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|
/* packet-ieee80211-prism.c
* Routines for Prism monitoring mode header dissection
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
* Copyright (c) 2016, The Linux Foundation. All rights reserved.
* Copyright 2016 Cisco Meraki
*
* Copied from README.developer
*
* SPDX-License-Identifier: GPL-2.0-or-later
*
*/
#include "config.h"
#include <epan/packet.h>
#include <epan/capture_dissectors.h>
#include <wsutil/pint.h>
#include <wsutil/802_11-utils.h>
#include "packet-ieee80211.h"
void proto_register_ieee80211_prism(void);
void proto_reg_handoff_ieee80211_prism(void);
#define SHORT_STR 256
static dissector_handle_t wlancap_handle;
static dissector_handle_t ieee80211_handle;
static dissector_handle_t ieee80211_radio_handle;
static capture_dissector_handle_t ieee80211_cap_handle;
static capture_dissector_handle_t wlancap_cap_handle;
static int proto_prism;
/* Prism radio header */
static int hf_ieee80211_prism_msgcode;
static int hf_ieee80211_prism_msglen;
static int hf_ieee80211_prism_devname;
static int hf_ieee80211_prism_did;
static int hf_ieee80211_prism_did_type;
static int hf_ieee80211_prism_did_status;
static int hf_ieee80211_prism_did_length;
static int hf_ieee80211_prism_did_hosttime;
static int hf_ieee80211_prism_did_mactime;
static int hf_ieee80211_prism_did_channel;
static int hf_ieee80211_prism_did_rssi;
static int hf_ieee80211_prism_did_sq;
static int hf_ieee80211_prism_did_signal;
static int hf_ieee80211_prism_did_noise;
static int hf_ieee80211_prism_did_rate;
static int hf_ieee80211_prism_did_istx;
static int hf_ieee80211_prism_did_frmlen;
static int hf_ieee80211_prism_did_unknown;
/* Qualcomm Extensions */
static int hf_ieee80211_prism_did_sig_a1;
static int hf_ieee80211_prism_did_sig_a2;
static int hf_ieee80211_prism_did_sig_b;
static int hf_ieee80211_prism_did_sig_rate_field;
static int ett_prism;
static int ett_prism_did;
static int ett_sig_ab;
static dissector_handle_t prism_handle;
/*
* Prism II-based wlan devices have a monitoring mode that sticks
* a proprietary header on each packet with lots of good
* information. This file is responsible for decoding that
* data.
*
* Support by Tim Newsham
*
* A value from the header.
*
* It appears from looking at the linux-wlan-ng and Prism II HostAP
* drivers, and various patches to the orinoco_cs drivers to add
* Prism headers, that:
*
* the "did" identifies what the value is (i.e., what it's the value
* of);
*
* "status" is 0 if the value is present or 1 if it's absent;
*
* "len" is the length of the value (always 4, in that code);
*
* "data" is the value of the data (or 0 if not present).
*
* Note: all of those values are in the *host* byte order of the machine
* on which the capture was written.
*/
/*
* Header attached during Prism monitor mode.
*
* At least according to one paper I've seen, the Prism 2.5 chip set
* provides:
*
* RSSI (receive signal strength indication) is "the total power
* received by the radio hardware while receiving the frame,
* including signal, interfereence, and background noise";
*
* "silence value" is "the total power observed just before the
* start of the frame".
*
* None of the drivers I looked at supply the "rssi" or "sq" value,
* but they do supply "signal" and "noise" values, along with a "rate"
* value that's 1/5 of the raw value from what is presumably a raw
* HFA384x frame descriptor, with the comment "set to 802.11 units",
* which presumably means the units are 500 Kb/s.
*
* I infer from the current NetBSD "wi" driver that "signal" and "noise"
* are adjusted dBm values, with the dBm value having 100 added to it
* for the Prism II cards (although the NetBSD code has an XXX comment
* for the #define for WI_PRISM_DBM_OFFSET) and 149 (with no XXX comment)
* for the Orinoco cards.
*
* XXX - what about other drivers that supply Prism headers, such as
* old versions of the MadWifi driver?
*
* I'm not sure where these DID values come from, but they work with
* at least one capture file. However, in
*
* https://ask.wireshark.org/questions/14963/how-to-get-the-field-did-unknown-4041-into-the-column
*
* somebody reports a capture where *different* DID values, corresponding
* to
*
* http://www.martin.cc/linux/prism
*
* are used (and that's not a byte-order issue, as those values are *not*
* just byte-swapped versions of the other values).
*/
#define PRISM_HEADER_LENGTH 144 /* Default Prism Header Length */
/*
* Message code values.
*
* Some Prism captures have headers that begin with 0x00000044; those
* captures have the non-home.martin.cc values for the DID types,
* while a capture with 0x00000041 as the message code have the
* home.martin.cc values for the DID types, and the home.martin.cc
* page has 0x00000041 as the message code.
*/
#define PRISM_TYPE1_MSGCODE 0x00000044 /* Monitor Frame */
#define PRISM_TYPE2_MSGCODE 0x00000041
/*
* DID codes - PRISM_TYPE1_xxx are the non-home.martin.cc values, and
* PRISM_TYPE2_xxx are the home.martin.cc values.
*/
#define PRISM_TYPE1_HOSTTIME 0x00010044 /* Host time element */
#define PRISM_TYPE2_HOSTTIME 0x00001041
#define PRISM_TYPE1_MACTIME 0x00020044 /* Mac time element */
#define PRISM_TYPE2_MACTIME 0x00002041
#define PRISM_TYPE1_CHANNEL 0x00030044 /* Channel element */
#define PRISM_TYPE2_CHANNEL 0x00003041
#define PRISM_TYPE1_RSSI 0x00040044 /* RSSI element */
#define PRISM_TYPE2_RSSI 0x00004041
#define PRISM_TYPE1_SQ 0x00050044 /* SQ element */
#define PRISM_TYPE2_SQ 0x00005041
#define PRISM_TYPE1_SIGNAL 0x00060044 /* Signal element */
#define PRISM_TYPE2_SIGNAL 0x00006041
#define PRISM_TYPE1_NOISE 0x00070044 /* Noise element */
#define PRISM_TYPE2_NOISE 0x00007041
#define PRISM_TYPE1_RATE 0x00080044 /* Rate element */
#define PRISM_TYPE2_RATE 0x00008041
#define PRISM_TYPE1_ISTX 0x00090044 /* Is Tx frame */
#define PRISM_TYPE2_ISTX 0x00009041
#define PRISM_TYPE1_FRMLEN 0x000A0044 /* Frame length */
#define PRISM_TYPE2_FRMLEN 0x0000A041
/* Qualcomm extensions */
#define PRISM_TYPE1_RATE_SIG_A1 0x000B0044 /* VHT SIGA1 element */
#define PRISM_TYPE2_RATE_SIG_A1 0x0000B044
#define PRISM_TYPE1_RATE_SIG_A2 0x000C0044 /* VHT SIGA2 element */
#define PRISM_TYPE2_RATE_SIG_A2 0x0000C044
#define PRISM_TYPE1_RATE_SIG_B 0x000D0044 /* VHT SIGB element */
#define PRISM_TYPE2_RATE_SIG_B 0x0000D044 /* VHT SIGB element */
static const value_string prism_did_vals[] =
{
{ PRISM_TYPE1_HOSTTIME, "Host Time" },
{ PRISM_TYPE2_HOSTTIME, "Host Time" },
{ PRISM_TYPE1_MACTIME, "Mac Time" },
{ PRISM_TYPE2_MACTIME, "Mac Time" },
{ PRISM_TYPE1_CHANNEL, "Channel" },
{ PRISM_TYPE2_CHANNEL, "Channel" },
{ PRISM_TYPE1_RSSI, "RSSI" },
{ PRISM_TYPE2_RSSI, "RSSI" },
{ PRISM_TYPE1_SQ, "SQ" },
{ PRISM_TYPE2_SQ, "SQ" },
{ PRISM_TYPE1_SIGNAL, "Signal" },
{ PRISM_TYPE2_SIGNAL, "Signal" },
{ PRISM_TYPE1_NOISE, "Noise" },
{ PRISM_TYPE2_NOISE, "Noise" },
{ PRISM_TYPE1_RATE, "Rate" },
{ PRISM_TYPE2_RATE, "Rate" },
{ PRISM_TYPE1_ISTX, "Is Tx" },
{ PRISM_TYPE2_ISTX, "Is Tx" },
{ PRISM_TYPE1_FRMLEN, "Frame Length" },
{ PRISM_TYPE2_FRMLEN, "Frame Length" },
/* Qualcomm extensions */
{ PRISM_TYPE1_RATE_SIG_A1, "SIG A1" },
{ PRISM_TYPE2_RATE_SIG_A1, "SIG A1" },
{ PRISM_TYPE1_RATE_SIG_A2, "SIG A2" },
{ PRISM_TYPE2_RATE_SIG_A2, "SIG A2" },
{ PRISM_TYPE1_RATE_SIG_B, "SIG B" },
{ PRISM_TYPE2_RATE_SIG_B, "SIG B" },
{ 0, NULL}
};
/*
* The header file mentioned above says 0 means "supplied" and 1 means
* "not supplied". I haven't seen a capture file with anything other
* than 0 there, but there is at least one driver that appears to use
* 1 for values it doesn't supply (the Linux acx-20080210 driver).
*/
static const value_string prism_status_vals[] =
{
{ 0, "Supplied" },
{ 1, "Not Supplied" },
{ 0, NULL}
};
static const value_string prism_istx_vals[] =
{
{ 0, "Rx Packet" },
{ 1, "Tx Packet" },
{ 0, NULL}
};
static void
prism_rate_base_custom(char *result, uint32_t rate)
{
snprintf(result, ITEM_LABEL_LENGTH, "%u.%u", rate /2, rate & 1 ? 5 : 0);
}
static char *
prism_rate_return(wmem_allocator_t *scope, uint32_t rate)
{
char *result=NULL;
result = (char *)wmem_alloc(scope, SHORT_STR);
result[0] = '\0';
prism_rate_base_custom(result, rate);
return result;
}
/* HT20 Rate table MAX NSS = 4 */
static unsigned int ht_20_tbl[32][2] =
{
{ 65, 72 }, /* MCS 0 */
{ 130, 144 }, /* MCS 1 */
{ 195, 217 }, /* MCS 2 */
{ 260, 289 }, /* MCS 3 */
{ 390, 433 }, /* MCS 4 */
{ 520, 578 }, /* MCS 5 */
{ 585, 650 }, /* MCS 6 */
{ 650, 722 }, /* MCS 7 */
{ 130, 144 }, /* MCS 8 */
{ 260, 289 }, /* MCS 9 */
{ 390, 433 }, /* MCS 10 */
{ 520, 578 }, /* MCS 11 */
{ 780, 867 }, /* MCS 12 */
{ 1040, 1156 }, /* MCS 13 */
{ 1170, 1300 }, /* MCS 14 */
{ 1300, 1444 }, /* MCS 15 */
{ 195, 217 }, /* MCS 16 */
{ 390, 433 }, /* MCS 17 */
{ 585, 650 }, /* MCS 18 */
{ 780, 867 }, /* MCS 19 */
{ 1170, 1300 }, /* MCS 20 */
{ 1560, 1733 }, /* MCS 21 */
{ 1755, 1950 }, /* MCS 22 */
{ 1950, 2167 }, /* MCS 23 */
{ 260, 289 }, /* MCS 24 */
{ 520, 578 }, /* MCS 25 */
{ 780, 867 }, /* MCS 26 */
{ 1040, 1156 }, /* MCS 27 */
{ 1560, 1733 }, /* MCS 28 */
{ 2080, 2311 }, /* MCS 29 */
{ 2340, 2600 }, /* MCS 30 */
{ 2600, 2889 } /* MCS 31 */
};
/* HT40 Rate table MAX NSS = 4 */
static unsigned int ht_40_tbl[32][2] =
{
{ 135, 150 }, /* MCS 0 */
{ 270, 300 }, /* MCS 1 */
{ 405, 450 }, /* MCS 2 */
{ 540, 600 }, /* MCS 3 */
{ 810, 900 }, /* MCS 4 */
{ 1080, 1200 }, /* MCS 5 */
{ 1215, 1350 }, /* MCS 6 */
{ 1350, 1500 }, /* MCS 7 */
{ 270, 300 }, /* MCS 8 */
{ 540, 600 }, /* MCS 9 */
{ 810, 900 }, /* MCS 10 */
{ 1080, 1200 }, /* MCS 11 */
{ 1620, 1800 }, /* MCS 12 */
{ 2160, 2400 }, /* MCS 13 */
{ 2430, 2700 }, /* MCS 14 */
{ 2700, 3000 }, /* MCS 15 */
{ 405, 450 }, /* MCS 16 */
{ 810, 900 }, /* MCS 17 */
{ 1215, 1350 }, /* MCS 18 */
{ 1620, 1800 }, /* MCS 19 */
{ 2430, 2700 }, /* MCS 20 */
{ 3240, 3600 }, /* MCS 21 */
{ 3645, 4050 }, /* MCS 22 */
{ 4050, 4500 }, /* MCS 23 */
{ 540, 600 }, /* MCS 24 */
{ 1080, 1200 }, /* MCS 25 */
{ 1620, 1800 }, /* MCS 26 */
{ 2160, 2400 }, /* MCS 27 */
{ 3240, 3600 }, /* MCS 28 */
{ 4320, 4800 }, /* MCS 29 */
{ 4860, 5400 }, /* MCS 30 */
{ 5400, 6000 }}; /* MCS 31 */
/* VHT20 Rate Table MAX NSS = 4 */
static unsigned int vht_20_tbl[10][8] =
{
{ 65, 72, 130, 144, 195, 217, 260, 289}, /* MCS 0 */
{ 130, 144, 260, 289, 390, 433, 520, 578}, /* MCS 1 */
{ 195, 217, 390, 433, 585, 650, 780, 867}, /* MCS 2 */
{ 260, 289, 520, 578, 780, 867, 1040, 1156}, /* MCS 3 */
{ 390, 433, 780, 867, 1170, 1300, 1560, 1733}, /* MCS 4 */
{ 520, 578, 1040, 1156, 1560, 1733, 2080, 2311}, /* MCS 5 */
{ 585, 650, 1170, 1300, 1755, 1950, 2340, 2600}, /* MCS 6 */
{ 650, 722, 1300, 1444, 1950, 2167, 2600, 2889}, /* MCS 7 */
{ 780, 867, 1560, 1733, 2340, 2600, 3120, 3467}, /* MCS 8 */
{ 0, 0, 0, 0, 2600, 2889, 0, 0} /* MCS 9 */
};
/* VHT40 Rate Table MAX NSS = 4 */
static unsigned int vht_40_tbl[10][8] =
{
{ 135, 150, 270, 300, 405, 450, 540, 600}, /* MCS 0 */
{ 270, 300, 540, 600, 810, 900, 1080, 1200}, /* MCS 1 */
{ 405, 450, 810, 900, 1215, 1350, 1620, 1800}, /* MCS 2 */
{ 540, 600, 1080, 1200, 1620, 1800, 2160, 2400}, /* MCS 3 */
{ 810, 900, 1620, 1800, 2430, 2700, 3240, 3600}, /* MCS 4 */
{ 1080, 1200, 2160, 2400, 3240, 3600, 4320, 4800}, /* MCS 5 */
{ 1215, 1350, 2430, 2700, 3645, 4050, 4860, 5400}, /* MCS 6 */
{ 1350, 1500, 2700, 3000, 4050, 4500, 5400, 6000}, /* MCS 7 */
{ 1620, 1800, 3240, 3600, 4860, 5400, 6480, 7200}, /* MCS 8 */
{ 1800, 2000, 3600, 4000, 5400, 6000, 7200, 8000} /* MCS 9 */
};
/* VHT80 Rate Table MAX NSS = 4 */
static unsigned int vht_80_tbl[10][8] =
{
{ 293, 325, 585, 650, 878, 975, 1170, 1300}, /* MCS 0 */
{ 585, 650, 1170, 1300, 1755, 1950, 2340, 2600}, /* MCS 1 */
{ 878, 975, 1755, 1950, 2633, 2925, 3510, 3900}, /* MCS 2 */
{ 1170, 1300, 2340, 2600, 3510, 3900, 4680, 5200}, /* MCS 3 */
{ 1755, 1950, 3510, 3900, 5265, 5850, 7020, 7800}, /* MCS 4 */
{ 2340, 2600, 4680, 5200, 7020, 7800, 9360, 10400}, /* MCS 5 */
{ 2633, 2925, 5265, 5850, 0, 0, 10530, 11700}, /* MCS 6 */
{ 2925, 3250, 5850, 6500, 8775, 9750, 11700, 13000}, /* MCS 7 */
{ 3510, 3900, 7020, 7800, 10530, 11700, 14040, 15600}, /* MCS 8 */
{ 3900, 4333, 7800, 8667, 11700, 13000, 15600, 17333} /* MCS 9 */
};
/* VHT160 Rate Table MAX NSS = 4 */
static unsigned int vht_160_tbl[10][8] =
{
{ 585, 650, 1170, 1300, 1755, 1950, 2340, 2600}, /* MCS 0 */
{ 1170, 1300, 2340, 2600, 3510, 3900, 4680, 5200}, /* MCS 1 */
{ 1755, 1950, 3510, 3900, 5265, 5850, 7020, 7800}, /* MCS 2 */
{ 2340, 2600, 4680, 5200, 7020, 7800, 9360, 10400}, /* MCS 3 */
{ 3510, 3900, 7020, 7800, 10530, 11700, 14040, 15600}, /* MCS 4 */
{ 4680, 5200, 9360, 10400, 14040, 15600, 18720, 20800}, /* MCS 5 */
{ 5265, 5850, 10530, 11700, 15795, 17550, 21060, 23400}, /* MCS 6 */
{ 5850, 6500, 11700, 13000, 17550, 19500, 23400, 26000}, /* MCS 7 */
{ 7020, 7800, 14040, 15600, 21060, 23400, 28080, 31200}, /* MCS 8 */
{ 7800, 8667, 15600, 17333, 0, 0, 31200, 34667} /* MCS 9 */
};
static char *
prism_rate_return_sig(wmem_allocator_t *scope, uint32_t rate_phy1, uint32_t rate_phy2, struct ieee_802_11_phdr *phdr)
{
char *result = NULL;
unsigned int mcs, base, pream_type, disp_rate, bw, sgi, ldpc, stbc, groupid, txbf;
bool su_ppdu = false;
unsigned int partial_aid, nsts_u1, nsts_u2, nsts_u3, nsts_u4;
unsigned int sig_a_1, sig_a_2, nss = 1, nsts_su, signal_type;
unsigned int dsss_tbl[] = {22, 11, 4, 2};
static const unsigned int bw_map[] = { 0, 1, 4, 11 };
/*
* Qualcomm Atheros: Display Nss, MCS/Rate, BW, sgi, LDPC, STBC info
*/
pream_type = rate_phy1 & 0xF;
switch (pream_type) {
case 0: /* OFDM */
phdr->phy = PHDR_802_11_PHY_11A; /* or 11g? */
mcs = (rate_phy1 >> 4) & 0xF;
base = (mcs & 0x4) ? 9 : 6;
mcs &= ~0x4;
mcs = base << (11 - mcs);
mcs = (mcs > 54) ? 54 : mcs;
phdr->has_data_rate = 1;
phdr->data_rate = mcs * 2;
signal_type = rate_phy1 & (1 << 12);
bw = 20 << ((rate_phy1 >> 13) & 0x3);
result = wmem_strdup_printf(scope,
"Rate: %u.%u Mb/s OFDM Signaling:%s BW %d",
mcs, 0, signal_type ? "Dynamic" : "Static", bw
);
break;
case 1: /* DSSS */
phdr->phy = PHDR_802_11_PHY_11B;
mcs = (rate_phy1 >> 4) & 0xF;
base = (mcs & 0x4) ? 1 : 0;
phdr->phy_info.info_11b.has_short_preamble = 1;
phdr->phy_info.info_11b.short_preamble = base;
mcs &= ~0x4;
mcs = (mcs - 8) & 0x3;
disp_rate = dsss_tbl[mcs];
phdr->has_data_rate = 1;
phdr->data_rate = disp_rate;
result = wmem_strdup_printf(scope, "Rate: %u.%u Mb/s DSSS %s",
disp_rate / 2,
(disp_rate & 1) ? 5 : 0,
base ? "[SP]" : "[LP]");
break;
case 2: /* HT */
phdr->phy = PHDR_802_11_PHY_11N;
sig_a_1 = (rate_phy1 >> 4) & 0xFFFF;
sig_a_2 = (rate_phy2) & 0xFFF;
mcs = sig_a_1 & 0x7f;
phdr->phy_info.info_11n.has_mcs_index = 1;
phdr->phy_info.info_11n.mcs_index = mcs;
bw = 20 << ((sig_a_1 >> 7) & 1);
phdr->phy_info.info_11n.has_bandwidth = 1;
phdr->phy_info.info_11n.bandwidth = ((sig_a_1 >> 7) & 1);
sgi = (sig_a_2 >> 7) & 1;
phdr->phy_info.info_11n.has_short_gi = 1;
phdr->phy_info.info_11n.short_gi = sgi;
ldpc = (sig_a_2 >> 6) & 1;
phdr->phy_info.info_11n.has_fec = 1;
phdr->phy_info.info_11n.fec = ldpc;
stbc = ((sig_a_2 >> 4) & 3)?1:0;
phdr->phy_info.info_11n.has_stbc_streams = 1;
phdr->phy_info.info_11n.stbc_streams = stbc;
phdr->phy_info.info_11n.has_ness = 1;
phdr->phy_info.info_11n.ness = (sig_a_2 >> 8) & 3;
nss = (mcs >> 3) + 1;
/* Check limits */
disp_rate = 0;
if ((nss <= 4) && (mcs <= 31) && ((bw == 20) || (bw==40))){
switch (bw) {
case 20:
if (sgi) {
disp_rate = ht_20_tbl[mcs][1];
} else {
disp_rate = ht_20_tbl[mcs][0];
}
break;
case 40:
if (sgi) {
disp_rate = ht_40_tbl[mcs][1];
} else {
disp_rate = ht_40_tbl[mcs][0];
}
break;
}
}
result = wmem_strdup_printf(scope,
"Rate: %u.%u Mb/s HT MCS %d NSS %d BW %d MHz %s %s %s",
disp_rate/10, disp_rate%10, mcs, nss, bw,
sgi ? "[SGI]" : "",
ldpc ? "[LDPC]" : "",
stbc ? "[STBC]" : "");
break;
case 3: /* VHT */
phdr->phy = PHDR_802_11_PHY_11AC;
sig_a_1 = (rate_phy1 >> 4) & 0xFFFFFF;
sig_a_2 = (rate_phy2) & 0xFFFFFF;
stbc = (sig_a_1 >> 3) & 1;
phdr->phy_info.info_11ac.has_stbc = 1;
phdr->phy_info.info_11ac.stbc = stbc;
sgi = sig_a_2 & 1;
phdr->phy_info.info_11ac.has_short_gi = 1;
phdr->phy_info.info_11ac.short_gi = sgi;
bw = 20 << (sig_a_1 & 3);
phdr->phy_info.info_11ac.has_bandwidth = 1;
phdr->phy_info.info_11ac.bandwidth = bw_map[(sig_a_1 & 3)];
ldpc = (sig_a_2 >> 2) & 1;
phdr->phy_info.info_11ac.has_fec = 1;
phdr->phy_info.info_11ac.fec = ldpc;
groupid = (sig_a_1 >> 4) & 0x3F;
phdr->phy_info.info_11ac.has_group_id = 1;
phdr->phy_info.info_11ac.group_id = groupid;
if (groupid == 0 || groupid == 63)
su_ppdu = true;
disp_rate = 0;
if (su_ppdu) {
nsts_su = (sig_a_1 >> 10) & 0x7;
if (stbc)
nss = nsts_su >> 2;
else
nss = nsts_su;
++nss;
mcs = (sig_a_2 >> 4) & 0xF;
phdr->phy_info.info_11ac.mcs[0] = mcs;
phdr->phy_info.info_11ac.nss[0] = nss;
txbf = (sig_a_2 >> 8) & 1;
phdr->phy_info.info_11ac.has_beamformed = 1;
phdr->phy_info.info_11ac.beamformed = txbf;
partial_aid = (sig_a_1 >> 13) & 0x1FF;
phdr->phy_info.info_11ac.has_partial_aid = 1;
phdr->phy_info.info_11ac.partial_aid = partial_aid;
/* Check limits */
if ((nss <= 4) && (mcs <= 9) && ((bw == 20) || (bw==40) || (bw==80) || bw==160)) {
switch (bw) {
case 20:
if (sgi) {
disp_rate = vht_20_tbl[mcs][(nss * 2) - 1];
} else {
disp_rate = vht_20_tbl[mcs][(nss - 1) * 2];
}
break;
case 40:
if (sgi) {
disp_rate = vht_40_tbl[mcs][(nss * 2) - 1];
} else {
disp_rate = vht_40_tbl[mcs][(nss - 1) * 2];
}
break;
case 80:
if (sgi) {
disp_rate = vht_80_tbl[mcs][(nss * 2) - 1];
} else {
disp_rate = vht_80_tbl[mcs][(nss - 1) * 2];
}
break;
case 160:
if (sgi) {
disp_rate = vht_160_tbl[mcs][(nss * 2) - 1];
} else {
disp_rate = vht_160_tbl[mcs][(nss - 1) * 2];
}
break;
}
}
result = wmem_strdup_printf(scope,
"Rate: %u.%u Mb/s VHT MCS %d NSS %d Partial AID %d BW %d MHz %s %s %s GroupID %d %s %s",
disp_rate/10, disp_rate%10,
mcs, nss, partial_aid, bw,
sgi ? "[SGI]" : "",
ldpc ? "[LDPC]" : "",
stbc ? "[STBC]" : "",
groupid,
"[SU_PPDU]",
txbf ? "[TxBF]" : "");
} else {
nsts_u1 = (sig_a_1 >> 10) & 0x7;
nsts_u2 = (sig_a_1 >> 13) & 0x7;
nsts_u3 = (sig_a_1 >> 16) & 0x7;
nsts_u4 = (sig_a_1 >> 19) & 0x7;
result = wmem_strdup_printf(scope,
"VHT NSTS %d %d %d %d BW %d MHz %s %s %s GroupID %d %s",
nsts_u1, nsts_u2, nsts_u3, nsts_u4, bw,
sgi ? "[SGI]" : "",
ldpc ? "[LDPC]" : "",
stbc ? "[STBC]" : "",
groupid,
"[MU_PPDU]");
}
break;
}
return result;
}
static bool
capture_prism(const unsigned char *pd, int offset, int len, capture_packet_info_t *cpinfo, const union wtap_pseudo_header *pseudo_header _U_)
{
uint32_t cookie;
if (!BYTES_ARE_IN_FRAME(offset, len, 4))
return false;
/* Some captures with DLT_PRISM have the AVS WLAN header */
cookie = pntoh32(pd);
if ((cookie == WLANCAP_MAGIC_COOKIE_V1) ||
(cookie == WLANCAP_MAGIC_COOKIE_V2)) {
return call_capture_dissector(wlancap_cap_handle, pd, offset, len, cpinfo, pseudo_header);
}
/* Prism header */
if (!BYTES_ARE_IN_FRAME(offset, len, PRISM_HEADER_LENGTH))
return false;
offset += PRISM_HEADER_LENGTH;
/* 802.11 header follows */
return call_capture_dissector(ieee80211_cap_handle, pd, offset, len, cpinfo, pseudo_header);
}
static int
dissect_prism(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
proto_tree *prism_tree, *prism_did_tree = NULL;
proto_item *ti = NULL, *ti_did = NULL;
tvbuff_t *next_tvb;
int offset;
uint32_t msgcode, msglen, did, rate_phy1 = 0, rate_phy2 = 0;
unsigned byte_order;
uint16_t status;
const uint8_t *devname_p;
uint32_t mactime;
uint32_t channel;
uint32_t signal_dbm;
uint32_t rate;
struct ieee_802_11_phdr phdr;
offset = 0;
did = 0;
/* handle the AVS header */
msgcode = tvb_get_ntohl(tvb, offset);
if ((msgcode == WLANCAP_MAGIC_COOKIE_V1) ||
(msgcode == WLANCAP_MAGIC_COOKIE_V2)) {
call_dissector(wlancap_handle, tvb, pinfo, tree);
return tvb_captured_length(tvb);
}
/*
* If we don't see a valid message type, assume the Prism or AVS
* header was omitted and just hand off to the 802.11 dissector;
* at least one capture has AVS headers on some packets and no
* radio headers on others (incoming vs. outgoing?).
*
* Check for both byte orders and use that to determine
* the byte order of the fields in the Prism header.
*/
if ((msgcode == PRISM_TYPE1_MSGCODE) || (msgcode == PRISM_TYPE2_MSGCODE)) {
/* big-endian fetch matched */
byte_order = ENC_BIG_ENDIAN;
} else if (((msgcode = tvb_get_letohl(tvb, offset)) == PRISM_TYPE1_MSGCODE) ||
(msgcode == PRISM_TYPE2_MSGCODE)) {
/* little-endian fetch matched */
byte_order = ENC_LITTLE_ENDIAN;
} else {
/* neither matched - try it as just 802.11 with no Prism header */
call_dissector(ieee80211_handle, tvb, pinfo, tree);
return tvb_captured_length(tvb);
}
/* We don't have any 802.11 metadata yet. */
memset(&phdr, 0, sizeof(phdr));
phdr.fcs_len = -1;
phdr.decrypted = false;
phdr.datapad = false;
phdr.phy = PHDR_802_11_PHY_UNKNOWN;
col_set_str(pinfo->cinfo, COL_PROTOCOL, "Prism");
col_clear(pinfo->cinfo, COL_INFO);
ti = proto_tree_add_item(tree, proto_prism, tvb, 0, 144, ENC_NA);
prism_tree = proto_item_add_subtree(ti, ett_prism);
/* Message Code */
proto_tree_add_item_ret_uint(prism_tree, hf_ieee80211_prism_msgcode, tvb, offset, 4, byte_order, &msgcode);
offset += 4;
/* Message Length */
proto_tree_add_item_ret_uint(prism_tree, hf_ieee80211_prism_msglen, tvb, offset, 4, byte_order, &msglen);
offset += 4;
/* Device Name */
proto_tree_add_item_ret_string(prism_tree, hf_ieee80211_prism_devname, tvb, offset, 16, ENC_ASCII|ENC_NA, pinfo->pool, &devname_p);
offset += 16;
col_add_fstr(pinfo->cinfo, COL_INFO, "Device: %s, Message 0x%x, Length %d", devname_p, msgcode, msglen);
while (offset < PRISM_HEADER_LENGTH)
{
/* DID */
if (tree) {
ti_did = proto_tree_add_item(prism_tree, hf_ieee80211_prism_did, tvb, offset, 12, ENC_NA);
prism_did_tree = proto_item_add_subtree(ti_did, ett_prism_did);
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_type, tvb, offset, 4, byte_order);
did = tvb_get_uint32(tvb, offset, byte_order);
proto_item_append_text(ti_did, " %s", val_to_str(did, prism_did_vals, "Unknown %x") );
}
offset += 4;
/* Status */
status = tvb_get_uint16(tvb, offset, byte_order);
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_status, tvb, offset, 2, byte_order);
offset += 2;
/* Length */
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_length, tvb, offset, 2, byte_order);
offset += 2;
/* Data, if present... */
if (status == 0) {
switch (did) {
case PRISM_TYPE1_HOSTTIME:
case PRISM_TYPE2_HOSTTIME:
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_hosttime, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " %d", tvb_get_uint32(tvb, offset, byte_order) );
}
break;
case PRISM_TYPE1_MACTIME:
case PRISM_TYPE2_MACTIME:
mactime = tvb_get_uint32(tvb, offset, byte_order);
phdr.has_tsf_timestamp = 1;
phdr.tsf_timestamp = mactime;
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_mactime, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " %d", mactime );
}
break;
case PRISM_TYPE1_CHANNEL:
case PRISM_TYPE2_CHANNEL:
channel = tvb_get_uint32(tvb, offset, byte_order);
phdr.has_channel = true;
phdr.channel = channel;
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_channel, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " %u", channel);
}
col_add_fstr(pinfo->cinfo, COL_FREQ_CHAN, "%u", channel);
break;
case PRISM_TYPE1_RSSI:
case PRISM_TYPE2_RSSI:
signal_dbm = tvb_get_uint32(tvb, offset, byte_order);
phdr.has_signal_dbm = 1;
phdr.signal_dbm = signal_dbm;
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_rssi, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " %d", signal_dbm );
}
col_add_fstr(pinfo->cinfo, COL_RSSI, "%d", signal_dbm);
break;
case PRISM_TYPE1_SQ:
case PRISM_TYPE2_SQ:
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_sq, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " 0x%x", tvb_get_uint32(tvb, offset, byte_order) );
}
break;
case PRISM_TYPE1_SIGNAL:
case PRISM_TYPE2_SIGNAL:
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_signal, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " 0x%x", tvb_get_uint32(tvb, offset, byte_order) );
}
break;
case PRISM_TYPE1_NOISE:
case PRISM_TYPE2_NOISE:
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_noise, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " 0x%x", tvb_get_uint32(tvb, offset, byte_order) );
}
break;
case PRISM_TYPE1_RATE:
case PRISM_TYPE2_RATE:
rate = tvb_get_uint32(tvb, offset, byte_order);
phdr.has_data_rate = true;
phdr.data_rate = rate;
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_rate, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " %s Mb/s", prism_rate_return(pinfo->pool, rate));
}
col_add_str(pinfo->cinfo, COL_TX_RATE, prism_rate_return(pinfo->pool, rate));
break;
case PRISM_TYPE1_RATE_SIG_A1:
case PRISM_TYPE2_RATE_SIG_A1:
/*
* XXX - always little-endian, or same byte order as the
* rest of the Prism header?
*/
rate_phy1 = tvb_get_letohl(tvb, offset);
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_sig_a1, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " 0x%x", tvb_get_letohl(tvb, offset));
}
break;
case PRISM_TYPE1_RATE_SIG_A2:
case PRISM_TYPE2_RATE_SIG_A2:
/*
* XXX - always little-endian, or same byte order as the
* rest of the Prism header?
*/
rate_phy2 = tvb_get_letohl(tvb, offset);
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_sig_a2, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " 0x%x", tvb_get_letohl(tvb, offset));
}
break;
case PRISM_TYPE1_RATE_SIG_B:
case PRISM_TYPE2_RATE_SIG_B:
if (tree && rate_phy1 && rate_phy2) {
proto_item *sig_sub_item;
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_sig_b, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " 0x%x", tvb_get_letohl(tvb, offset));
sig_sub_item = proto_tree_add_item(prism_tree, hf_ieee80211_prism_did_sig_rate_field, tvb, offset, 4, byte_order);
proto_item_append_text(sig_sub_item, " %s", prism_rate_return_sig(pinfo->pool, rate_phy1, rate_phy2, &phdr));
}
break;
case PRISM_TYPE1_ISTX:
case PRISM_TYPE2_ISTX:
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_istx, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " 0x%x", tvb_get_uint32(tvb, offset, byte_order) );
}
break;
case PRISM_TYPE1_FRMLEN:
case PRISM_TYPE2_FRMLEN:
if (tree) {
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_frmlen, tvb, offset, 4, byte_order);
proto_item_append_text(ti_did, " %d", tvb_get_uint32(tvb, offset, byte_order));
}
break;
default:
proto_tree_add_item(prism_did_tree, hf_ieee80211_prism_did_unknown, tvb, offset, 4, byte_order);
break;
}
}
offset += 4;
}
/*
* The only DIDs that directly indicate the packet modulation
* are the SIG_A1 and SIG_A2 DIDs; if they're not present, we
* ned to use some other way to determine the packet modulation,
* so, if the modulation is unknown at this point:
*
* if the data rate is 1 Mb/s or 2 Mb/s, the packet was
* transmitted using the 802.11 legacy DSSS modulation
* (we ignore the IR PHY - was it ever implemented?);
*
* if the data rate is 5 Mb/s or 11 Mb/s, the packet
* was transmitted using the 802.11b DSSS/CCK modulation
* (or the now-obsolete DSSS/PBCC modulation; *if* we can
* rely on the channel/xchannel field's "CCK channel" and
* "Dynamic CCK-OFDM channel" flags, the absence of either
* flag would presumably indicate DSSS/PBCC);
*
* if the data rate is 22 Mb/s or 33 Mb/s, the packet was
* transmitted using the 802.11b DSSS/PBCC modulation (as
* those speeds aren't supported by DSSS/CCK);
*
* if the data rate is one of the OFDM rates for the 11a
* OFDM PHY and the OFDM part of the 11g ERP PHY, the
* packet was transmitted with the 11g/11a OFDM modulation -
* we distinguish between them based on the channel, if we
* have it.
*
* In addition, if they *are* present, and indicate that the
* modulation uses OFDM and isn't HT, VHT, or HE, all we know
* from that is that it's 11a or 11g, not which of those it
* is. We use the channel to distinguish between them.
*/
if (phdr.has_data_rate) {
if (phdr.phy == PHDR_802_11_PHY_UNKNOWN) {
/*
* We don't know they PHY, but we do have the
* data rate; try to guess it based on the
* data rate and center frequency.
*/
if (RATE_IS_DSSS(phdr.data_rate)) {
/* 11b */
phdr.phy = PHDR_802_11_PHY_11B;
} else if (RATE_IS_OFDM(phdr.data_rate)) {
/* 11a or 11g, depending on the band. */
if (phdr.has_channel) {
if (CHAN_IS_BG(phdr.channel)) {
/* 11g */
phdr.phy = PHDR_802_11_PHY_11G;
} else {
/* 11a */
phdr.phy = PHDR_802_11_PHY_11A;
}
}
}
} else if (phdr.phy == PHDR_802_11_PHY_11A) {
/*
* All we know is that it's OFDM; we guessed
* 11a in prism_rate_return_sig(), but if
* the channel is 2.4 GHz channel, it's
* 11g.
*/
if (phdr.has_channel) {
if (CHAN_IS_BG(phdr.channel)) {
/* 11g */
phdr.phy = PHDR_802_11_PHY_11G;
}
}
if (RATE_IS_DSSS(phdr.data_rate)) {
/* DSSS, so 11b. */
phdr.phy = PHDR_802_11_PHY_11B;
}
}
}
/* dissect the 802.11 header next */
next_tvb = tvb_new_subset_remaining(tvb, offset);
call_dissector_with_data(ieee80211_radio_handle, next_tvb, pinfo, tree, (void *)&phdr);
return tvb_captured_length(tvb);
}
static hf_register_info hf_prism[] = {
/* Prism-specific header fields
XXX - make as many of these generic as possible. */
{ &hf_ieee80211_prism_msgcode,
{"Message Code", "prism.msgcode", FT_UINT32, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_msglen,
{"Message Length", "prism.msglen", FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_devname,
{"Device Name", "prism.devname", FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did,
{"DID", "prism.did", FT_NONE, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did_type,
{"DID", "prism.did.type", FT_UINT32, BASE_HEX, VALS(prism_did_vals), 0x0,
"Different ID for each parameter", HFILL }},
{ &hf_ieee80211_prism_did_status,
{"Status", "prism.did.status", FT_UINT16, BASE_DEC, VALS(prism_status_vals), 0x0,
"Supplied by the driver or not", HFILL }},
{ &hf_ieee80211_prism_did_length,
{"Length", "prism.did.length", FT_UINT16, BASE_DEC, NULL, 0x0,
"Length of data", HFILL }},
{ &hf_ieee80211_prism_did_hosttime,
{"Host Time", "prism.did.hosttime", FT_UINT32, BASE_DEC, NULL, 0x0,
"In jiffies - for our system this is in 10ms units", HFILL }},
{ &hf_ieee80211_prism_did_mactime,
{"MAC timestamp (lower 32 bits)", "prism.did.mactime", FT_UINT32, BASE_DEC, NULL, 0x0,
"Lower 32 bits of value in microseconds of the MAC's Time Synchronization Function timer when the first bit of the MPDU arrived at the MAC.", HFILL }},
{ &hf_ieee80211_prism_did_channel,
{"Channel", "prism.did.channel", FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did_rssi,
{"RSSI", "prism.did.rssi", FT_INT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did_sq,
{"Signal Quality", "prism.did.sq", FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did_signal,
{"Signal", "prism.did.signal", FT_INT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did_noise,
{"Noise", "prism.did.noise", FT_INT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did_rate,
{"Data rate (Mb/s)", "prism.did.rate", FT_UINT32, BASE_CUSTOM, CF_FUNC(prism_rate_base_custom), 0x0,
"Speed this frame was sent/received at", HFILL }},
{ &hf_ieee80211_prism_did_sig_a1,
{"SIG_A1", "prism.did.siga1", FT_UINT32, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did_sig_a2,
{"SIG_A2", "prism.did.siga2", FT_UINT32, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_ieee80211_prism_did_sig_b,
{"SIG", "prism.did.sigb", FT_UINT32, BASE_HEX, NULL, 0x0,
NULL, HFILL}},
{ &hf_ieee80211_prism_did_sig_rate_field,
{"SIG Field", "prism.did.sigab", FT_NONE, BASE_NONE, 0, 0x0,
NULL, HFILL}},
{ &hf_ieee80211_prism_did_istx,
{"IsTX", "prism.did.istx", FT_UINT32, BASE_HEX, VALS(prism_istx_vals), 0x0,
"Type of packet (RX or TX?)", HFILL }},
{ &hf_ieee80211_prism_did_frmlen,
{"Frame Length", "prism.did.frmlen", FT_UINT32, BASE_DEC, NULL, 0x0,
"Length of the following frame in bytes", HFILL }},
{ &hf_ieee80211_prism_did_unknown,
{"Unknown DID Field", "prism.did.unknown", FT_UINT32, BASE_HEX_DEC, NULL, 0x0,
NULL, HFILL }}
};
static int *tree_array[] = {
&ett_prism,
&ett_prism_did,
&ett_sig_ab
};
void proto_register_ieee80211_prism(void)
{
proto_prism = proto_register_protocol("Prism capture header", "Prism",
"prism");
proto_register_field_array(proto_prism, hf_prism, array_length(hf_prism));
proto_register_subtree_array(tree_array, array_length(tree_array));
prism_handle = register_dissector("prism", dissect_prism, proto_prism);
}
void proto_reg_handoff_ieee80211_prism(void)
{
capture_dissector_handle_t ieee80211_prism_cap_handle;
dissector_add_uint("wtap_encap", WTAP_ENCAP_IEEE_802_11_PRISM, prism_handle);
ieee80211_handle = find_dissector_add_dependency("wlan", proto_prism);
ieee80211_radio_handle = find_dissector_add_dependency("wlan_radio", proto_prism);
wlancap_handle = find_dissector_add_dependency("wlancap", proto_prism);
ieee80211_prism_cap_handle = create_capture_dissector_handle(capture_prism, proto_prism);
capture_dissector_add_uint("wtap_encap", WTAP_ENCAP_IEEE_802_11_PRISM, ieee80211_prism_cap_handle);
ieee80211_cap_handle = find_capture_dissector("ieee80211");
wlancap_cap_handle = find_capture_dissector("wlancap");
}
/*
* Editor modelines
*
* Local Variables:
* c-basic-offset: 4
* tab-width: 8
* indent-tabs-mode: nil
* End:
*
* ex: set shiftwidth=4 tabstop=8 expandtab:
* :indentSize=4:tabSize=8:noTabs=true:
*/
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