freebsd-dev/sys/net80211/ieee80211_ddb.c

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/*-
* Copyright (c) 2007-2009 Sam Leffler, Errno Consulting
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include "opt_ddb.h"
#include "opt_wlan.h"
#ifdef DDB
/*
* IEEE 802.11 DDB support
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/socket.h>
#include <net/if.h>
#include <net/if_dl.h>
#include <net/if_media.h>
#include <net/if_types.h>
#include <net/ethernet.h>
#include <net/vnet.h>
#include <net80211/ieee80211_var.h>
#ifdef IEEE80211_SUPPORT_TDMA
#include <net80211/ieee80211_tdma.h>
#endif
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
#ifdef IEEE80211_SUPPORT_MESH
#include <net80211/ieee80211_mesh.h>
#endif
#include <ddb/ddb.h>
#include <ddb/db_sym.h>
#define DB_PRINTSYM(prefix, name, addr) do { \
db_printf("%s%-25s : ", prefix, name); \
db_printsym((db_addr_t) addr, DB_STGY_ANY); \
db_printf("\n"); \
} while (0)
static void _db_show_sta(const struct ieee80211_node *);
static void _db_show_vap(const struct ieee80211vap *, int, int);
static void _db_show_com(const struct ieee80211com *,
int showvaps, int showsta, int showmesh, int showprocs);
static void _db_show_node_table(const char *tag,
const struct ieee80211_node_table *);
static void _db_show_channel(const char *tag, const struct ieee80211_channel *);
static void _db_show_ssid(const char *tag, int ix, int len, const uint8_t *);
static void _db_show_appie(const char *tag, const struct ieee80211_appie *);
static void _db_show_key(const char *tag, int ix, const struct ieee80211_key *);
static void _db_show_roamparams(const char *tag, const void *arg,
const struct ieee80211_roamparam *rp);
static void _db_show_txparams(const char *tag, const void *arg,
const struct ieee80211_txparam *tp);
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
static void _db_show_ageq(const char *tag, const struct ieee80211_ageq *q);
static void _db_show_stats(const struct ieee80211_stats *);
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
#ifdef IEEE80211_SUPPORT_MESH
static void _db_show_mesh(const struct ieee80211_mesh_state *);
#endif
DB_SHOW_COMMAND(sta, db_show_sta)
{
if (!have_addr) {
db_printf("usage: show sta <addr>\n");
return;
}
_db_show_sta((const struct ieee80211_node *) addr);
}
DB_SHOW_COMMAND(statab, db_show_statab)
{
if (!have_addr) {
db_printf("usage: show statab <addr>\n");
return;
}
_db_show_node_table("", (const struct ieee80211_node_table *) addr);
}
DB_SHOW_COMMAND(vap, db_show_vap)
{
int i, showmesh = 0, showprocs = 0;
if (!have_addr) {
db_printf("usage: show vap <addr>\n");
return;
}
for (i = 0; modif[i] != '\0'; i++)
switch (modif[i]) {
case 'a':
showprocs = 1;
showmesh = 1;
break;
case 'm':
showmesh = 1;
break;
case 'p':
showprocs = 1;
break;
}
_db_show_vap((const struct ieee80211vap *) addr, showmesh, showprocs);
}
DB_SHOW_COMMAND(com, db_show_com)
{
const struct ieee80211com *ic;
int i, showprocs = 0, showvaps = 0, showsta = 0, showmesh = 0;
if (!have_addr) {
db_printf("usage: show com <addr>\n");
return;
}
for (i = 0; modif[i] != '\0'; i++)
switch (modif[i]) {
case 'a':
showsta = showmesh = showvaps = showprocs = 1;
break;
case 's':
showsta = 1;
break;
case 'm':
showmesh = 1;
break;
case 'v':
showvaps = 1;
break;
case 'p':
showprocs = 1;
break;
}
ic = (const struct ieee80211com *) addr;
_db_show_com(ic, showvaps, showsta, showmesh, showprocs);
}
DB_SHOW_ALL_COMMAND(vaps, db_show_all_vaps)
{
VNET_ITERATOR_DECL(vnet_iter);
const struct ifnet *ifp;
int i, showall = 0;
for (i = 0; modif[i] != '\0'; i++)
switch (modif[i]) {
case 'a':
showall = 1;
break;
}
VNET_FOREACH(vnet_iter) {
TAILQ_FOREACH(ifp, &V_ifnet, if_list)
if (ifp->if_type == IFT_IEEE80211) {
const struct ieee80211com *ic = ifp->if_l2com;
if (!showall) {
const struct ieee80211vap *vap;
db_printf("%s: com %p vaps:",
ifp->if_xname, ic);
TAILQ_FOREACH(vap, &ic->ic_vaps,
iv_next)
db_printf(" %s(%p)",
vap->iv_ifp->if_xname, vap);
db_printf("\n");
} else
_db_show_com(ic, 1, 1, 1, 1);
}
}
}
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
#ifdef IEEE80211_SUPPORT_MESH
DB_SHOW_ALL_COMMAND(mesh, db_show_mesh)
{
const struct ieee80211_mesh_state *ms;
if (!have_addr) {
db_printf("usage: show mesh <addr>\n");
return;
}
ms = (const struct ieee80211_mesh_state *) addr;
_db_show_mesh(ms);
}
#endif /* IEEE80211_SUPPORT_MESH */
static void
_db_show_txampdu(const char *sep, int ix, const struct ieee80211_tx_ampdu *tap)
{
2009-05-02 20:28:55 +00:00
db_printf("%stxampdu[%d]: %p flags %b %s\n",
sep, ix, tap, tap->txa_flags, IEEE80211_AGGR_BITS,
ieee80211_wme_acnames[TID_TO_WME_AC(tap->txa_tid)]);
db_printf("%s token %u lastsample %d pkts %d avgpps %d qbytes %d qframes %d\n",
sep, tap->txa_token, tap->txa_lastsample, tap->txa_pkts,
tap->txa_avgpps, tap->txa_qbytes, tap->txa_qframes);
db_printf("%s start %u seqpending %u wnd %u attempts %d nextrequest %d\n",
sep, tap->txa_start, tap->txa_seqpending, tap->txa_wnd,
tap->txa_attempts, tap->txa_nextrequest);
/* XXX timer */
}
static void
_db_show_rxampdu(const char *sep, int ix, const struct ieee80211_rx_ampdu *rap)
{
int i;
db_printf("%srxampdu[%d]: %p flags 0x%x tid %u\n",
sep, ix, rap, rap->rxa_flags, ix /*XXX */);
db_printf("%s qbytes %d qframes %d seqstart %u start %u wnd %u\n",
sep, rap->rxa_qbytes, rap->rxa_qframes,
rap->rxa_seqstart, rap->rxa_start, rap->rxa_wnd);
db_printf("%s age %d nframes %d\n", sep,
rap->rxa_age, rap->rxa_nframes);
for (i = 0; i < IEEE80211_AGGR_BAWMAX; i++)
if (rap->rxa_m[i] != NULL)
db_printf("%s m[%2u:%4u] %p\n", sep, i,
IEEE80211_SEQ_ADD(rap->rxa_start, i),
rap->rxa_m[i]);
}
static void
_db_show_sta(const struct ieee80211_node *ni)
{
int i;
db_printf("0x%p: mac %s refcnt %d\n", ni,
ether_sprintf(ni->ni_macaddr), ieee80211_node_refcnt(ni));
db_printf("\tvap %p wdsvap %p ic %p table %p\n",
ni->ni_vap, ni->ni_wdsvap, ni->ni_ic, ni->ni_table);
db_printf("\tflags=%b\n", ni->ni_flags, IEEE80211_NODE_BITS);
db_printf("\tscangen %u authmode %u ath_flags 0x%x ath_defkeyix %u\n",
ni->ni_scangen, ni->ni_authmode,
ni->ni_ath_flags, ni->ni_ath_defkeyix);
db_printf("\tassocid 0x%x txpower %u vlan %u\n",
ni->ni_associd, ni->ni_txpower, ni->ni_vlan);
db_printf("\tjointime %d (%lu secs) challenge %p\n",
ni->ni_jointime, (unsigned long)(time_uptime - ni->ni_jointime),
ni->ni_challenge);
db_printf("\ties: data %p len %d\n", ni->ni_ies.data, ni->ni_ies.len);
db_printf("\t[wpa_ie %p rsn_ie %p wme_ie %p ath_ie %p\n",
ni->ni_ies.wpa_ie, ni->ni_ies.rsn_ie, ni->ni_ies.wme_ie,
ni->ni_ies.ath_ie);
db_printf("\t htcap_ie %p htinfo_ie %p]\n",
ni->ni_ies.htcap_ie, ni->ni_ies.htinfo_ie);
if (ni->ni_flags & IEEE80211_NODE_QOS) {
for (i = 0; i < WME_NUM_TID; i++) {
if (ni->ni_txseqs[i] || ni->ni_rxseqs[i])
db_printf("\t[%u] txseq %u rxseq %u fragno %u\n",
i, ni->ni_txseqs[i],
ni->ni_rxseqs[i] >> IEEE80211_SEQ_SEQ_SHIFT,
ni->ni_rxseqs[i] & IEEE80211_SEQ_FRAG_MASK);
}
}
db_printf("\ttxseq %u rxseq %u fragno %u rxfragstamp %u\n",
ni->ni_txseqs[IEEE80211_NONQOS_TID],
ni->ni_rxseqs[IEEE80211_NONQOS_TID] >> IEEE80211_SEQ_SEQ_SHIFT,
ni->ni_rxseqs[IEEE80211_NONQOS_TID] & IEEE80211_SEQ_FRAG_MASK,
ni->ni_rxfragstamp);
db_printf("\trxfrag[0] %p rxfrag[1] %p rxfrag[2] %p\n",
ni->ni_rxfrag[0], ni->ni_rxfrag[1], ni->ni_rxfrag[2]);
_db_show_key("\tucastkey", 0, &ni->ni_ucastkey);
db_printf("\tavgrssi 0x%x (rssi %d) noise %d\n",
ni->ni_avgrssi, IEEE80211_RSSI_GET(ni->ni_avgrssi),
ni->ni_noise);
db_printf("\tintval %u capinfo %b\n",
ni->ni_intval, ni->ni_capinfo, IEEE80211_CAPINFO_BITS);
db_printf("\tbssid %s", ether_sprintf(ni->ni_bssid));
_db_show_ssid(" essid ", 0, ni->ni_esslen, ni->ni_essid);
db_printf("\n");
_db_show_channel("\tchannel", ni->ni_chan);
db_printf("\n");
db_printf("\terp %b dtim_period %u dtim_count %u\n",
ni->ni_erp, IEEE80211_ERP_BITS,
ni->ni_dtim_period, ni->ni_dtim_count);
db_printf("\thtcap %b htparam 0x%x htctlchan %u ht2ndchan %u\n",
ni->ni_htcap, IEEE80211_HTCAP_BITS,
ni->ni_htparam, ni->ni_htctlchan, ni->ni_ht2ndchan);
db_printf("\thtopmode 0x%x htstbc 0x%x chw %u\n",
ni->ni_htopmode, ni->ni_htstbc, ni->ni_chw);
/* XXX ampdu state */
for (i = 0; i < WME_NUM_TID; i++)
if (ni->ni_tx_ampdu[i].txa_flags & IEEE80211_AGGR_SETUP)
_db_show_txampdu("\t", i, &ni->ni_tx_ampdu[i]);
for (i = 0; i < WME_NUM_TID; i++)
if (ni->ni_rx_ampdu[i].rxa_flags)
_db_show_rxampdu("\t", i, &ni->ni_rx_ampdu[i]);
db_printf("\tinact %u inact_reload %u txrate %u\n",
ni->ni_inact, ni->ni_inact_reload, ni->ni_txrate);
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
#ifdef IEEE80211_SUPPORT_MESH
_db_show_ssid("\tmeshid ", 0, ni->ni_meshidlen, ni->ni_meshid);
db_printf(" mlstate %b mllid 0x%x mlpid 0x%x mlrcnt %u mltval %u\n",
ni->ni_mlstate, IEEE80211_MESH_MLSTATE_BITS,
ni->ni_mllid, ni->ni_mlpid, ni->ni_mlrcnt, ni->ni_mltval);
#endif
}
#ifdef IEEE80211_SUPPORT_TDMA
static void
_db_show_tdma(const char *sep, const struct ieee80211_tdma_state *ts, int showprocs)
{
db_printf("%stdma %p:\n", sep, ts);
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db_printf("%s version %u slot %u bintval %u peer %p\n", sep,
ts->tdma_version, ts->tdma_slot, ts->tdma_bintval, ts->tdma_peer);
db_printf("%s slotlen %u slotcnt %u", sep,
ts->tdma_slotlen, ts->tdma_slotcnt);
2009-05-01 21:31:39 +00:00
db_printf(" inuse 0x%x active 0x%x count %d\n",
ts->tdma_inuse[0], ts->tdma_active[0], ts->tdma_count);
if (showprocs) {
DB_PRINTSYM(sep, " tdma_newstate", ts->tdma_newstate);
DB_PRINTSYM(sep, " tdma_recv_mgmt", ts->tdma_recv_mgmt);
DB_PRINTSYM(sep, " tdma_opdetach", ts->tdma_opdetach);
}
}
#endif /* IEEE80211_SUPPORT_TDMA */
static void
_db_show_vap(const struct ieee80211vap *vap, int showmesh, int showprocs)
{
const struct ieee80211com *ic = vap->iv_ic;
int i;
db_printf("%p:", vap);
db_printf(" bss %p", vap->iv_bss);
db_printf(" myaddr %s", ether_sprintf(vap->iv_myaddr));
db_printf("\n");
db_printf("\topmode %s", ieee80211_opmode_name[vap->iv_opmode]);
#ifdef IEEE80211_SUPPORT_MESH
if (vap->iv_opmode == IEEE80211_M_MBSS)
db_printf("(%p)", vap->iv_mesh);
#endif
db_printf(" state %s", ieee80211_state_name[vap->iv_state]);
db_printf(" ifp %p(%s)", vap->iv_ifp, vap->iv_ifp->if_xname);
db_printf("\n");
db_printf("\tic %p", vap->iv_ic);
db_printf(" media %p", &vap->iv_media);
db_printf(" bpf_if %p", vap->iv_rawbpf);
db_printf(" mgtsend %p", &vap->iv_mgtsend);
#if 0
struct sysctllog *iv_sysctl; /* dynamic sysctl context */
#endif
db_printf("\n");
db_printf("\tdebug=%b\n", vap->iv_debug, IEEE80211_MSG_BITS);
db_printf("\tflags=%b\n", vap->iv_flags, IEEE80211_F_BITS);
db_printf("\tflags_ext=%b\n", vap->iv_flags_ext, IEEE80211_FEXT_BITS);
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db_printf("\tflags_ht=%b\n", vap->iv_flags_ht, IEEE80211_FHT_BITS);
db_printf("\tflags_ven=%b\n", vap->iv_flags_ven, IEEE80211_FVEN_BITS);
db_printf("\tcaps=%b\n", vap->iv_caps, IEEE80211_C_BITS);
db_printf("\thtcaps=%b\n", vap->iv_htcaps, IEEE80211_C_HTCAP_BITS);
_db_show_stats(&vap->iv_stats);
db_printf("\tinact_init %d", vap->iv_inact_init);
db_printf(" inact_auth %d", vap->iv_inact_auth);
db_printf(" inact_run %d", vap->iv_inact_run);
db_printf(" inact_probe %d", vap->iv_inact_probe);
db_printf("\n");
db_printf("\tdes_nssid %d", vap->iv_des_nssid);
if (vap->iv_des_nssid)
_db_show_ssid(" des_ssid[%u] ", 0,
vap->iv_des_ssid[0].len, vap->iv_des_ssid[0].ssid);
db_printf(" des_bssid %s", ether_sprintf(vap->iv_des_bssid));
db_printf("\n");
db_printf("\tdes_mode %d", vap->iv_des_mode);
_db_show_channel(" des_chan", vap->iv_des_chan);
db_printf("\n");
#if 0
int iv_nicknamelen; /* XXX junk */
uint8_t iv_nickname[IEEE80211_NWID_LEN];
#endif
db_printf("\tbgscanidle %u", vap->iv_bgscanidle);
db_printf(" bgscanintvl %u", vap->iv_bgscanintvl);
db_printf(" scanvalid %u", vap->iv_scanvalid);
db_printf("\n");
db_printf("\tscanreq_duration %u", vap->iv_scanreq_duration);
db_printf(" scanreq_mindwell %u", vap->iv_scanreq_mindwell);
db_printf(" scanreq_maxdwell %u", vap->iv_scanreq_maxdwell);
db_printf("\n");
db_printf("\tscanreq_flags 0x%x", vap->iv_scanreq_flags);
db_printf(" scanreq_nssid %d", vap->iv_scanreq_nssid);
for (i = 0; i < vap->iv_scanreq_nssid; i++)
_db_show_ssid(" scanreq_ssid[%u]", i,
vap->iv_scanreq_ssid[i].len, vap->iv_scanreq_ssid[i].ssid);
db_printf(" roaming %d", vap->iv_roaming);
db_printf("\n");
for (i = IEEE80211_MODE_11A; i < IEEE80211_MODE_MAX; i++)
if (isset(ic->ic_modecaps, i)) {
_db_show_roamparams("\troamparms[%s]",
ieee80211_phymode_name[i], &vap->iv_roamparms[i]);
db_printf("\n");
}
db_printf("\tbmissthreshold %u", vap->iv_bmissthreshold);
db_printf(" bmiss_max %u", vap->iv_bmiss_count);
db_printf(" bmiss_max %d", vap->iv_bmiss_max);
db_printf("\n");
db_printf("\tswbmiss_count %u", vap->iv_swbmiss_count);
db_printf(" swbmiss_period %u", vap->iv_swbmiss_period);
db_printf(" swbmiss %p", &vap->iv_swbmiss);
db_printf("\n");
db_printf("\tampdu_rxmax %d", vap->iv_ampdu_rxmax);
db_printf(" ampdu_density %d", vap->iv_ampdu_density);
db_printf(" ampdu_limit %d", vap->iv_ampdu_limit);
db_printf(" amsdu_limit %d", vap->iv_amsdu_limit);
db_printf("\n");
db_printf("\tmax_aid %u", vap->iv_max_aid);
db_printf(" aid_bitmap %p", vap->iv_aid_bitmap);
db_printf("\n");
db_printf("\tsta_assoc %u", vap->iv_sta_assoc);
db_printf(" ps_sta %u", vap->iv_ps_sta);
db_printf(" ps_pending %u", vap->iv_ps_pending);
db_printf(" tim_len %u", vap->iv_tim_len);
db_printf(" tim_bitmap %p", vap->iv_tim_bitmap);
db_printf("\n");
db_printf("\tdtim_period %u", vap->iv_dtim_period);
db_printf(" dtim_count %u", vap->iv_dtim_count);
db_printf(" set_tim %p", vap->iv_set_tim);
db_printf(" csa_count %d", vap->iv_csa_count);
db_printf("\n");
db_printf("\trtsthreshold %u", vap->iv_rtsthreshold);
db_printf(" fragthreshold %u", vap->iv_fragthreshold);
db_printf(" inact_timer %d", vap->iv_inact_timer);
db_printf("\n");
for (i = IEEE80211_MODE_11A; i < IEEE80211_MODE_MAX; i++)
if (isset(ic->ic_modecaps, i)) {
_db_show_txparams("\ttxparms[%s]",
ieee80211_phymode_name[i], &vap->iv_txparms[i]);
db_printf("\n");
}
/* application-specified IE's to attach to mgt frames */
_db_show_appie("\tappie_beacon", vap->iv_appie_beacon);
_db_show_appie("\tappie_probereq", vap->iv_appie_probereq);
_db_show_appie("\tappie_proberesp", vap->iv_appie_proberesp);
_db_show_appie("\tappie_assocreq", vap->iv_appie_assocreq);
_db_show_appie("\tappie_asscoresp", vap->iv_appie_assocresp);
_db_show_appie("\tappie_wpa", vap->iv_appie_wpa);
if (vap->iv_wpa_ie != NULL || vap->iv_rsn_ie != NULL) {
if (vap->iv_wpa_ie != NULL)
db_printf("\twpa_ie %p", vap->iv_wpa_ie);
if (vap->iv_rsn_ie != NULL)
db_printf("\trsn_ie %p", vap->iv_rsn_ie);
db_printf("\n");
}
db_printf("\tmax_keyix %u", vap->iv_max_keyix);
db_printf(" def_txkey %d", vap->iv_def_txkey);
db_printf("\n");
for (i = 0; i < IEEE80211_WEP_NKID; i++)
_db_show_key("\tnw_keys[%u]", i, &vap->iv_nw_keys[i]);
db_printf("\tauth %p(%s)", vap->iv_auth, vap->iv_auth->ia_name);
db_printf(" ec %p", vap->iv_ec);
db_printf(" acl %p", vap->iv_acl);
db_printf(" as %p", vap->iv_as);
db_printf("\n");
#ifdef IEEE80211_SUPPORT_MESH
if (showmesh && vap->iv_mesh != NULL)
_db_show_mesh(vap->iv_mesh);
#endif
#ifdef IEEE80211_SUPPORT_TDMA
if (vap->iv_tdma != NULL)
_db_show_tdma("\t", vap->iv_tdma, showprocs);
#endif /* IEEE80211_SUPPORT_TDMA */
if (showprocs) {
DB_PRINTSYM("\t", "iv_key_alloc", vap->iv_key_alloc);
DB_PRINTSYM("\t", "iv_key_delete", vap->iv_key_delete);
DB_PRINTSYM("\t", "iv_key_set", vap->iv_key_set);
DB_PRINTSYM("\t", "iv_key_update_begin", vap->iv_key_update_begin);
DB_PRINTSYM("\t", "iv_key_update_end", vap->iv_key_update_end);
DB_PRINTSYM("\t", "iv_opdetach", vap->iv_opdetach);
DB_PRINTSYM("\t", "iv_input", vap->iv_input);
DB_PRINTSYM("\t", "iv_recv_mgmt", vap->iv_recv_mgmt);
DB_PRINTSYM("\t", "iv_deliver_data", vap->iv_deliver_data);
DB_PRINTSYM("\t", "iv_bmiss", vap->iv_bmiss);
DB_PRINTSYM("\t", "iv_reset", vap->iv_reset);
DB_PRINTSYM("\t", "iv_update_beacon", vap->iv_update_beacon);
DB_PRINTSYM("\t", "iv_newstate", vap->iv_newstate);
DB_PRINTSYM("\t", "iv_output", vap->iv_output);
}
}
static void
_db_show_com(const struct ieee80211com *ic, int showvaps, int showsta,
int showmesh, int showprocs)
{
struct ieee80211vap *vap;
db_printf("%p:", ic);
TAILQ_FOREACH(vap, &ic->ic_vaps, iv_next)
db_printf(" %s(%p)", vap->iv_ifp->if_xname, vap);
db_printf("\n");
db_printf("\tifp %p(%s)", ic->ic_ifp, ic->ic_ifp->if_xname);
db_printf(" comlock %p", &ic->ic_comlock);
db_printf("\n");
db_printf("\theadroom %d", ic->ic_headroom);
db_printf(" phytype %d", ic->ic_phytype);
db_printf(" opmode %s", ieee80211_opmode_name[ic->ic_opmode]);
db_printf("\n");
db_printf("\tmedia %p", &ic->ic_media);
db_printf(" inact %p", &ic->ic_inact);
db_printf("\n");
db_printf("\tflags=%b\n", ic->ic_flags, IEEE80211_F_BITS);
db_printf("\tflags_ext=%b\n", ic->ic_flags_ext, IEEE80211_FEXT_BITS);
2009-06-07 22:03:25 +00:00
db_printf("\tflags_ht=%b\n", ic->ic_flags_ht, IEEE80211_FHT_BITS);
db_printf("\tflags_ven=%b\n", ic->ic_flags_ven, IEEE80211_FVEN_BITS);
db_printf("\tcaps=%b\n", ic->ic_caps, IEEE80211_C_BITS);
db_printf("\tcryptocaps=%b\n",
ic->ic_cryptocaps, IEEE80211_CRYPTO_BITS);
db_printf("\thtcaps=%b\n", ic->ic_htcaps, IEEE80211_HTCAP_BITS);
#if 0
uint8_t ic_modecaps[2]; /* set of mode capabilities */
#endif
db_printf("\tcurmode %u", ic->ic_curmode);
db_printf(" promisc %u", ic->ic_promisc);
db_printf(" allmulti %u", ic->ic_allmulti);
db_printf(" nrunning %u", ic->ic_nrunning);
db_printf("\n");
db_printf("\tbintval %u", ic->ic_bintval);
db_printf(" lintval %u", ic->ic_lintval);
db_printf(" holdover %u", ic->ic_holdover);
db_printf(" txpowlimit %u", ic->ic_txpowlimit);
db_printf("\n");
#if 0
struct ieee80211_rateset ic_sup_rates[IEEE80211_MODE_MAX];
#endif
/*
* Channel state:
*
* ic_channels is the set of available channels for the device;
* it is setup by the driver
* ic_nchans is the number of valid entries in ic_channels
* ic_chan_avail is a bit vector of these channels used to check
* whether a channel is available w/o searching the channel table.
* ic_chan_active is a (potentially) constrained subset of
* ic_chan_avail that reflects any mode setting or user-specified
* limit on the set of channels to use/scan
* ic_curchan is the current channel the device is set to; it may
* be different from ic_bsschan when we are off-channel scanning
* or otherwise doing background work
* ic_bsschan is the channel selected for operation; it may
* be undefined (IEEE80211_CHAN_ANYC)
* ic_prevchan is a cached ``previous channel'' used to optimize
* lookups when switching back+forth between two channels
* (e.g. for dynamic turbo)
*/
db_printf("\tnchans %d", ic->ic_nchans);
#if 0
struct ieee80211_channel ic_channels[IEEE80211_CHAN_MAX];
uint8_t ic_chan_avail[IEEE80211_CHAN_BYTES];
uint8_t ic_chan_active[IEEE80211_CHAN_BYTES];
uint8_t ic_chan_scan[IEEE80211_CHAN_BYTES];
#endif
db_printf("\n");
_db_show_channel("\tcurchan", ic->ic_curchan);
db_printf("\n");
_db_show_channel("\tbsschan", ic->ic_bsschan);
db_printf("\n");
_db_show_channel("\tprevchan", ic->ic_prevchan);
db_printf("\n");
db_printf("\tregdomain %p", &ic->ic_regdomain);
db_printf("\n");
_db_show_channel("\tcsa_newchan", ic->ic_csa_newchan);
db_printf(" csa_count %d", ic->ic_csa_count);
db_printf( "dfs %p", &ic->ic_dfs);
db_printf("\n");
db_printf("\tscan %p", ic->ic_scan);
db_printf(" lastdata %d", ic->ic_lastdata);
db_printf(" lastscan %d", ic->ic_lastscan);
db_printf("\n");
db_printf("\tmax_keyix %d", ic->ic_max_keyix);
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
db_printf(" hash_key 0x%x", ic->ic_hash_key);
db_printf(" wme %p", &ic->ic_wme);
if (!showsta)
db_printf(" sta %p", &ic->ic_sta);
db_printf("\n");
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
db_printf("\tstageq@%p:\n", &ic->ic_stageq);
_db_show_ageq("\t", &ic->ic_stageq);
if (showsta)
_db_show_node_table("\t", &ic->ic_sta);
db_printf("\tprotmode %d", ic->ic_protmode);
db_printf(" nonerpsta %u", ic->ic_nonerpsta);
db_printf(" longslotsta %u", ic->ic_longslotsta);
db_printf(" lastnonerp %d", ic->ic_lastnonerp);
db_printf("\n");
db_printf("\tsta_assoc %u", ic->ic_sta_assoc);
db_printf(" ht_sta_assoc %u", ic->ic_ht_sta_assoc);
db_printf(" ht40_sta_assoc %u", ic->ic_ht40_sta_assoc);
db_printf("\n");
db_printf("\tcurhtprotmode 0x%x", ic->ic_curhtprotmode);
db_printf(" htprotmode %d", ic->ic_htprotmode);
db_printf(" lastnonht %d", ic->ic_lastnonht);
db_printf("\n");
db_printf("\tsuperg %p\n", ic->ic_superg);
db_printf("\tmontaps %d th %p txchan %p rh %p rxchan %p\n",
ic->ic_montaps, ic->ic_th, ic->ic_txchan, ic->ic_rh, ic->ic_rxchan);
if (showprocs) {
DB_PRINTSYM("\t", "ic_vap_create", ic->ic_vap_create);
DB_PRINTSYM("\t", "ic_vap_delete", ic->ic_vap_delete);
#if 0
/* operating mode attachment */
ieee80211vap_attach ic_vattach[IEEE80211_OPMODE_MAX];
#endif
DB_PRINTSYM("\t", "ic_newassoc", ic->ic_newassoc);
DB_PRINTSYM("\t", "ic_getradiocaps", ic->ic_getradiocaps);
DB_PRINTSYM("\t", "ic_setregdomain", ic->ic_setregdomain);
DB_PRINTSYM("\t", "ic_send_mgmt", ic->ic_send_mgmt);
DB_PRINTSYM("\t", "ic_raw_xmit", ic->ic_raw_xmit);
DB_PRINTSYM("\t", "ic_updateslot", ic->ic_updateslot);
DB_PRINTSYM("\t", "ic_update_mcast", ic->ic_update_mcast);
DB_PRINTSYM("\t", "ic_update_promisc", ic->ic_update_promisc);
DB_PRINTSYM("\t", "ic_node_alloc", ic->ic_node_alloc);
DB_PRINTSYM("\t", "ic_node_free", ic->ic_node_free);
DB_PRINTSYM("\t", "ic_node_cleanup", ic->ic_node_cleanup);
DB_PRINTSYM("\t", "ic_node_getrssi", ic->ic_node_getrssi);
DB_PRINTSYM("\t", "ic_node_getsignal", ic->ic_node_getsignal);
DB_PRINTSYM("\t", "ic_node_getmimoinfo", ic->ic_node_getmimoinfo);
DB_PRINTSYM("\t", "ic_scan_start", ic->ic_scan_start);
DB_PRINTSYM("\t", "ic_scan_end", ic->ic_scan_end);
DB_PRINTSYM("\t", "ic_set_channel", ic->ic_set_channel);
DB_PRINTSYM("\t", "ic_scan_curchan", ic->ic_scan_curchan);
DB_PRINTSYM("\t", "ic_scan_mindwell", ic->ic_scan_mindwell);
DB_PRINTSYM("\t", "ic_recv_action", ic->ic_recv_action);
DB_PRINTSYM("\t", "ic_send_action", ic->ic_send_action);
DB_PRINTSYM("\t", "ic_addba_request", ic->ic_addba_request);
DB_PRINTSYM("\t", "ic_addba_response", ic->ic_addba_response);
DB_PRINTSYM("\t", "ic_addba_stop", ic->ic_addba_stop);
}
if (showvaps && !TAILQ_EMPTY(&ic->ic_vaps)) {
db_printf("\n");
TAILQ_FOREACH(vap, &ic->ic_vaps, iv_next)
_db_show_vap(vap, showmesh, showprocs);
}
if (showsta && !TAILQ_EMPTY(&ic->ic_sta.nt_node)) {
const struct ieee80211_node_table *nt = &ic->ic_sta;
const struct ieee80211_node *ni;
TAILQ_FOREACH(ni, &nt->nt_node, ni_list) {
db_printf("\n");
_db_show_sta(ni);
}
}
}
static void
_db_show_node_table(const char *tag, const struct ieee80211_node_table *nt)
{
int i;
db_printf("%s%s@%p:\n", tag, nt->nt_name, nt);
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
db_printf("%s nodelock %p", tag, &nt->nt_nodelock);
db_printf(" inact_init %d", nt->nt_inact_init);
db_printf(" scanlock %p", &nt->nt_scanlock);
db_printf(" scangen %u\n", nt->nt_scangen);
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
db_printf("%s keyixmax %d keyixmap %p\n",
tag, nt->nt_keyixmax, nt->nt_keyixmap);
for (i = 0; i < nt->nt_keyixmax; i++) {
const struct ieee80211_node *ni = nt->nt_keyixmap[i];
if (ni != NULL)
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
db_printf("%s [%3u] %p %s\n", tag, i, ni,
ether_sprintf(ni->ni_macaddr));
}
}
static void
_db_show_channel(const char *tag, const struct ieee80211_channel *c)
{
db_printf("%s ", tag);
if (c == NULL)
db_printf("<NULL>");
else if (c == IEEE80211_CHAN_ANYC)
db_printf("<ANY>");
else
db_printf("[%u (%u) flags=%b maxreg %d maxpow %d minpow %d state 0x%x extieee %u]",
c->ic_freq, c->ic_ieee,
c->ic_flags, IEEE80211_CHAN_BITS,
c->ic_maxregpower, c->ic_maxpower, c->ic_minpower,
c->ic_state, c->ic_extieee);
}
static void
_db_show_ssid(const char *tag, int ix, int len, const uint8_t *ssid)
{
const uint8_t *p;
int i;
db_printf(tag, ix);
if (len > IEEE80211_NWID_LEN)
len = IEEE80211_NWID_LEN;
/* determine printable or not */
for (i = 0, p = ssid; i < len; i++, p++) {
if (*p < ' ' || *p > 0x7e)
break;
}
if (i == len) {
db_printf("\"");
for (i = 0, p = ssid; i < len; i++, p++)
db_printf("%c", *p);
db_printf("\"");
} else {
db_printf("0x");
for (i = 0, p = ssid; i < len; i++, p++)
db_printf("%02x", *p);
}
}
static void
_db_show_appie(const char *tag, const struct ieee80211_appie *ie)
{
const uint8_t *p;
int i;
if (ie == NULL)
return;
db_printf("%s [0x", tag);
for (i = 0, p = ie->ie_data; i < ie->ie_len; i++, p++)
db_printf("%02x", *p);
db_printf("]\n");
}
static void
_db_show_key(const char *tag, int ix, const struct ieee80211_key *wk)
{
static const uint8_t zerodata[IEEE80211_KEYBUF_SIZE];
const struct ieee80211_cipher *cip = wk->wk_cipher;
int keylen = wk->wk_keylen;
db_printf(tag, ix);
switch (cip->ic_cipher) {
case IEEE80211_CIPHER_WEP:
/* compatibility */
db_printf(" wepkey %u:%s", wk->wk_keyix,
keylen <= 5 ? "40-bit" :
keylen <= 13 ? "104-bit" : "128-bit");
break;
case IEEE80211_CIPHER_TKIP:
if (keylen > 128/8)
keylen -= 128/8; /* ignore MIC for now */
db_printf(" TKIP %u:%u-bit", wk->wk_keyix, 8*keylen);
break;
case IEEE80211_CIPHER_AES_OCB:
db_printf(" AES-OCB %u:%u-bit", wk->wk_keyix, 8*keylen);
break;
case IEEE80211_CIPHER_AES_CCM:
db_printf(" AES-CCM %u:%u-bit", wk->wk_keyix, 8*keylen);
break;
case IEEE80211_CIPHER_CKIP:
db_printf(" CKIP %u:%u-bit", wk->wk_keyix, 8*keylen);
break;
case IEEE80211_CIPHER_NONE:
db_printf(" NULL %u:%u-bit", wk->wk_keyix, 8*keylen);
break;
default:
db_printf(" UNKNOWN (0x%x) %u:%u-bit",
cip->ic_cipher, wk->wk_keyix, 8*keylen);
break;
}
if (wk->wk_rxkeyix != wk->wk_keyix)
db_printf(" rxkeyix %u", wk->wk_rxkeyix);
if (memcmp(wk->wk_key, zerodata, keylen) != 0) {
int i;
db_printf(" <");
for (i = 0; i < keylen; i++)
db_printf("%02x", wk->wk_key[i]);
db_printf(">");
if (cip->ic_cipher != IEEE80211_CIPHER_WEP &&
wk->wk_keyrsc[IEEE80211_NONQOS_TID] != 0)
db_printf(" rsc %ju", (uintmax_t)wk->wk_keyrsc[IEEE80211_NONQOS_TID]);
if (cip->ic_cipher != IEEE80211_CIPHER_WEP &&
wk->wk_keytsc != 0)
db_printf(" tsc %ju", (uintmax_t)wk->wk_keytsc);
db_printf(" flags=%b", wk->wk_flags, IEEE80211_KEY_BITS);
}
db_printf("\n");
}
static void
printrate(const char *tag, int v)
{
if (v == IEEE80211_FIXED_RATE_NONE)
db_printf(" %s <none>", tag);
else if (v == 11)
db_printf(" %s 5.5", tag);
else if (v & IEEE80211_RATE_MCS)
db_printf(" %s MCS%d", tag, v &~ IEEE80211_RATE_MCS);
else
db_printf(" %s %d", tag, v/2);
}
static void
_db_show_roamparams(const char *tag, const void *arg,
const struct ieee80211_roamparam *rp)
{
db_printf(tag, arg);
if (rp->rssi & 1)
db_printf(" rssi %u.5", rp->rssi/2);
else
db_printf(" rssi %u", rp->rssi/2);
printrate("rate", rp->rate);
}
static void
_db_show_txparams(const char *tag, const void *arg,
const struct ieee80211_txparam *tp)
{
db_printf(tag, arg);
printrate("ucastrate", tp->ucastrate);
printrate("mcastrate", tp->mcastrate);
printrate("mgmtrate", tp->mgmtrate);
db_printf(" maxretry %d", tp->maxretry);
}
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
static void
_db_show_ageq(const char *tag, const struct ieee80211_ageq *q)
{
const struct mbuf *m;
db_printf("%s lock %p len %d maxlen %d drops %d head %p tail %p\n",
tag, &q->aq_lock, q->aq_len, q->aq_maxlen, q->aq_drops,
q->aq_head, q->aq_tail);
for (m = q->aq_head; m != NULL; m = m->m_nextpkt)
db_printf("%s %p (len %d, %b)\n", tag, m, m->m_len,
/* XXX could be either TX or RX but is mostly TX */
m->m_flags, IEEE80211_MBUF_TX_FLAG_BITS);
}
static void
_db_show_stats(const struct ieee80211_stats *is)
{
}
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
#ifdef IEEE80211_SUPPORT_MESH
static void
_db_show_mesh(const struct ieee80211_mesh_state *ms)
{
struct ieee80211_mesh_route *rt;
int i;
_db_show_ssid(" meshid ", 0, ms->ms_idlen, ms->ms_id);
db_printf("nextseq %u ttl %u flags 0x%x\n", ms->ms_seq,
ms->ms_ttl, ms->ms_flags);
db_printf("routing table:\n");
i = 0;
TAILQ_FOREACH(rt, &ms->ms_routes, rt_next) {
db_printf("entry %d:\tdest: %6D nexthop: %6D metric: %u", i,
rt->rt_dest, ":", rt->rt_nexthop, ":", rt->rt_metric);
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
db_printf("\tlifetime: %u lastseq: %u priv: %p\n",
ieee80211_mesh_rt_update(rt, 0),
rt->rt_lastmseq, rt->rt_priv);
Implementation of the upcoming Wireless Mesh standard, 802.11s, on the net80211 wireless stack. This work is based on the March 2009 D3.0 draft standard. This standard is expected to become final next year. This includes two main net80211 modules, ieee80211_mesh.c which deals with peer link management, link metric calculation, routing table control and mesh configuration and ieee80211_hwmp.c which deals with the actually routing process on the mesh network. HWMP is the mandatory routing protocol on by the mesh standard, but others, such as RA-OLSR, can be implemented. Authentication and encryption are not implemented. There are several scripts under tools/tools/net80211/scripts that can be used to test different mesh network topologies and they also teach you how to setup a mesh vap (for the impatient: ifconfig wlan0 create wlandev ... wlanmode mesh). A new build option is available: IEEE80211_SUPPORT_MESH and it's enabled by default on GENERIC kernels for i386, amd64, sparc64 and pc98. Drivers that support mesh networks right now are: ath, ral and mwl. More information at: http://wiki.freebsd.org/WifiMesh Please note that this work is experimental. Also, please note that bridging a mesh vap with another network interface is not yet supported. Many thanks to the FreeBSD Foundation for sponsoring this project and to Sam Leffler for his support. Also, I would like to thank Gateworks Corporation for sending me a Cambria board which was used during the development of this project. Reviewed by: sam Approved by: re (kensmith) Obtained from: projects/mesh11s
2009-07-11 15:02:45 +00:00
i++;
}
}
#endif /* IEEE80211_SUPPORT_MESH */
#endif /* DDB */