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#ifndef IEEE_802_11
#define IEEE_802_11
enum ieee_802_11_link_status_failure_reason {
reserved0, Unspecified=1, Previous_not_valid,
Sender_Quits_ESS_or_IBSS,
Due_Inactivity, AP_Overload,
Class_2_from_NonAuth,
Class_3_from_NonAuth,
Sender_Quits_BSS,
Association_requester_not_authenticated,
Reserved10
};
#define IEEE_802_11_LINK_STATUS_FAILURE_REASON_STRINGS \
{ \
{reserved0, 0xff," Reserved reason "},\
{Unspecified, 0xff," Unspecified Reason "},\
{Previous_not_valid, 0xff," Previous Authentication no longer valid "},\
{Sender_Quits_ESS_or_IBSS,0xff," Deauthenticated because sending station is leaving (has left) IBSS or ESS "},\
{Due_Inactivity, 0xff," Disassociated due to inactivity "},\
{AP_Overload, 0xff," Disassociated because AP is unable to handle all currently associated stations "},\
{Class_2_from_NonAuth, 0xff," Class 2 frame received from non-Authenticated station"},\
{Class_3_from_NonAuth, 0xff," Class 3 frame received from nonAssociated station"},\
{Sender_Quits_BSS, 0xff," Disassociated because sending station is leaving (has left) BSS"},\
{Association_requester_not_authenticated,0xff," Station requesting (Re)Association is not Authenticated with responding station"},\
{Reserved10, 0xff," Reserved"},\
{0,0,NULL}\
};
struct ieee_802_11_header {
u_int16_t frame_control;// needs to be subtyped
u_int16_t duration;
u_int8_t mac1[6];
u_int8_t mac2[6];
u_int8_t mac3[6];
u_int16_t SeqCtl;
u_int8_t mac4[6];
// u_int16_t gapLen;
// u_int8_t gap[8];
};
struct ieee_802_3_header {
u_int16_t status;
u_int16_t payload_length;
u_int8_t dst_mac[6];
u_int8_t src_mac[6];
};
#define P80211_OUI_LEN 3
struct ieee_802_11_802_2_header {
u_int8_t dsap;
u_int8_t ssap; /* always 0xAA */
u_int8_t ctrl; /* always 0x03 */
u_int8_t oui[P80211_OUI_LEN]; /* organizational universal id */
u_int16_t type; /* packet type ID field */
};
/* See RFC 826 for protocol description. ARP packets are variable
in size; the arphdr structure defines the fixed-length portion.
Protocol type values are the same as those for 10 Mb/s Ethernet.
It is followed by the variable-sized fields ar_sha, arp_spa,
arp_tha and arp_tpa in that order, according to the lengths
specified. Field names used correspond to RFC 826. */
#define ETH_ALEN 6
struct myarphdr
{
unsigned short int ar_hrd; /* Format of hardware address. */
unsigned short int ar_pro; /* Format of protocol address. */
unsigned char ar_hln; /* Length of hardware address. */
unsigned char ar_pln; /* Length of protocol address. */
unsigned short int ar_op; /* ARP opcode (command). */
/* Ethernet looks like this : This bit is variable sized
however... */
unsigned char ar_sha[ETH_ALEN]; /* Sender hardware address. */
unsigned char ar_sip[4]; /* Sender IP address. */
unsigned char ar_tha[ETH_ALEN]; /* Target hardware address. */
unsigned char ar_tip[4]; /* Target IP address. */
};
// following is incoplete and may be incorrect and need reorganization
#define ieee_802_11_frame_type_Management 0x00
#define ieee_802_11_frame_type_Control 0x01
#define ieee_802_11_frame_type_Data 0x10
#define ieee_802_11_frame_type_Reserved 0x11
#define ieee_802_11_frame_subtype_Association_Req 0x0 // Association Request
#define ieee_802_11_frame_subtype_Association_Resp 0x1 // Association Response
#define ieee_802_11_frame_subtype_Reassociation_Req 0x2 // Reassociation Request
#define ieee_802_11_frame_subtype_Reassociation_Resp 0x3 // Reassociation Response
#define ieee_802_11_frame_subtype_Probe_Req 0x4 // Probe Request
#define ieee_802_11_frame_subtype_Probe_Resp 0x5 // Probe Response
#define ieee_802_11_frame_subtype_Beacon 0x8 // Beacon
#define ieee_802_11_frame_subtype_ATIM 0x9 // ATIM
#define ieee_802_11_frame_subtype_Disassociation 0xA // Disassociation
#define ieee_802_11_frame_subtype_Authentication 0xB // Authentication
#define ieee_802_11_frame_subtype_Deauthentication 0xC // Deauthentication
#define ieee_802_11_frame_subtype_PS_Poll 0xA // PS-Poll
#define ieee_802_11_frame_subtype_RTS 0xB // RTS
#define ieee_802_11_frame_subtype_CTS 0xC // CTS
#define ieee_802_11_frame_subtype_ACK 0xD // ACK
#define ieee_802_11_frame_subtype_CFEnd 0xE // CF-End
#define ieee_802_11_frame_subtype_CFEnd_CFAck 0xF // CF-End + CF-Ack
#define ieee_802_11_frame_subtype_Data 0x0 // Data
#define ieee_802_11_frame_subtype_Data_CFAck 0x1 // Data + CF-Ack
#define ieee_802_11_frame_subtype_Data_CF_Poll 0x2 // Data + CF-Poll
#define ieee_802_11_frame_subtype_Data_CF_AckCF_Poll 0x3 // Data + CF-Ack + CF-Poll
#define ieee_802_11_frame_subtype_NullFunction 0x4 // Null Function (no data)
#define ieee_802_11_frame_subtype_CF_Ack 0x5 // CF-Ack (no data)
#define ieee_802_11_frame_subtype_CF_Poll 0x6 // CF-Poll (no data)
#define ieee_802_11_frame_subtype_CF_AckCF_Poll 0x7 // CF-Ack + CF-Poll (no data)
#define ieee_802_11_frame_subtype_strings {\
{ ieee_802_11_frame_subtype_Association_Req, 0xF,"f Association Request"},\
{ ieee_802_11_frame_subtype_Association_Resp, 0xF,"1 Association Response"},\
{ ieee_802_11_frame_subtype_Reassociation_Req, 0xF,"2 Reassociation Request"},\
{ ieee_802_11_frame_subtype_Reassociation_Resp, 0xF,"3 Reassociation Response"},\
{ ieee_802_11_frame_subtype_Probe_Req , 0xF,"4 Probe Request"},\
{ ieee_802_11_frame_subtype_Probe_Resp , 0xF,"5 Probe Response"},\
{ ieee_802_11_frame_subtype_Beacon , 0xF,"8 Beacon"},\
{ ieee_802_11_frame_subtype_ATIM , 0xF,"9 ATIM"},\
{ ieee_802_11_frame_subtype_Disassociation, 0xF,"A Disassociation"},\
{ ieee_802_11_frame_subtype_Authentication, 0xF,"B Authentication"},\
{ ieee_802_11_frame_subtype_Deauthentication, 0xF,"C Deauthentication"},\
{ ieee_802_11_frame_subtype_PS_Poll , 0xF,"A PS-Poll"},\
{ ieee_802_11_frame_subtype_RTS , 0xF,"B RTS"},\
{ ieee_802_11_frame_subtype_CTS , 0xF,"C CTS"},\
{ ieee_802_11_frame_subtype_ACK , 0xF,"D ACK"},\
{ ieee_802_11_frame_subtype_CFEnd , 0xF,"E CF-End"},\
{ ieee_802_11_frame_subtype_CFEnd_CFAck , 0xF,"F CF-End + CF-Ack"},\
{ ieee_802_11_frame_subtype_Data , 0xF,"0 Data"},\
{ ieee_802_11_frame_subtype_Data_CFAck , 0xF,"1 Data + CF-Ack"},\
{ ieee_802_11_frame_subtype_Data_CFPoll , 0xF,"2 Data + CF-Poll"},\
{ ieee_802_11_frame_subtype_Data_CFAck_CFPoll, 0xF,"3 Data + CF-Ack + CF-Poll"},\
{ ieee_802_11_frame_subtype_Null_Function , 0xF,"4 Null Function (no data)"},\
{ ieee_802_11_frame_subtype_CFAck , 0xF,"5 CF-Ack (no data)"},\
{ ieee_802_11_frame_subtype_CFPoll , 0xF,"6 CF-Poll (no data)"},\
{ ieee_802_11_frame_subtype_CFAck_CFPoll, 0xF,"y7 CF-Ack + CF-Poll (no data)"},\
{ 0,0,NULL}\
}
struct ieee_802_11_frame_subtype_class {
u_int8_t subtype;
u_int8_t mask;
u_int8_t klass;
u_int8_t type;
};
#define ieee_802_11_frame_subtype_classes {\
{ ieee_802_11_frame_subtype_Association_Req, 0xF,2,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Association_Resp, 0xF,2,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Reassociation_Req, 0xF,2,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Reassociation_Resp, 0xF,2,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Probe_Req , 0xF,1,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Probe_Resp , 0xF,1,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Beacon , 0xF,1,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_ATIM , 0xF,1,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Disassociation, 0xF,2,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Authentication, 0xF,1,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_Deauthentication, 0xF,3,ieee_802_11_frame_type_Management},\
{ ieee_802_11_frame_subtype_PS-Poll , 0xF,3,ieee_802_11_frame_type_Control},\
{ ieee_802_11_frame_subtype_RTS , 0xF,1,ieee_802_11_frame_type_Control},\
{ ieee_802_11_frame_subtype_CTS , 0xF,1,ieee_802_11_frame_type_Control},\
{ ieee_802_11_frame_subtype_ACK , 0xF,1,ieee_802_11_frame_type_Control},\
{ ieee_802_11_frame_subtype_CFEnd , 0xF,1,ieee_802_11_frame_type_Control},\
{ ieee_802_11_frame_subtype_CFEnd_CFAck , 0xF,1,ieee_802_11_frame_type_Control},\
{ ieee_802_11_frame_subtype_Data , 0xF,3,ieee_802_11_frame_type_Data},\
{ ieee_802_11_frame_subtype_Data_CFAck , 0xF,3,ieee_802_11_frame_type_Data},\
{ ieee_802_11_frame_subtype_Data_CF_Poll 0xF,3,ieee_802_11_frame_type_Data},\
{ ieee_802_11_frame_subtype_Data_CF_AckCF_Poll, 0xF,3,ieee_802_11_frame_type_Data},\
{ ieee_802_11_frame_subtype_NullFunction 0xF,1,ieee_802_11_frame_type_Data},\
{ ieee_802_11_frame_subtype_CF_Ack , 0xF,1,ieee_802_11_frame_type_Data},\
{ ieee_802_11_frame_subtype_CF_Poll , 0xF,1,ieee_802_11_frame_type_Data},\
{ ieee_802_11_frame_subtype_CF_AckCF_Poll, 0xF,1,ieee_802_11_frame_type_Data},\
{ 0,0,NULL}\
}
#define IEEE802_11_FC_LEN 2
#define T_MGMT 0x0 /* management */
#define T_CTRL 0x1 /* control */
#define T_DATA 0x2 /* data */
#define T_RESV 0x3 /* reserved */
#define ST_ASSOC_REQUEST 0x0
#define ST_ASSOC_RESPONSE 0x1
#define ST_REASSOC_REQUEST 0x2
#define ST_REASSOC_RESPONSE 0x3
#define ST_PROBE_REQUEST 0x4
#define ST_PROBE_RESPONSE 0x5
/* RESERVED 0x6 */
/* RESERVED 0x7 */
#define ST_BEACON 0x8
#define ST_ATIM 0x9
#define ST_DISASSOC 0xA
#define ST_AUTH 0xB
#define ST_DEAUTH 0xC
/* RESERVED 0xD */
/* RESERVED 0xE */
/* RESERVED 0xF */
#define CTRL_PS_POLL 0xA
#define CTRL_RTS 0xB
#define CTRL_CTS 0xC
#define CTRL_ACK 0xD
#define CTRL_CF_END 0xE
#define CTRL_END_ACK 0xF
/*
* Bits in the frame control field.
*/
#define FC_VERSION(fc) ((fc) & 0x3)
#define FC_TYPE(fc) (((fc) >> 2) & 0x3)
#define FC_SUBTYPE(fc) (((fc) >> 4) & 0xF)
#define FC_TO_DS(fc) ((fc) & 0x0100)
#define FC_FROM_DS(fc) ((fc) & 0x0200)
#define FC_MORE_FLAG(fc) ((fc) & 0x0400)
#define FC_RETRY(fc) ((fc) & 0x0800)
#define FC_POWER_MGMT(fc) ((fc) & 0x1000)
#define FC_MORE_DATA(fc) ((fc) & 0x2000)
#define FC_WEP(fc) ((fc) & 0x4000)
#define FC_ORDER(fc) ((fc) & 0x8000)
struct ieee_802_11_mgmt_header {
u_int16_t fc;
u_int16_t duration;
u_int8_t da[6];
u_int8_t sa[6];
u_int8_t bssid[6];
u_int16_t seq_ctrl;
};
struct ieee_802_11_data_header {
u_int16_t fc;
u_int16_t duration;
u_int8_t mac1[6];
u_int8_t mac2[6];
u_int8_t mac3[6];
u_int16_t SeqCtl;
u_int8_t mac4[6];
// u_int16_t gapLen;
// u_int8_t gap[8];
};
struct ieee_802_11_control_header {
u_int16_t fc;
u_int16_t duration;
u_int8_t mac1[6];
u_int8_t mac2[6];
u_int8_t mac3[6];
u_int16_t SeqCtl;
u_int8_t mac4[6];
// u_int16_t gapLen;
// u_int8_t gap[8];
};
#define CAPABILITY_ESS(cap) ((cap) & 0x0001)
#define CAPABILITY_IBSS(cap) ((cap) & 0x0002)
#define CAPABILITY_CFP(cap) ((cap) & 0x0004)
#define CAPABILITY_CFP_REQ(cap) ((cap) & 0x0008)
#define CAPABILITY_PRIVACY(cap) ((cap) & 0x0010)
struct ssid_t {
u_int8_t element_id;
u_int8_t length;
u_char ssid[33]; /* 32 + 1 for null */
};
struct rates_t {
u_int8_t element_id;
u_int8_t length;
u_int8_t rate[8];
};
struct challenge_t {
u_int8_t element_id;
u_int8_t length;
u_int8_t text[254]; /* 1-253 + 1 for null */
};
struct fh_t {
u_int8_t element_id;
u_int8_t length;
u_int16_t dwell_time;
u_int8_t hop_set;
u_int8_t hop_pattern;
u_int8_t hop_index;
};
struct ds_t {
u_int8_t element_id;
u_int8_t length;
u_int8_t channel;
};
struct cf_t {
u_int8_t element_id;
u_int8_t length;
u_int8_t count;
u_int8_t period;
u_int16_t max_duration;
u_int16_t dur_remaing;
};
struct tim_t {
u_int8_t element_id;
u_int8_t length;
u_int8_t count;
u_int8_t period;
u_int8_t bitmap_control;
u_int8_t bitmap[251];
};
struct ibss_t {
u_int8_t element_id;
u_int8_t length;
u_int16_t atim_window;
};
#define E_SSID 0
#define E_RATES 1
#define E_FH 2
#define E_DS 3
#define E_CF 4
#define E_TIM 5
#define E_IBSS 6
#define E_CHALLENGE 16
#define E_CISCO 133
struct ieee_802_11_mgmt_body {
u_int8_t timestamp[8];
u_int16_t beacon_interval;
// u_int16_t listen_interval;
// u_int16_t status_code;
// u_int16_t aid;
// u_char ap[6];
// u_int16_t reason_code;
// u_int16_t auth_alg;
// u_int16_t auth_trans_seq_num;
// struct challenge_t challenge;
u_int16_t capability_info;
// struct ssid_t ssid;
// struct rates_t rates;
// struct ds_t ds;
// struct cf_t cf;
// struct fh_t fh;
// struct tim_t tim;
};
/* a 802.11 value */
struct val_80211 {
unsigned int did;
unsigned short status, len;
unsigned int data;
};
/* header attached during prism monitor mode */
struct prism_hdr {
unsigned int msgcode, msglen;
char devname[16];
struct val_80211 hosttime, mactime, channel, rssi, sq, signal,
noise, rate, istx, frmlen;
};
struct ieee_802_11_data_body {
//FIXME
};
struct ieee_802_11_control_body {
//FIXME
};
struct ctrl_rts_t {
u_int16_t fc;
u_int16_t duration;
u_int8_t ra[6];
u_int8_t ta[6];
u_int8_t fcs[4];
};
#define CTRL_RTS_LEN (2+2+6+6+4)
struct ctrl_cts_t {
u_int16_t fc;
u_int16_t duration;
u_int8_t ra[6];
u_int8_t fcs[4];
};
#define CTRL_CTS_LEN (2+2+6+4)
struct ctrl_ack_t {
u_int16_t fc;
u_int16_t duration;
u_int8_t ra[6];
u_int8_t fcs[4];
};
#define CTRL_ACK_LEN (2+2+6+4)
struct ctrl_ps_poll_t {
u_int16_t fc;
u_int16_t aid;
u_int8_t bssid[6];
u_int8_t ta[6];
u_int8_t fcs[4];
};
#define CTRL_PS_POLL_LEN (2+2+6+6+4)
struct ctrl_end_t {
u_int16_t fc;
u_int16_t duration;
u_int8_t ra[6];
u_int8_t bssid[6];
u_int8_t fcs[4];
};
#define CTRL_END_LEN (2+2+6+6+4)
struct ctrl_end_ack_t {
u_int16_t fc;
u_int16_t duration;
u_int8_t ra[6];
u_int8_t bssid[6];
u_int8_t fcs[4];
};
#define CTRL_END_ACK_LEN (2+2+6+6+4)
#define IV_IV(iv) ((iv) & 0xFFFFFF)
#define IV_PAD(iv) (((iv) >> 24) & 0x3F)
#define IV_KEYID(iv) (((iv) >> 30) & 0x03)
#endif
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