/*
This file is part of libcapwap.
libcapwap is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
libcapwap is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar. If not, see .
*/
/**
* @file
* @brief CAPWAP desfinitions
*/
#ifndef __CAPWAP_H
#define __CAPWAP_H
#include
#include
#include
#include
#include
#include "conn.h"
#include "lwapp.h"
#include "strlist.h"
//#include "cw.h"
/* capwap version and iana number */
/**
*@defgroup CAPWAPConstants CAPWAP Constants
*@{
*/
/** CAPWAP Version */
#define CAPWAP_VERSION ((uint8_t)0)
#define CWIANA_ENTERPRISE_NUMBER 0
/** CAPWAP Control Port*/
#define CAPWAP_CONTROL_PORT 5246
/** CAPWAP Control Port as String */
#define CAPWAP_CONTROL_PORT_STR "5246"
/** CAPWAP Data Port */
#define CAPWAP_DATA_PPORT 5247
/** CAWPAP DataPort as String */
#define CAPWAP_DATA_PPORT_STR "5247"
/**@}*/
/* transport header flags */
#define CWTH_FLAGS_R1 0x01 /* bit 0 reserved 1 */
#define CWTH_FLAGS_R2 0x02 /* bit 1 reserved 2 */
#define CWTH_FLAGS_R3 0x04 /* bit 2 reserved 3 */
#define CWTH_FLAGS_K 0x08 /* bit 3 Keep alive flag */
#define CWTH_FLAGS_M 0x10 /* bit 4 MAC Adress field present */
#define CWTH_FLAGS_W 0x20 /* bit 5 wireless info present */
#define CWTH_FLAGS_L 0x40 /* bit 6 last fragment */
#define CWTH_FLAGS_F 0x80 /* bit 7 fragment */
#define CWTH_FLAGS_T 0x100 /* bit 8 type of payload frame */
/**
* CAWAP header flags.
*/
#define CW_FLAG_HDR_R1 0x01 /* bit 0 reserved 1 */
#define CW_FLAG_HDR_R2 0x02 /* bit 1 reserved 2 */
#define CW_FLAG_HDR_R3 0x04 /* bit 2 reserved 3 */
#define CW_FLAG_HDR_K 0x08 /* bit 3 Keep alive flag */
#define CW_FLAG_HDR_M 0x10 /* bit 4 MAC Adress field present */
#define CW_FLAG_HDR_W 0x20 /* bit 5 wireless info present */
#define CW_FLAG_HDR_L 0x40 /* bit 6 last fragment */
#define CW_FLAG_HDR_F 0x80 /* bit 7 fragment */
#define CW_FLAG_HDR_T 0x100 /* bit 8 type of payload frame */
/* wireless binding ids */
#define CW_WBID_RESERVED1 0
#define CW_WBID_IEEE80211 1
#define CW_WBID_RESERVED2 2
#define CW_WBID_EPCGLOBAL 3
#define CAPWAP_PACKET_PREAMBLE (CAPWAP_VERSION<<4)
#define CAPWAP_DTLS_PACKET_PREAMBLE (CAPWAP_VERSION<<4|1)
/*
* control header stuff
*/
/**
*@addtogroup CAPWAPConstants
*@{
*/
/**
* CAPWAP message types as defined in RFC 5416
*/
enum cw_message_types{
/**Discovery Request = 1*/
CW_MSG_DISCOVERY_REQUEST = 1,
/** Discovery Response = 2 */
CW_MSG_DISCOVERY_RESPONSE = 2,
/** Join Request = 3 */
CW_MSG_JOIN_REQUEST = 3,
/** Join Response = 4 */
CW_MSG_JOIN_RESPONSE = 4,
/** Config. Status Request = 5*/
CW_MSG_CONFIGURATION_STATUS_REQUEST = 5,
/** Config. Status Response = 6 */
CW_MSG_CONFIGURATION_STATUS_RESPONSE = 6,
/** Config. Update Request = 7 */
CW_MSG_CONFIGURATION_UPDATE_REQUEST = 7,
CW_MSG_CONFIGURATION_UPDATE_RESPONSE = 8,
CW_MSG_WTP_EVENT_REQUEST = 9,
CW_MSG_WTP_EVENT_RESPONSE = 10,
CW_MSG_CHANGE_STATE_EVENT_REQUEST = 11,
CW_MSG_CHANGE_STATE_EVENT_RESPONSE = 12,
CW_MSG_ECHO_REQUEST = 13,
CW_MSG_ECHO_RESPONSE = 14,
CW_MSG_IMAGE_DATA_REQUEST = 15,
CW_MSG_IMAGE_DATA_RESPONSE = 16,
CW_MSG_RESET_REQUEST = 17,
CW_MSG_RESET_RESPONSE = 18,
CW_MSG_PRIMARY_DISCOVERY_REQUEST = 19,
CW_MSG_PRIMARY_DISCOVERY_RESPONSE = 20,
CW_MSG_DATA_TRANSFER_REQUEST = 21,
CW_MSG_DATA_TRANSFER_RESPONSE = 22,
CW_MSG_CLEAR_CONFIGURATION_REQUEST = 23,
CW_MSG_CLEAR_CONFIGURATION_RESPONSE = 24,
CW_STATION_CONFIGURATION_REQUEST = 25,
CW_STATION_CONFIGURATION_RESPONSE = 26,
CW_MSG_MAXMSG = 26
};
//cw_msg_t;
/**@}*/
/*
#define CW_MSG_DISCOVERY_REQUEST 1
#define CW_MSG_DISCOVERY_RESPONSE 2
#define CW_MSG_JOIN_REQUEST 3
#define CW_MSG_JOIN_RESPONSE 4
#define CW_MSG_CONFIGURATION_STATUS_REQUEST 5
#define CW_MSG_CONFIGURATION_STATUS_RESPONSE 6
#define CW_MSG_CONFIGURATION_UPDATE_REQUEST 7
#define CW_MSG_CONFIGURATION_UPDATE_RESPONSE 8
#define CW_MSG_WTP_EVENT_REQUEST 9
#define CW_MSG_WTP_EVENT_RESPONSE 10
#define CW_MSG_CHANGE_STATE_EVENT_REQUEST 11
#define CW_MSG_CHANGE_STATE_EVENT_RESPONSE 12
#define CW_MSG_ECHO_REQUEST 13
#define CW_MSG_ECHO_RESPONSE 14
#define CW_MSG_IMAGE_DATA_REQUEST 15
#define CW_MSG_IMAGE_DATA_RESPONSE 16
#define CW_MSG_RESET_REQUEST 17
#define CW_MSG_RESET_RESPONSE 18
#define CW_MSG_PRIMARY_DISCOVERY_REQUEST 19
#define CW_MSG_PRIMARY_DISCOVERY_RESPONSE 20
#define CW_MSG_DATA_TRANSFER_REQUEST 21
#define CW_MSG_DATA_TRANSFER_RESPONSE 22
#define CW_MSG_CLEAR_CONFIGURATION_REQUEST 23
#define CW_MSG_CLEAR_CONFIGURATION_RESPONSE 24
#define CW_STATION_CONFIGURATION_REQUEST 25
#define CW_STATION_CONFIGURATION_RESPONSE 26
#define CW_MSG_MAXMSG 26
*/
/**
* CAPWAP message elements as defined in RFC 5415
*/
#define CW_ELEM_AC_DESCRIPTOR 1
#define CW_ELEM_AC_IPV4_LIST 2
#define CW_ELEM_AC_IPV6_LIST 3
#define CW_ELEM_AC_NAME 4
#define CW_ELEM_AC_NAME_WITH_PRIORITY 5
#define CW_ELEM_AC_NAME_WITH_INDEX CW_ELEM_AC_NAME_WITH_PRIORITY /* Draft 7 naming */
#define CW_ELEM_AC_TIMESTAMP 6
#define CW_ELEM_ADD_MAC_ACL_ENTRY 7
#define CW_ELEM_ADD_STATION 8
#define CW_ELEM_RESERVED_9 9
#define CW_ELEM_CAPWAP_CONTROL_IPV4_ADDRESS 10
#define CW_ELEM_CAPWAP_CONTROL_IPV6_ADDRESS 11
#define CW_ELEM_CAPWAP_LOCAL_IPV4_ADDRESS 30
#define CW_ELEM_CAPWAP_LOCAL_IPV6_ADDRESS 50
#define CW_ELEM_CAPWAP_TIMERS 12
#define CW_ELEM_CAPWAP_TRANSPORT_PROTOCOL 51 /* not in draft 7 */
#define CW_ELEM_DATA_TRANSFER_DATA 13
#define CW_ELEM_DATA_TRANSFER_MODE 14
#define CW_ELEM_DECRYPTION_ERROR_REPORT 15
#define CW_ELEM_DECRYPTION_ERROR_REPORT_PERIOD 16
#define CW_ELEM_DELETE_MAC_ACL_ENTRY 17
#define CW_ELEM_DELETE_STATION 18
#define CW_ELEM_RESERVED_19 19
#define CW_ELEM_DISCOVERY_TYPE 20
#define CW_ELEM_DUPLICATE_IPV4_ADDRESS 21
#define CW_ELEM_DUPLICATE_IPV6_ADRESS 22
#define CW_ELEM_ECN_SUPPORT 53
#define CW_ELEM_IDLE_TIMEOUT 23
#define CW_ELEM_IMAGE_DATA 24
#define CW_ELEM_IMAGE_IDENTIFIER 25
#define CW_ELEM_IMAGE_INFORMATION 26
#define CW_ELEM_INITIATE_DOWNLOAD 27
#define CW_ELEM_LOCATION_DATA 28
#define CW_ELEM_MAXIMUM_MESSAGE_LENGTH 29
#define CW_ELEM_MTU_DISCOVERY_PADDING 52
#define CW_ELEM_RADIO_ADMINISTRATIVE_STATE 31
#define CW_ELEM_RADIO_OPERATIONAL_STATE 32
#define CW_ELEM_RESULT_CODE 33
#define CW_ELEM_RETURNED_MESSAGE_ELEMENT 34
#define CW_ELEM_SESSION_ID 35
#define CW_ELEM_STATISTICS_TIMER 36
#define CW_ELEM_VENDOR_SPECIFIC_PAYLOAD 37
#define CW_ELEM_WTP_BOARD_DATA 38
#define CW_ELEM_WTP_DESCRIPTOR 39
#define CW_ELEM_WTP_FALLBACK 40
#define CW_ELEM_WTP_FRAME_TUNNEL_MODE 41
#define CW_ELEM_RESERVED_42 42
#define CW_ELEM_RESERVED_43 43
#define CW_ELEM_WTP_MAC_TYPE 44
#define CW_ELEM_WTP_NAME 45
#define CW_ELEM_RESERVED_46 46
#define CW_ELEM_WTP_RADIO_STATISTICS 47
#define CW_ELEM_WTP_REBOOT_STATISTICS 48
#define CW_ELEM_WTP_STATIC_IP_ADDRESS_INFORMATION 49
#define CW_ELEM_WTP_STATIC_IP_ADDR_INFO 49
/* Cisco's CAPWAP definitions (CAPWAP draft 7) */
#define CW_ELEM_WTP_IPV4_IP_ADDRESS 42
#define CW_ELEM_WTP_IPV6_IP_ADDRESS 43
/* pseudo message elements, defined for libcapwap */
#define XCWMSGELEM_CAPWAP_LOCAL_IP_ADDRESS 0x10000 /* means LOCAL_IPV4 or IPV6 ADRESS */
#define XCWMSGELEM_CAPWAP_CONTROL_IP_ADDRESS 0x20000 /* means LOCAL_IPV4 or IPV6 ADRESS */
#define XCWMSGELEM_CAPWAP_RADIO_INFO 0x30000 /* a radio info element */
/* wtp board data subelements */
#define CW_BOARDDATA_MODELNO 0
#define CW_BOARDDATA_SERIALNO 1
#define CW_BOARDDATA_BOARDID 2
#define CW_BOARDDATA_REVISION 3
#define CW_BOARDDATA_MACADDRESS 4
/* AC Security flags for authentication */
#define CW_FLAG_AC_SECURITY_R 1 /* Reserved */
#define CW_FLAG_AC_SECURITY_X 2 /* X.509 */
#define CW_FLAG_AC_SECURITY_S 4 /* DTLS psk */
#define CW_FLAG_RMAC_RESERVED 0
#define CW_FLAG_RMAC_SUPPORTED 1
#define CW_FLAG_RMAC_NOT_SUPPORTED 2
#define CW_SUBELEM_WTP_HARDWARE_VERSION 0
#define CW_SUBELEM_WTP_SOFTWARE_VERSION 1
#define CW_SUBELEM_WTP_BOOTLOADER_VERSION 2
#define CW_SUBELEM_WTP_OTHERSOFTWARE_VERSION 3
#define CW_SUBELEM_AC_HARDWARE_VERSION 4
#define CW_SUBELEM_AC_SOFTWARE_VERSION 5
//#include "wtpinfo.h"
//#include "acinfo.h"
/* Frame tunnnel mode bits */
#define WTP_FRAME_TUNNEL_MODE_R 1 /* Reserved */
#define WTP_FRAME_TUNNEL_MODE_L 2 /* Local bridging */
#define WTP_FRAME_TUNNEL_MODE_E 4 /* 802.3 mode */
#define WTP_FRAME_TUNNEL_MODE_N 8 /* native mode */
#include "radioinfo.h"
#define CW_DISCOVERY_TYPE_UNKNOWN 0
#define CW_DISCOVERY_TYPE_STATIC 1
#define CW_DISCOVERY_TYPE_DHCP 2
#define CW_DISCOVERY_TYPE_DNS 3
#define CW_DISCOVERY_TYPE_AC_REFERRAL 4
/* wtp mac types */
#define WTP_MAC_TYPE_LOCAL 0
#define WTP_MAC_TYPE_SPLIT 1
#define WTP_MAC_TYPE_BOTH 2
//#define CWMSG_MAX_SIZE 65536
#define CWMSG_MAX_SIZE 2048
/* capwap timer default values */
#define CAPWAP_DISCOVERY_INTERVAL 5
#define CAPWAP_MAX_DISCOVERY_INTERVAL 20
#define CAPWAP_RETRANSMIT_INTERVAL 3
#define CAPWAP_MAX_DISCOVERIES 10
#define CAPWAP_MAX_RETRANSMIT 5
#define CAPWAP_SILENT_INTERVAL 30
#define CAPWAP_ECHO_INTERVAL 30
#define CAPWAP_WAIT_DTLS 60
#define CAPWAP_WAIT_JOIN 60
#define CAPWAP_TIMERS ((CAPWAP_DISCOVERY_INTERVAL << 8) | CAPWAP_ECHO_INTERVAL)
//#define CAPWAP_CIPHER "PSK-AES128-CBC-SHA:"
//#define CAPWAP_CIPHER "AES128-SHA"
#ifdef WITH_GNUTLS
#define CAPWAP_CIPHER "NORMAL"
#else
#define CAPWAP_CIPHER "ALL"
#endif
/* AC descriptor security flags */
#define AC_SECURITY_X 2 /* X.509 */
#define AC_SECURITY_S 4 /* PSK support */
/* AC dtls policy flags */
#define CW_FLAG_DTLS_POLICY_R 1 /* Clear data channel support */
#define CW_FLAG_DTLS_POLICY_C 2 /* Clear data channel support */
#define CW_FLAG_DTLS_POLICY_D 4 /* DTLS Data channel support */
struct cwimage_data {
uint8_t *data;
uint8_t type;
int len;
uint32_t vendor_id;
uint8_t *identifier;
};
/*
struct cwimage_identifier{
uint32_t vendor_id;
char *name;
};
*/
//extern void cwmsg_addelem_wtp_radio_infos(struct cwmsg * cwmsg,struct wtpinfo * wtpinfo);
extern void cwmsg_addelem_wtp_radio_infos(struct cwmsg *msg,
struct radioinfo *radioinfos);
//extern void cwmsg_addelem_result_code(struct cwmsg *msg, int rc);
extern void cwmsg_addelem_vendor_specific_payload(struct cwmsg *msg, int vendor_id,
int type, uint8_t * payload, int len);
extern int hdr_print(char *str, uint8_t * packet, int len);
extern int cw_readelem_ecn_support(uint8_t * ecn_support, int type, uint8_t * msgelem,
int len);
//extern int cw_readelem_maximum_message_length(uint16_t * dst, int type, uint8_t * msgelem,
// int len);
//extern int cw_readelem_ac_name(uint8_t ** dst, int type, uint8_t * msgelem, int len);
//extern int cw_readelem_wtp_reboot_statistics(struct wtp_reboot_statistics *s, int type,
// uint8_t * msgelem, int len);
//extern int cw_readelem_cw_local_ip_addr(struct sockaddr *local_ip, int type,
// uint8_t * msgelem, int len);
//extern int cw_readelem_radio_administrative_state(struct radioinfo *radioinfo, int type,
// uint8_t * msgelem, int len);
//extern int cw_readelem_radio_operational_state(struct radioinfo *radioinfo, int type,
// uint8_t * msgelem, int len);
extern int cw_readelem_statistics_timer(uint16_t * timer, int type, uint8_t * msgelem,
int len);
extern int cw_readelem_result_code(uint32_t * result_code, int type, uint8_t * msgelem,
int len);
extern int cw_readelem_mtu_discovery_padding(int type, uint8_t * msgelem, int len);
extern int cw_readelem_vendor_specific_payload(void *data, int msgtype, int elemtype,
uint8_t * msgelem, int len);
#define CW_VENDOR_ID_FSF 11591
#define CW_VENDOR_ID_ZYXEL 890
#define CW_VENDOR_ID_CISCO LW_VENDOR_ID_CISCO
#define CW_VENDOR_ID_LANCOM 2356
#define CW_VENDOR_ID_FORTINET 12356
enum cw_reboot_failure_types {
CW_REBOOT_TYPE_NOT_SUPPORTED=0,
CW_REBOOT_TYPE_AC_INITIATED=1,
CW_REBOOT_TYPE_LINK_FAILURE=2,
CW_REBOOT_TYPE_SOFTWARE_FAILURE=3,
CW_REBOOT_TYPE_HARDWARE_FAILURE=4,
CW_REBOOT_TYPE_OTHER_FAILURE=5,
CW_REBOOT_TYPE_FAILURE_ONKNOWN
};
#define CW_RESULT_SUCCESS 0
#define CW_RESULT_MISSING_AC_LIST 1
#define CW_RESULT_SUCCESS_NAT 2
#define CW_RESULT_JOIN_FAILURE 3
#define CW_RESULT_JOIN_RESOURCE_DEPLETION 4
#define CW_RESULT_JOIN_UNKNOWN_SOURCE 5
#define CW_RESULT_JOIN_INCORRECT_DATA 6
#define CW_RESULT_JOIN_FAILURE_SESSION_ALREADY_IN_USE 7
#define CW_RESULT_JOIN_FAILURE_WTP_HARDWARE_NOT_SUPPORTED 8
#define CW_RESULT_JOIN_FAILURE_BINDING_NOT_SUPPORTED 9
#define CW_RESULT_RESET_UNABLE_TO_RESET 10
#define CW_RESULT_RESET_FAILURE_FIRMWARE_WRITE_ERROR 11
#define CW_RESULT_CONFIGURATION_FAILURE 12 //Configuration Failure (Unable to Apply Requested Configuration
// - Service Provided Anyhow)
/*
13 Configuration Failure (Unable to Apply Requested Configuration
- Service Not Provided)
*/
#define CW_RESULT_IMAGE_DATA_INVALID_CHECKSUM 14 //Image Data Error (Invalid Checksum)
#define CW_RESULT_IMAGE_DATA_IVALID_LENGTH 15 //Image Data Error (Invalid Data Length)
#define CW_RESULT_IMAGE_DATA_ERROR 16 //Image Data Error (Other Error)
/*
17 Image Data Error (Image Already Present)
*/
#define CW_RESULT_MSG_INVALID_IN_CURRENT_STATE 18
#define CW_RESULT_MSG_UNRECOGNIZED 19
#define CW_RESULT_MISSING_MAND_ELEM 20
#define CW_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT 21
/* 22 Data Transfer Error (No Information to Transfer)
*/
extern void cw_read_image_data_request(struct cwimage_data *, uint8_t * msg, int len);
//extern int cw_readelem_ac_descriptor(struct ac_info *acinfo, int type, uint8_t * msgelem,
// int len);
//extern int cw_readelem_capwap_local_ip_addr(struct sockaddr *local_ip, int type,
// uint8_t * msgelem, int len);
extern int cw_send_echo_response(struct conn *conn, int seqnum,
struct radioinfo *radioinfo);
extern int cw_handle_echo_request(void *d);
extern void cw_send_image_file(struct conn *conn, FILE * infile);
extern int cw_readmsg_configuration_status_response(uint8_t * elems, int elems_len);
extern int cw_readmsg_configuration_update_request(uint8_t * elems, int elems_len);
/*
static inline int cw_addelem_radio_operational_state(uint8_t * dst, struct radioinfo *ri)
{
cw_put_byte(dst + 4 + 0, ri->rid);
cw_put_byte(dst + 4 + 1, ri->state);
cw_put_byte(dst + 4 + 2, ri->cause);
return 3 + cw_put_elem_hdr(dst, CW_ELEM_RADIO_OPERATIONAL_STATE, 3);
}
*/
/*
#define cw_put_elem_vendor_hdr(dst,vendorid,elemid,len)\
(cw_put_elem_hdr(dst,CW_ELEM_VENDOR_SPECIFIC_PAYLOAD, \
cw_put_dword(dst+4,vendorid) + cw_put_word(dst+8,elemid) +len ))
#define cw_addelem(dst,type,data,len)\
(cw_put_elem_hdr(dst,type,len)+cw_put_data(dst+4,data,len))
*/
/*
#define cw_addelem_vendor_specific_payload(dst,vendorid,elemid,data,len)\
(cw_put_elem_vendor_hdr(dst,vendorid,elemid,len) + \
cw_put_data(dst+10,data,len))
*/
/*
extern int cw_addelem_vendor_specific_payload(uint8_t * dst, uint32_t vendorid,
uint16_t elemid, uint8_t * data,
uint16_t len);
extern void cw_prepare_configuration_status_request(struct conn *conn,
struct radioinfo *radioinfo,
struct wtpinfo *wtpinfo);
extern void cw_prepare_change_state_event_request(struct conn *conn,
struct radioinfo *radioinfo,
struct wtpinfo *wtpinfo);
extern int cw_send_configuration_update_response(struct conn *conn, int seqnum,
struct radioinfo *radioinfo);
*/
/* cwmsg methods */
/*
static inline int cw_addelem_result_code(uint8_t * dst, uint32_t code)
{
cw_put_dword(dst + 4, code);
return 4 + cw_put_elem_hdr(dst, CW_ELEM_RESULT_CODE, 4);
}
*/
/* Message to text stuff */
/* Constants to string conversion lists */
extern struct cw_strlist_elem capwap_strings_msg[];
extern struct cw_strlist_elem capwap_strings_state[];
extern struct cw_strlist_elem capwap_strings_vendor[];
extern struct cw_strlist_elem capwap_strings_elem[];
extern struct cw_strlist_elem capwap_strings_result[];
extern struct cw_strlist_elem mbag_item_strings[];
#define cw_strmsg(id) cw_strlist_get_str(capwap_strings_msg,id)
#define cw_strelem(id) cw_strlist_get_str(capwap_strings_elem,id)
#define cw_strstate(id) cw_strlist_get_str(capwap_strings_state,id)
#define cw_strvendor(id) cw_strlist_get_str(capwap_strings_vendor,id)
#define cw_strresult(id) cw_strlist_get_str(capwap_strings_result,(id))
#define cw_stritem(id) cw_strlist_get_str(mbag_item_strings,(id))
/*
#define cw_strrc(rc) \
((rc)<0 ? ((rc)!=EAGAIN ? strerror(errno):"Timed out"): cw_strresult(rc))
#define cw_strerror(rc) cw_strrc(rc)
*/
static inline const char * cw_strerror(rc) {
if (rc<0){
if (errno==EAGAIN)
return "Timed out";
return strerror(errno);
}
return cw_strresult(rc);
}
#define cw_strrc cw_strerror
static inline int cw_rcok(int rc)
{
if (rc==0 || rc==2){
return 1;
}
return 0;
}
/**
*@defgroup CW CW
*@{
*/
static inline const char *cw_strelemp_(cw_strheap_t h, int msg_id)
{
const char *rc = cw_strheap_get(h, msg_id);
if (rc)
return rc;
return cw_strheap_get(h, CW_STR_STOP);
}
/**@}*/
#define cw_strelemp(p,id) cw_strelemp_((p)->strelem,id)
//int cw_process_msg(struct conn *conn, uint8_t * rawmsg, int len);
extern int cw_in_generic(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
extern int cw_in_generic2(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
extern int cw_in_vendor_specific_payload(struct conn *conn, struct cw_action_in *a,
uint8_t * data, int len,struct sockaddr *from);
extern int cw_in_wtp_name(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
extern int cw_in_wtp_board_data(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
extern int cw_in_wtp_descriptor(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
//extern int cw_out_generic(struct conn *conn,struct cw_action_in * a,uint8_t *data,int len);
extern int cw_out_generic(struct conn *conn, struct cw_action_out *a, uint8_t * dst); //, struct mbag_item *item);
//extern int cw_out_ac_descriptor(struct conn *conn, uint32_t elem_id, uint8_t * dst,
//struct mbag_item *item);
extern int cw_out_ac_descriptor(struct conn *conn, struct cw_action_out *a, uint8_t * dst); //,struct mbag_item * item)
extern int cw_out_wtp_descriptor(struct conn *conn, struct cw_action_out *a,
uint8_t * dst);
//extern int cw_out_capwap_control_ip_addrs(struct conn *conn, uint32_t elem_id,
// uint8_t * dst, struct mbag_item *item);
extern int cw_out_capwap_control_ip_addr_list(struct conn *conn, struct cw_action_out *a,
uint8_t * dst);
extern int cw_put_msg(struct conn *conn, uint8_t * rawout);
int cw_out_image_data(struct conn *conn, struct cw_action_out *a, uint8_t * dst); // ,struct mbag_item * item)
struct cw_ac_status {
int stations;
int limit;
int active_wtps;
int max_wtps;
int security;
int rmac_field;
int dtls_policy;
};
/**
*@defgroup CAPWAP CAPWAP
*@{
*/
/**
* CAWAP States
*/
enum capwap_states {
CW_STATE_NONE = 0,
/** Discovery State */
CW_STATE_DISCOVERY,
/** Join State */
CW_STATE_JOIN,
/** Config State */
CW_STATE_CONFIGURE,
/** Image Data Upload */
CW_STATE_IMAGE_DATA,
CW_STATE_UPDATE,
/** Run State */
CW_STATE_RUN
};
/**
*@}
*/
int cw_register_actions_capwap_ac(struct cw_actiondef *def);
int cw_register_actions_cipwap_ac(struct cw_actiondef *def);
int cw_register_actions_capwap_wtp(struct cw_actiondef *def);
int cw_in_set_state_none(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len);
struct mbag_item *cw_out_get_outgoing(struct conn *conn, struct cw_action_out *a);
struct mbag_item *cw_out_get_local(struct conn *conn, struct cw_action_out *a);
extern int cw_in_check_join_resp(struct conn *conn, struct cw_action_in *a,
uint8_t * data, int len,struct sockaddr *from);
extern int cw_in_check_disc_req(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
int cw_in_check_disc_resp(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
int cw_check_missing_mand(cw_action_in_t ** out, struct conn *conn, cw_action_in_t * a);
int cw_in_check_join_req(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
extern int cw_in_check_img_data_req_wtp(struct conn *conn, struct cw_action_in *a,
uint8_t * data, int len,struct sockaddr *from);
extern int cw_in_check_img_data_req_ac(struct conn *conn, struct cw_action_in *a,
uint8_t * data, int len,struct sockaddr *from);
int cw_in_check_img_data_resp(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
int cw_out_wtp_board_data(struct conn *conn, struct cw_action_out *a, uint8_t * dst);
void cw_init_request(struct conn *conn, int msg_id);
struct mbag_item *cw_out_get_session_id(struct conn *conn, struct cw_action_out *a);
struct mbag_item *cw_out_get_config(struct conn *conn, struct cw_action_out *a);
extern int cw_in_radio_administrative_state(struct conn *conn, struct cw_action_in *a, uint8_t * data, int len,
struct sockaddr *from);
int cw_out_ac_name_with_priority(struct conn *conn, struct cw_action_out *a, uint8_t * dst);
int cw_send_request(struct conn *conn, int msg_id);
//int cw_is_utf8(unsigned char *str, size_t len);
int cw_in_ac_name_with_priority(struct conn *conn, struct cw_action_in *a, uint8_t * data, int len,
struct sockaddr *from);
int cw_out_radio_administrative_states(struct conn *conn, struct cw_action_out *a, uint8_t * dst);
int cw_in_radio_administrative_state(struct conn *conn, struct cw_action_in *a, uint8_t * data, int len,
struct sockaddr *from);
int cw_in_ac_descriptor(struct conn *conn,struct cw_action_in * a,uint8_t *data,int len,struct sockaddr *from);
int cw_in_radio_generic(struct conn *conn, struct cw_action_in *a, uint8_t * data, int len,
struct sockaddr *from);
//int cw_out_capwap_local_ip_address(struct conn *conn, struct cw_action_out *action, uint8_t * dst);
int cw_in_check_chng_state_evnt_req(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
int cw_out_radio_operational_states(struct conn *conn, struct cw_action_out *a, uint8_t * dst);
int cw_in_check_cfg_update_req(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from);
int cw_radio_set_admin_state(mbag_t radios,int rid, int state,int cause);
int cw_in_radio_administrative_state_wtp(struct conn *conn, struct cw_action_in *a, uint8_t * data, int len,
struct sockaddr *from);
#endif