
msgops->free_message_element(messageelement->data);
} else if (messageelement->category == CAPWAP_MESSAGE_ELEMENT_ARRAY) {
struct capwap_array* arraymessageelement = (struct capwap_array*)messageelement->data;
for (i = 0; i < arraymessageelement->count; i++) {
msgops->free(*(void**)capwap_array_get_item_pointer(arraymessageelement, i));
msgops->free_message_element(*(void**)capwap_array_get_item_pointer(arraymessageelement, i));
}
/* */

38
src/common/capwap_element.h
View File

@ -4,15 +4,6 @@
#include "capwap_array.h"
#include "capwap_list.h"
struct capwap_message_element_id
{
uint32_t vendor;
uint16_t type;
};
#define message_element_id_eq(a, b) \
(((a).vendor == (b).vendor) && ((a).type == (b).type))
/* */
typedef void* capwap_message_elements_handle;
struct capwap_write_message_elements_ops {
@ -30,25 +21,21 @@ struct capwap_read_message_elements_ops {
int (*read_block)(capwap_message_elements_handle handle, uint8_t* data, unsigned short length);
};
struct capwap_message_elements_ops
{
int category;
struct capwap_message_elements_ops {
/* Build message element */
void (*create)(void* data, capwap_message_elements_handle handle, struct capwap_write_message_elements_ops* func);
void (*create_message_element)(void* data, capwap_message_elements_handle handle, struct capwap_write_message_elements_ops* func);
/* Parsing message element */
void* (*parse)(capwap_message_elements_handle handle, struct capwap_read_message_elements_ops* func);
void* (*parsing_message_element)(capwap_message_elements_handle handle, struct capwap_read_message_elements_ops* func);
/* Memory management */
void* (*clone)(void*);
void (*free)(void*);
void* (*clone_message_element)(void*);
void (*free_message_element)(void*);
};
const struct capwap_message_elements_ops *capwap_get_message_element_ops(const struct capwap_message_element_id id);
struct capwap_message_elements_ops* capwap_get_message_element_ops(unsigned short code);
/*********************************************************************************************************************/
/* Standard message elements */
#include "capwap_element_acdescriptor.h" /* 00001 */
#include "capwap_element_acipv4list.h" /* 00002 */
@ -131,16 +118,13 @@ const struct capwap_message_elements_ops *capwap_get_message_element_ops(const s
#include "capwap_element_80211_wtpradiofailalarm.h" /* 01047 */
#include "capwap_element_80211_wtpradioinformation.h" /* 01048 */
#include "capwap_vendor_travelping.h"
/*********************************************************************************************************************/
#define CAPWAP_MESSAGE_ELEMENT_SINGLE 0
#define CAPWAP_MESSAGE_ELEMENT_ARRAY 1
int capwap_get_message_element_category(uint16_t type);
struct capwap_message_element_itemlist
{
struct capwap_message_element_id id;
struct capwap_message_element_itemlist {
uint16_t type;
int category;
void* data;
};
@ -159,9 +143,7 @@ int capwap_parsing_packet(struct capwap_packet_rxmng* rxmngpacket, struct capwap
int capwap_validate_parsed_packet(struct capwap_parsed_packet* packet, struct capwap_array* returnedmessage);
void capwap_free_parsed_packet(struct capwap_parsed_packet* packet);
struct capwap_list_item *capwap_get_message_element(struct capwap_parsed_packet *packet,
const struct capwap_message_element_id id);
void *capwap_get_message_element_data(struct capwap_parsed_packet *packet,
const struct capwap_message_element_id id);
struct capwap_list_item* capwap_get_message_element(struct capwap_parsed_packet* packet, uint16_t type);
void* capwap_get_message_element_data(struct capwap_parsed_packet* packet, uint16_t type);
#endif /* __CAPWAP_ELEMENT_HEADER__ */

19
src/common/capwap_element_80211_addwlan.c
View File

@ -99,7 +99,7 @@ static void* capwap_80211_addwlan_element_parsing(capwap_message_elements_handle
length = func->read_ready(handle);
if (length < 20) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Add WLAN element: underbuffer");
capwap_logging_debug("Invalid IEEE 802.11 Add WLAN element: underbuffer");
return NULL;
}
@ -113,11 +113,11 @@ static void* capwap_80211_addwlan_element_parsing(capwap_message_elements_handle
if (!IS_VALID_RADIOID(data->radioid)) {
capwap_80211_addwlan_element_free((void*)data);
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Add WLAN element: invalid radioid");
capwap_logging_debug("Invalid IEEE 802.11 Add WLAN element: invalid radioid");
return NULL;
} else if (!IS_VALID_WLANID(data->wlanid)) {
capwap_80211_addwlan_element_free((void*)data);
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Add WLAN element: invalid wlanid");
capwap_logging_debug("Invalid IEEE 802.11 Add WLAN element: invalid wlanid");
return NULL;
}
@ -141,7 +141,7 @@ static void* capwap_80211_addwlan_element_parsing(capwap_message_elements_handle
length = func->read_ready(handle);
if (!length || (length > CAPWAP_ADD_WLAN_SSID_LENGTH)) {
capwap_80211_addwlan_element_free((void*)data);
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Add WLAN element: invalid ssid");
capwap_logging_debug("Invalid IEEE 802.11 Add WLAN element: invalid ssid");
return NULL;
}
@ -153,10 +153,9 @@ static void* capwap_80211_addwlan_element_parsing(capwap_message_elements_handle
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_addwlan_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_addwlan_element_create,
.parse = capwap_80211_addwlan_element_parsing,
.clone = capwap_80211_addwlan_element_clone,
.free = capwap_80211_addwlan_element_free
struct capwap_message_elements_ops capwap_element_80211_addwlan_ops = {
.create_message_element = capwap_80211_addwlan_element_create,
.parsing_message_element = capwap_80211_addwlan_element_parsing,
.clone_message_element = capwap_80211_addwlan_element_clone,
.free_message_element = capwap_80211_addwlan_element_free
};

7
src/common/capwap_element_80211_addwlan.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_ADD_WLAN_HEADER__
#define __CAPWAP_ELEMENT_80211_ADD_WLAN_HEADER__
#define CAPWAP_ELEMENT_80211_ADD_WLAN_VENDOR 0
#define CAPWAP_ELEMENT_80211_ADD_WLAN_TYPE 1024
#define CAPWAP_ELEMENT_80211_ADD_WLAN (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_ADD_WLAN_VENDOR, .type = CAPWAP_ELEMENT_80211_ADD_WLAN_TYPE }
#define CAPWAP_ELEMENT_80211_ADD_WLAN 1024
#define CAPWAP_ADD_WLAN_GROUPTSC_LENGTH 6
#define CAPWAP_ADD_WLAN_SSID_LENGTH 32
@ -62,6 +59,6 @@ struct capwap_80211_addwlan_element {
uint8_t* ssid;
};
extern const struct capwap_message_elements_ops capwap_element_80211_addwlan_ops;
extern struct capwap_message_elements_ops capwap_element_80211_addwlan_ops;
#endif /* __CAPWAP_ELEMENT_80211_ADD_WLAN_HEADER__ */

19
src/common/capwap_element_80211_antenna.c
View File

@ -75,13 +75,13 @@ static void* capwap_80211_antenna_element_parsing(capwap_message_elements_handle
length = func->read_ready(handle);
if (length < 5) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Antenna element");
capwap_logging_debug("Invalid IEEE 802.11 Antenna element");
return NULL;
}
length -= 4;
if (length > CAPWAP_ANTENNASELECTIONS_MAXLENGTH) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Antenna element");
capwap_logging_debug("Invalid IEEE 802.11 Antenna element");
return NULL;
}
@ -94,7 +94,7 @@ static void* capwap_80211_antenna_element_parsing(capwap_message_elements_handle
func->read_u8(handle, &data->radioid);
if (!IS_VALID_RADIOID(data->radioid)) {
capwap_80211_antenna_element_free((void*)data);
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Antenna element element: invalid radio");
capwap_logging_debug("Invalid IEEE 802.11 Antenna element element: invalid radio");
return NULL;
}
@ -104,7 +104,7 @@ static void* capwap_80211_antenna_element_parsing(capwap_message_elements_handle
/* Check */
if (count != length) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Antenna element");
capwap_logging_debug("Invalid IEEE 802.11 Antenna element");
capwap_free(data);
return NULL;
}
@ -142,10 +142,9 @@ void capwap_element_80211_antenna_copy(struct capwap_80211_antenna_element* dst,
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_antenna_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_antenna_element_create,
.parse = capwap_80211_antenna_element_parsing,
.clone = capwap_80211_antenna_element_clone,
.free = capwap_80211_antenna_element_free
struct capwap_message_elements_ops capwap_element_80211_antenna_ops = {
.create_message_element = capwap_80211_antenna_element_create,
.parsing_message_element = capwap_80211_antenna_element_parsing,
.clone_message_element = capwap_80211_antenna_element_clone,
.free_message_element = capwap_80211_antenna_element_free
};

7
src/common/capwap_element_80211_antenna.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_ANTENNA_HEADER__
#define __CAPWAP_ELEMENT_80211_ANTENNA_HEADER__
#define CAPWAP_ELEMENT_80211_ANTENNA_VENDOR 0
#define CAPWAP_ELEMENT_80211_ANTENNA_TYPE 1025
#define CAPWAP_ELEMENT_80211_ANTENNA (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_ANTENNA_VENDOR, .type = CAPWAP_ELEMENT_80211_ANTENNA_TYPE }
#define CAPWAP_ELEMENT_80211_ANTENNA 1025
#define CAPWAP_ANTENNA_DIVERSITY_DISABLE 0
#define CAPWAP_ANTENNA_DIVERSITY_ENABLE 1
@ -26,7 +23,7 @@ struct capwap_80211_antenna_element {
struct capwap_array* selections;
};
extern const struct capwap_message_elements_ops capwap_element_80211_antenna_ops;
extern struct capwap_message_elements_ops capwap_element_80211_antenna_ops;
void capwap_element_80211_antenna_copy(struct capwap_80211_antenna_element* dst, struct capwap_80211_antenna_element* src);
#endif /* __CAPWAP_ELEMENT_80211_ANTENNA_HEADER__ */

13
src/common/capwap_element_80211_assignbssid.c
View File

@ -36,7 +36,7 @@ static void* capwap_80211_assignbssid_element_parsing(capwap_message_elements_ha
ASSERT(func != NULL);
if (func->read_ready(handle) != 8) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Assigned WTP BSSID element");
capwap_logging_debug("Invalid IEEE 802.11 Assigned WTP BSSID element");
return NULL;
}
@ -67,10 +67,9 @@ static void capwap_80211_assignbssid_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_assignbssid_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_assignbssid_element_create,
.parse = capwap_80211_assignbssid_element_parsing,
.clone = capwap_80211_assignbssid_element_clone,
.free = capwap_80211_assignbssid_element_free
struct capwap_message_elements_ops capwap_element_80211_assignbssid_ops = {
.create_message_element = capwap_80211_assignbssid_element_create,
.parsing_message_element = capwap_80211_assignbssid_element_parsing,
.clone_message_element = capwap_80211_assignbssid_element_clone,
.free_message_element = capwap_80211_assignbssid_element_free
};

7
src/common/capwap_element_80211_assignbssid.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_ASSIGN_BSSID_HEADER__
#define __CAPWAP_ELEMENT_80211_ASSIGN_BSSID_HEADER__
#define CAPWAP_ELEMENT_80211_ASSIGN_BSSID_VENDOR 0
#define CAPWAP_ELEMENT_80211_ASSIGN_BSSID_TYPE 1026
#define CAPWAP_ELEMENT_80211_ASSIGN_BSSID (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_ASSIGN_BSSID_VENDOR, .type = CAPWAP_ELEMENT_80211_ASSIGN_BSSID_TYPE }
#define CAPWAP_ELEMENT_80211_ASSIGN_BSSID 1026
struct capwap_80211_assignbssid_element {
uint8_t radioid;
@ -12,6 +9,6 @@ struct capwap_80211_assignbssid_element {
uint8_t bssid[MACADDRESS_EUI48_LENGTH];
};
extern const struct capwap_message_elements_ops capwap_element_80211_assignbssid_ops;
extern struct capwap_message_elements_ops capwap_element_80211_assignbssid_ops;
#endif /* __CAPWAP_ELEMENT_80211_ASSIGN_BSSID_HEADER__ */

13
src/common/capwap_element_80211_deletewlan.c
View File

@ -33,7 +33,7 @@ static void* capwap_80211_deletewlan_element_parsing(capwap_message_elements_han
ASSERT(func != NULL);
if (func->read_ready(handle) != 2) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Delete WLAN element");
capwap_logging_debug("Invalid IEEE 802.11 Delete WLAN element");
return NULL;
}
@ -63,10 +63,9 @@ static void capwap_80211_deletewlan_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_deletewlan_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_deletewlan_element_create,
.parse = capwap_80211_deletewlan_element_parsing,
.clone = capwap_80211_deletewlan_element_clone,
.free = capwap_80211_deletewlan_element_free
struct capwap_message_elements_ops capwap_element_80211_deletewlan_ops = {
.create_message_element = capwap_80211_deletewlan_element_create,
.parsing_message_element = capwap_80211_deletewlan_element_parsing,
.clone_message_element = capwap_80211_deletewlan_element_clone,
.free_message_element = capwap_80211_deletewlan_element_free
};

7
src/common/capwap_element_80211_deletewlan.h
View File

@ -1,16 +1,13 @@
#ifndef __CAPWAP_ELEMENT_80211_DELETE_WLAN_HEADER__
#define __CAPWAP_ELEMENT_80211_DELETE_WLAN_HEADER__
#define CAPWAP_ELEMENT_80211_DELETE_WLAN_VENDOR 0
#define CAPWAP_ELEMENT_80211_DELETE_WLAN_TYPE 1027
#define CAPWAP_ELEMENT_80211_DELETE_WLAN (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_DELETE_WLAN_VENDOR, .type = CAPWAP_ELEMENT_80211_DELETE_WLAN_TYPE }
#define CAPWAP_ELEMENT_80211_DELETE_WLAN 1027
struct capwap_80211_deletewlan_element {
uint8_t radioid;
uint8_t wlanid;
};
extern const struct capwap_message_elements_ops capwap_element_80211_deletewlan_ops;
extern struct capwap_message_elements_ops capwap_element_80211_deletewlan_ops;
#endif /* __CAPWAP_ELEMENT_80211_DELETE_WLAN_HEADER__ */

15
src/common/capwap_element_80211_directsequencecontrol.c
View File

@ -54,7 +54,7 @@ static void* capwap_80211_directsequencecontrol_element_parsing(capwap_message_e
ASSERT(func != NULL);
if (func->read_ready(handle) != 8) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Direct Sequence Control element");
capwap_logging_debug("Invalid IEEE 802.11 Direct Sequence Control element");
return NULL;
}
@ -66,7 +66,7 @@ static void* capwap_80211_directsequencecontrol_element_parsing(capwap_message_e
func->read_u8(handle, &data->radioid);
if (!IS_VALID_RADIOID(data->radioid)) {
capwap_80211_directsequencecontrol_element_free((void*)data);
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Direct Sequence Control element: invalid radio");
capwap_logging_debug("Invalid IEEE 802.11 Direct Sequence Control element: invalid radio");
return NULL;
}
@ -79,10 +79,9 @@ static void* capwap_80211_directsequencecontrol_element_parsing(capwap_message_e
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_directsequencecontrol_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_directsequencecontrol_element_create,
.parse = capwap_80211_directsequencecontrol_element_parsing,
.clone = capwap_80211_directsequencecontrol_element_clone,
.free = capwap_80211_directsequencecontrol_element_free
struct capwap_message_elements_ops capwap_element_80211_directsequencecontrol_ops = {
.create_message_element = capwap_80211_directsequencecontrol_element_create,
.parsing_message_element = capwap_80211_directsequencecontrol_element_parsing,
.clone_message_element = capwap_80211_directsequencecontrol_element_clone,
.free_message_element = capwap_80211_directsequencecontrol_element_free
};

7
src/common/capwap_element_80211_directsequencecontrol.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL_HEADER__
#define __CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL_HEADER__
#define CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL_VENDOR 0
#define CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL_TYPE 1028
#define CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL_VENDOR, .type = CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL_TYPE }
#define CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL 1028
#define CAPWAP_DSCONTROL_CCA_EDONLY 1
#define CAPWAP_DSCONTROL_CCA_CSONLY 2
@ -20,6 +17,6 @@ struct capwap_80211_directsequencecontrol_element {
uint32_t enerydetectthreshold;
};
extern const struct capwap_message_elements_ops capwap_element_80211_directsequencecontrol_ops;
extern struct capwap_message_elements_ops capwap_element_80211_directsequencecontrol_ops;
#endif /* __CAPWAP_ELEMENT_80211_DIRECTSEQUENCECONTROL_HEADER__ */

13
src/common/capwap_element_80211_ie.c
View File

@ -37,7 +37,7 @@ static void* capwap_80211_ie_element_parsing(capwap_message_elements_handle hand
length = func->read_ready(handle);
if (length < 4) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Information Element element");
capwap_logging_debug("Invalid IEEE 802.11 Information Element element");
return NULL;
}
@ -83,10 +83,9 @@ static void capwap_80211_ie_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_ie_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_ie_element_create,
.parse = capwap_80211_ie_element_parsing,
.clone = capwap_80211_ie_element_clone,
.free = capwap_80211_ie_element_free
struct capwap_message_elements_ops capwap_element_80211_ie_ops = {
.create_message_element = capwap_80211_ie_element_create,
.parsing_message_element = capwap_80211_ie_element_parsing,
.clone_message_element = capwap_80211_ie_element_clone,
.free_message_element = capwap_80211_ie_element_free
};

7
src/common/capwap_element_80211_ie.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_IE_HEADER__
#define __CAPWAP_ELEMENT_80211_IE_HEADER__
#define CAPWAP_ELEMENT_80211_IE_VENDOR 0
#define CAPWAP_ELEMENT_80211_IE_TYPE 1029
#define CAPWAP_ELEMENT_80211_IE (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_IE_VENDOR, .type = CAPWAP_ELEMENT_80211_IE_TYPE }
#define CAPWAP_ELEMENT_80211_IE 1029
#define CAPWAP_IE_BEACONS_ASSOCIATED 0x80
#define CAPWAP_IE_PROBE_RESPONSE_ASSOCIATED 0x40
@ -17,6 +14,6 @@ struct capwap_80211_ie_element {
uint8_t* ie;
};
extern const struct capwap_message_elements_ops capwap_element_80211_ie_ops;
extern struct capwap_message_elements_ops capwap_element_80211_ie_ops;
#endif /* __CAPWAP_ELEMENT_80211_IE_HEADER__ */

13
src/common/capwap_element_80211_macoperation.c
View File

@ -46,7 +46,7 @@ static void* capwap_80211_macoperation_element_parsing(capwap_message_elements_h
ASSERT(func != NULL);
if (func->read_ready(handle) != 16) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 MAC Operation element");
capwap_logging_debug("Invalid IEEE 802.11 MAC Operation element");
return NULL;
}
@ -82,10 +82,9 @@ static void capwap_80211_macoperation_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_macoperation_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_macoperation_element_create,
.parse = capwap_80211_macoperation_element_parsing,
.clone = capwap_80211_macoperation_element_clone,
.free = capwap_80211_macoperation_element_free
struct capwap_message_elements_ops capwap_element_80211_macoperation_ops = {
.create_message_element = capwap_80211_macoperation_element_create,
.parsing_message_element = capwap_80211_macoperation_element_parsing,
.clone_message_element = capwap_80211_macoperation_element_clone,
.free_message_element = capwap_80211_macoperation_element_free
};

7
src/common/capwap_element_80211_macoperation.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_MACOPERATION_HEADER__
#define __CAPWAP_ELEMENT_80211_MACOPERATION_HEADER__
#define CAPWAP_ELEMENT_80211_MACOPERATION_VENDOR 0
#define CAPWAP_ELEMENT_80211_MACOPERATION_TYPE 1030
#define CAPWAP_ELEMENT_80211_MACOPERATION (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_MACOPERATION_VENDOR, .type = CAPWAP_ELEMENT_80211_MACOPERATION_TYPE }
#define CAPWAP_ELEMENT_80211_MACOPERATION 1030
struct capwap_80211_macoperation_element {
uint8_t radioid;
@ -16,6 +13,6 @@ struct capwap_80211_macoperation_element {
uint32_t rxmsdulifetime;
};
extern const struct capwap_message_elements_ops capwap_element_80211_macoperation_ops;
extern struct capwap_message_elements_ops capwap_element_80211_macoperation_ops;
#endif /* __CAPWAP_ELEMENT_80211_MACOPERATION_HEADER__ */

13
src/common/capwap_element_80211_miccountermeasures.c
View File

@ -36,7 +36,7 @@ static void* capwap_80211_miccountermeasures_element_parsing(capwap_message_elem
ASSERT(func != NULL);
if (func->read_ready(handle) != 8) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 MIC Countermeasures element");
capwap_logging_debug("Invalid IEEE 802.11 MIC Countermeasures element");
return NULL;
}
@ -67,10 +67,9 @@ static void capwap_80211_miccountermeasures_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_miccountermeasures_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_miccountermeasures_element_create,
.parse = capwap_80211_miccountermeasures_element_parsing,
.clone = capwap_80211_miccountermeasures_element_clone,
.free = capwap_80211_miccountermeasures_element_free
struct capwap_message_elements_ops capwap_element_80211_miccountermeasures_ops = {
.create_message_element = capwap_80211_miccountermeasures_element_create,
.parsing_message_element = capwap_80211_miccountermeasures_element_parsing,
.clone_message_element = capwap_80211_miccountermeasures_element_clone,
.free_message_element = capwap_80211_miccountermeasures_element_free
};

7
src/common/capwap_element_80211_miccountermeasures.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES_HEADER__
#define __CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES_HEADER__
#define CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES_VENDOR 0
#define CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES_TYPE 1031
#define CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES_VENDOR, .type = CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES_TYPE }
#define CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES 1031
struct capwap_80211_miccountermeasures_element {
uint8_t radioid;
@ -12,6 +9,6 @@ struct capwap_80211_miccountermeasures_element {
uint8_t address[MACADDRESS_EUI48_LENGTH];
};
extern const struct capwap_message_elements_ops capwap_element_80211_miccountermeasures_ops;
extern struct capwap_message_elements_ops capwap_element_80211_miccountermeasures_ops;
#endif /* __CAPWAP_ELEMENT_80211_MIC_COUNTERMEASURES_HEADER__ */

13
src/common/capwap_element_80211_multidomaincapability.c
View File

@ -39,7 +39,7 @@ static void* capwap_80211_multidomaincapability_element_parsing(capwap_message_e
ASSERT(func != NULL);
if (func->read_ready(handle) != 8) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Multi-Domain Capability element");
capwap_logging_debug("Invalid IEEE 802.11 Multi-Domain Capability element");
return NULL;
}
@ -72,10 +72,9 @@ static void capwap_80211_multidomaincapability_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_multidomaincapability_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_multidomaincapability_element_create,
.parse = capwap_80211_multidomaincapability_element_parsing,
.clone = capwap_80211_multidomaincapability_element_clone,
.free = capwap_80211_multidomaincapability_element_free
struct capwap_message_elements_ops capwap_element_80211_multidomaincapability_ops = {
.create_message_element = capwap_80211_multidomaincapability_element_create,
.parsing_message_element = capwap_80211_multidomaincapability_element_parsing,
.clone_message_element = capwap_80211_multidomaincapability_element_clone,
.free_message_element = capwap_80211_multidomaincapability_element_free
};

7
src/common/capwap_element_80211_multidomaincapability.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY_HEADER__
#define __CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY_HEADER__
#define CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY_VENDOR 0
#define CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY_TYPE 1032
#define CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY_VENDOR, .type = CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY_TYPE }
#define CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY 1032
struct capwap_80211_multidomaincapability_element {
uint8_t radioid;
@ -13,6 +10,6 @@ struct capwap_80211_multidomaincapability_element {
uint16_t maxtxpowerlevel;
};
extern const struct capwap_message_elements_ops capwap_element_80211_multidomaincapability_ops;
extern struct capwap_message_elements_ops capwap_element_80211_multidomaincapability_ops;
#endif /* __CAPWAP_ELEMENT_80211_MULTIDOMAINCAPABILITY_HEADER__ */

13
src/common/capwap_element_80211_ofdmcontrol.c
View File

@ -39,7 +39,7 @@ static void* capwap_80211_ofdmcontrol_element_parsing(capwap_message_elements_ha
ASSERT(func != NULL);
if (func->read_ready(handle) != 8) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 OFDM Control element");
capwap_logging_debug("Invalid IEEE 802.11 OFDM Control element");
return NULL;
}
@ -72,10 +72,9 @@ static void capwap_80211_ofdmcontrol_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_ofdmcontrol_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_ofdmcontrol_element_create,
.parse = capwap_80211_ofdmcontrol_element_parsing,
.clone = capwap_80211_ofdmcontrol_element_clone,
.free = capwap_80211_ofdmcontrol_element_free
struct capwap_message_elements_ops capwap_element_80211_ofdmcontrol_ops = {
.create_message_element = capwap_80211_ofdmcontrol_element_create,
.parsing_message_element = capwap_80211_ofdmcontrol_element_parsing,
.clone_message_element = capwap_80211_ofdmcontrol_element_clone,
.free_message_element = capwap_80211_ofdmcontrol_element_free
};

7
src/common/capwap_element_80211_ofdmcontrol.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_OFDMCONTROL_HEADER__
#define __CAPWAP_ELEMENT_80211_OFDMCONTROL_HEADER__
#define CAPWAP_ELEMENT_80211_OFDMCONTROL_VENDOR 0
#define CAPWAP_ELEMENT_80211_OFDMCONTROL_TYPE 1033
#define CAPWAP_ELEMENT_80211_OFDMCONTROL (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_OFDMCONTROL_VENDOR, .type = CAPWAP_ELEMENT_80211_OFDMCONTROL_TYPE }
#define CAPWAP_ELEMENT_80211_OFDMCONTROL 1033
#define CAPWAP_OFDMCONTROL_BAND_515_525 0x01
#define CAPWAP_OFDMCONTROL_BAND_525_535 0x02
@ -22,6 +19,6 @@ struct capwap_80211_ofdmcontrol_element {
uint32_t tithreshold;
};
extern const struct capwap_message_elements_ops capwap_element_80211_ofdmcontrol_ops;
extern struct capwap_message_elements_ops capwap_element_80211_ofdmcontrol_ops;
#endif /* __CAPWAP_ELEMENT_80211_OFDMCONTROL_HEADER__ */

15
src/common/capwap_element_80211_rateset.c
View File

@ -35,13 +35,13 @@ static void* capwap_80211_rateset_element_parsing(capwap_message_elements_handle
length = func->read_ready(handle);
if (length < 3) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Rate Set element");
capwap_logging_debug("Invalid IEEE 802.11 Rate Set element");
return NULL;
}
length -= 1;
if (length > CAPWAP_RATESET_MAXLENGTH) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Rate Set element");
capwap_logging_debug("Invalid IEEE 802.11 Rate Set element");
return NULL;
}
@ -72,10 +72,9 @@ static void capwap_80211_rateset_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_rateset_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_rateset_element_create,
.parse = capwap_80211_rateset_element_parsing,
.clone = capwap_80211_rateset_element_clone,
.free = capwap_80211_rateset_element_free
struct capwap_message_elements_ops capwap_element_80211_rateset_ops = {
.create_message_element = capwap_80211_rateset_element_create,
.parsing_message_element = capwap_80211_rateset_element_parsing,
.clone_message_element = capwap_80211_rateset_element_clone,
.free_message_element = capwap_80211_rateset_element_free
};

7
src/common/capwap_element_80211_rateset.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_RATESET_HEADER__
#define __CAPWAP_ELEMENT_80211_RATESET_HEADER__
#define CAPWAP_ELEMENT_80211_RATESET_VENDOR 0
#define CAPWAP_ELEMENT_80211_RATESET_TYPE 1034
#define CAPWAP_ELEMENT_80211_RATESET (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_RATESET_VENDOR, .type = CAPWAP_ELEMENT_80211_RATESET_TYPE }
#define CAPWAP_ELEMENT_80211_RATESET 1034
#define CAPWAP_RATESET_MINLENGTH 2
#define CAPWAP_RATESET_MAXLENGTH 8
@ -15,6 +12,6 @@ struct capwap_80211_rateset_element {
uint8_t rateset[CAPWAP_RATESET_MAXLENGTH];
};
extern const struct capwap_message_elements_ops capwap_element_80211_rateset_ops;
extern struct capwap_message_elements_ops capwap_element_80211_rateset_ops;
#endif /* __CAPWAP_ELEMENT_80211_RATESET_HEADER__ */

13
src/common/capwap_element_80211_rsnaerrorreport.c
View File

@ -61,7 +61,7 @@ static void* capwap_80211_rsnaerrorreport_element_parsing(capwap_message_element
ASSERT(func != NULL);
if (func->read_ready(handle) != 40) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 RSNA Error Report From Station element");
capwap_logging_debug("Invalid IEEE 802.11 RSNA Error Report From Station element");
return NULL;
}
@ -100,10 +100,9 @@ static void capwap_80211_rsnaerrorreport_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_rsnaerrorreport_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_rsnaerrorreport_element_create,
.parse = capwap_80211_rsnaerrorreport_element_parsing,
.clone = capwap_80211_rsnaerrorreport_element_clone,
.free = capwap_80211_rsnaerrorreport_element_free
struct capwap_message_elements_ops capwap_element_80211_rsnaerrorreport_ops = {
.create_message_element = capwap_80211_rsnaerrorreport_element_create,
.parsing_message_element = capwap_80211_rsnaerrorreport_element_parsing,
.clone_message_element = capwap_80211_rsnaerrorreport_element_clone,
.free_message_element = capwap_80211_rsnaerrorreport_element_free
};

7
src/common/capwap_element_80211_rsnaerrorreport.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT_HEADER__
#define __CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT_HEADER__
#define CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT_VENDOR 0
#define CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT_TYPE 1035
#define CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT_VENDOR, .type = CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT_TYPE }
#define CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT 1035
struct capwap_80211_rsnaerrorreport_element {
uint8_t client[MACADDRESS_EUI48_LENGTH];
@ -19,6 +16,6 @@ struct capwap_80211_rsnaerrorreport_element {
uint32_t tkipreplays;
};
extern const struct capwap_message_elements_ops capwap_element_80211_rsnaerrorreport_ops;
extern struct capwap_message_elements_ops capwap_element_80211_rsnaerrorreport_ops;
#endif /* __CAPWAP_ELEMENT_80211_RSNA_ERROR_REPORT_HEADER__ */

15
src/common/capwap_element_80211_station.c
View File

@ -46,13 +46,13 @@ static void* capwap_80211_station_element_parsing(capwap_message_elements_handle
length = func->read_ready(handle);
if (length < 14) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Station element");
capwap_logging_debug("Invalid IEEE 802.11 Station element");
return NULL;
}
length -= 13;
if (length > CAPWAP_STATION_RATES_MAXLENGTH) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Station element");
capwap_logging_debug("Invalid IEEE 802.11 Station element");
return NULL;
}
@ -88,10 +88,9 @@ static void capwap_80211_station_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_station_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_station_element_create,
.parse = capwap_80211_station_element_parsing,
.clone = capwap_80211_station_element_clone,
.free = capwap_80211_station_element_free
struct capwap_message_elements_ops capwap_element_80211_station_ops = {
.create_message_element = capwap_80211_station_element_create,
.parsing_message_element = capwap_80211_station_element_parsing,
.clone_message_element = capwap_80211_station_element_clone,
.free_message_element = capwap_80211_station_element_free
};

7
src/common/capwap_element_80211_station.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_STATION_HEADER__
#define __CAPWAP_ELEMENT_80211_STATION_HEADER__
#define CAPWAP_ELEMENT_80211_STATION_VENDOR 0
#define CAPWAP_ELEMENT_80211_STATION_TYPE 1036
#define CAPWAP_ELEMENT_80211_STATION (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_STATION_VENDOR, .type = CAPWAP_ELEMENT_80211_STATION_TYPE }
#define CAPWAP_ELEMENT_80211_STATION 1036
#define CAPWAP_STATION_RATES_MAXLENGTH 128
@ -19,6 +16,6 @@ struct capwap_80211_station_element {
uint8_t supportedrates[CAPWAP_STATION_RATES_MAXLENGTH];
};
extern const struct capwap_message_elements_ops capwap_element_80211_station_ops;
extern struct capwap_message_elements_ops capwap_element_80211_station_ops;
#endif /* __CAPWAP_ELEMENT_80211_STATION_HEADER__ */

13
src/common/capwap_element_80211_stationkey.c
View File

@ -48,7 +48,7 @@ static void* capwap_80211_stationkey_element_parsing(capwap_message_elements_han
length = func->read_ready(handle);
if (length < 25) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Station Session Key element");
capwap_logging_debug("Invalid IEEE 802.11 Station Session Key element");
return NULL;
}
@ -96,10 +96,9 @@ static void capwap_80211_stationkey_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_stationkey_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_stationkey_element_create,
.parse = capwap_80211_stationkey_element_parsing,
.clone = capwap_80211_stationkey_element_clone,
.free = capwap_80211_stationkey_element_free
struct capwap_message_elements_ops capwap_element_80211_stationkey_ops = {
.create_message_element = capwap_80211_stationkey_element_create,
.parsing_message_element = capwap_80211_stationkey_element_parsing,
.clone_message_element = capwap_80211_stationkey_element_clone,
.free_message_element = capwap_80211_stationkey_element_free
};

7
src/common/capwap_element_80211_stationkey.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_HEADER__
#define __CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_HEADER__
#define CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_PROFILE_VENDOR 0
#define CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_PROFILE_TYPE 1038
#define CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_PROFILE (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_PROFILE_VENDOR, .type = CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_PROFILE_TYPE }
#define CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_PROFILE 1038
#define CAPWAP_STATION_SESSION_KEY_PAIRWISE_TSC_LENGTH 6
#define CAPWAP_STATION_SESSION_KEY_PAIRWISE_RSC_LENGTH 6
@ -21,6 +18,6 @@ struct capwap_80211_stationkey_element {
uint8_t* key;
};
extern const struct capwap_message_elements_ops capwap_element_80211_stationkey_ops;
extern struct capwap_message_elements_ops capwap_element_80211_stationkey_ops;
#endif /* __CAPWAP_ELEMENT_80211_STATION_SESSION_KEY_HEADER__ */

13
src/common/capwap_element_80211_stationqos.c
View File

@ -36,7 +36,7 @@ static void* capwap_80211_stationqos_element_parsing(capwap_message_elements_han
ASSERT(func != NULL);
if (func->read_ready(handle) != 8) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Station QoS Profile element");
capwap_logging_debug("Invalid IEEE 802.11 Station QoS Profile element");
return NULL;
}
@ -67,10 +67,9 @@ static void capwap_80211_stationqos_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_stationqos_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_stationqos_element_create,
.parse = capwap_80211_stationqos_element_parsing,
.clone = capwap_80211_stationqos_element_clone,
.free = capwap_80211_stationqos_element_free
struct capwap_message_elements_ops capwap_element_80211_stationqos_ops = {
.create_message_element = capwap_80211_stationqos_element_create,
.parsing_message_element = capwap_80211_stationqos_element_parsing,
.clone_message_element = capwap_80211_stationqos_element_clone,
.free_message_element = capwap_80211_stationqos_element_free
};

7
src/common/capwap_element_80211_stationqos.h
View File

@ -1,16 +1,13 @@
#ifndef __CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE_HEADER__
#define __CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE_HEADER__
#define CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE_VENDOR 0
#define CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE_TYPE 1037
#define CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE_VENDOR, .type = CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE_TYPE }
#define CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE 1037
struct capwap_80211_stationqos_element {
uint8_t address[MACADDRESS_EUI48_LENGTH];
uint8_t priority;
};
extern const struct capwap_message_elements_ops capwap_element_80211_stationqos_ops;
extern struct capwap_message_elements_ops capwap_element_80211_stationqos_ops;
#endif /* __CAPWAP_ELEMENT_80211_STATION_QOS_PROFILE_HEADER__ */

13
src/common/capwap_element_80211_statistics.c
View File

@ -91,7 +91,7 @@ static void* capwap_80211_statistics_element_parsing(capwap_message_elements_han
ASSERT(func != NULL);
if (func->read_ready(handle) != 80) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Statistics element");
capwap_logging_debug("Invalid IEEE 802.11 Statistics element");
return NULL;
}
@ -140,10 +140,9 @@ static void capwap_80211_statistics_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_statistics_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_statistics_element_create,
.parse = capwap_80211_statistics_element_parsing,
.clone = capwap_80211_statistics_element_clone,
.free = capwap_80211_statistics_element_free
struct capwap_message_elements_ops capwap_element_80211_statistics_ops = {
.create_message_element = capwap_80211_statistics_element_create,
.parsing_message_element = capwap_80211_statistics_element_parsing,
.clone_message_element = capwap_80211_statistics_element_clone,
.free_message_element = capwap_80211_statistics_element_free
};

7
src/common/capwap_element_80211_statistics.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_STATISTICS_HEADER__
#define __CAPWAP_ELEMENT_80211_STATISTICS_HEADER__
#define CAPWAP_ELEMENT_80211_STATISTICS_VENDOR 0
#define CAPWAP_ELEMENT_80211_STATISTICS_TYPE 1039
#define CAPWAP_ELEMENT_80211_STATISTICS (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_STATISTICS_VENDOR, .type = CAPWAP_ELEMENT_80211_STATISTICS_TYPE }
#define CAPWAP_ELEMENT_80211_STATISTICS 1039
struct capwap_80211_statistics_element {
uint8_t radioid;
@ -29,6 +26,6 @@ struct capwap_80211_statistics_element {
uint32_t qoscfpollsunusable;
};
extern const struct capwap_message_elements_ops capwap_element_80211_statistics_ops;
extern struct capwap_message_elements_ops capwap_element_80211_statistics_ops;
#endif /* __CAPWAP_ELEMENT_80211_STATISTICS_HEADER__ */

15
src/common/capwap_element_80211_supportedrates.c
View File

@ -35,13 +35,13 @@ static void* capwap_80211_supportedrates_element_parsing(capwap_message_elements
length = func->read_ready(handle);
if (length < 3) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Supported Rates element");
capwap_logging_debug("Invalid IEEE 802.11 Supported Rates element");
return NULL;
}
length -= 1;
if (length > CAPWAP_RATESET_MAXLENGTH) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Supported Rates element");
capwap_logging_debug("Invalid IEEE 802.11 Supported Rates element");
return NULL;
}
@ -72,10 +72,9 @@ static void capwap_80211_supportedrates_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_supportedrates_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_supportedrates_element_create,
.parse = capwap_80211_supportedrates_element_parsing,
.clone = capwap_80211_supportedrates_element_clone,
.free = capwap_80211_supportedrates_element_free
struct capwap_message_elements_ops capwap_element_80211_supportedrates_ops = {
.create_message_element = capwap_80211_supportedrates_element_create,
.parsing_message_element = capwap_80211_supportedrates_element_parsing,
.clone_message_element = capwap_80211_supportedrates_element_clone,
.free_message_element = capwap_80211_supportedrates_element_free
};

7
src/common/capwap_element_80211_supportedrates.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_SUPPORTEDRATES_HEADER__
#define __CAPWAP_ELEMENT_80211_SUPPORTEDRATES_HEADER__
#define CAPWAP_ELEMENT_80211_SUPPORTEDRATES_VENDOR 0
#define CAPWAP_ELEMENT_80211_SUPPORTEDRATES_TYPE 1040
#define CAPWAP_ELEMENT_80211_SUPPORTEDRATES (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_SUPPORTEDRATES_VENDOR, .type = CAPWAP_ELEMENT_80211_SUPPORTEDRATES_TYPE }
#define CAPWAP_ELEMENT_80211_SUPPORTEDRATES 1040
#define CAPWAP_SUPPORTEDRATES_MINLENGTH 2
#define CAPWAP_SUPPORTEDRATES_MAXLENGTH 8
@ -15,6 +12,6 @@ struct capwap_80211_supportedrates_element {
uint8_t supportedrates[CAPWAP_SUPPORTEDRATES_MAXLENGTH];
};
extern const struct capwap_message_elements_ops capwap_element_80211_supportedrates_ops;
extern struct capwap_message_elements_ops capwap_element_80211_supportedrates_ops;
#endif /* __CAPWAP_ELEMENT_80211_SUPPORTEDRATES_HEADER__ */

13
src/common/capwap_element_80211_txpower.c
View File

@ -35,7 +35,7 @@ static void* capwap_80211_txpower_element_parsing(capwap_message_elements_handle
ASSERT(func != NULL);
if (func->read_ready(handle) != 4) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Tx Power element");
capwap_logging_debug("Invalid IEEE 802.11 Tx Power element");
return NULL;
}
@ -66,10 +66,9 @@ static void capwap_80211_txpower_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_txpower_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_txpower_element_create,
.parse = capwap_80211_txpower_element_parsing,
.clone = capwap_80211_txpower_element_clone,
.free = capwap_80211_txpower_element_free
struct capwap_message_elements_ops capwap_element_80211_txpower_ops = {
.create_message_element = capwap_80211_txpower_element_create,
.parsing_message_element = capwap_80211_txpower_element_parsing,
.clone_message_element = capwap_80211_txpower_element_clone,
.free_message_element = capwap_80211_txpower_element_free
};

7
src/common/capwap_element_80211_txpower.h
View File

@ -1,16 +1,13 @@
#ifndef __CAPWAP_ELEMENT_80211_TXPOWER_HEADER__
#define __CAPWAP_ELEMENT_80211_TXPOWER_HEADER__
#define CAPWAP_ELEMENT_80211_TXPOWER_VENDOR 0
#define CAPWAP_ELEMENT_80211_TXPOWER_TYPE 1041
#define CAPWAP_ELEMENT_80211_TXPOWER (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_TXPOWER_VENDOR, .type = CAPWAP_ELEMENT_80211_TXPOWER_TYPE }
#define CAPWAP_ELEMENT_80211_TXPOWER 1041
struct capwap_80211_txpower_element {
uint8_t radioid;
uint16_t currenttxpower;
};
extern const struct capwap_message_elements_ops capwap_element_80211_txpower_ops;
extern struct capwap_message_elements_ops capwap_element_80211_txpower_ops;
#endif /* __CAPWAP_ELEMENT_80211_TXPOWER_HEADER__ */

17
src/common/capwap_element_80211_txpowerlevel.c
View File

@ -40,13 +40,13 @@ static void* capwap_80211_txpowerlevel_element_parsing(capwap_message_elements_h
length = func->read_ready(handle);
if (length < 4) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Tx Power Level element");
capwap_logging_debug("Invalid IEEE 802.11 Tx Power Level element");
return NULL;
}
length -= 2;
if ((length % sizeof(uint16_t)) || ((length / sizeof(uint16_t)) > CAPWAP_TXPOWERLEVEL_MAXLENGTH)) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Tx Power Level element");
capwap_logging_debug("Invalid IEEE 802.11 Tx Power Level element");
return NULL;
}
@ -60,7 +60,7 @@ static void* capwap_80211_txpowerlevel_element_parsing(capwap_message_elements_h
/* Check */
if ((data->numlevels * sizeof(uint16_t)) != length) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Tx Power Level element");
capwap_logging_debug("Invalid IEEE 802.11 Tx Power Level element");
capwap_free(data);
return NULL;
}
@ -87,10 +87,9 @@ static void capwap_80211_txpowerlevel_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_txpowerlevel_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_txpowerlevel_element_create,
.parse = capwap_80211_txpowerlevel_element_parsing,
.clone = capwap_80211_txpowerlevel_element_clone,
.free = capwap_80211_txpowerlevel_element_free
struct capwap_message_elements_ops capwap_element_80211_txpowerlevel_ops = {
.create_message_element = capwap_80211_txpowerlevel_element_create,
.parsing_message_element = capwap_80211_txpowerlevel_element_parsing,
.clone_message_element = capwap_80211_txpowerlevel_element_clone,
.free_message_element = capwap_80211_txpowerlevel_element_free
};

7
src/common/capwap_element_80211_txpowerlevel.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_TXPOWERLEVEL_HEADER__
#define __CAPWAP_ELEMENT_80211_TXPOWERLEVEL_HEADER__
#define CAPWAP_ELEMENT_80211_TXPOWERLEVEL_VENDOR 0
#define CAPWAP_ELEMENT_80211_TXPOWERLEVEL_TYPE 1042
#define CAPWAP_ELEMENT_80211_TXPOWERLEVEL (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_TXPOWERLEVEL_VENDOR, .type = CAPWAP_ELEMENT_80211_TXPOWERLEVEL_TYPE }
#define CAPWAP_ELEMENT_80211_TXPOWERLEVEL 1042
#define CAPWAP_TXPOWERLEVEL_MAXLENGTH 8
@ -14,6 +11,6 @@ struct capwap_80211_txpowerlevel_element {
uint16_t powerlevel[CAPWAP_TXPOWERLEVEL_MAXLENGTH];
};
extern const struct capwap_message_elements_ops capwap_element_80211_txpowerlevel_ops;
extern struct capwap_message_elements_ops capwap_element_80211_txpowerlevel_ops;
#endif /* __CAPWAP_ELEMENT_80211_TXPOWERLEVEL_HEADER__ */

13
src/common/capwap_element_80211_updatestationqos.c
View File

@ -47,7 +47,7 @@ static void* capwap_80211_updatestationqos_element_parsing(capwap_message_elemen
ASSERT(func != NULL);
if (func->read_ready(handle) != 14) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Update Station QoS element");
capwap_logging_debug("Invalid IEEE 802.11 Update Station QoS element");
return NULL;
}
@ -83,10 +83,9 @@ static void capwap_80211_updatestationqos_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_updatestationqos_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_updatestationqos_element_create,
.parse = capwap_80211_updatestationqos_element_parsing,
.clone = capwap_80211_updatestationqos_element_clone,
.free = capwap_80211_updatestationqos_element_free
struct capwap_message_elements_ops capwap_element_80211_updatestationqos_ops = {
.create_message_element = capwap_80211_updatestationqos_element_create,
.parsing_message_element = capwap_80211_updatestationqos_element_parsing,
.clone_message_element = capwap_80211_updatestationqos_element_clone,
.free_message_element = capwap_80211_updatestationqos_element_free
};

7
src/common/capwap_element_80211_updatestationqos.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS_HEADER__
#define __CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS_HEADER__
#define CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS_VENDOR 0
#define CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS_TYPE 1043
#define CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS_VENDOR, .type = CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS_TYPE }
#define CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS 1043
#define CAPWAP_UPDATE_STATION_QOS_SUBELEMENTS 4
@ -22,6 +19,6 @@ struct capwap_80211_updatestationqos_element {
struct capwap_80211_updatestationqos_subelement qos[CAPWAP_UPDATE_STATION_QOS_SUBELEMENTS];
};
extern const struct capwap_message_elements_ops capwap_element_80211_updatestationqos_ops;
extern struct capwap_message_elements_ops capwap_element_80211_updatestationqos_ops;
#endif /* __CAPWAP_ELEMENT_80211_UPDATE_STATION_QOS_HEADER__ */

15
src/common/capwap_element_80211_updatewlan.c
View File

@ -73,7 +73,7 @@ static void* capwap_80211_updatewlan_element_parsing(capwap_message_elements_han
length = func->read_ready(handle);
if (length < 8) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Update WLAN element");
capwap_logging_debug("Invalid IEEE 802.11 Update WLAN element");
return NULL;
}
@ -93,7 +93,7 @@ static void* capwap_80211_updatewlan_element_parsing(capwap_message_elements_han
if (length != data->keylength) {
capwap_80211_updatewlan_element_free((void*)data);
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 Update WLAN element");
capwap_logging_debug("Invalid IEEE 802.11 Update WLAN element");
return NULL;
} else if (data->keylength > 0) {
data->key = (uint8_t*)capwap_alloc(data->keylength);
@ -104,10 +104,9 @@ static void* capwap_80211_updatewlan_element_parsing(capwap_message_elements_han
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_updatewlan_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_updatewlan_element_create,
.parse = capwap_80211_updatewlan_element_parsing,
.clone = capwap_80211_updatewlan_element_clone,
.free = capwap_80211_updatewlan_element_free
struct capwap_message_elements_ops capwap_element_80211_updatewlan_ops = {
.create_message_element = capwap_80211_updatewlan_element_create,
.parsing_message_element = capwap_80211_updatewlan_element_parsing,
.clone_message_element = capwap_80211_updatewlan_element_clone,
.free_message_element = capwap_80211_updatewlan_element_free
};

7
src/common/capwap_element_80211_updatewlan.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_UPDATE_WLAN_HEADER__
#define __CAPWAP_ELEMENT_80211_UPDATE_WLAN_HEADER__
#define CAPWAP_ELEMENT_80211_UPDATE_WLAN_VENDOR 0
#define CAPWAP_ELEMENT_80211_UPDATE_WLAN_TYPE 1044
#define CAPWAP_ELEMENT_80211_UPDATE_WLAN (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_UPDATE_WLAN_VENDOR, .type = CAPWAP_ELEMENT_80211_UPDATE_WLAN_TYPE }
#define CAPWAP_ELEMENT_80211_UPDATE_WLAN 1044
#define CAPWAP_UPDATE_WLAN_CAPABILITY_ESS 0x8000
#define CAPWAP_UPDATE_WLAN_CAPABILITY_IBSS 0x4000
@ -37,6 +34,6 @@ struct capwap_80211_updatewlan_element {
uint8_t* key;
};
extern const struct capwap_message_elements_ops capwap_element_80211_updatewlan_ops;
extern struct capwap_message_elements_ops capwap_element_80211_updatewlan_ops;
#endif /* __CAPWAP_ELEMENT_80211_UPDATE_WLAN_HEADER__ */

13
src/common/capwap_element_80211_wtpqos.c
View File

@ -51,7 +51,7 @@ static void* capwap_80211_wtpqos_element_parsing(capwap_message_elements_handle
ASSERT(func != NULL);
if (func->read_ready(handle) != 34) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 WTP QoS element");
capwap_logging_debug("Invalid IEEE 802.11 WTP QoS element");
return NULL;
}
@ -91,10 +91,9 @@ static void capwap_80211_wtpqos_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_wtpqos_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_wtpqos_element_create,
.parse = capwap_80211_wtpqos_element_parsing,
.clone = capwap_80211_wtpqos_element_clone,
.free = capwap_80211_wtpqos_element_free
struct capwap_message_elements_ops capwap_element_80211_wtpqos_ops = {
.create_message_element = capwap_80211_wtpqos_element_create,
.parsing_message_element = capwap_80211_wtpqos_element_parsing,
.clone_message_element = capwap_80211_wtpqos_element_clone,
.free_message_element = capwap_80211_wtpqos_element_free
};

7
src/common/capwap_element_80211_wtpqos.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_WTP_QOS_HEADER__
#define __CAPWAP_ELEMENT_80211_WTP_QOS_HEADER__
#define CAPWAP_ELEMENT_80211_WTP_QOS_VENDOR 0
#define CAPWAP_ELEMENT_80211_WTP_QOS_TYPE 1045
#define CAPWAP_ELEMENT_80211_WTP_QOS (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_WTP_QOS_VENDOR, .type = CAPWAP_ELEMENT_80211_WTP_QOS_TYPE }
#define CAPWAP_ELEMENT_80211_WTP_QOS 1045
#define CAPWAP_WTP_QOS_SUBELEMENT_VOICE 0
#define CAPWAP_WTP_QOS_SUBELEMENT_VIDEO 1
@ -32,6 +29,6 @@ struct capwap_80211_wtpqos_element {
struct capwap_80211_wtpqos_subelement qos[CAPWAP_WTP_QOS_SUBELEMENTS];
};
extern const struct capwap_message_elements_ops capwap_element_80211_wtpqos_ops;
extern struct capwap_message_elements_ops capwap_element_80211_wtpqos_ops;
#endif /* __CAPWAP_ELEMENT_80211_WTP_QOS_HEADER__ */

13
src/common/capwap_element_80211_wtpradioconf.c
View File

@ -44,7 +44,7 @@ static void* capwap_80211_wtpradioconf_element_parsing(capwap_message_elements_h
ASSERT(func != NULL);
if (func->read_ready(handle) != 16) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 WTP WLAN Radio Configuration element");
capwap_logging_debug("Invalid IEEE 802.11 WTP WLAN Radio Configuration element");
return NULL;
}
@ -79,10 +79,9 @@ static void capwap_80211_wtpradioconf_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_wtpradioconf_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_ARRAY,
.create = capwap_80211_wtpradioconf_element_create,
.parse = capwap_80211_wtpradioconf_element_parsing,
.clone = capwap_80211_wtpradioconf_element_clone,
.free = capwap_80211_wtpradioconf_element_free
struct capwap_message_elements_ops capwap_element_80211_wtpradioconf_ops = {
.create_message_element = capwap_80211_wtpradioconf_element_create,
.parsing_message_element = capwap_80211_wtpradioconf_element_parsing,
.clone_message_element = capwap_80211_wtpradioconf_element_clone,
.free_message_element = capwap_80211_wtpradioconf_element_free
};

7
src/common/capwap_element_80211_wtpradioconf.h
View File

@ -1,10 +1,7 @@
#ifndef __CAPWAP_ELEMENT_80211_WTP_RADIO_CONF_HEADER__
#define __CAPWAP_ELEMENT_80211_WTP_RADIO_CONF_HEADER__
#define CAPWAP_ELEMENT_80211_WTP_RADIO_CONF_VENDOR 0
#define CAPWAP_ELEMENT_80211_WTP_RADIO_CONF_TYPE 1046
#define CAPWAP_ELEMENT_80211_WTP_RADIO_CONF (struct capwap_message_element_id){ .vendor = CAPWAP_ELEMENT_80211_WTP_RADIO_CONF_VENDOR, .type = CAPWAP_ELEMENT_80211_WTP_RADIO_CONF_TYPE }
#define CAPWAP_ELEMENT_80211_WTP_RADIO_CONF 1046
#define CAPWAP_WTP_RADIO_CONF_COUNTRY_LENGTH 4
@ -21,6 +18,6 @@ struct capwap_80211_wtpradioconf_element {
uint8_t country[CAPWAP_WTP_RADIO_CONF_COUNTRY_LENGTH];
};
extern const struct capwap_message_elements_ops capwap_element_80211_wtpradioconf_ops;
extern struct capwap_message_elements_ops capwap_element_80211_wtpradioconf_ops;
#endif /* __CAPWAP_ELEMENT_80211_WTP_RADIO_CONF_HEADER__ */

13
src/common/capwap_element_80211_wtpradiofailalarm.c
View File

@ -35,7 +35,7 @@ static void* capwap_80211_wtpradiofailalarm_element_parsing(capwap_message_eleme
ASSERT(func != NULL);
if (func->read_ready(handle) != 4) {
log_printf(LOG_DEBUG, "Invalid IEEE 802.11 WTP Radio Fail Alarm Indication element");
capwap_logging_debug("Invalid IEEE 802.11 WTP Radio Fail Alarm Indication element");
return NULL;
}
@ -67,10 +67,9 @@ static void capwap_80211_wtpradiofailalarm_element_free(void* data) {
}
/* */
const struct capwap_message_elements_ops capwap_element_80211_wtpradiofailalarm_ops = {
.category = CAPWAP_MESSAGE_ELEMENT_SINGLE,
.create = capwap_80211_wtpradiofailalarm_element_create,
.parse = capwap_80211_wtpradiofailalarm_element_parsing,
.clone = capwap_80211_wtpradiofailalarm_element_clone,
.free = capwap_80211_wtpradiofailalarm_element_free
struct capwap_message_elements_ops capwap_element_80211_wtpradiofailalarm_ops = {
.create_message_element = capwap_80211_wtpradiofailalarm_element_create,
.parsing_message_element = capwap_80211_wtpradiofailalarm_element_parsing,
.clone_message_element = capwap_80211_wtpradiofailalarm_element_clone,
.free_message_element = capwap_80211_wtpradiofailalarm_element_free
};

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