From owner-freebsd-wireless@FreeBSD.ORG Sun Aug 11 10:22:48 2013 Return-Path: Delivered-To: freebsd-wireless@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTP id AAAB298D; Sun, 11 Aug 2013 10:22:48 +0000 (UTC) (envelope-from cg@cgross.info) Received: from alpha.kreiz-it.fr (alpha.kreiz-it.fr [IPv6:2001:41d0:8:dda6::1]) by mx1.freebsd.org (Postfix) with ESMTP id 91AE32DE9; Sun, 11 Aug 2013 10:22:47 +0000 (UTC) Received: from DirTech (lnr56-1-82-246-51-185.fbx.proxad.net [82.246.51.185]) by alpha.kreiz-it.fr (Postfix) with ESMTPSA id E6F0F18A; Sun, 11 Aug 2013 12:22:43 +0200 (CEST) From: "Cedric GROSS" To: "'Adrian Chadd'" References: In-Reply-To: Subject: RE: iwn(4) changes, net80211(4) changes, things may be odd Date: Sun, 11 Aug 2013 12:22:41 +0200 Message-ID: <000301ce967c$b8092040$281b60c0$@info> MIME-Version: 1.0 Content-Type: multipart/mixed; boundary="----=_NextPart_000_0004_01CE968D.7B91F040" X-Mailer: Microsoft Office Outlook 12.0 Thread-Index: Ac6WNwAj9vrWmYt9TLij9brl9peqJwARL18Q Content-Language: fr Cc: freebsd-wireless@freebsd.org X-BeenThere: freebsd-wireless@freebsd.org X-Mailman-Version: 2.1.14 Precedence: list List-Id: "Discussions of 802.11 stack, tools device driver development." List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Sun, 11 Aug 2013 10:22:48 -0000 This is a multi-part message in MIME format. ------=_NextPart_000_0004_01CE968D.7B91F040 Content-Type: text/plain; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable > De=A0: adrian.chadd@gmail.com [mailto:adrian.chadd@gmail.com] De la = part > de Adrian Chadd > Envoy=E9=A0: dimanche 11 ao=FBt 2013 04:04 > =C0=A0: freebsd-wireless@freebsd.org; Cedric GROSS > Objet=A0: iwn(4) changes, net80211(4) changes, things may be odd >=20 >=20 > Cedric - would you please update your git repository and post an > updated diff to -wireless? >=20 Yep. Here is the updated diff. > -adrian Cedric ------=_NextPart_000_0004_01CE968D.7B91F040 Content-Type: application/octet-stream; name="full_a5.patch" Content-Transfer-Encoding: quoted-printable Content-Disposition: attachment; filename="full_a5.patch" Index: sys/dev/iwn/if_iwn.c=0A= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=0A= --- sys/dev/iwn/if_iwn.c (revision 254210)=0A= +++ sys/dev/iwn/if_iwn.c (working copy)=0A= @@ -119,6 +119,8 @@=0A= { 0x8086, IWN_DID_5x50_2, "Intel WiMAX/WiFi Link 5350" },=0A= { 0x8086, IWN_DID_5x50_3, "Intel WiMAX/WiFi Link 5150" },=0A= { 0x8086, IWN_DID_5x50_4, "Intel WiMAX/WiFi Link 5150" },=0A= + { 0x8086, IWN_DID_6035_1, "Centrino Advanced-N 6235" },=0A= + { 0x8086, IWN_DID_6035_2, "Centrino Advanced-N 6235" },=0A= { 0, 0, NULL }=0A= };=0A= =0A= @@ -235,7 +237,8 @@=0A= static int iwn_add_broadcast_node(struct iwn_softc *, int);=0A= static int iwn_updateedca(struct ieee80211com *);=0A= static void iwn_update_mcast(struct ifnet *);=0A= -static void iwn_set_led(struct iwn_softc *, uint8_t, uint8_t, uint8_t);=0A= +static void iwn_set_led(struct iwn_softc *, uint8_t, uint8_t, uint8_t,=0A= + uint8_t);=0A= static int iwn_set_critical_temp(struct iwn_softc *);=0A= static int iwn_set_timing(struct iwn_softc *, struct ieee80211_node *);=0A= static void iwn4965_power_calibration(struct iwn_softc *, int);=0A= @@ -261,7 +264,7 @@=0A= static int iwn_set_pslevel(struct iwn_softc *, int, int, int);=0A= static int iwn_send_btcoex(struct iwn_softc *);=0A= static int iwn_send_advanced_btcoex(struct iwn_softc *);=0A= -static int iwn5000_runtime_calib(struct iwn_softc *);=0A= +//static int iwn5000_runtime_calib(struct iwn_softc *);=0A= static int iwn_config(struct iwn_softc *);=0A= static uint8_t *ieee80211_add_ssid(uint8_t *, const uint8_t *, u_int);=0A= static int iwn_scan(struct iwn_softc *);=0A= @@ -292,6 +295,7 @@=0A= static int iwn5000_send_wimax_coex(struct iwn_softc *);=0A= static int iwn5000_crystal_calib(struct iwn_softc *);=0A= static int iwn5000_temp_offset_calib(struct iwn_softc *);=0A= +static int iwn5000_temp_offset_calibv2(struct iwn_softc *);=0A= static int iwn4965_post_alive(struct iwn_softc *);=0A= static int iwn5000_post_alive(struct iwn_softc *);=0A= static int iwn4965_load_bootcode(struct iwn_softc *, const uint8_t *,=0A= @@ -330,6 +334,21 @@=0A= static char *iwn_get_csr_string(int);=0A= static void iwn_debug_register(struct iwn_softc *);=0A= #endif=0A= +static int iwn_config_specific(struct iwn_softc *,uint16_t);=0A= +static int iwn_set_statistics_request(struct iwn_softc *,bool ,bool = ,int);=0A= +static int iwn_cfg_ucode_post_alive(struct iwn_softc *);=0A= +static int iwn_iv_reset(struct ieee80211vap *, u_long);=0A= +static int iwn_newstate_u1(struct ieee80211vap *, enum ieee80211_state = , int);=0A= +static int iwn_auth_u1(struct iwn_softc *, struct ieee80211vap *);=0A= +static int iwn_run_u1(struct iwn_softc *, struct ieee80211vap *);=0A= +static int iwn_set_timing_u1(struct iwn_softc *);=0A= +static int iwn_config_u1(struct iwn_softc *);=0A= +static int iwn_set_pan_params(struct iwn_softc *);=0A= +static int iwn_updateedca_u1(struct ieee80211com *);=0A= +static int iwn_add_broadcast_node_u1(struct iwn_softc *, int);=0A= +static uint16_t iwn_get_active_dwell(struct iwn_softc *, struct = ieee80211_channel *);=0A= +static uint16_t iwn_get_passive_dwell(struct iwn_softc *, struct = ieee80211_channel *);=0A= +static void iwn_led_pattern(struct iwn_softc *);=0A= =0A= #ifdef IWN_DEBUG=0A= enum {=0A= @@ -376,6 +395,7 @@=0A= case IWN_RX_PHY: return "RX_PHY";=0A= case IWN_MPDU_RX_DONE: return "MPDU_RX_DONE";=0A= case IWN_RX_DONE: return "RX_DONE";=0A= + case IWN_TEMP_NOTIFICATION: return "TEMPERATURE_NOTIFICATION";=0A= =0A= /* Command Notifications */=0A= case IWN_CMD_RXON: return "IWN_CMD_RXON";=0A= @@ -398,6 +418,19 @@=0A= case IWN_CMD_SET_CRITICAL_TEMP: return "IWN_CMD_SET_CRITICAL_TEMP";=0A= case IWN_CMD_SET_SENSITIVITY: return "IWN_CMD_SET_SENSITIVITY";=0A= case IWN_CMD_PHY_CALIB: return "IWN_CMD_PHY_CALIB";=0A= + case IWN_CMD_BT_COEX_PRIOTABLE: return "IWN_CMD_BT_COEX_PRIOTABLE";=0A= + case IWN_CMD_BT_COEX_PROT: return "IWN_CMD_BT_COEX_PROT";=0A= + case IWN_CMD_BT_COEX_NOTIF: return "IWN_CMD_BT_COEX_NOTIF";=0A= + /* PAN commands */=0A= + case IWN_CMD_WIPAN_PARAMS: return "IWN_CMD_WIPAN_PARAMS";=0A= + case IWN_CMD_WIPAN_RXON: return "IWN_CMD_WIPAN_RXON";=0A= + case IWN_CMD_WIPAN_RXON_TIMING: return "IWN_CMD_WIPAN_RXON_TIMING";=0A= + case IWN_CMD_WIPAN_RXON_ASSOC: return "IWN_CMD_WIPAN_RXON_ASSOC";=0A= + case IWN_CMD_WIPAN_QOS_PARAM: return "IWN_CMD_WIPAN_QOS_PARAM";=0A= + case IWN_CMD_WIPAN_WEPKEY: return "IWN_CMD_WIPAN_WEPKEY";=0A= + case IWN_CMD_WIPAN_P2P_CHANNEL_SWITCH: return = "IWN_CMD_WIPAN_P2P_CHANNEL_SWITCH";=0A= + case IWN_CMD_WIPAN_NOA_NOTIFICATION: return = "IWN_CMD_WIPAN_NOA_NOTIFICATION";=0A= + case IWN_CMD_WIPAN_DEACTIVATION_COMPLETE: return = "IWN_CMD_WIPAN_DEACTIVATION_COMPLETE";=0A= }=0A= return "UNKNOWN INTR NOTIF/CMD";=0A= }=0A= @@ -456,6 +489,9 @@=0A= int i, error, result;=0A= uint8_t macaddr[IEEE80211_ADDR_LEN];=0A= =0A= + sc->desired_pwrsave_level =3D IWN_POWERSAVE_LVL_DEFAULT;=0A= + sc->current_pwrsave_level =3D -1; /* signifies uninitialized */=0A= +=0A= sc->sc_dev =3D dev;=0A= =0A= #ifdef IWN_DEBUG=0A= @@ -615,6 +651,11 @@=0A= | IEEE80211_C_WME /* WME */=0A= | IEEE80211_C_PMGT /* Station-side power mgmt */=0A= ;=0A= + if (sc->base_params->support_hostap) {=0A= + ic->ic_caps |=3D IEEE80211_C_HOSTAP ;/* HOSTAP mode supported */=0A= + } else {=0A= + ic->ic_caps &=3D ~ IEEE80211_C_HOSTAP ; /* HOSTAP mode not supported = */=0A= + }=0A= =0A= /* Read MAC address, channels, etc from EEPROM. */=0A= if ((error =3D iwn_read_eeprom(sc, macaddr)) !=3D 0) {=0A= @@ -712,10 +753,17 @@=0A= ic->ic_scan_mindwell =3D iwn_scan_mindwell;=0A= ic->ic_setregdomain =3D iwn_setregdomain;=0A= =0A= + sc->sc_led.led_cur_mode =3D IWN_LED_STATIC_OFF;=0A= + sc->sc_led.led_cur_tpt =3D 0;=0A= + sc->sc_led.led_last_tpt =3D 0;=0A= + sc->sc_led.led_cur_time =3D 0;=0A= + sc->sc_led.led_last_time =3D 0;=0A= +=0A= iwn_radiotap_attach(sc);=0A= =0A= callout_init_mtx(&sc->calib_to, &sc->sc_mtx, 0);=0A= callout_init_mtx(&sc->watchdog_to, &sc->sc_mtx, 0);=0A= + callout_init_mtx(&sc->ct_kill_exit_to, &sc->sc_mtx, 0);=0A= TASK_INIT(&sc->sc_reinit_task, 0, iwn_hw_reset, sc);=0A= TASK_INIT(&sc->sc_radioon_task, 0, iwn_radio_on, sc);=0A= TASK_INIT(&sc->sc_radiooff_task, 0, iwn_radio_off, sc);=0A= @@ -732,6 +780,11 @@=0A= error);=0A= goto fail;=0A= }=0A= + /* update ic->ic_flags to the default power save mode */=0A= + if (IWN_POWERSAVE_LVL_DEFAULT !=3D IWN_POWERSAVE_LVL_NONE)=0A= + ic->ic_flags |=3D IEEE80211_F_PMGTON;=0A= + else=0A= + ic->ic_flags &=3D ~IEEE80211_F_PMGTON;=0A= =0A= if (bootverbose)=0A= ieee80211_announce(ic);=0A= @@ -778,6 +831,7 @@=0A= /* Override chains masks, ROM is known to be broken. */=0A= sc->txchainmask =3D IWN_ANT_AB;=0A= sc->rxchainmask =3D IWN_ANT_ABC;=0A= + sc->base_params =3D &iwn_default_base_params; /* !! TODO : Define = something may be more specific */=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "%s: end\n",__func__);=0A= =0A= @@ -818,59 +872,7 @@=0A= sc->reset_noise_gain =3D IWN5000_PHY_CALIB_RESET_NOISE_GAIN;=0A= sc->noise_gain =3D IWN5000_PHY_CALIB_NOISE_GAIN;=0A= =0A= - switch (sc->hw_type) {=0A= - case IWN_HW_REV_TYPE_5100:=0A= - sc->limits =3D &iwn5000_sensitivity_limits;=0A= - sc->fwname =3D "iwn5000fw";=0A= - /* Override chains masks, ROM is known to be broken. */=0A= - sc->txchainmask =3D IWN_ANT_B;=0A= - sc->rxchainmask =3D IWN_ANT_AB;=0A= - break;=0A= - case IWN_HW_REV_TYPE_5150:=0A= - sc->limits =3D &iwn5150_sensitivity_limits;=0A= - sc->fwname =3D "iwn5150fw";=0A= - break;=0A= - case IWN_HW_REV_TYPE_5300:=0A= - case IWN_HW_REV_TYPE_5350:=0A= - sc->limits =3D &iwn5000_sensitivity_limits;=0A= - sc->fwname =3D "iwn5000fw";=0A= - break;=0A= - case IWN_HW_REV_TYPE_1000:=0A= - sc->limits =3D &iwn1000_sensitivity_limits;=0A= - sc->fwname =3D "iwn1000fw";=0A= - break;=0A= - case IWN_HW_REV_TYPE_6000:=0A= - sc->limits =3D &iwn6000_sensitivity_limits;=0A= - sc->fwname =3D "iwn6000fw";=0A= - if (pid =3D=3D 0x422c || pid =3D=3D 0x4239) {=0A= - sc->sc_flags |=3D IWN_FLAG_INTERNAL_PA;=0A= - /* Override chains masks, ROM is known to be broken. */=0A= - sc->txchainmask =3D IWN_ANT_BC;=0A= - sc->rxchainmask =3D IWN_ANT_BC;=0A= - }=0A= - break;=0A= - case IWN_HW_REV_TYPE_6050:=0A= - sc->limits =3D &iwn6000_sensitivity_limits;=0A= - sc->fwname =3D "iwn6050fw";=0A= - /* Override chains masks, ROM is known to be broken. */=0A= - sc->txchainmask =3D IWN_ANT_AB;=0A= - sc->rxchainmask =3D IWN_ANT_AB;=0A= - break;=0A= - case IWN_HW_REV_TYPE_6005:=0A= - sc->limits =3D &iwn6000_sensitivity_limits;=0A= - if (pid !=3D 0x0082 && pid !=3D 0x0085) {=0A= - sc->fwname =3D "iwn6000g2bfw";=0A= - sc->sc_flags |=3D IWN_FLAG_ADV_BTCOEX;=0A= - } else=0A= - sc->fwname =3D "iwn6000g2afw";=0A= - break;=0A= - default:=0A= - device_printf(sc->sc_dev, "adapter type %d not supported\n",=0A= - sc->hw_type);=0A= - DPRINTF(sc, IWN_DEBUG_TRACE, "->%s: end in error\n",__func__);=0A= - return ENOTSUP;=0A= - }=0A= - return 0;=0A= + return iwn_config_specific(sc,pid);=0A= }=0A= =0A= /*=0A= @@ -914,24 +916,50 @@=0A= uint8_t mac1[IEEE80211_ADDR_LEN];=0A= struct iwn_softc *sc =3D ic->ic_ifp->if_softc;=0A= =0A= - if (!TAILQ_EMPTY(&ic->ic_vaps)) /* only one at a time */=0A= - return NULL;=0A= + if (sc->base_params->no_multi_vaps) {=0A= + if (!TAILQ_EMPTY(&ic->ic_vaps)) /* only one at a time */=0A= + return NULL;=0A= + }=0A= =0A= IEEE80211_ADDR_COPY(mac1, mac);=0A= =0A= + if(unit =3D=3D 1) {=0A= + if(!(sc->sc_flags & IWN_FLAG_PAN_SUPPORT))=0A= + return NULL;=0A= + mac1[5] +=3D 1;=0A= + sc->ctx =3D IWN_RXON_PAN_CTX;=0A= + }=0A= +=0A= ivp =3D (struct iwn_vap *) malloc(sizeof(struct iwn_vap),=0A= M_80211_VAP, M_NOWAIT | M_ZERO);=0A= if (ivp =3D=3D NULL)=0A= return NULL;=0A= vap =3D &ivp->iv_vap;=0A= +=0A= ieee80211_vap_setup(ic, vap, name, unit, opmode, flags, bssid, mac1);=0A= - ivp->ctx =3D IWN_RXON_BSS_CTX;=0A= - IEEE80211_ADDR_COPY(ivp->macaddr, mac1);=0A= +=0A= + if(unit =3D=3D 1) {=0A= + ivp->ctx =3D IWN_RXON_PAN_CTX;=0A= + ivp->iv_newstate =3D vap->iv_newstate;=0A= + vap->iv_newstate =3D iwn_newstate_u1;=0A= + IEEE80211_ADDR_COPY(ivp->macaddr, mac1);=0A= + memset(&sc->rx_on[IWN_RXON_PAN_CTX], 0, sizeof (struct iwn_rxon));=0A= + memcpy(&sc->rx_on[IWN_RXON_PAN_CTX], &sc->rx_on[IWN_RXON_BSS_CTX], = sc->rxonsz);=0A= + IEEE80211_ADDR_COPY(sc->rx_on[IWN_RXON_PAN_CTX].myaddr, mac1);=0A= + sc->rx_on[IWN_RXON_PAN_CTX].mode =3D IWN_MODE_2STA;=0A= + sc->ivap[IWN_RXON_PAN_CTX] =3D vap;=0A= + }=0A= + else {=0A= + ivp->ctx =3D IWN_RXON_BSS_CTX;=0A= + IEEE80211_ADDR_COPY(ivp->macaddr, mac1);=0A= + ivp->iv_newstate =3D vap->iv_newstate;=0A= + vap->iv_newstate =3D iwn_newstate;=0A= + sc->ivap[IWN_RXON_BSS_CTX] =3D vap;=0A= + }=0A= +=0A= vap->iv_bmissthreshold =3D 10; /* override default */=0A= - /* Override with driver methods. */=0A= - ivp->iv_newstate =3D vap->iv_newstate;=0A= - vap->iv_newstate =3D iwn_newstate;=0A= - sc->ivap[IWN_RXON_BSS_CTX] =3D vap;=0A= + /* handler for setting change (partial 're'set) requested via ioctl */=0A= + vap->iv_reset =3D iwn_iv_reset;=0A= =0A= ieee80211_ratectl_init(vap);=0A= /* Complete setup. */=0A= @@ -944,7 +972,11 @@=0A= iwn_vap_delete(struct ieee80211vap *vap)=0A= {=0A= struct iwn_vap *ivp =3D IWN_VAP(vap);=0A= + struct iwn_softc *sc =3D vap->iv_ic->ic_ifp->if_softc;=0A= =0A= + if(ivp->ctx =3D=3D IWN_RXON_PAN_CTX)=0A= + sc->ctx =3D 0;=0A= +=0A= ieee80211_ratectl_deinit(vap);=0A= ieee80211_vap_detach(vap);=0A= free(ivp, M_80211_VAP);=0A= @@ -969,6 +1001,7 @@=0A= =0A= iwn_stop(sc);=0A= callout_drain(&sc->watchdog_to);=0A= + callout_drain(&sc->ct_kill_exit_to);=0A= callout_drain(&sc->calib_to);=0A= ieee80211_ifdetach(ic);=0A= }=0A= @@ -1016,8 +1049,13 @@=0A= {=0A= struct iwn_softc *sc =3D device_get_softc(dev);=0A= struct ieee80211com *ic =3D sc->sc_ifp->if_l2com;=0A= + struct ieee80211vap *vap =3D TAILQ_FIRST(&ic->ic_vaps);=0A= =0A= ieee80211_suspend_all(ic);=0A= + iwn_stop(sc);=0A= + if (vap !=3D NULL)=0A= + ieee80211_stop(vap);=0A= +=0A= return 0;=0A= }=0A= =0A= @@ -1025,12 +1063,22 @@=0A= iwn_resume(device_t dev)=0A= {=0A= struct iwn_softc *sc =3D device_get_softc(dev);=0A= - struct ieee80211com *ic =3D sc->sc_ifp->if_l2com;=0A= + struct ifnet *ifp =3D sc->sc_ifp;=0A= + struct ieee80211com *ic =3D ifp->if_l2com;=0A= + struct ieee80211vap *vap =3D TAILQ_FIRST(&ic->ic_vaps);=0A= =0A= /* Clear device-specific "PCI retry timeout" register (41h). */=0A= pci_write_config(dev, 0x41, 0, 1);=0A= =0A= ieee80211_resume_all(ic);=0A= + if (ifp->if_flags & IFF_UP) {=0A= + iwn_init(sc);=0A= + if (vap !=3D NULL)=0A= + ieee80211_init(vap);=0A= + if (ifp->if_drv_flags & IFF_DRV_RUNNING)=0A= + iwn_start(ifp);=0A= + }=0A= +=0A= return 0;=0A= }=0A= =0A= @@ -1192,7 +1240,7 @@=0A= iwn_nic_unlock(sc);=0A= =0A= /* Set auto clock gate disable bit for HW with OTP shadow RAM. */=0A= - if (sc->hw_type !=3D IWN_HW_REV_TYPE_1000) {=0A= + if (sc->base_params->shadow_ram_support) {=0A= IWN_SETBITS(sc, IWN_DBG_LINK_PWR_MGMT,=0A= IWN_RESET_LINK_PWR_MGMT_DIS);=0A= }=0A= @@ -1205,11 +1253,11 @@=0A= * Find the block before last block (contains the EEPROM image)=0A= * for HW without OTP shadow RAM.=0A= */=0A= - if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_1000) {=0A= + if (!(sc->base_params->shadow_ram_support)) {=0A= /* Switch to absolute addressing mode. */=0A= IWN_CLRBITS(sc, IWN_OTP_GP, IWN_OTP_GP_RELATIVE_ACCESS);=0A= base =3D prev =3D 0;=0A= - for (count =3D 0; count < IWN1000_OTP_NBLOCKS; count++) {=0A= + for (count =3D 0; count < sc->base_params->max_ll_items; count++) {=0A= error =3D iwn_read_prom_data(sc, base, &next, 2);=0A= if (error !=3D 0)=0A= return error;=0A= @@ -1218,7 +1266,7 @@=0A= prev =3D base;=0A= base =3D le16toh(next);=0A= }=0A= - if (count =3D=3D 0 || count =3D=3D IWN1000_OTP_NBLOCKS)=0A= + if (count =3D=3D 0 || count =3D=3D sc->base_params->max_ll_items)=0A= return EIO;=0A= /* Skip "next" word. */=0A= sc->prom_base =3D prev + 1;=0A= @@ -1453,7 +1501,7 @@=0A= goto fail;=0A= }=0A= =0A= - data->m =3D m_getjcl(M_NOWAIT, MT_DATA, M_PKTHDR,=0A= + data->m =3D m_getjcl(M_DONTWAIT, MT_DATA, M_PKTHDR,=0A= IWN_RBUF_SIZE);=0A= if (data->m =3D=3D NULL) {=0A= device_printf(sc->sc_dev,=0A= @@ -1854,7 +1902,7 @@=0A= {=0A= struct iwn5000_eeprom_calib_hdr hdr;=0A= int32_t volt;=0A= - uint32_t base, addr;=0A= + uint32_t base;=0A= uint16_t val;=0A= int i;=0A= =0A= @@ -1867,16 +1915,12 @@=0A= sc->eeprom_domain, 4);=0A= =0A= /* Read the list of authorized channels (20MHz ones only). */=0A= - for (i =3D 0; i < 7; i++) {=0A= - if (sc->hw_type >=3D IWN_HW_REV_TYPE_6000)=0A= - addr =3D base + iwn6000_regulatory_bands[i];=0A= - else=0A= - addr =3D base + iwn5000_regulatory_bands[i];=0A= - iwn_read_eeprom_channels(sc, i, addr);=0A= + for (i =3D 0; i < (IWN_NBANDS - 1); i++) {=0A= + iwn_read_eeprom_channels(sc, i, = base+sc->base_params->regulatory_bands[i]);=0A= }=0A= =0A= /* Read enhanced TX power information for 6000 Series. */=0A= - if (sc->hw_type >=3D IWN_HW_REV_TYPE_6000)=0A= + if (sc->base_params->enhanced_TX_power)=0A= iwn_read_eeprom_enhinfo(sc);=0A= =0A= iwn_read_prom_data(sc, IWN5000_EEPROM_CAL, &val, 2);=0A= @@ -1887,6 +1931,14 @@=0A= hdr.version, hdr.pa_type, le16toh(hdr.volt));=0A= sc->calib_ver =3D hdr.version;=0A= =0A= + if (sc->base_params->calib_need & = IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSETv2) {=0A= + sc->eeprom_voltage =3D le16toh(hdr.volt);=0A= + iwn_read_prom_data(sc, base + IWN5000_EEPROM_TEMP, &val, 2);=0A= + sc->eeprom_temp_high=3Dle16toh(val);=0A= + iwn_read_prom_data(sc, base + IWN5000_EEPROM_VOLT, &val, 2);=0A= + sc->eeprom_temp =3D le16toh(val);=0A= + }=0A= +=0A= if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_5150) {=0A= /* Compute temperature offset. */=0A= iwn_read_prom_data(sc, base + IWN5000_EEPROM_TEMP, &val, 2);=0A= @@ -2423,12 +2475,7 @@=0A= =0A= /* Force automatic TX power calibration every 60 secs. */=0A= if (++sc->calib_cnt >=3D 120) {=0A= - uint32_t flags =3D 0;=0A= -=0A= - DPRINTF(sc, IWN_DEBUG_CALIBRATE, "%s\n",=0A= - "sending request for statistics");=0A= - (void)iwn_cmd(sc, IWN_CMD_GET_STATISTICS, &flags,=0A= - sizeof flags, 1);=0A= + iwn_set_statistics_request(sc,true,false,1);=0A= sc->calib_cnt =3D 0;=0A= }=0A= callout_reset(&sc->calib_to, msecs_to_ticks(500), iwn_calib_timeout,=0A= @@ -2521,7 +2568,7 @@=0A= return;=0A= }=0A= =0A= - m1 =3D m_getjcl(M_NOWAIT, MT_DATA, M_PKTHDR, IWN_RBUF_SIZE);=0A= + m1 =3D m_getjcl(M_DONTWAIT, MT_DATA, M_PKTHDR, IWN_RBUF_SIZE);=0A= if (m1 =3D=3D NULL) {=0A= DPRINTF(sc, IWN_DEBUG_ANY, "%s: no mbuf to restock ring\n",=0A= __func__);=0A= @@ -2581,6 +2628,7 @@=0A= tap->wr_dbm_antsignal =3D (int8_t)rssi;=0A= tap->wr_dbm_antnoise =3D (int8_t)nf;=0A= tap->wr_tsft =3D stat->tstamp;=0A= + /* XXX rate contain also antenna information */=0A= switch (stat->rate) {=0A= /* CCK rates. */=0A= case 10: tap->wr_rate =3D 2; break;=0A= @@ -2597,7 +2645,10 @@=0A= case 0x1: tap->wr_rate =3D 96; break;=0A= case 0x3: tap->wr_rate =3D 108; break;=0A= /* Unknown rate: should not happen. */=0A= - default: tap->wr_rate =3D 0;=0A= + default: =0A= + tap->wr_rate =3D 0;=0A= + DPRINTF(sc, IWN_DEBUG_RECV, =0A= + "Rate found: 0x%08x and not translated\n", stat->rate);=0A= }=0A= }=0A= =0A= @@ -2740,29 +2791,30 @@=0A= =0A= switch (calib->code) {=0A= case IWN5000_PHY_CALIB_DC:=0A= - if ((sc->sc_flags & IWN_FLAG_INTERNAL_PA) =3D=3D 0 &&=0A= - (sc->hw_type =3D=3D IWN_HW_REV_TYPE_5150 ||=0A= - sc->hw_type >=3D IWN_HW_REV_TYPE_6000) &&=0A= - sc->hw_type !=3D IWN_HW_REV_TYPE_6050)=0A= + if (sc->base_params->calib_need & IWN_FLG_NEED_PHY_CALIB_DC)=0A= idx =3D 0;=0A= break;=0A= case IWN5000_PHY_CALIB_LO:=0A= - idx =3D 1;=0A= + if (sc->base_params->calib_need & IWN_FLG_NEED_PHY_CALIB_LO)=0A= + idx =3D 1;=0A= break;=0A= case IWN5000_PHY_CALIB_TX_IQ:=0A= - idx =3D 2;=0A= + if (sc->base_params->calib_need & IWN_FLG_NEED_PHY_CALIB_TX_IQ)=0A= + idx =3D 2;=0A= break;=0A= case IWN5000_PHY_CALIB_TX_IQ_PERIODIC:=0A= - if (sc->hw_type < IWN_HW_REV_TYPE_6000 &&=0A= - sc->hw_type !=3D IWN_HW_REV_TYPE_5150)=0A= + if (sc->base_params->calib_need & = IWN_FLG_NEED_PHY_CALIB_TX_IQ_PERIODIC)=0A= idx =3D 3;=0A= break;=0A= case IWN5000_PHY_CALIB_BASE_BAND:=0A= - idx =3D 4;=0A= + if (sc->base_params->calib_need & IWN_FLG_NEED_PHY_CALIB_BASE_BAND)=0A= + idx =3D 4;=0A= break;=0A= }=0A= - if (idx =3D=3D -1) /* Ignore other results. */=0A= + if (idx =3D=3D -1) { /* Ignore other results. */=0A= + DPRINTF(sc,IWN_DEBUG_CALIBRATE,"Ignoring calib result = %d",calib->code);=0A= return;=0A= + }=0A= =0A= /* Save calibration result. */=0A= if (sc->calibcmd[idx].buf !=3D NULL)=0A= @@ -2778,6 +2830,7 @@=0A= "saving calibration result code=3D%d len=3D%d\n", calib->code, = len);=0A= sc->calibcmd[idx].len =3D len;=0A= memcpy(sc->calibcmd[idx].buf, calib, len);=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end\n", __func__);=0A= }=0A= =0A= /*=0A= @@ -2794,6 +2847,12 @@=0A= struct ieee80211vap *vap =3D TAILQ_FIRST(&ic->ic_vaps);=0A= struct iwn_calib_state *calib =3D &sc->calib;=0A= struct iwn_stats *stats =3D (struct iwn_stats *)(desc + 1);=0A= + struct ieee80211_node *ni =3D vap->iv_bss;=0A= + struct ieee80211_nodestats ns =3D ni->ni_stats;=0A= + struct bintime bt;=0A= +=0A= + struct ieee80211vap *vap1;=0A= +=0A= int temp;=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= @@ -2805,7 +2864,42 @@=0A= __func__);=0A= return;=0A= }=0A= + if(sc->ctx =3D=3D IWN_RXON_PAN_CTX) {=0A= + vap1 =3D sc->ivap[IWN_RXON_PAN_CTX];=0A= + /* Ignore statistics received during a scan. */=0A= + if (vap1->iv_state !=3D IEEE80211_S_RUN ||=0A= + (ic->ic_flags & IEEE80211_F_SCAN))=0A= + return;=0A= + }=0A= =0A= + getbinuptime(&bt);=0A= + sc->sc_led.led_cur_time =3D bt.sec;=0A= + int time_diff =3D (sc->sc_led.led_cur_time - sc->sc_led.led_last_time);=0A= +=0A= + if(time_diff >=3D 4) {=0A= + if(vap->iv_state =3D=3D IEEE80211_S_RUN) {=0A= + sc->sc_led.led_cur_bt =3D (ns.ns_rx_bytes + ns.ns_tx_bytes);=0A= + if(sc->sc_led.led_cur_bt < sc->sc_led.led_last_bt) {=0A= + sc->sc_led.led_cur_bt =3D 0;=0A= + sc->sc_led.led_last_bt =3D 0;=0A= + }=0A= + sc->sc_led.led_bt_diff =3D (sc->sc_led.led_cur_bt - = sc->sc_led.led_last_bt);=0A= + sc->sc_led.led_last_bt =3D sc->sc_led.led_cur_bt;=0A= + sc->sc_led.led_cur_tpt =3D (sc->sc_led.led_bt_diff / time_diff);=0A= + sc->sc_led.led_last_time =3D sc->sc_led.led_cur_time;=0A= +=0A= + if(sc->sc_led.led_cur_tpt > 0) {=0A= + sc->sc_led.led_cur_mode =3D IWN_LED_INT_BLINK;=0A= + iwn_led_pattern(sc);=0A= + } else {=0A= + sc->sc_led.led_cur_mode =3D IWN_LED_STATIC_ON;=0A= + iwn_set_led(sc, IWN_LED_LINK, 0, 1, IWN_LED_STATIC_ON);=0A= + }=0A= +=0A= + sc->sc_led.led_last_tpt =3D sc->sc_led.led_cur_tpt;=0A= + }=0A= + }=0A= +=0A= bus_dmamap_sync(sc->rxq.data_dmat, data->map, BUS_DMASYNC_POSTREAD);=0A= =0A= DPRINTF(sc, IWN_DEBUG_CALIBRATE, "%s: received statistics, cmd %d\n",=0A= @@ -2896,7 +2990,7 @@=0A= =0A= #ifdef notyet=0A= /* Reset TX scheduler slot. */=0A= - iwn5000_reset_sched(sc, desc->qid & 0xf, desc->idx);=0A= + iwn5000_reset_sched(sc, desc->qid & IWN_RX_DESC_QID_MSK, desc->idx);=0A= #endif=0A= =0A= bus_dmamap_sync(ring->data_dmat, data->map, BUS_DMASYNC_POSTREAD);=0A= @@ -2905,7 +2999,7 @@=0A= &stat->status);=0A= } else {=0A= iwn_tx_done(sc, desc, stat->ackfailcnt,=0A= - le16toh(stat->status) & 0xff);=0A= + le16toh(stat->status) & IWN_TX_STATUS_MSK);=0A= }=0A= }=0A= =0A= @@ -2917,11 +3011,16 @@=0A= uint8_t status)=0A= {=0A= struct ifnet *ifp =3D sc->sc_ifp;=0A= - struct iwn_tx_ring *ring =3D &sc->txq[desc->qid & 0xf];=0A= + struct iwn_tx_ring *ring =3D &sc->txq[desc->qid & IWN_RX_DESC_QID_MSK];=0A= struct iwn_tx_data *data =3D &ring->data[desc->idx];=0A= +=0A= + struct iwn_tx_cmd *cmd;=0A= + struct iwn_cmd_data *tx;=0A= +=0A= struct mbuf *m;=0A= struct ieee80211_node *ni;=0A= struct ieee80211vap *vap;=0A= + struct ieee80211_frame *wh;=0A= =0A= KASSERT(data->ni !=3D NULL, ("no node"));=0A= =0A= @@ -2928,12 +3027,21 @@=0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= =0A= /* Unmap and free mbuf. */=0A= + uint8_t ridx;=0A= bus_dmamap_sync(ring->data_dmat, data->map, BUS_DMASYNC_POSTWRITE);=0A= bus_dmamap_unload(ring->data_dmat, data->map);=0A= m =3D data->m, data->m =3D NULL;=0A= ni =3D data->ni, data->ni =3D NULL;=0A= + uint8_t type;=0A= vap =3D ni->ni_vap;=0A= =0A= + cmd =3D &ring->cmd[desc->idx];=0A= + tx =3D (struct iwn_cmd_data *)cmd->data;=0A= + wh =3D (struct ieee80211_frame *)(tx + 1);=0A= +=0A= + struct ieee80211com *ic =3D ni->ni_ic;=0A= +=0A= + type =3D wh->i_fc[0] & IEEE80211_FC0_TYPE_MASK;=0A= if (m->m_flags & M_TXCB) {=0A= /*=0A= * Channels marked for "radar" require traffic to be received=0A= @@ -2957,6 +3065,7 @@=0A= (status & IWN_TX_FAIL) !=3D 0);=0A= }=0A= =0A= + ridx =3D ic->ic_rt->rateCodeToIndex[ni->ni_txrate];=0A= /*=0A= * Update rate control statistics for the node.=0A= */=0A= @@ -2993,12 +3102,24 @@=0A= static void=0A= iwn_cmd_done(struct iwn_softc *sc, struct iwn_rx_desc *desc)=0A= {=0A= - struct iwn_tx_ring *ring =3D &sc->txq[4];=0A= + struct iwn_tx_ring *ring;=0A= struct iwn_tx_data *data;=0A= + int cmd_queue_num;=0A= =0A= - if ((desc->qid & 0xf) !=3D 4)=0A= + if(sc->sc_flags & IWN_FLAG_PAN_SUPPORT)=0A= + cmd_queue_num =3D IWN_PAN_CMD_QUEUE;=0A= + else=0A= + cmd_queue_num =3D IWN_CMD_QUEUE_NUM;=0A= +=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_CMD, "%s: qid: %d\n",=0A= + __func__, (desc->qid & IWN_RX_DESC_QID_MSK));=0A= +=0A= +=0A= + if ((desc->qid & IWN_RX_DESC_QID_MSK) !=3D cmd_queue_num)=0A= return; /* Not a command ack. */=0A= =0A= + ring =3D &sc->txq[cmd_queue_num];=0A= data =3D &ring->data[desc->idx];=0A= =0A= /* If the command was mapped in an mbuf, free it. */=0A= @@ -3133,7 +3254,9 @@=0A= struct iwn_ops *ops =3D &sc->ops;=0A= struct ifnet *ifp =3D sc->sc_ifp;=0A= struct ieee80211com *ic =3D ifp->if_l2com;=0A= - struct ieee80211vap *vap =3D TAILQ_FIRST(&ic->ic_vaps);=0A= + struct ieee80211_scan_state *ss =3D ic->ic_scan;=0A= + struct ieee80211vap *vapscan =3D ss->ss_vap;=0A= +=0A= uint16_t hw;=0A= =0A= bus_dmamap_sync(sc->rxq.stat_dma.tag, sc->rxq.stat_dma.map,=0A= @@ -3153,8 +3276,10 @@=0A= __func__, desc->qid & 0xf, desc->idx, desc->flags,=0A= desc->type, iwn_intr_str(desc->type),=0A= le16toh(desc->len));=0A= -=0A= - if (!(desc->qid & 0x80)) /* Reply to a command. */=0A= + if (le16toh(desc->len) =3D=3D 8 && desc->qid =3D=3D 0)=0A= + DPRINTF(sc, IWN_DEBUG_RECV, "%s: strange inter values: 0x%08x\n",=0A= + __func__,le32toh(desc->len));=0A= + if (!(desc->qid & IWN_UNSOLICITED_RX_NOTIF)) /* Reply to a command. */=0A= iwn_cmd_done(sc, desc);=0A= =0A= switch (desc->type) {=0A= @@ -3188,6 +3313,10 @@=0A= struct iwn_beacon_missed *miss =3D=0A= (struct iwn_beacon_missed *)(desc + 1);=0A= int misses;=0A= + int iv_bmissthreshold;=0A= + int DoReinit =3D0 ;=0A= + struct ieee80211vap *vap0 =3D sc->ivap[IWN_RXON_BSS_CTX];=0A= + struct ieee80211vap *vap1 =3D sc->ivap[IWN_RXON_PAN_CTX];=0A= =0A= bus_dmamap_sync(sc->rxq.data_dmat, data->map,=0A= BUS_DMASYNC_POSTREAD);=0A= @@ -3194,17 +3323,31 @@=0A= misses =3D le32toh(miss->consecutive);=0A= =0A= DPRINTF(sc, IWN_DEBUG_STATE,=0A= - "%s: beacons missed %d/%d\n", __func__,=0A= - misses, le32toh(miss->total));=0A= + "%s: beacons missed %d/%d rcv %d expect %d\n", __func__,=0A= + misses, le32toh(miss->total), le32toh(miss->received),=0A= + le32toh(miss->expected));=0A= +=0A= + iv_bmissthreshold =3D vap0->iv_bmissthreshold;=0A= +=0A= + if(sc->ctx =3D=3D IWN_RXON_PAN_CTX) {=0A= + iv_bmissthreshold =3D vap1->iv_bmissthreshold;=0A= + if (vap0->iv_state =3D=3D IEEE80211_S_RUN &&=0A= + vap1->iv_state =3D=3D IEEE80211_S_RUN &&=0A= + (ic->ic_flags & IEEE80211_F_SCAN) =3D=3D 0)=0A= + DoReinit =3D 1;=0A= + }=0A= + else if (vap0->iv_state =3D=3D IEEE80211_S_RUN &&=0A= + (ic->ic_flags & IEEE80211_F_SCAN) =3D=3D 0)=0A= + DoReinit =3D 1;=0A= +=0A= /*=0A= * If more than 5 consecutive beacons are missed,=0A= * reinitialize the sensitivity state machine.=0A= */=0A= - if (vap->iv_state =3D=3D IEEE80211_S_RUN &&=0A= - (ic->ic_flags & IEEE80211_F_SCAN) =3D=3D 0) {=0A= + if (DoReinit=3D=3D1) {=0A= if (misses > 5)=0A= (void)iwn_init_sensitivity(sc);=0A= - if (misses >=3D vap->iv_bmissthreshold) {=0A= + if (misses >=3D iv_bmissthreshold) {=0A= IWN_UNLOCK(sc);=0A= ieee80211_beacon_miss(ic);=0A= IWN_LOCK(sc);=0A= @@ -3214,6 +3357,13 @@=0A= }=0A= case IWN_UC_READY:=0A= {=0A= +/**=0A= + * uCode issues this "alive" notification once the runtime image is = ready=0A= + * to receive commands from the driver. This is the *second* "alive"=0A= + * notification that the driver will receive after rebooting uCode;=0A= + * this "alive" is indicated by subtype field !=3D 9.=0A= + *=0A= + **/=0A= struct iwn_ucode_info *uc =3D=0A= (struct iwn_ucode_info *)(desc + 1);=0A= =0A= @@ -3240,6 +3390,8 @@=0A= }=0A= case IWN_STATE_CHANGED:=0A= {=0A= + uint32_t *status =3D (uint32_t *)(desc + 1);=0A= +=0A= /*=0A= * State change allows hardware switch change to be=0A= * noted. However, we handle this in iwn_intr as we=0A= @@ -3246,12 +3398,33 @@=0A= * get both the enable/disble intr.=0A= */=0A= bus_dmamap_sync(sc->rxq.data_dmat, data->map,=0A= - BUS_DMASYNC_POSTREAD);=0A= -#ifdef IWN_DEBUG=0A= - uint32_t *status =3D (uint32_t *)(desc + 1);=0A= - DPRINTF(sc, IWN_DEBUG_INTR, "state changed to %x\n",=0A= + BUS_DMASYNC_POSTREAD);=0A= + if (*status & (IWN_STATE_CHANGE_HW_CARD_DISABLED | = IWN_STATE_CHANGE_CT_CARD_DISABLED |IWN_STATE_CHANGE_SW_CARD_DISABLED)){=0A= + IWN_WRITE(sc, IWN_UCODE_GP1_SET, IWN_UCODE_GP1_CMD_BLOCKED);=0A= + IWN_WRITE(sc,IWN_TARG_MBX_C, 0x00000004);=0A= +=0A= + if (!(*status & IWN_STATE_CHANGE_RXON_CARD_DISABLED)) {=0A= + IWN_WRITE(sc, IWN_UCODE_GP1_CLR, IWN_UCODE_GP1_CMD_BLOCKED);=0A= + IWN_WRITE(sc, IWN_TARG_MBX_C, 0x00000004);=0A= + }=0A= + =0A= + if(*status & IWN_STATE_CHANGE_CT_CARD_DISABLED) {=0A= + device_printf(sc->sc_dev,"critical temp. reached\n");=0A= + /* XXX: enter CT kill */=0A= + }=0A= + } =0A= + if(!(*status & IWN_STATE_CHANGE_CT_CARD_DISABLED)){=0A= + callout_stop(&sc->ct_kill_exit_to);=0A= + /* XXX: exit CT kill */=0A= + }=0A= + /*=0A= + * State change allows hardware switch change to be=0A= + * noted. However, we handle this in iwn_intr as we=0A= + * get both the enable/disble intr.=0A= + */=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_INTR, "state changed to %x\n",=0A= le32toh(*status));=0A= -#endif=0A= break;=0A= }=0A= case IWN_START_SCAN:=0A= @@ -3280,7 +3453,7 @@=0A= #endif=0A= =0A= IWN_UNLOCK(sc);=0A= - ieee80211_scan_next(vap);=0A= + ieee80211_scan_next(vapscan);=0A= IWN_LOCK(sc);=0A= break;=0A= }=0A= @@ -3292,6 +3465,9 @@=0A= sc->sc_flags |=3D IWN_FLAG_CALIB_DONE;=0A= wakeup(sc);=0A= break;=0A= + default:=0A= + DPRINTF(sc,IWN_DEBUG_INTR,"Interrupt type %d not managed\n",=0A= + desc->type);=0A= }=0A= =0A= sc->rxq.cur =3D (sc->rxq.cur + 1) % IWN_RX_RING_COUNT;=0A= @@ -3435,8 +3611,6 @@=0A= r2 =3D IWN_READ(sc, IWN_FH_INT);=0A= }=0A= =0A= - DPRINTF(sc, IWN_DEBUG_INTR, "interrupt reg1=3D0x%08x reg2=3D0x%08x\n"=0A= - , r1, r2);=0A= =0A= if (r1 =3D=3D 0 && r2 =3D=3D 0)=0A= goto done; /* Interrupt not for us. */=0A= @@ -3446,6 +3620,8 @@=0A= if (!(sc->sc_flags & IWN_FLAG_USE_ICT))=0A= IWN_WRITE(sc, IWN_FH_INT, r2);=0A= =0A= + DPRINTF(sc, IWN_DEBUG_INTR, "Acked interupt reg1=3D0x%08x = reg2=3D0x%08x\n", r1, r2);=0A= +=0A= if (r1 & IWN_INT_RF_TOGGLED) {=0A= iwn_rftoggle_intr(sc);=0A= goto done;=0A= @@ -3454,6 +3630,7 @@=0A= device_printf(sc->sc_dev, "%s: critical temperature reached!\n",=0A= __func__);=0A= }=0A= + /* Todo : Make separate action for HW Error and SW_error. SW Error = maybe require just a restart */=0A= if (r1 & (IWN_INT_SW_ERR | IWN_INT_HW_ERR)) {=0A= device_printf(sc->sc_dev, "%s: fatal firmware error\n",=0A= __func__);=0A= @@ -3583,6 +3760,7 @@=0A= bus_dma_segment_t *seg, segs[IWN_MAX_SCATTER];=0A= uint8_t tid, ridx, txant, type;=0A= int ac, i, totlen, error, pad, nsegs =3D 0, rate;=0A= + struct iwn_vap *ivp =3D IWN_VAP(vap);=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= =0A= @@ -3600,21 +3778,23 @@=0A= qos =3D 0;=0A= tid =3D 0;=0A= }=0A= - ac =3D M_WME_GETAC(m);=0A= - if (m->m_flags & M_AMPDU_MPDU) {=0A= +=0A= + if(ivp->ctx =3D=3D IWN_RXON_PAN_CTX)=0A= + ac =3D iwn_pan_ac_to_queue[M_WME_GETAC(m)];=0A= + else=0A= + ac =3D iwn_bss_ac_to_queue[M_WME_GETAC(m)];=0A= +=0A= + if (IEEE80211_QOS_HAS_SEQ(wh) &&=0A= + IEEE80211_AMPDU_RUNNING(&ni->ni_tx_ampdu[ac])) {=0A= struct ieee80211_tx_ampdu *tap =3D &ni->ni_tx_ampdu[ac];=0A= =0A= - if (!IEEE80211_AMPDU_RUNNING(tap)) {=0A= - m_freem(m);=0A= - return EINVAL;=0A= - }=0A= -=0A= - ac =3D *(int *)tap->txa_private;=0A= + ring =3D &sc->txq[*(int *)tap->txa_private];=0A= *(uint16_t *)wh->i_seq =3D=0A= htole16(ni->ni_txseqs[tid] << IEEE80211_SEQ_SEQ_SHIFT);=0A= ni->ni_txseqs[tid]++;=0A= - }=0A= - ring =3D &sc->txq[ac];=0A= + } else=0A= + ring =3D &sc->txq[ac];=0A= +=0A= desc =3D &ring->desc[ring->cur];=0A= data =3D &ring->data[ring->cur];=0A= =0A= @@ -3706,10 +3886,12 @@=0A= }=0A= }=0A= =0A= - if (IEEE80211_IS_MULTICAST(wh->i_addr1) ||=0A= - type !=3D IEEE80211_FC0_TYPE_DATA)=0A= - tx->id =3D sc->broadcast_id;=0A= - else=0A= + if (IEEE80211_IS_MULTICAST(wh->i_addr1) || type !=3D = IEEE80211_FC0_TYPE_DATA) {=0A= + if(ivp->ctx =3D=3D IWN_RXON_PAN_CTX)=0A= + tx->id =3D IWN_PAN_ID_BCAST;=0A= + else=0A= + tx->id =3D sc->broadcast_id;=0A= + } else=0A= tx->id =3D wn->id;=0A= =0A= if (type =3D=3D IEEE80211_FC0_TYPE_MGT) {=0A= @@ -3739,7 +3921,7 @@=0A= tx->data_ntries =3D 15;=0A= tx->lifetime =3D htole32(IWN_LIFETIME_INFINITE);=0A= tx->rate =3D iwn_rate_to_plcp(sc, ni, rate);=0A= - if (tx->id =3D=3D sc->broadcast_id) {=0A= + if ((tx->id =3D=3D IWN_PAN_ID_BCAST) || (tx->id =3D=3D = sc->broadcast_id)) {=0A= /* Group or management frame. */=0A= tx->linkq =3D 0;=0A= /* XXX Alternate between antenna A and B? */=0A= @@ -3771,7 +3953,7 @@=0A= return error;=0A= }=0A= /* Too many DMA segments, linearize mbuf. */=0A= - m1 =3D m_collapse(m, M_NOWAIT, IWN_MAX_SCATTER);=0A= + m1 =3D m_collapse(m, M_DONTWAIT, IWN_MAX_SCATTER);=0A= if (m1 =3D=3D NULL) {=0A= device_printf(sc->sc_dev,=0A= "%s: could not defrag mbuf\n", __func__);=0A= @@ -3856,7 +4038,7 @@=0A= u_int hdrlen;=0A= int ac, totlen, error, pad, nsegs =3D 0, i, rate;=0A= uint8_t ridx, type, txant;=0A= -=0A= + struct iwn_vap *ivp =3D IWN_VAP(vap);=0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= =0A= IWN_LOCK_ASSERT(sc);=0A= @@ -3946,7 +4128,10 @@=0A= =0A= tx->len =3D htole16(totlen);=0A= tx->tid =3D 0;=0A= - tx->id =3D sc->broadcast_id;=0A= + if(ivp->ctx =3D=3D IWN_RXON_PAN_CTX)=0A= + tx->id =3D IWN_PAN_ID_BCAST;=0A= + else=0A= + tx->id =3D sc->broadcast_id;=0A= tx->rts_ntries =3D params->ibp_try1;=0A= tx->data_ntries =3D params->ibp_try0;=0A= tx->lifetime =3D htole32(IWN_LIFETIME_INFINITE);=0A= @@ -3956,12 +4141,10 @@=0A= if (ridx < IWN_RIDX_OFDM6 &&=0A= IEEE80211_IS_CHAN_2GHZ(ni->ni_chan))=0A= tx->rate |=3D htole32(IWN_RFLAG_CCK);=0A= -=0A= /* Group or management frame. */=0A= tx->linkq =3D 0;=0A= txant =3D IWN_LSB(sc->txchainmask);=0A= tx->rate |=3D htole32(IWN_RFLAG_ANT(txant));=0A= -=0A= /* Set physical address of "scratch area". */=0A= tx->loaddr =3D htole32(IWN_LOADDR(data->scratch_paddr));=0A= tx->hiaddr =3D IWN_HIADDR(data->scratch_paddr);=0A= @@ -3984,7 +4167,7 @@=0A= return error;=0A= }=0A= /* Too many DMA segments, linearize mbuf. */=0A= - m1 =3D m_collapse(m, M_NOWAIT, IWN_MAX_SCATTER);=0A= + m1 =3D m_collapse(m, M_DONTWAIT, IWN_MAX_SCATTER);=0A= if (m1 =3D=3D NULL) {=0A= device_printf(sc->sc_dev,=0A= "%s: could not defrag mbuf\n", __func__);=0A= @@ -4141,6 +4324,8 @@=0A= struct iwn_softc *sc =3D arg;=0A= struct ifnet *ifp =3D sc->sc_ifp;=0A= struct ieee80211com *ic =3D ifp->if_l2com;=0A= + struct ieee80211_scan_state *ss =3D ic->ic_scan;=0A= + struct ieee80211vap *vapscan =3D ss->ss_vap;=0A= =0A= IWN_LOCK_ASSERT(sc);=0A= =0A= @@ -4155,6 +4340,12 @@=0A= return;=0A= }=0A= }=0A= +=0A= + if (sc->sc_scan_timer > 0) {=0A= + if (--sc->sc_scan_timer =3D=3D 0)=0A= + ieee80211_scan_next(vapscan);=0A= + }=0A= +=0A= callout_reset(&sc->watchdog_to, hz, iwn_watchdog, sc);=0A= }=0A= =0A= @@ -4207,7 +4398,7 @@=0A= static int=0A= iwn_cmd(struct iwn_softc *sc, int code, const void *buf, int size, int = async)=0A= {=0A= - struct iwn_tx_ring *ring =3D &sc->txq[4];=0A= + struct iwn_tx_ring *ring ;=0A= struct iwn_tx_desc *desc;=0A= struct iwn_tx_data *data;=0A= struct iwn_tx_cmd *cmd;=0A= @@ -4214,12 +4405,25 @@=0A= struct mbuf *m;=0A= bus_addr_t paddr;=0A= int totlen, error;=0A= + int cmd_queue_num;=0A= =0A= + if((sc->uc_scan_progress =3D=3D 1) && (code !=3D IWN_CMD_SCAN)) {=0A= + DPRINTF(sc,IWN_DEBUG_CMD,"Scanning in progress..not sending cmd = %x.\n",code);=0A= + return 0;=0A= + }=0A= +=0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= =0A= if (async =3D=3D 0)=0A= IWN_LOCK_ASSERT(sc);=0A= =0A= + if(sc->sc_flags & IWN_FLAG_PAN_SUPPORT)=0A= + cmd_queue_num =3D IWN_PAN_CMD_QUEUE;=0A= + else=0A= + cmd_queue_num =3D IWN_CMD_QUEUE_NUM;=0A= +=0A= + ring =3D &sc->txq[cmd_queue_num];=0A= +=0A= desc =3D &ring->desc[ring->cur];=0A= data =3D &ring->data[ring->cur];=0A= totlen =3D 4 + size;=0A= @@ -4228,7 +4432,7 @@=0A= /* Command is too large to fit in a descriptor. */=0A= if (totlen > MCLBYTES)=0A= return EINVAL;=0A= - m =3D m_getjcl(M_NOWAIT, MT_DATA, M_PKTHDR, MJUMPAGESIZE);=0A= + m =3D m_getjcl(M_DONTWAIT, MT_DATA, M_PKTHDR, MJUMPAGESIZE);=0A= if (m =3D=3D NULL)=0A= return ENOMEM;=0A= cmd =3D mtod(m, struct iwn_tx_cmd *);=0A= @@ -4303,7 +4507,14 @@=0A= {=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->Doing %s\n", __func__);=0A= -=0A= + if (node->control =3D=3D 0)=0A= + DPRINTF(sc, IWN_DEBUG_NODE, =0A= + "Adding node id : %d MAC : %6D flags: 0x%x\n", node->id,=0A= + node->macaddr,":", node->flags);=0A= + else=0A= + DPRINTF(sc, IWN_DEBUG_NODE, =0A= + "Updating node id : %d MAC : %6D flags: 0x%x\n", node->id,=0A= + node->macaddr,":", node->flags);=0A= /* Direct mapping. */=0A= return iwn_cmd(sc, IWN_CMD_ADD_NODE, node, sizeof (*node), async);=0A= }=0A= @@ -4311,6 +4522,10 @@=0A= static int=0A= iwn_set_link_quality(struct iwn_softc *sc, struct ieee80211_node *ni)=0A= {=0A= +=0A= + DPRINTF(sc,IWN_DEBUG_RESET,"Disabled %s reached\n",__func__);=0A= + return 0;=0A= +=0A= #define RV(v) ((v) & IEEE80211_RATE_VAL)=0A= struct iwn_node *wn =3D (void *)ni;=0A= struct ieee80211_rateset *rs =3D &ni->ni_rates;=0A= @@ -4456,7 +4671,8 @@=0A= }=0A= =0A= static void=0A= -iwn_set_led(struct iwn_softc *sc, uint8_t which, uint8_t off, uint8_t = on)=0A= +iwn_set_led(struct iwn_softc *sc, uint8_t which, uint8_t off, uint8_t = on,=0A= + uint8_t mode)=0A= {=0A= struct iwn_cmd_led led;=0A= =0A= @@ -4466,7 +4682,12 @@=0A= IWN_CLRBITS(sc, IWN_LED, IWN_LED_BSM_CTRL);=0A= =0A= led.which =3D which;=0A= - led.unit =3D htole32(10000); /* on/off in unit of 100ms */=0A= +=0A= + if(mode =3D=3D IWN_LED_SLOW_BLINK)=0A= + led.unit =3D htole32(IWN_LED_UNIT * 5); /* on/off in unit of 10ms */=0A= + else=0A= + led.unit =3D htole32(IWN_LED_UNIT);=0A= +=0A= led.off =3D off;=0A= led.on =3D on;=0A= (void)iwn_cmd(sc, IWN_CMD_SET_LED, &led, sizeof led, 1);=0A= @@ -4480,21 +4701,30 @@=0A= iwn_set_critical_temp(struct iwn_softc *sc)=0A= {=0A= struct iwn_critical_temp crit;=0A= - int32_t temp;=0A= + int32_t ct_enter,ct_exit;=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->Doing %s\n", __func__);=0A= =0A= IWN_WRITE(sc, IWN_UCODE_GP1_CLR, IWN_UCODE_GP1_CTEMP_STOP_RF);=0A= =0A= - if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_5150)=0A= - temp =3D (IWN_CTOK(110) - sc->temp_off) * -5;=0A= - else if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_4965)=0A= - temp =3D IWN_CTOK(110);=0A= - else=0A= - temp =3D 110;=0A= + ct_enter =3D IWN_CT_KILL_THRESHOLD;=0A= + ct_exit =3D IWN_CT_KILL_EXIT_THRESHOLD;=0A= +=0A= + if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_5150) {=0A= + ct_enter =3D (IWN_CTOK(IWN_CT_KILL_THRESHOLD) - sc->temp_off) * -5;=0A= + ct_exit =3D 0;=0A= + } else if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_4965) {=0A= + ct_enter =3D IWN_CTOK(IWN_CT_KILL_THRESHOLD);=0A= + ct_exit =3D 0;=0A= + } else {=0A= + ct_enter =3D IWN_CT_KILL_THRESHOLD;=0A= + ct_exit =3D IWN_CT_KILL_EXIT_THRESHOLD;=0A= + }=0A= +=0A= memset(&crit, 0, sizeof crit);=0A= - crit.tempR =3D htole32(temp);=0A= - DPRINTF(sc, IWN_DEBUG_RESET, "setting critical temp to %d\n", temp);=0A= + crit.tempR =3D htole32(ct_enter);=0A= + crit.tempM =3D htole32(ct_exit);=0A= + DPRINTF(sc, IWN_DEBUG_RESET, "setting critical temp to %d and exit to = %d \n", ct_enter,ct_exit);=0A= return iwn_cmd(sc, IWN_CMD_SET_CRITICAL_TEMP, &crit, sizeof crit, 0);=0A= }=0A= =0A= @@ -4516,10 +4746,12 @@=0A= mod =3D le64toh(cmd.tstamp) % val;=0A= cmd.binitval =3D htole32((uint32_t)(val - mod));=0A= =0A= +// cmd.dtim_period=3D1; //XXX It's defined in linux kernel=0A= +=0A= DPRINTF(sc, IWN_DEBUG_RESET, "timing bintval=3D%u tstamp=3D%ju, = init=3D%u\n",=0A= - ni->ni_intval, le64toh(cmd.tstamp), (uint32_t)(val - mod));=0A= + le16toh(cmd.bintval), le64toh(cmd.tstamp), (uint32_t)(val - mod));=0A= =0A= - return iwn_cmd(sc, IWN_CMD_TIMING, &cmd, sizeof cmd, 1);=0A= + return iwn_cmd(sc, IWN_CMD_TIMING | IWN_DEBUG_RESET, &cmd, sizeof cmd, = 0);=0A= }=0A= =0A= static void=0A= @@ -4696,6 +4928,11 @@=0A= #undef fdivround=0A= }=0A= =0A= +/*=0A= + * Set TX power for current channel (each rate has its own power = settings).=0A= + * This function takes into account the regulatory information from = EEPROM,=0A= + * the current temperature and the current voltage.=0A= + */=0A= static int=0A= iwn5000_set_txpower(struct iwn_softc *sc, struct ieee80211_channel *ch,=0A= int async)=0A= @@ -4751,19 +4988,22 @@=0A= {=0A= struct iwn5000_rx_phystat *phy =3D (void *)stat->phybuf;=0A= uint8_t agc;=0A= - int rssi;=0A= + int rssi, rssi_a, rssi_b, rssi_c;=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->Doing %s\n", __func__);=0A= =0A= - agc =3D (le32toh(phy->agc) >> 9) & 0x7f;=0A= + agc =3D (le32toh(phy->agc) >> 9) & 0x7f; /* 0x7f =3D=3D (0xfe00 >> 9) = */=0A= =0A= - rssi =3D MAX(le16toh(phy->rssi[0]) & 0xff,=0A= - le16toh(phy->rssi[1]) & 0xff);=0A= - rssi =3D MAX(le16toh(phy->rssi[2]) & 0xff, rssi);=0A= + rssi_a =3D le16toh(phy->rssi[0]) & 0xff;=0A= + rssi_b =3D le16toh(phy->rssi[1]) & 0xff;=0A= + rssi_c =3D le16toh(phy->rssi[2]) & 0xff;=0A= =0A= + rssi =3D MAX(rssi_a, rssi_b); =0A= + rssi =3D MAX(rssi_c, rssi);=0A= +=0A= DPRINTF(sc, IWN_DEBUG_RECV,=0A= - "%s: agc %d rssi %d %d %d result %d\n", __func__, agc,=0A= - phy->rssi[0], phy->rssi[1], phy->rssi[2],=0A= + "%s: agc %d rssi ANT_A:%d ANT_B:%d ANT_C:%d result %d dBm\n", = __func__, agc,=0A= + rssi_a, rssi_b, rssi_c,=0A= rssi - agc - IWN_RSSI_TO_DBM);=0A= return rssi - agc - IWN_RSSI_TO_DBM;=0A= }=0A= @@ -4833,6 +5073,8 @@=0A= temp =3D (temp / -5) + sc->temp_off;=0A= temp =3D IWN_KTOC(temp);=0A= }=0A= + DPRINTF(sc,IWN_DEBUG_CALIBRATE,"Temperature %d\n",temp);=0A= + //XXX: handle thermal throttling state machine=0A= return temp;=0A= }=0A= =0A= @@ -4844,7 +5086,6 @@=0A= {=0A= struct iwn_ops *ops =3D &sc->ops;=0A= struct iwn_calib_state *calib =3D &sc->calib;=0A= - uint32_t flags;=0A= int error;=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->Doing %s\n", __func__);=0A= @@ -4858,9 +5099,10 @@=0A= calib->ofdm_mrc_x1 =3D sc->limits->min_ofdm_mrc_x1;=0A= calib->ofdm_x4 =3D sc->limits->min_ofdm_x4;=0A= calib->ofdm_mrc_x4 =3D sc->limits->min_ofdm_mrc_x4;=0A= - calib->cck_x4 =3D 125;=0A= + calib->cck_x4 =3D sc->limits->min_cck_x4;=0A= calib->cck_mrc_x4 =3D sc->limits->min_cck_mrc_x4;=0A= calib->energy_cck =3D sc->limits->energy_cck;=0A= + calib->corr_barker_mrc =3D sc->limits->min_corr_barker_mrc;=0A= =0A= /* Write initial sensitivity. */=0A= if ((error =3D iwn_send_sensitivity(sc)) !=3D 0)=0A= @@ -4871,10 +5113,7 @@=0A= return error;=0A= =0A= /* Request statistics at each beacon interval. */=0A= - flags =3D 0;=0A= - DPRINTF(sc, IWN_DEBUG_CALIBRATE, "%s: sending request for = statistics\n",=0A= - __func__);=0A= - return iwn_cmd(sc, IWN_CMD_GET_STATISTICS, &flags, sizeof flags, 1);=0A= + return iwn_set_statistics_request(sc,true,false,1);=0A= }=0A= =0A= /*=0A= @@ -5217,15 +5456,15 @@=0A= cmd.corr_ofdm_mrc_x1 =3D htole16(calib->ofdm_mrc_x1);=0A= cmd.corr_ofdm_x4 =3D htole16(calib->ofdm_x4);=0A= cmd.corr_ofdm_mrc_x4 =3D htole16(calib->ofdm_mrc_x4);=0A= - cmd.energy_ofdm =3D htole16(sc->limits->energy_ofdm);=0A= - cmd.energy_ofdm_th =3D htole16(62);=0A= + cmd.energy_ofdm =3D htole16(calib->energy_ofdm);=0A= + cmd.energy_ofdm_th =3D htole16(62); //Value doesn't change in = linux Kernel=0A= /* CCK modulation. */=0A= cmd.corr_cck_x4 =3D htole16(calib->cck_x4);=0A= cmd.corr_cck_mrc_x4 =3D htole16(calib->cck_mrc_x4);=0A= cmd.energy_cck =3D htole16(calib->energy_cck);=0A= /* Barker modulation: use default values. */=0A= - cmd.corr_barker =3D htole16(190);=0A= - cmd.corr_barker_mrc =3D htole16(390);=0A= + cmd.corr_barker =3D htole16(190); //Value doesn't change in = linux Kernel=0A= + cmd.corr_barker_mrc =3D htole16(calib->corr_barker_mrc);=0A= =0A= DPRINTF(sc, IWN_DEBUG_CALIBRATE,=0A= "%s: set sensitivity %d/%d/%d/%d/%d/%d/%d\n", __func__,=0A= @@ -5252,6 +5491,8 @@=0A= /*=0A= * Set STA mode power saving level (between 0 and 5).=0A= * Level 0 is CAM (Continuously Aware Mode), 5 is for maximum power = saving.=0A= + * DTIM value passed in will if so configured, be ignored and taken from=0A= + * the value set at the AP.=0A= */=0A= static int=0A= iwn_set_pslevel(struct iwn_softc *sc, int dtim, int level, int async)=0A= @@ -5260,8 +5501,25 @@=0A= const struct iwn_pmgt *pmgt;=0A= uint32_t max, skip_dtim;=0A= uint32_t reg;=0A= - int i;=0A= + int i, retval;=0A= + struct ifnet *ifp =3D sc->sc_ifp;=0A= + struct ieee80211com *ic =3D ifp->if_l2com;=0A= =0A= + if(!TAILQ_EMPTY(&ic->ic_vaps)) {=0A= + /* At present the driver supports only a single vap. */=0A= + struct ieee80211vap *vap =3D TAILQ_FIRST(&ic->ic_vaps);=0A= +=0A= + /* XXX confirm PS level setting validity for various modes */=0A= + if(vap->iv_opmode =3D=3D IEEE80211_M_HOSTAP ||=0A= + vap->iv_opmode =3D=3D IEEE80211_M_MONITOR)=0A= + return 0;=0A= +=0A= + #ifdef IWN_DTIM_INDICATES_UNICAST_PENDING_AT_AP=0A= + if (vap->iv_state =3D=3D IEEE80211_S_RUN)=0A= + dtim =3D vap->iv_bss->ni_dtim_period;=0A= + #endif=0A= + }=0A= +=0A= DPRINTF(sc, IWN_DEBUG_PWRSAVE,=0A= "%s: dtim=3D%d, level=3D%d, async=3D%d\n",=0A= __func__,=0A= @@ -5279,7 +5537,7 @@=0A= =0A= memset(&cmd, 0, sizeof cmd);=0A= if (level !=3D 0) /* not CAM */=0A= - cmd.flags |=3D htole16(IWN_PS_ALLOW_SLEEP);=0A= + cmd.flags |=3D = htole16(IWN_PS_ALLOW_SLEEP)|htole16(IWN_PS_ADVANCED_PM);=0A= if (level =3D=3D 5)=0A= cmd.flags |=3D htole16(IWN_PS_FAST_PD);=0A= /* Retrieve PCIe Active State Power Management (ASPM). */=0A= @@ -5306,9 +5564,18 @@=0A= for (i =3D 0; i < 5; i++)=0A= cmd.intval[i] =3D htole32(MIN(max, pmgt->intval[i]));=0A= =0A= - DPRINTF(sc, IWN_DEBUG_RESET, "setting power saving level to %d\n",=0A= + DPRINTF(sc, IWN_DEBUG_PWRSAVE, "setting power saving level to %d\n",=0A= level);=0A= - return iwn_cmd(sc, IWN_CMD_SET_POWER_MODE, &cmd, sizeof cmd, async);=0A= + retval =3D iwn_cmd(sc, IWN_CMD_SET_POWER_MODE, &cmd, sizeof cmd, = async);=0A= + /*=0A= + * XXX: update current_pwrsave_level using completion notification=0A= + * in case of async mode=0A= + */=0A= + if(retval=3D=3D0)=0A= + sc->current_pwrsave_level =3D level;=0A= +=0A= + return retval;=0A= +=0A= }=0A= =0A= static int=0A= @@ -5333,26 +5600,63 @@=0A= 0xcc00ff28, 0x0000aaaa, 0xcc00aaaa, 0x0000aaaa,=0A= 0xc0004000, 0x00004000, 0xf0005000, 0xf0005000,=0A= };=0A= +=0A= struct iwn6000_btcoex_config btconfig;=0A= + struct iwn2000_btcoex_config btconfig2k;=0A= struct iwn_btcoex_priotable btprio;=0A= struct iwn_btcoex_prot btprot;=0A= int error, i;=0A= + uint8_t flags;=0A= =0A= memset(&btconfig, 0, sizeof btconfig);=0A= - btconfig.flags =3D 145;=0A= - btconfig.max_kill =3D 5;=0A= - btconfig.bt3_t7_timer =3D 1;=0A= - btconfig.kill_ack =3D htole32(0xffff0000);=0A= - btconfig.kill_cts =3D htole32(0xffff0000);=0A= - btconfig.sample_time =3D 2;=0A= - btconfig.bt3_t2_timer =3D 0xc;=0A= - for (i =3D 0; i < 12; i++)=0A= - btconfig.lookup_table[i] =3D htole32(btcoex_3wire[i]);=0A= - btconfig.valid =3D htole16(0xff);=0A= - btconfig.prio_boost =3D 0xf0;=0A= - DPRINTF(sc, IWN_DEBUG_RESET,=0A= - "%s: configuring advanced bluetooth coexistence\n", __func__);=0A= - error =3D iwn_cmd(sc, IWN_CMD_BT_COEX, &btconfig, sizeof(btconfig), 1);=0A= + memset(&btconfig2k, 0, sizeof btconfig2k);=0A= +=0A= + flags =3D IWN_BT_FLAG_COEX6000_MODE_3W << = IWN_BT_FLAG_COEX6000_MODE_SHIFT; // Done as is in linux kernel 3.2=0A= +=0A= + if (sc->base_params->bt_sco_disable)=0A= + flags &=3D ~IWN_BT_FLAG_SYNC_2_BT_DISABLE; =0A= + else=0A= + flags |=3D IWN_BT_FLAG_SYNC_2_BT_DISABLE; =0A= +=0A= + flags |=3D IWN_BT_FLAG_COEX6000_CHAN_INHIBITION;=0A= +=0A= +=0A= + /* Default flags result is 145 as old value */=0A= +=0A= + /* Flags value has to be review. Values must change if we which to = disable it */=0A= + if (sc->base_params->bt_session_2) {=0A= + btconfig2k.flags =3D flags; =0A= + btconfig2k.max_kill =3D 5;=0A= + btconfig2k.bt3_t7_timer =3D 1;=0A= + btconfig2k.kill_ack =3D htole32(0xffff0000);=0A= + btconfig2k.kill_cts =3D htole32(0xffff0000);=0A= + btconfig2k.sample_time =3D 2;=0A= + btconfig2k.bt3_t2_timer =3D 0xc;=0A= +=0A= + for (i =3D 0; i < 12; i++)=0A= + btconfig2k.lookup_table[i] =3D htole32(btcoex_3wire[i]);=0A= + btconfig2k.valid =3D htole16(0xff);=0A= + btconfig2k.prio_boost =3D htole32(0xf0);=0A= + DPRINTF(sc, IWN_DEBUG_RESET,=0A= + "%s: configuring advanced bluetooth coexistence session 2, flags : = 0X%x\n", __func__,flags);=0A= + error =3D iwn_cmd(sc, IWN_CMD_BT_COEX, &btconfig2k, = sizeof(btconfig2k), 1);=0A= + } else {=0A= + btconfig.flags =3D flags;=0A= + btconfig.max_kill =3D 5;=0A= + btconfig.bt3_t7_timer =3D 1;=0A= + btconfig.kill_ack =3D htole32(0xffff0000);=0A= + btconfig.kill_cts =3D htole32(0xffff0000);=0A= + btconfig.sample_time =3D 2;=0A= + btconfig.bt3_t2_timer =3D 0xc;=0A= +=0A= + for (i =3D 0; i < 12; i++)=0A= + btconfig.lookup_table[i] =3D htole32(btcoex_3wire[i]);=0A= + btconfig.valid =3D htole16(0xff);=0A= + btconfig.prio_boost =3D 0xf0;=0A= + DPRINTF(sc, IWN_DEBUG_RESET,=0A= + "%s: configuring advanced bluetooth coexistence, flags : 0X%x\n", = __func__,flags);=0A= + error =3D iwn_cmd(sc, IWN_CMD_BT_COEX, &btconfig, sizeof(btconfig), = 1);=0A= + }=0A= if (error !=3D 0)=0A= return error;=0A= =0A= @@ -5383,19 +5687,6 @@=0A= }=0A= =0A= static int=0A= -iwn5000_runtime_calib(struct iwn_softc *sc)=0A= -{=0A= - struct iwn5000_calib_config cmd;=0A= -=0A= - memset(&cmd, 0, sizeof cmd);=0A= - cmd.ucode.once.enable =3D 0xffffffff;=0A= - cmd.ucode.once.start =3D IWN5000_CALIB_DC;=0A= - DPRINTF(sc, IWN_DEBUG_CALIBRATE,=0A= - "%s: configuring runtime calibration\n", __func__);=0A= - return iwn_cmd(sc, IWN5000_CMD_CALIB_CONFIG, &cmd, sizeof(cmd), 0);=0A= -}=0A= -=0A= -static int=0A= iwn_config(struct iwn_softc *sc)=0A= {=0A= struct iwn_ops *ops =3D &sc->ops;=0A= @@ -5407,8 +5698,12 @@=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= =0A= - if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_6005) {=0A= - /* Set radio temperature sensor offset. */=0A= + if ((sc->base_params->calib_need & IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSET) = && (sc->base_params->calib_need & = IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSETv2)) {=0A= + device_printf(sc->sc_dev,"%s: temp_offset and temp_offsetv2 are = exclusive each together. Review NIC config file. Conf : 0x%08x Flags : = 0x%08x \n", = __func__,sc->base_params->calib_need,(IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSET = | IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSETv2));=0A= + return EINVAL;=0A= + }=0A= + /* Compute temperature calib if needed. Will be send by send calib */=0A= + if (sc->base_params->calib_need & IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSET) {=0A= error =3D iwn5000_temp_offset_calib(sc);=0A= if (error !=3D 0) {=0A= device_printf(sc->sc_dev,=0A= @@ -5415,19 +5710,28 @@=0A= "%s: could not set temperature offset\n", __func__);=0A= return error;=0A= }=0A= - }=0A= -=0A= - if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_6050) {=0A= - /* Configure runtime DC calibration. */=0A= - error =3D iwn5000_runtime_calib(sc);=0A= + } else if (sc->base_params->calib_need & = IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSETv2) {=0A= + error =3D iwn5000_temp_offset_calibv2(sc);=0A= if (error !=3D 0) {=0A= device_printf(sc->sc_dev,=0A= - "%s: could not configure runtime calibration\n",=0A= - __func__);=0A= + "%s: could not compute temperature offset v2\n", __func__);=0A= return error;=0A= }=0A= }=0A= =0A= + /* Configure bluetooth coexistence. */=0A= + if (sc->base_params->advanced_bt_coexist) =0A= + error =3D iwn_send_advanced_btcoex(sc);=0A= + else=0A= + error =3D iwn_send_btcoex(sc);=0A= +=0A= + if (error !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not configure bluetooth coexistence, error %d\n",=0A= + __func__, error);=0A= + return error;=0A= + }=0A= +=0A= /* Configure valid TX chains for >=3D5000 Series. */=0A= if (sc->hw_type !=3D IWN_HW_REV_TYPE_4965) {=0A= txmask =3D htole32(sc->txchainmask);=0A= @@ -5443,17 +5747,6 @@=0A= }=0A= }=0A= =0A= - /* Configure bluetooth coexistence. */=0A= - if (sc->sc_flags & IWN_FLAG_ADV_BTCOEX)=0A= - error =3D iwn_send_advanced_btcoex(sc);=0A= - else=0A= - error =3D iwn_send_btcoex(sc);=0A= - if (error !=3D 0) {=0A= - device_printf(sc->sc_dev,=0A= - "%s: could not configure bluetooth coexistence, error %d\n",=0A= - __func__, error);=0A= - return error;=0A= - }=0A= =0A= /* Set mode, channel, RX filter and enable RX. */=0A= sc->rxon =3D &sc->rx_on[IWN_RXON_BSS_CTX];=0A= @@ -5515,8 +5808,18 @@=0A= return error;=0A= }=0A= =0A= - /* Set power saving level to CAM during initialization. */=0A= - if ((error =3D iwn_set_pslevel(sc, 0, 0, 0)) !=3D 0) {=0A= + /*=0A= + * Any vap's iv_flags are cloned from ic->ic_flags. Setting the flags=0A= + * on ic will allow a vap to get the correct powersave level once=0A= + * it is created.=0A= + */=0A= + if(sc->desired_pwrsave_level!=3DIWN_POWERSAVE_LVL_NONE)=0A= + ic->ic_flags |=3D IEEE80211_F_PMGTON;=0A= + else=0A= + ic->ic_flags &=3D ~IEEE80211_F_PMGTON;=0A= +=0A= + if ((error =3D iwn_set_pslevel(sc, IWN_POWERSAVE_DTIM_VOIP_COMPATIBLE,=0A= + sc->desired_pwrsave_level, 0)) !=3D 0) {=0A= device_printf(sc->sc_dev,=0A= "%s: could not set power saving level\n", __func__);=0A= return error;=0A= @@ -5557,10 +5860,20 @@=0A= uint16_t rxchain;=0A= uint8_t txant;=0A= int buflen, error;=0A= + uint8_t new_scan_threshold;=0A= + struct iwn_eeprom_chan *channel;=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= =0A= - sc->rxon =3D &sc->rx_on[IWN_RXON_BSS_CTX];=0A= +=0A= + struct ieee80211vap *vap =3D ni->ni_vap;=0A= + struct iwn_vap *ivp =3D IWN_VAP(vap);=0A= +=0A= + if(ivp->ctx =3D=3D IWN_RXON_BSS_CTX)=0A= + sc->rxon =3D &sc->rx_on[IWN_RXON_BSS_CTX];=0A= + else if(ivp->ctx =3D=3D IWN_RXON_PAN_CTX)=0A= + sc->rxon =3D &sc->rx_on[IWN_RXON_PAN_CTX];=0A= +=0A= buf =3D malloc(IWN_SCAN_MAXSZ, M_DEVBUF, M_NOWAIT | M_ZERO);=0A= if (buf =3D=3D NULL) {=0A= device_printf(sc->sc_dev,=0A= @@ -5592,7 +5905,11 @@=0A= =0A= tx =3D (struct iwn_cmd_data *)(hdr + 1);=0A= tx->flags =3D htole32(IWN_TX_AUTO_SEQ);=0A= - tx->id =3D sc->broadcast_id;=0A= + if(ivp->ctx =3D=3D IWN_RXON_PAN_CTX)=0A= + tx->id =3D IWN_PAN_ID_BCAST;=0A= + else=0A= + tx->id =3D sc->broadcast_id;=0A= +=0A= tx->lifetime =3D htole32(IWN_LIFETIME_INFINITE);=0A= =0A= if (IEEE80211_IS_CHAN_5GHZ(ic->ic_curchan)) {=0A= @@ -5629,7 +5946,7 @@=0A= IEEE80211_FC0_SUBTYPE_PROBE_REQ;=0A= wh->i_fc[1] =3D IEEE80211_FC1_DIR_NODS;=0A= IEEE80211_ADDR_COPY(wh->i_addr1, ifp->if_broadcastaddr);=0A= - IEEE80211_ADDR_COPY(wh->i_addr2, IF_LLADDR(ifp));=0A= + IEEE80211_ADDR_COPY(wh->i_addr2, ivp->macaddr);=0A= IEEE80211_ADDR_COPY(wh->i_addr3, ifp->if_broadcastaddr);=0A= *(uint16_t *)&wh->i_dur[0] =3D 0; /* filled by HW */=0A= *(uint16_t *)&wh->i_seq[0] =3D 0; /* filled by HW */=0A= @@ -5651,36 +5968,61 @@=0A= chan->flags =3D 0;=0A= if (ss->ss_nssid > 0)=0A= chan->flags |=3D htole32(IWN_CHAN_NPBREQS(1));=0A= - chan->dsp_gain =3D 0x6e;=0A= - if (IEEE80211_IS_CHAN_5GHZ(c) &&=0A= - !(c->ic_flags & IEEE80211_CHAN_PASSIVE)) {=0A= - chan->rf_gain =3D 0x3b;=0A= - chan->active =3D htole16(24);=0A= - chan->passive =3D htole16(110);=0A= - chan->flags |=3D htole32(IWN_CHAN_ACTIVE);=0A= - } else if (IEEE80211_IS_CHAN_5GHZ(c)) {=0A= - chan->rf_gain =3D 0x3b;=0A= - chan->active =3D htole16(24);=0A= - if (sc->rxon->associd)=0A= - chan->passive =3D htole16(78);=0A= + /*=0A= + * If active scanning is requested but a certain channel is=0A= + * marked passive, we can do active scanning if we detect=0A= + * transmissions.=0A= + *=0A= + * There is an issue with some firmware versions that triggers=0A= + * a sysassert on a "good CRC threshold" of zero (=3D=3D disabled),=0A= + * on a radar channel even though this means that we should NOT=0A= + * send probes.=0A= + *=0A= + * The "good CRC threshold" is the number of frames that we=0A= + * need to receive during our dwell time on a channel before=0A= + * sending out probes -- setting this to a huge value will=0A= + * mean we never reach it, but at the same time work around=0A= + * the aforementioned issue. Thus use IWN_SCAN_CRC_TH_NEVER=0A= + * here instead of IWN_SCAN_CRC_TH_DISABLED.=0A= + *=0A= + * This was fixed in later versions along with some other=0A= + * scan changes, and the threshold behaves as a flag in those=0A= + * versions.=0A= + */=0A= +=0A= + channel =3D iwn_find_eeprom_channel(sc, c);=0A= + if (channel =3D=3D NULL) {=0A= + if_printf(ic->ic_ifp,=0A= + "%s: invalid channel %u freq %u/0x%x\n",=0A= + __func__, c->ic_ieee, c->ic_freq, c->ic_flags);=0A= + return EINVAL;=0A= + }=0A= +=0A= + new_scan_threshold =3D ((sc->tlv_feature_flags &=0A= + (1<> = IWN_FW_TLV_FLAGS_NEW_SCAN_BITPOS);=0A= +=0A= + /* Selection criteria for Active/Passive scanning */=0A= + if ((ss->ss_nssid =3D=3D 0) || ((channel->flags & = IWN_EEPROM_CHAN_ACTIVE) =3D=3D 0) ||=0A= + (c->ic_flags & IEEE80211_CHAN_PASSIVE)) {=0A= + chan->flags |=3D htole32(IWN_CHAN_PASSIVE);=0A= + if (new_scan_threshold =3D=3D 1)=0A= + hdr->crc_threshold =3D IWN_SCAN_CRC_TH_DISABLED;=0A= else=0A= - chan->passive =3D htole16(110);=0A= - hdr->crc_threshold =3D 0xffff;=0A= - } else if (!(c->ic_flags & IEEE80211_CHAN_PASSIVE)) {=0A= - chan->rf_gain =3D 0x28;=0A= - chan->active =3D htole16(36);=0A= - chan->passive =3D htole16(120);=0A= + hdr->crc_threshold =3D IWN_SCAN_CRC_TH_NEVER;=0A= + } else {=0A= chan->flags |=3D htole32(IWN_CHAN_ACTIVE);=0A= - } else {=0A= - chan->rf_gain =3D 0x28;=0A= - chan->active =3D htole16(36);=0A= - if (sc->rxon->associd)=0A= - chan->passive =3D htole16(88);=0A= - else=0A= - chan->passive =3D htole16(120);=0A= - hdr->crc_threshold =3D 0xffff;=0A= + hdr->crc_threshold =3D IWN_SCAN_CRC_TH_DEFAULT;=0A= }=0A= =0A= + chan->dsp_gain =3D 0x6e;=0A= + if (IEEE80211_IS_CHAN_5GHZ(c))=0A= + chan->rf_gain =3D 0x3b;=0A= + else=0A= + chan->rf_gain =3D 0x28;=0A= +=0A= + chan->active =3D htole16(iwn_get_active_dwell(sc, c));=0A= + chan->passive =3D htole16(iwn_get_passive_dwell(sc, c));=0A= +=0A= DPRINTF(sc, IWN_DEBUG_STATE,=0A= "%s: chan %u flags 0x%x rf_gain 0x%x "=0A= "dsp_gain 0x%x active 0x%x passive 0x%x\n", __func__,=0A= @@ -5694,6 +6036,9 @@=0A= =0A= DPRINTF(sc, IWN_DEBUG_STATE, "sending scan command nchan=3D%d\n",=0A= hdr->nchan);=0A= +=0A= + sc->sc_scan_timer =3D IWN_SCAN_CHAN_TIMEOUT;=0A= +=0A= error =3D iwn_cmd(sc, IWN_CMD_SCAN, buf, buflen, 1);=0A= free(buf, M_DEVBUF);=0A= =0A= @@ -5781,9 +6126,18 @@=0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= =0A= sc->rxon =3D &sc->rx_on[IWN_RXON_BSS_CTX];=0A= +=0A= + if(sc->ctx =3D=3D IWN_RXON_PAN_CTX) {=0A= + if ((error =3D iwn_set_pan_params(sc)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: iwn_set_pan_params error %d\n", __func__, error);=0A= + return error;=0A= + }=0A= + }=0A= +=0A= if (ic->ic_opmode =3D=3D IEEE80211_M_MONITOR) {=0A= /* Link LED blinks while monitoring. */=0A= - iwn_set_led(sc, IWN_LED_LINK, 5, 5);=0A= + iwn_set_led(sc, IWN_LED_LINK, 5, 5,IWN_LED_INT_BLINK);=0A= return 0;=0A= }=0A= if ((error =3D iwn_set_timing(sc, ni)) !=3D 0) {=0A= @@ -5877,6 +6231,7 @@=0A= "%s: could not add BSS node, error %d\n", __func__, error);=0A= return error;=0A= }=0A= + /*XXX Not done in iwl and lead to instability with 6235=0A= DPRINTF(sc, IWN_DEBUG_STATE, "%s: setting link quality for node %d\n",=0A= __func__, node.id);=0A= if ((error =3D iwn_set_link_quality(sc, ni)) !=3D 0) {=0A= @@ -5892,18 +6247,26 @@=0A= error);=0A= return error;=0A= }=0A= - /* Start periodic calibration timer. */=0A= + // Start periodic calibration timer. =0A= sc->calib.state =3D IWN_CALIB_STATE_ASSOC;=0A= sc->calib_cnt =3D 0;=0A= callout_reset(&sc->calib_to, msecs_to_ticks(500), iwn_calib_timeout,=0A= sc);=0A= =0A= + */=0A= +=0A= /* Link LED always on while associated. */=0A= - iwn_set_led(sc, IWN_LED_LINK, 0, 1);=0A= + iwn_set_led(sc, IWN_LED_LINK, 0, 1,IWN_LED_STATIC_ON);=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s: end\n",__func__);=0A= =0A= - return 0;=0A= +#ifdef IWN_DTIM_INDICATES_UNICAST_PENDING_AT_AP=0A= + return iwn_set_pslevel(sc, IWN_POWERSAVE_DTIM_VOIP_COMPATIBLE,=0A= + sc->desired_pwrsave_level, 0);=0A= +#else=0A= + return 0;=0A= +#endif=0A= +=0A= }=0A= =0A= /*=0A= @@ -6037,7 +6400,7 @@=0A= iwn_ampdu_tx_start(struct ieee80211com *ic, struct ieee80211_node *ni,=0A= uint8_t tid)=0A= {=0A= - struct ieee80211_tx_ampdu *tap =3D &ni->ni_tx_ampdu[tid];=0A= + struct ieee80211_tx_ampdu *tap =3D = &ni->ni_tx_ampdu[TID_TO_WME_AC(tid)];=0A= struct iwn_softc *sc =3D ni->ni_ic->ic_ifp->if_softc;=0A= struct iwn_ops *ops =3D &sc->ops;=0A= struct iwn_node *wn =3D (void *)ni;=0A= @@ -6256,9 +6619,15 @@=0A= {=0A= int idx, error;=0A= =0A= - for (idx =3D 0; idx < 5; idx++) {=0A= - if (sc->calibcmd[idx].buf =3D=3D NULL)=0A= - continue; /* No results available. */=0A= + for (idx =3D 0; idx < IWN5000_PHY_CALIB_MAX_RESULT ; idx++) {=0A= + if (!(sc->base_params->calib_need & (1<calibcmd[idx].buf =3D=3D NULL) {=0A= + DPRINTF(sc, IWN_DEBUG_CALIBRATE, "Need calib idx : %d but no = available data\n",idx);=0A= + continue;=0A= + }=0A= DPRINTF(sc, IWN_DEBUG_CALIBRATE,=0A= "send calibration result idx=3D%d len=3D%d\n", idx,=0A= sc->calibcmd[idx].len);=0A= @@ -6335,6 +6704,32 @@=0A= return iwn_cmd(sc, IWN_CMD_PHY_CALIB, &cmd, sizeof cmd, 0);=0A= }=0A= =0A= +static int=0A= +iwn5000_temp_offset_calibv2(struct iwn_softc *sc)=0A= +{=0A= + struct iwn5000_phy_calib_temp_offsetv2 cmd;=0A= +=0A= + memset(&cmd, 0, sizeof cmd);=0A= + cmd.code =3D IWN5000_PHY_CALIB_TEMP_OFFSET;=0A= + cmd.ngroups =3D 1;=0A= + cmd.isvalid =3D 1;=0A= + if (sc->eeprom_temp !=3D 0) {=0A= + cmd.offset_low =3D htole16(sc->eeprom_temp);=0A= + cmd.offset_high =3D htole16(sc->eeprom_temp_high);=0A= + } else {=0A= + cmd.offset_low =3D htole16(IWN_DEFAULT_TEMP_OFFSET);=0A= + cmd.offset_high =3D htole16(IWN_DEFAULT_TEMP_OFFSET);=0A= + }=0A= + cmd.burnt_voltage_ref =3D htole16(sc->eeprom_voltage);=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_CALIBRATE, "setting radio sensor low offset to = %d, high offset to %d, voltage to %d\n",=0A= + le16toh(cmd.offset_low),=0A= + le16toh(cmd.offset_high),=0A= + le16toh(cmd.burnt_voltage_ref));=0A= +=0A= + return iwn_cmd(sc, IWN_CMD_PHY_CALIB, &cmd, sizeof cmd, 0);=0A= +}=0A= +=0A= /*=0A= * This function is called after the runtime firmware notifies us of its=0A= * readiness (called in a process context).=0A= @@ -6420,7 +6815,11 @@=0A= IWN_SETBITS(sc, IWN_FH_TX_CHICKEN, IWN_FH_TX_CHICKEN_SCHED_RETRY);=0A= =0A= /* Enable chain mode for all queues, except command queue. */=0A= - iwn_prph_write(sc, IWN5000_SCHED_QCHAIN_SEL, 0xfffef);=0A= + if(sc->sc_flags & IWN_FLAG_PAN_SUPPORT)=0A= + iwn_prph_write(sc, IWN5000_SCHED_QCHAIN_SEL, 0xffdff);=0A= + else=0A= + iwn_prph_write(sc, IWN5000_SCHED_QCHAIN_SEL, 0xfffef);=0A= +=0A= iwn_prph_write(sc, IWN5000_SCHED_AGGR_SEL, 0);=0A= =0A= for (qid =3D 0; qid < IWN5000_NTXQUEUES; qid++) {=0A= @@ -6440,32 +6839,29 @@=0A= /* Identify TX FIFO rings (0-7). */=0A= iwn_prph_write(sc, IWN5000_SCHED_TXFACT, 0xff);=0A= =0A= - /* Mark TX rings (4 EDCA + cmd + 2 HCCA) as active. */=0A= - for (qid =3D 0; qid < 7; qid++) {=0A= - static uint8_t qid2fifo[] =3D { 3, 2, 1, 0, 7, 5, 6 };=0A= - iwn_prph_write(sc, IWN5000_SCHED_QUEUE_STATUS(qid),=0A= - IWN5000_TXQ_STATUS_ACTIVE | qid2fifo[qid]);=0A= + if(sc->sc_flags & IWN_FLAG_PAN_SUPPORT) {=0A= + /* Mark TX rings as active. */=0A= + for (qid =3D 0; qid < 11; qid++) {=0A= + static uint8_t qid2fifo[] =3D { 3, 2, 1, 0, 0, 4, 2, 5, 4, 7, 5 };=0A= + iwn_prph_write(sc, IWN5000_SCHED_QUEUE_STATUS(qid),=0A= + IWN5000_TXQ_STATUS_ACTIVE | qid2fifo[qid]);=0A= + }=0A= + } else {=0A= + /* Mark TX rings (4 EDCA + cmd + 2 HCCA) as active. */=0A= + for (qid =3D 0; qid < 7; qid++) {=0A= + static uint8_t qid2fifo[] =3D { 3, 2, 1, 0, 7, 5, 6 };=0A= + iwn_prph_write(sc, IWN5000_SCHED_QUEUE_STATUS(qid),=0A= + IWN5000_TXQ_STATUS_ACTIVE | qid2fifo[qid]);=0A= + }=0A= }=0A= iwn_nic_unlock(sc);=0A= =0A= - /* Configure WiMAX coexistence for combo adapters. */=0A= - error =3D iwn5000_send_wimax_coex(sc);=0A= - if (error !=3D 0) {=0A= - device_printf(sc->sc_dev,=0A= - "%s: could not configure WiMAX coexistence, error %d\n",=0A= - __func__, error);=0A= +=0A= + if ((error=3Diwn_cfg_ucode_post_alive(sc))!=3D0) {=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end in error\n", __func__);=0A= return error;=0A= }=0A= - if (sc->hw_type !=3D IWN_HW_REV_TYPE_5150) {=0A= - /* Perform crystal calibration. */=0A= - error =3D iwn5000_crystal_calib(sc);=0A= - if (error !=3D 0) {=0A= - device_printf(sc->sc_dev,=0A= - "%s: crystal calibration failed, error %d\n",=0A= - __func__, error);=0A= - return error;=0A= - }=0A= - }=0A= +=0A= if (!(sc->sc_flags & IWN_FLAG_CALIB_DONE)) {=0A= /* Query calibration from the initialization firmware. */=0A= if ((error =3D iwn5000_query_calibration(sc)) !=3D 0) {=0A= @@ -6474,6 +6870,7 @@=0A= __func__, error);=0A= return error;=0A= }=0A= +=0A= /*=0A= * We have the calibration results now, reboot with the=0A= * runtime firmware (call ourselves recursively!)=0A= @@ -6957,9 +7354,8 @@=0A= else=0A= IWN_CLRBITS(sc, IWN_GIO, IWN_GIO_L0S_ENA);=0A= =0A= - if (sc->hw_type !=3D IWN_HW_REV_TYPE_4965 &&=0A= - sc->hw_type <=3D IWN_HW_REV_TYPE_1000)=0A= - IWN_SETBITS(sc, IWN_ANA_PLL, IWN_ANA_PLL_INIT);=0A= + if (sc->base_params->pll_cfg_val)=0A= + IWN_SETBITS(sc, IWN_ANA_PLL, sc->base_params->pll_cfg_val);=0A= =0A= /* Wait for clock stabilization before accessing prph. */=0A= if ((error =3D iwn_clock_wait(sc)) !=3D 0)=0A= @@ -7071,13 +7467,12 @@=0A= /* Use internal power amplifier only. */=0A= IWN_WRITE(sc, IWN_GP_DRIVER, IWN_GP_DRIVER_RADIO_2X2_IPA);=0A= }=0A= - if ((sc->hw_type =3D=3D IWN_HW_REV_TYPE_6050 ||=0A= - sc->hw_type =3D=3D IWN_HW_REV_TYPE_6005) && sc->calib_ver >=3D 6) = {=0A= + if (sc->base_params->additional_nic_config && sc->calib_ver >=3D 6) {=0A= /* Indicate that ROM calibration version is >=3D6. */=0A= IWN_SETBITS(sc, IWN_GP_DRIVER, IWN_GP_DRIVER_CALIB_VER6);=0A= }=0A= - if (sc->hw_type =3D=3D IWN_HW_REV_TYPE_6005)=0A= - IWN_SETBITS(sc, IWN_GP_DRIVER, IWN_GP_DRIVER_6050_1X2);=0A= + if (sc->base_params->additional_gp_drv_bit) =0A= + IWN_SETBITS(sc, IWN_GP_DRIVER, = sc->base_params->additional_gp_drv_bit);=0A= return 0;=0A= }=0A= =0A= @@ -7212,7 +7607,7 @@=0A= IWN_WRITE(sc, IWN_UCODE_GP1_CLR, IWN_UCODE_GP1_RFKILL);=0A= =0A= /* Enable shadow registers. */=0A= - if (sc->hw_type >=3D IWN_HW_REV_TYPE_6000)=0A= + if (sc->base_params->shadow_reg_enable)=0A= IWN_SETBITS(sc, IWN_SHADOW_REG_CTRL, 0x800fffff);=0A= =0A= if ((error =3D ops->load_firmware(sc)) !=3D 0) {=0A= @@ -7283,6 +7678,12 @@=0A= iwn_nic_unlock(sc);=0A= }=0A= DELAY(5);=0A= +=0A= + if (sc->sc_led.led_cur_mode !=3D IWN_LED_STATIC_OFF) {=0A= + sc->sc_led.led_cur_mode =3D IWN_LED_STATIC_OFF;=0A= + iwn_set_led(sc, IWN_LED_LINK, 1, 0, IWN_LED_STATIC_OFF);=0A= + }=0A= +=0A= /* Power OFF adapter. */=0A= iwn_apm_stop(sc);=0A= }=0A= @@ -7331,7 +7732,6 @@=0A= int error;=0A= =0A= DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= -=0A= IWN_LOCK_ASSERT(sc);=0A= =0A= if ((error =3D iwn_hw_prepare(sc)) !=3D 0) {=0A= @@ -7417,6 +7817,7 @@=0A= IWN_LOCK_ASSERT(sc);=0A= =0A= sc->sc_tx_timer =3D 0;=0A= + sc->sc_scan_timer =3D 0;=0A= callout_stop(&sc->watchdog_to);=0A= callout_stop(&sc->calib_to);=0A= ifp->if_drv_flags &=3D ~(IFF_DRV_RUNNING | IFF_DRV_OACTIVE);=0A= @@ -7441,10 +7842,23 @@=0A= {=0A= struct ifnet *ifp =3D ic->ic_ifp;=0A= struct iwn_softc *sc =3D ifp->if_softc;=0A= + struct ieee80211_scan_state *ss =3D ic->ic_scan;=0A= + struct ieee80211vap *vap =3D ss->ss_vap;=0A= =0A= IWN_LOCK(sc);=0A= +=0A= + sc->uc_scan_progress =3D 1;=0A= + if(sc->ctx =3D=3D IWN_RXON_PAN_CTX)=0A= + iwn_set_pan_params(sc);=0A= +=0A= /* make the link LED blink while we're scanning */=0A= - iwn_set_led(sc, IWN_LED_LINK, 20, 2);=0A= + if (vap->iv_state !=3D IEEE80211_S_RUN) {=0A= + if(sc->sc_led.led_cur_mode !=3D IWN_LED_SLOW_BLINK) {=0A= + sc->sc_led.led_cur_mode =3D IWN_LED_SLOW_BLINK;=0A= + iwn_set_led(sc, IWN_LED_LINK, 190, 10,IWN_LED_SLOW_BLINK);=0A= + }=0A= + }=0A= +=0A= IWN_UNLOCK(sc);=0A= }=0A= =0A= @@ -7456,12 +7870,19 @@=0A= {=0A= struct ifnet *ifp =3D ic->ic_ifp;=0A= struct iwn_softc *sc =3D ifp->if_softc;=0A= - struct ieee80211vap *vap =3D TAILQ_FIRST(&ic->ic_vaps);=0A= + struct ieee80211_scan_state *ss =3D ic->ic_scan;=0A= + struct ieee80211vap *vap =3D ss->ss_vap;=0A= =0A= IWN_LOCK(sc);=0A= +=0A= + sc->uc_scan_progress =3D 0;=0A= + sc->sc_scan_timer =3D 0;=0A= + if(sc->ctx =3D=3D IWN_RXON_PAN_CTX)=0A= + iwn_set_pan_params(sc);=0A= +=0A= if (vap->iv_state =3D=3D IEEE80211_S_RUN) {=0A= - /* Set link LED to ON status if we are associated */=0A= - iwn_set_led(sc, IWN_LED_LINK, 0, 1);=0A= + sc->sc_led.led_cur_mode =3D IWN_LED_STATIC_ON;=0A= + iwn_set_led(sc, IWN_LED_LINK, 0, 1,IWN_LED_STATIC_ON);=0A= }=0A= IWN_UNLOCK(sc);=0A= }=0A= @@ -7509,10 +7930,14 @@=0A= int error;=0A= =0A= IWN_LOCK(sc);=0A= + sc->sc_scan_timer =3D 0;=0A= error =3D iwn_scan(sc);=0A= IWN_UNLOCK(sc);=0A= - if (error !=3D 0)=0A= + if (error !=3D 0) {=0A= + sc->uc_scan_progress =3D 0;=0A= + sc->sc_scan_timer =3D 0;=0A= ieee80211_cancel_scan(vap);=0A= + }=0A= }=0A= =0A= /*=0A= @@ -7621,3 +8046,1058 @@=0A= DPRINTF(sc, IWN_DEBUG_REGISTER,"%s","\n");=0A= }=0A= #endif=0A= +=0A= +/*=0A= + * Define specific configuration based on device id and subdevice id=0A= + * pid : PCI device id=0A= + */=0A= +static int=0A= +iwn_config_specific(struct iwn_softc *sc,uint16_t pid)=0A= +{=0A= + switch(pid) {=0A= +/* 1000 Series */=0A= + case IWN_DID_1000_1:=0A= + case IWN_DID_1000_2:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_1000_1:=0A= + case IWN_SDID_1000_2:=0A= + case IWN_SDID_1000_3:=0A= + case IWN_SDID_1000_4:=0A= + case IWN_SDID_1000_5:=0A= + case IWN_SDID_1000_6:=0A= + case IWN_SDID_1000_7:=0A= + case IWN_SDID_1000_8:=0A= + case IWN_SDID_1000_9:=0A= + case IWN_SDID_1000_10:=0A= + case IWN_SDID_1000_11:=0A= + case IWN_SDID_1000_12:=0A= + sc->limits =3D &iwn1000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_1000_base_params; =0A= + sc->fwname =3D "iwn1000fw";=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : 0x%04x = rev %d not supported (subdevice) \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 6x00 Series */=0A= + case IWN_DID_6x00_2:=0A= + case IWN_DID_6x00_4:=0A= + case IWN_DID_6x00_1:=0A= + case IWN_DID_6x00_3:=0A= + sc->fwname =3D "iwn6000fw";=0A= + sc->limits =3D &iwn6000_sensitivity_limits;=0A= + switch(sc->subdevice_id) {=0A= +=0A= + case IWN_SDID_6x00_1:=0A= + case IWN_SDID_6x00_2:=0A= + case IWN_SDID_6x00_8:=0A= + //iwl6000_3agn_cfg=0A= + sc->base_params =3D &iwn_6000_base_params;=0A= + break;=0A= + case IWN_SDID_6x00_3:=0A= + case IWN_SDID_6x00_6:=0A= + case IWN_SDID_6x00_9:=0A= + ////iwl6000i_2agn=0A= + case IWN_SDID_6x00_4:=0A= + case IWN_SDID_6x00_7:=0A= + case IWN_SDID_6x00_10:=0A= + //iwl6000i_2abg_cfg=0A= + case IWN_SDID_6x00_5:=0A= + //iwl6000i_2bg_cfg=0A= + sc->base_params =3D &iwn_6000i_base_params;=0A= + sc->sc_flags |=3D IWN_FLAG_INTERNAL_PA;=0A= + sc->txchainmask =3D IWN_ANT_BC;=0A= + sc->rxchainmask =3D IWN_ANT_BC;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : 0x%04x = rev %d not supported (subdevice) \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 6x05 Series */=0A= + case IWN_DID_6x05_1: =0A= + case IWN_DID_6x05_2:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_6x05_1:=0A= + case IWN_SDID_6x05_4:=0A= + case IWN_SDID_6x05_6:=0A= + //iwl6005_2agn_cfg=0A= + case IWN_SDID_6x05_2:=0A= + case IWN_SDID_6x05_5:=0A= + case IWN_SDID_6x05_7:=0A= + //iwl6005_2abg_cfg=0A= + case IWN_SDID_6x05_3:=0A= + //iwl6005_2bg_cfg=0A= + case IWN_SDID_6x05_8:=0A= + case IWN_SDID_6x05_9:=0A= + //iwl6005_2agn_sff_cfg=0A= + case IWN_SDID_6x05_10:=0A= + //iwl6005_2agn_d_cfg=0A= + case IWN_SDID_6x05_11:=0A= + //iwl6005_2agn_mow1_cfg=0A= + case IWN_SDID_6x05_12:=0A= + //iwl6005_2agn_mow2_cfg=0A= + sc->fwname =3D "iwn6000g2afw";=0A= + sc->limits =3D &iwn6000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_6000g2_base_params;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : = 0x%04x rev %d not supported (subdevice) = \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 6x35 Series */=0A= + case IWN_DID_6035_1:=0A= + case IWN_DID_6035_2:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_6035_1:=0A= + case IWN_SDID_6035_2:=0A= + case IWN_SDID_6035_3:=0A= + case IWN_SDID_6035_4:=0A= + sc->fwname =3D "iwn6000g2bfw";=0A= + sc->limits =3D &iwn6000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_6000g2b_base_params;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : = 0x%04x rev %d not supported (subdevice) = \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 6x50 WiFi/WiMax Series */=0A= + case IWN_DID_6050_1:=0A= + case IWN_DID_6050_2:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_6050_1:=0A= + case IWN_SDID_6050_3:=0A= + case IWN_SDID_6050_5:=0A= + //iwl6050_2agn_cfg=0A= + case IWN_SDID_6050_2:=0A= + case IWN_SDID_6050_4:=0A= + case IWN_SDID_6050_6:=0A= + //iwl6050_2abg_cfg=0A= + sc->fwname =3D "iwn6050fw";=0A= + sc->txchainmask =3D IWN_ANT_AB;=0A= + sc->rxchainmask =3D IWN_ANT_AB;=0A= + sc->limits =3D &iwn6000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_6050_base_params;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : = 0x%04x rev %d not supported (subdevice) = \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 6150 WiFi/WiMax Series */=0A= + case IWN_DID_6150_1:=0A= + case IWN_DID_6150_2:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_6150_1:=0A= + case IWN_SDID_6150_3:=0A= + case IWN_SDID_6150_5:=0A= + // iwl6150_bgn_cfg=0A= + case IWN_SDID_6150_2:=0A= + case IWN_SDID_6150_4:=0A= + case IWN_SDID_6150_6:=0A= + //iwl6150_bg_cfg=0A= + sc->fwname =3D "iwn6050fw";=0A= + sc->limits =3D &iwn6000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_6150_base_params;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : = 0x%04x rev %d not supported (subdevice) = \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 6030 Series and 1030 Series */=0A= + case IWN_DID_x030_1:=0A= + case IWN_DID_x030_2:=0A= + case IWN_DID_x030_3:=0A= + case IWN_DID_x030_4:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_x030_1:=0A= + case IWN_SDID_x030_3:=0A= + case IWN_SDID_x030_5:=0A= + // iwl1030_bgn_cfg=0A= + =0A= + case IWN_SDID_x030_2:=0A= + case IWN_SDID_x030_4:=0A= + case IWN_SDID_x030_6:=0A= + //iwl1030_bg_cfg=0A= + =0A= + case IWN_SDID_x030_7:=0A= + case IWN_SDID_x030_10:=0A= + case IWN_SDID_x030_14:=0A= + //iwl6030_2agn_cfg=0A= + =0A= + case IWN_SDID_x030_8:=0A= + case IWN_SDID_x030_11:=0A= + case IWN_SDID_x030_15:=0A= + // iwl6030_2bgn_cfg=0A= + =0A= + case IWN_SDID_x030_9:=0A= + case IWN_SDID_x030_12:=0A= + case IWN_SDID_x030_16:=0A= + // iwl6030_2abg_cfg=0A= + =0A= + case IWN_SDID_x030_13:=0A= + //iwl6030_2bg_cfg=0A= + sc->fwname =3D "iwn6000g2bfw";=0A= + sc->limits =3D &iwn6000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_6000g2b_base_params;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : = 0x%04x rev %d not supported (subdevice) = \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 130 Series WiFi */=0A= +/* XXX: This series will need adjustement for rate see = rx_with_siso_diversity in linux kernel */=0A= + case IWN_DID_130_1:=0A= + case IWN_DID_130_2:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_130_1: =0A= + case IWN_SDID_130_3:=0A= + case IWN_SDID_130_5:=0A= + //iwl130_bgn_cfg=0A= + case IWN_SDID_130_2:=0A= + case IWN_SDID_130_4:=0A= + case IWN_SDID_130_6:=0A= + //iwl130_bg_cfg=0A= + sc->fwname =3D "iwn6000g2bfw";=0A= + sc->limits =3D &iwn6000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_6000g2b_base_params;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : = 0x%04x rev %d not supported (subdevice) = \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 100 Series WiFi */=0A= + case IWN_DID_100_1:=0A= + case IWN_DID_100_2:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_100_1:=0A= + case IWN_SDID_100_2:=0A= + case IWN_SDID_100_3:=0A= + case IWN_SDID_100_4:=0A= + case IWN_SDID_100_5:=0A= + case IWN_SDID_100_6:=0A= + sc->limits =3D &iwn1000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_1000_base_params; =0A= + sc->fwname =3D "iwn100fw";=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : 0x%04x = rev %d not supported (subdevice) \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +=0A= +/* 2x30 Series */=0A= + case IWN_DID_2x30_1:=0A= + case IWN_DID_2x30_2:=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_2x30_1:=0A= + case IWN_SDID_2x30_3:=0A= + case IWN_SDID_2x30_5:=0A= + //iwl100_bgn_cfg=0A= + case IWN_SDID_2x30_2:=0A= + case IWN_SDID_2x30_4:=0A= + case IWN_SDID_2x30_6:=0A= + //iwl100_bg_cfg=0A= + sc->limits =3D &iwn2030_sensitivity_limits;=0A= + sc->base_params =3D &iwn2030_base_params; =0A= + sc->fwname =3D "iwn2030fw";=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : 0x%04x = rev %d not supported (subdevice) \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 5x00 Series */=0A= + case IWN_DID_5x00_1:=0A= + case IWN_DID_5x00_2:=0A= + case IWN_DID_5x00_3:=0A= + case IWN_DID_5x00_4:=0A= + sc->limits =3D &iwn5000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_default_base_params; =0A= + sc->fwname =3D "iwn5000fw";=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_5x00_1:=0A= + case IWN_SDID_5x00_2:=0A= + case IWN_SDID_5x00_3:=0A= + case IWN_SDID_5x00_4:=0A= + case IWN_SDID_5x00_9:=0A= + case IWN_SDID_5x00_10:=0A= + case IWN_SDID_5x00_11:=0A= + case IWN_SDID_5x00_12:=0A= + case IWN_SDID_5x00_17:=0A= + case IWN_SDID_5x00_18:=0A= + case IWN_SDID_5x00_19:=0A= + case IWN_SDID_5x00_20:=0A= + //iwl5100_agn_cfg=0A= + sc->txchainmask =3D IWN_ANT_B;=0A= + sc->rxchainmask =3D IWN_ANT_AB;=0A= + break; =0A= + case IWN_SDID_5x00_5:=0A= + case IWN_SDID_5x00_6:=0A= + case IWN_SDID_5x00_13:=0A= + case IWN_SDID_5x00_14:=0A= + case IWN_SDID_5x00_21:=0A= + case IWN_SDID_5x00_22:=0A= + //iwl5100_bgn_cfg=0A= + sc->txchainmask =3D IWN_ANT_B;=0A= + sc->rxchainmask =3D IWN_ANT_AB;=0A= + break;=0A= + case IWN_SDID_5x00_7:=0A= + case IWN_SDID_5x00_8:=0A= + case IWN_SDID_5x00_15:=0A= + case IWN_SDID_5x00_16:=0A= + case IWN_SDID_5x00_23:=0A= + case IWN_SDID_5x00_24:=0A= + //iwl5100_abg_cfg=0A= + sc->txchainmask =3D IWN_ANT_B;=0A= + sc->rxchainmask =3D IWN_ANT_AB;=0A= + break;=0A= + =0A= + case IWN_SDID_5x00_25:=0A= + case IWN_SDID_5x00_26:=0A= + case IWN_SDID_5x00_27:=0A= + case IWN_SDID_5x00_28:=0A= + case IWN_SDID_5x00_29:=0A= + case IWN_SDID_5x00_30:=0A= + case IWN_SDID_5x00_31:=0A= + case IWN_SDID_5x00_32:=0A= + case IWN_SDID_5x00_33:=0A= + case IWN_SDID_5x00_34:=0A= + case IWN_SDID_5x00_35:=0A= + case IWN_SDID_5x00_36:=0A= + //iwl5300_agn_cfg=0A= + sc->txchainmask =3D IWN_ANT_ABC;=0A= + sc->rxchainmask =3D IWN_ANT_ABC;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : 0x%04x = rev %d not supported (subdevice) \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= +/* 5x50 Series */=0A= + case IWN_DID_5x50_1:=0A= + case IWN_DID_5x50_2:=0A= + case IWN_DID_5x50_3:=0A= + case IWN_DID_5x50_4:=0A= + sc->limits =3D &iwn5000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_default_base_params; =0A= + sc->fwname =3D "iwn5000fw";=0A= + switch(sc->subdevice_id) {=0A= + case IWN_SDID_5x50_1:=0A= + case IWN_SDID_5x50_2:=0A= + case IWN_SDID_5x50_3:=0A= + //iwl5350_agn_cfg=0A= + sc->limits =3D &iwn5000_sensitivity_limits;=0A= + sc->base_params =3D &iwn_default_base_params; =0A= + sc->fwname =3D "iwn5000fw";=0A= + break;=0A= +=0A= + case IWN_SDID_5x50_4:=0A= + case IWN_SDID_5x50_5:=0A= + case IWN_SDID_5x50_8:=0A= + case IWN_SDID_5x50_9:=0A= + case IWN_SDID_5x50_10:=0A= + case IWN_SDID_5x50_11:=0A= + //iwl5150_agn_cfg=0A= + case IWN_SDID_5x50_6:=0A= + case IWN_SDID_5x50_7:=0A= + case IWN_SDID_5x50_12:=0A= + case IWN_SDID_5x50_13:=0A= + //iwl5150_abg_cfg=0A= + sc->limits =3D &iwn5000_sensitivity_limits;=0A= + sc->fwname =3D "iwn5150fw";=0A= + sc->base_params =3D &iwn_5x50_base_params;=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : 0x%04x = rev %d not supported (subdevice) \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + break;=0A= + default:=0A= + device_printf(sc->sc_dev, "adapter type id : 0x%04x sub id : 0x%04x = rev 0x%08x not supported (device) \n",pid,sc->subdevice_id,sc->hw_type);=0A= + return ENOTSUP;=0A= + }=0A= + return 0;=0A= +}=0A= +/*=0A= + * Send IWN_CMD_GET_STATISTICS to ucode.=0A= + * @enable: activate sending statistics from uCode=0A= + * @clear : ask uCode to clear internal counter=0A= + * @async : Sync mode for command (1=3D ASYNC, 0=3DSYNC)=0A= +*/=0A= +static int =0A= +iwn_set_statistics_request(struct iwn_softc *sc,bool enable,bool = clear,int async)=0A= +{=0A= + struct iwn_statistics_cmd cmd;=0A= +=0A= + if (enable) =0A= + cmd.configuration_flags=3D clear ? IWN_STATS_CONF_CLEAR_STATS :0;=0A= + else=0A= + cmd.configuration_flags=3D IWN_STATS_CONF_DISABLE_NOTIF;=0A= +=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_CALIBRATE, "%s: sending request for statistics = flags : 0x%x\n",=0A= + __func__,cmd.configuration_flags);=0A= + return iwn_cmd(sc, IWN_CMD_GET_STATISTICS, &cmd, sizeof cmd, async ? = 1:0);=0A= +}=0A= +=0A= +static int=0A= +iwn_cfg_ucode_post_alive(struct iwn_softc *sc)=0A= +{=0A= + int error;=0A= +=0A= + /* Configure WiMAX coexistence for combo adapters. */=0A= + error =3D iwn5000_send_wimax_coex(sc);=0A= + if (error !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not configure WiMAX coexistence, error %d\n",=0A= + __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + if (!(sc->base_params->no_crystal_calibration)) {=0A= + DPRINTF(sc, IWN_DEBUG_RESET, "Doing calib in %s\n",__func__);=0A= + error =3D iwn5000_crystal_calib(sc);=0A= + if (error !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: crystal calibration failed, error %d\n",=0A= + __func__, error);=0A= + return error;=0A= + }=0A= + } else {=0A= + DPRINTF(sc, IWN_DEBUG_RESET, "Crystal calibration disable in = %s\n",__func__);=0A= + }=0A= +=0A= + return 0;=0A= +}=0A= +//----------------- NEW----------------------=0A= +/*=0A= + * Handles ioctl change requests for power management state etc.=0A= + */=0A= +static int iwn_iv_reset(struct ieee80211vap *vap, u_long cmd)=0A= +{=0A= + int error =3D 0;=0A= + switch (cmd) {=0A= + case IEEE80211_IOC_POWERSAVE:{=0A= + struct iwn_softc * sc =3D (struct iwn_softc *)=0A= + (vap->iv_ic->ic_ifp->if_softc);=0A= + IWN_LOCK(sc);=0A= +=0A= + /* XXX to discuss */=0A= + int dtim =3D IWN_POWERSAVE_DTIM_VOIP_COMPATIBLE;=0A= +=0A= + int async =3D 0;=0A= +=0A= + /*=0A= + * At present the powersave level is set to 0 (receiver=0A= + * continuously on) if power save is disabled, and set to=0A= + * IWN_POWERSAVE_LVL_VOIP_COMPATIBLE otherwise.=0A= + * Later the power levels 0-5 could be exposed to the user.=0A= + */=0A= + if (vap->iv_flags & IEEE80211_F_PMGTON) {=0A= + /*=0A= + * In ieee80211_vap_setup() we have:=0A= + * vap->iv_flags =3D ic->ic_flags;=0A= + * i.e. any vap's iv_flags initialize to ic->ic_flags.=0A= + * Setting the flags on ic will allow a vap to get=0A= + * the correct powersave level once it is created.=0A= + */=0A= + vap->iv_ic->ic_flags |=3D IEEE80211_F_PMGTON;=0A= + sc->desired_pwrsave_level =3D=0A= + IWN_POWERSAVE_LVL_VOIP_COMPATIBLE;=0A= + } else {=0A= + vap->iv_ic->ic_flags &=3D ~IEEE80211_F_PMGTON;=0A= + sc->desired_pwrsave_level =3D IWN_POWERSAVE_LVL_NONE;=0A= + }=0A= + error =3D iwn_set_pslevel(sc, dtim, sc->desired_pwrsave_level,=0A= + async);=0A= + IWN_UNLOCK(sc);=0A= + }=0A= + break;=0A= + default:=0A= + /*=0A= + * For unhandled ioctls, ENETRESET has to be passed back to=0A= + * net80211 layer, which will in turn call the function to=0A= + * reinitialize the entire device.=0A= + */=0A= + error =3D ENETRESET;=0A= + break;=0A= + }=0A= + return error;=0A= +}=0A= +=0A= +static int=0A= +iwn_newstate_u1(struct ieee80211vap *vap, enum ieee80211_state nstate, = int arg)=0A= +{=0A= + struct iwn_vap *ivp =3D IWN_VAP(vap);=0A= + struct ieee80211com *ic =3D vap->iv_ic;=0A= + struct iwn_softc *sc =3D ic->ic_ifp->if_softc;=0A= +=0A= + int error =3D 0;=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_STATE, "%s: %s -> %s\n", __func__,=0A= + ieee80211_state_name[vap->iv_state], ieee80211_state_name[nstate]);=0A= +=0A= + IEEE80211_UNLOCK(ic);=0A= + IWN_LOCK(sc);=0A= + callout_stop(&sc->calib_to);=0A= +=0A= + sc->rxon =3D &sc->rx_on[IWN_RXON_PAN_CTX];=0A= +=0A= + switch (nstate) {=0A= + case IEEE80211_S_ASSOC:=0A= + if (vap->iv_state !=3D IEEE80211_S_RUN)=0A= + break;=0A= + /* FALLTHROUGH */=0A= + case IEEE80211_S_AUTH:=0A= + if (vap->iv_state =3D=3D IEEE80211_S_AUTH)=0A= + break;=0A= +=0A= + /*=0A= + * !AUTH -> AUTH transition requires state reset to handle=0A= + * reassociations correctly.=0A= + */=0A= + sc->rxon->associd =3D 0;=0A= + sc->rxon->filter &=3D ~htole32(IWN_FILTER_BSS);=0A= + sc->calib.state =3D IWN_CALIB_STATE_INIT;=0A= +=0A= + if ((error =3D iwn_auth_u1(sc, vap)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not move to auth state\n", __func__);=0A= + }=0A= + break;=0A= +=0A= + case IEEE80211_S_SCAN:=0A= +=0A= +=0A= + if ((error =3D iwn_set_timing_u1(sc)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: iwn_set_timing_u1 error %d\n", __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + break;=0A= +=0A= + case IEEE80211_S_RUN:=0A= +=0A= + /*=0A= + * RUN -> RUN transition; Just restart the timers.=0A= + */=0A= + if (vap->iv_state =3D=3D IEEE80211_S_RUN) {=0A= + sc->calib_cnt =3D 0;=0A= + break;=0A= + }=0A= +=0A= + /*=0A= + * !RUN -> RUN requires setting the association id=0A= + * which is done with a firmware cmd. We also defer=0A= + * starting the timers until that work is done.=0A= + */=0A= + if ((error =3D iwn_run_u1(sc, vap)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not move to run state\n", __func__);=0A= + }=0A= + break;=0A= +=0A= + case IEEE80211_S_INIT:=0A= + sc->calib.state =3D IWN_CALIB_STATE_INIT;=0A= + break;=0A= +=0A= + default:=0A= + break;=0A= + }=0A= + IWN_UNLOCK(sc);=0A= + IEEE80211_LOCK(ic);=0A= + if (error !=3D 0) {=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end in error\n", __func__);=0A= + return error;=0A= + }=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end\n", __func__);=0A= + return ivp->iv_newstate(vap, nstate, arg);=0A= +}=0A= +=0A= +static int=0A= +iwn_auth_u1(struct iwn_softc *sc, struct ieee80211vap *vap)=0A= +{=0A= + struct iwn_ops *ops =3D &sc->ops;=0A= + struct ifnet *ifp =3D sc->sc_ifp;=0A= + struct ieee80211com *ic =3D ifp->if_l2com;=0A= + struct ieee80211_node *ni =3D vap->iv_bss;=0A= + int error;=0A= + struct iwn_vap *ivp =3D IWN_VAP(vap);=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= +=0A= + sc->rxon =3D &sc->rx_on[IWN_RXON_PAN_CTX];=0A= + IEEE80211_ADDR_COPY(sc->rxon->myaddr, ivp->macaddr);=0A= + IEEE80211_ADDR_COPY(sc->rxon->wlap, IF_LLADDR(ifp));=0A= + /* Update adapter configuration. */=0A= + IEEE80211_ADDR_COPY(sc->rxon->bssid, ni->ni_bssid);=0A= + sc->rxon->chan =3D ieee80211_chan2ieee(ic, ni->ni_chan);=0A= + sc->rxon->flags =3D htole32(IWN_RXON_TSF | IWN_RXON_CTS_TO_SELF);=0A= + if (IEEE80211_IS_CHAN_2GHZ(ni->ni_chan))=0A= + sc->rxon->flags |=3D htole32(IWN_RXON_AUTO | IWN_RXON_24GHZ);=0A= + if (ic->ic_flags & IEEE80211_F_SHSLOT)=0A= + sc->rxon->flags |=3D htole32(IWN_RXON_SHSLOT);=0A= + if (ic->ic_flags & IEEE80211_F_SHPREAMBLE)=0A= + sc->rxon->flags |=3D htole32(IWN_RXON_SHPREAMBLE);=0A= + if (IEEE80211_IS_CHAN_A(ni->ni_chan)) {=0A= + sc->rxon->cck_mask =3D 0;=0A= + sc->rxon->ofdm_mask =3D 0x15;=0A= + } else if (IEEE80211_IS_CHAN_B(ni->ni_chan)) {=0A= + sc->rxon->cck_mask =3D 0x03;=0A= + sc->rxon->ofdm_mask =3D 0;=0A= + } else {=0A= + /* Assume 802.11b/g. */=0A= + sc->rxon->cck_mask =3D 0x0f;=0A= + sc->rxon->ofdm_mask =3D 0x15;=0A= + }=0A= + DPRINTF(sc, IWN_DEBUG_STATE, "rxon chan %d flags %x cck %x ofdm %x\n",=0A= + sc->rxon->chan, sc->rxon->flags, sc->rxon->cck_mask,=0A= + sc->rxon->ofdm_mask);=0A= + sc->rxon->mode =3D IWN_MODE_2STA;=0A= + error =3D iwn_cmd(sc, IWN_CMD_WIPAN_RXON, sc->rxon, sc->rxonsz, 0);=0A= + if (error !=3D 0) {=0A= + device_printf(sc->sc_dev, "%s: RXON command failed, error %d\n",=0A= + __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + /* Configuration has changed, set TX power accordingly. */=0A= + if ((error =3D ops->set_txpower(sc, ni->ni_chan, 1)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not set TX power, error %d\n", __func__, error);=0A= + return error;=0A= + }=0A= + /*=0A= + * Reconfiguring RXON clears the firmware nodes table so we must=0A= + * add the broadcast node again.=0A= + */=0A= + if ((error =3D iwn_add_broadcast_node_u1(sc, 0)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not add broadcast node, error %d\n", __func__,=0A= + error);=0A= + return error;=0A= + }=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end\n", __func__);=0A= +=0A= + return 0;=0A= +}=0A= +=0A= +static int=0A= +iwn_run_u1(struct iwn_softc *sc, struct ieee80211vap *vap)=0A= +{=0A= + struct iwn_ops *ops =3D &sc->ops;=0A= + struct ifnet *ifp =3D sc->sc_ifp;=0A= + struct ieee80211com *ic =3D ifp->if_l2com;=0A= + struct ieee80211_node *ni =3D vap->iv_bss;=0A= + struct iwn_node_info node;=0A= + uint32_t htflags =3D 0;=0A= + int error;=0A= + struct iwn_vap *ivp =3D IWN_VAP(vap);=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= +=0A= + if (ic->ic_opmode =3D=3D IEEE80211_M_MONITOR) {=0A= + /* Link LED blinks while monitoring. */=0A= + return 0;=0A= + }=0A= +=0A= + if ((error =3D iwn_set_timing_u1(sc)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not set timing, error %d\n", __func__, error);=0A= + }=0A= +=0A= + if ((error =3D iwn_updateedca_u1(ic)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: iwn_updateedca_u1, error %d\n", __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + sc->rxon =3D &sc->rx_on[IWN_RXON_PAN_CTX];=0A= + IEEE80211_ADDR_COPY(sc->rxon->myaddr, ivp->macaddr);=0A= + IEEE80211_ADDR_COPY(sc->rxon->wlap, IF_LLADDR(ifp));=0A= + /* Update adapter configuration. */=0A= + IEEE80211_ADDR_COPY(sc->rxon->bssid, ni->ni_bssid);=0A= + sc->rxon->associd =3D htole16(IEEE80211_AID(ni->ni_associd));=0A= + sc->rxon->chan =3D ieee80211_chan2ieee(ic, ni->ni_chan);=0A= + sc->rxon->flags =3D htole32(IWN_RXON_TSF | IWN_RXON_CTS_TO_SELF);=0A= + if (IEEE80211_IS_CHAN_2GHZ(ni->ni_chan))=0A= + sc->rxon->flags |=3D htole32(IWN_RXON_AUTO | IWN_RXON_24GHZ);=0A= + if (ic->ic_flags & IEEE80211_F_SHSLOT)=0A= + sc->rxon->flags |=3D htole32(IWN_RXON_SHSLOT);=0A= + if (ic->ic_flags & IEEE80211_F_SHPREAMBLE)=0A= + sc->rxon->flags |=3D htole32(IWN_RXON_SHPREAMBLE);=0A= + if (IEEE80211_IS_CHAN_A(ni->ni_chan)) {=0A= + sc->rxon->cck_mask =3D 0;=0A= + sc->rxon->ofdm_mask =3D 0x15;=0A= + } else if (IEEE80211_IS_CHAN_B(ni->ni_chan)) {=0A= + sc->rxon->cck_mask =3D 0x03;=0A= + sc->rxon->ofdm_mask =3D 0;=0A= + } else {=0A= + /* Assume 802.11b/g. */=0A= + sc->rxon->cck_mask =3D 0x0f;=0A= + sc->rxon->ofdm_mask =3D 0x15;=0A= + }=0A= + if (IEEE80211_IS_CHAN_HT(ni->ni_chan)) {=0A= + htflags |=3D IWN_RXON_HT_PROTMODE(ic->ic_curhtprotmode);=0A= + if (IEEE80211_IS_CHAN_HT40(ni->ni_chan)) {=0A= + switch (ic->ic_curhtprotmode) {=0A= + case IEEE80211_HTINFO_OPMODE_HT20PR:=0A= + htflags |=3D IWN_RXON_HT_MODEPURE40;=0A= + break;=0A= + default:=0A= + htflags |=3D IWN_RXON_HT_MODEMIXED;=0A= + break;=0A= + }=0A= + }=0A= + if (IEEE80211_IS_CHAN_HT40D(ni->ni_chan))=0A= + htflags |=3D IWN_RXON_HT_HT40MINUS;=0A= + }=0A= + sc->rxon->flags |=3D htole32(htflags);=0A= + sc->rxon->filter |=3D htole32(IWN_FILTER_BSS);=0A= + DPRINTF(sc, IWN_DEBUG_STATE, "rxon chan %d flags %x\n",=0A= + sc->rxon->chan, sc->rxon->flags);=0A= + sc->rxon->mode =3D IWN_MODE_2STA;=0A= + error =3D iwn_cmd(sc, IWN_CMD_WIPAN_RXON, sc->rxon, sc->rxonsz, 0);=0A= + if (error !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not update configuration, error %d\n", __func__,=0A= + error);=0A= + return error;=0A= + }=0A= +=0A= + /* Configuration has changed, set TX power accordingly. */=0A= + if ((error =3D ops->set_txpower(sc, ni->ni_chan, 1)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not set TX power, error %d\n", __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + /* Fake a join to initialize the TX rate. */=0A= + ((struct iwn_node *)ni)->id =3D IWN_STA_ID;=0A= + iwn_newassoc(ni, 1);=0A= +=0A= + /* Add BSS node. */=0A= + memset(&node, 0, sizeof node);=0A= + node.htflags |=3D htole32(IWN_STA_FLAG_PAN_STATION);=0A= + IEEE80211_ADDR_COPY(node.macaddr, ni->ni_macaddr);=0A= + node.id =3D IWN_STA_ID;=0A= + if (IEEE80211_IS_CHAN_HT(ni->ni_chan)) {=0A= + switch (ni->ni_htcap & IEEE80211_HTCAP_SMPS) {=0A= + case IEEE80211_HTCAP_SMPS_ENA:=0A= + node.htflags |=3D htole32(IWN_SMPS_MIMO_DIS);=0A= + break;=0A= + case IEEE80211_HTCAP_SMPS_DYNAMIC:=0A= + node.htflags |=3D htole32(IWN_SMPS_MIMO_PROT);=0A= + break;=0A= + }=0A= + node.htflags |=3D htole32(IWN_AMDPU_SIZE_FACTOR(3) |=0A= + IWN_AMDPU_DENSITY(5)); /* 4us */=0A= + if (IEEE80211_IS_CHAN_HT40(ni->ni_chan))=0A= + node.htflags |=3D htole32(IWN_NODE_HT40);=0A= + }=0A= + DPRINTF(sc, IWN_DEBUG_STATE, "%s: adding BSS node1\n", __func__);=0A= + error =3D ops->add_node(sc, &node, 0);=0A= + if (error !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: could not add BSS node1, error %d\n", __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + /* Setting the initial rate for node */=0A= + ni->ni_txrate =3D ni->ni_rates.rs_rates[0];=0A= +=0A= + /* XXX: init rate scaling */=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end\n", __func__);=0A= +=0A= + #ifdef IWN_DTIM_INDICATES_UNICAST_PENDING_AT_AP=0A= + return iwn_set_pslevel(sc, IWN_POWERSAVE_DTIM_VOIP_COMPATIBLE,=0A= + sc->desired_pwrsave_level, 0);=0A= + #else=0A= + return 0;=0A= + #endif=0A= +=0A= +}=0A= +=0A= +static int=0A= +iwn_set_timing_u1(struct iwn_softc *sc)=0A= +{=0A= + struct iwn_cmd_timing cmd;=0A= + int error =3D 0;=0A= + struct ieee80211vap *vap;=0A= + struct iwn_vap *ivp;=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= +=0A= + vap =3D sc->ivap[IWN_RXON_PAN_CTX];=0A= + ivp =3D IWN_VAP(vap);=0A= +=0A= + if ((error =3D iwn_config_u1(sc)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: iwn_config1 error %d\n", __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + if ((error =3D iwn_set_pan_params(sc)) !=3D 0) {=0A= + device_printf(sc->sc_dev,=0A= + "%s: iwn_set_pan_params error %d\n", __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + memset(&cmd, 0, sizeof cmd);=0A= + cmd.lintval =3D htole16(10);=0A= + cmd.bintval =3D htole16(IWN_BEACON_INTERVAL_DEFAULT);=0A= + ivp->beacon_int =3D cmd.bintval;=0A= + cmd.binitval =3D htole32(0x032000);=0A= + cmd.dtim_period =3D 1;=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end\n", __func__);=0A= +=0A= + return iwn_cmd(sc, IWN_CMD_WIPAN_RXON_TIMING, &cmd, sizeof cmd, 0);=0A= +}=0A= +=0A= +static int=0A= +iwn_config_u1(struct iwn_softc *sc)=0A= +{=0A= + struct ifnet *ifp =3D sc->sc_ifp;=0A= + struct ieee80211com *ic =3D ifp->if_l2com;=0A= + uint16_t rxchain;=0A= + int error;=0A= + struct ieee80211vap *vap =3D sc->ivap[IWN_RXON_PAN_CTX];=0A= + struct iwn_vap *ivp =3D IWN_VAP(vap);=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= +=0A= + sc->rxon =3D &sc->rx_on[IWN_RXON_PAN_CTX];=0A= + IEEE80211_ADDR_COPY(sc->rxon->myaddr, ivp->macaddr);=0A= + IEEE80211_ADDR_COPY(sc->rxon->wlap, IF_LLADDR(ifp));=0A= + sc->rxon->chan =3D ieee80211_chan2ieee(ic, ic->ic_curchan);=0A= + sc->rxon->flags =3D htole32(IWN_RXON_TSF);=0A= + if (IEEE80211_IS_CHAN_2GHZ(ic->ic_curchan))=0A= + sc->rxon->flags |=3D htole32(IWN_RXON_AUTO | IWN_RXON_24GHZ);=0A= + sc->rxon->mode =3D IWN_MODE_P2P;=0A= + sc->rxon->filter =3D htole32(IWN_FILTER_MULTICAST);=0A= + sc->rxon->cck_mask =3D 0x0f; /* not yet negotiated */=0A= + sc->rxon->ofdm_mask =3D 0xff; /* not yet negotiated */=0A= + sc->rxon->ht_single_mask =3D 0xff;=0A= + sc->rxon->ht_dual_mask =3D 0xff;=0A= + sc->rxon->ht_triple_mask =3D 0xff;=0A= + rxchain =3D=0A= + IWN_RXCHAIN_VALID(sc->rxchainmask) |=0A= + IWN_RXCHAIN_MIMO_COUNT(2) |=0A= + IWN_RXCHAIN_IDLE_COUNT(2);=0A= + sc->rxon->rxchain =3D htole16(rxchain);=0A= + sc->rxon->associd =3D 0;=0A= + sc->rxon->filter &=3D ~htole32(IWN_FILTER_BSS);=0A= +=0A= + error =3D iwn_cmd(sc, IWN_CMD_WIPAN_RXON, sc->rxon, sc->rxonsz, 0);=0A= + if (error !=3D 0) {=0A= + device_printf(sc->sc_dev, "%s: IWN_CMD_WIPAN_RXON command failed\n",=0A= + __func__);=0A= + return error;=0A= + }=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end\n", __func__);=0A= +=0A= + return 0;=0A= +}=0A= +=0A= +static int=0A= +iwn_set_pan_params(struct iwn_softc *sc)=0A= +{=0A= + struct iwn_pan_params_cmd cmd;=0A= + int slot0 =3D 300, slot1 =3D 0;=0A= + int bcnint;=0A= + int error =3D 0;=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= +=0A= + /*=0A= + * If the PAN context is inactive, then we don't need=0A= + * to update the PAN parameters=0A= + */=0A= + if (sc->ctx !=3D IWN_RXON_PAN_CTX) {=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end with no need to do that\n", = __func__);=0A= + return 0;=0A= + }=0A= +=0A= + memset(&cmd, 0, sizeof(cmd));=0A= +=0A= + /* only 2 slots are currently allowed */=0A= + cmd.num_slots =3D 2;=0A= +=0A= + cmd.slots[0].type =3D IWN_RXON_BSS_CTX; /* BSS */=0A= + cmd.slots[1].type =3D IWN_RXON_PAN_CTX; /* PAN */=0A= +=0A= + cmd.flags |=3D htole16(IWN_PAN_PARAMS_FLG_SLOTTED_MODE);=0A= + bcnint =3D IWN_BEACON_INTERVAL_DEFAULT;=0A= + slot0 =3D (bcnint >> 1);=0A= + slot1 =3D (bcnint - slot0);=0A= +=0A= + if(sc->uc_scan_progress =3D=3D 1) {=0A= + slot0 =3D bcnint * 3 - IWN_SLOT_TIME_MIN;=0A= + slot1 =3D IWN_SLOT_TIME_MIN;=0A= + }=0A= + cmd.slots[0].time =3D htole16(slot0);=0A= + cmd.slots[1].time =3D htole16(slot1);=0A= +=0A= + error =3D iwn_cmd(sc, IWN_CMD_WIPAN_PARAMS, &cmd, sizeof(cmd), 0);=0A= + if (error !=3D 0) {=0A= + device_printf(sc->sc_dev, "%s: IWN_CMD_WIPAN_PARAMS command failed, = error %d\n",=0A= + __func__, error);=0A= + return error;=0A= + }=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end\n", __func__);=0A= +=0A= + return 0;=0A= +}=0A= +=0A= +static int=0A= +iwn_updateedca_u1(struct ieee80211com *ic)=0A= +{=0A= +#define IWN_EXP2(x) ((1 << (x)) - 1) /* CWmin =3D 2^ECWmin - 1 */=0A= + struct iwn_softc *sc =3D ic->ic_ifp->if_softc;=0A= + struct iwn_edca_params cmd;=0A= + int aci;=0A= +=0A= + memset(&cmd, 0, sizeof cmd);=0A= + cmd.flags =3D htole32(IWN_EDCA_UPDATE);=0A= + for (aci =3D 0; aci < WME_NUM_AC; aci++) {=0A= + const struct wmeParams *ac =3D=0A= + &ic->ic_wme.wme_chanParams.cap_wmeParams[aci];=0A= + cmd.ac[aci].aifsn =3D ac->wmep_aifsn;=0A= + cmd.ac[aci].cwmin =3D htole16(IWN_EXP2(ac->wmep_logcwmin));=0A= + cmd.ac[aci].cwmax =3D htole16(IWN_EXP2(ac->wmep_logcwmax));=0A= + cmd.ac[aci].txoplimit =3D=0A= + htole16(IEEE80211_TXOP_TO_US(ac->wmep_txopLimit));=0A= + }=0A= + return iwn_cmd(sc, IWN_CMD_WIPAN_QOS_PARAM, &cmd, sizeof cmd, 1);=0A= +#undef IWN_EXP2=0A= +}=0A= +=0A= +/*=0A= + * Broadcast node is used to send group-addressed and management frames.=0A= + */=0A= +static int=0A= +iwn_add_broadcast_node_u1(struct iwn_softc *sc, int async)=0A= +{=0A= + struct iwn_ops *ops =3D &sc->ops;=0A= + struct ifnet *ifp =3D sc->sc_ifp;=0A= + struct ieee80211com *ic =3D ifp->if_l2com;=0A= + struct iwn_node_info node;=0A= + struct iwn_cmd_link_quality linkq;=0A= + uint8_t txant;=0A= + int i, error;=0A= +=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s begin\n", __func__);=0A= +=0A= + sc->rxon =3D &sc->rx_on[IWN_RXON_PAN_CTX];=0A= +=0A= + memset(&node, 0, sizeof node);=0A= + IEEE80211_ADDR_COPY(node.macaddr, ifp->if_broadcastaddr);=0A= +=0A= + node.id =3D IWN_PAN_ID_BCAST;=0A= + node.htflags |=3D htole32(IWN_STA_FLAG_PAN_STATION);=0A= + DPRINTF(sc, IWN_DEBUG_RESET, "%s: adding broadcast node1\n", __func__);=0A= + if ((error =3D ops->add_node(sc, &node, async)) !=3D 0)=0A= + return error;=0A= +=0A= + /* Use the first valid TX antenna. */=0A= + txant =3D IWN_LSB(sc->txchainmask);=0A= +=0A= + memset(&linkq, 0, sizeof linkq);=0A= + linkq.id =3D IWN_PAN_ID_BCAST;=0A= + linkq.antmsk_1stream =3D txant;=0A= + linkq.antmsk_2stream =3D IWN_ANT_AB;=0A= + linkq.ampdu_max =3D 64;=0A= + linkq.ampdu_threshold =3D 3;=0A= + linkq.ampdu_limit =3D htole16(4000); /* 4ms */=0A= +=0A= + /* Use lowest mandatory bit-rate. */=0A= + if (IEEE80211_IS_CHAN_5GHZ(ic->ic_curchan))=0A= + linkq.retry[0] =3D htole32(0xd);=0A= + else=0A= + linkq.retry[0] =3D htole32(10 | IWN_RFLAG_CCK);=0A= + linkq.retry[0] |=3D htole32(IWN_RFLAG_ANT(txant));=0A= + /* Use same bit-rate for all TX retries. */=0A= + for (i =3D 1; i < IWN_MAX_TX_RETRIES; i++) {=0A= + linkq.retry[i] =3D linkq.retry[0];=0A= + }=0A= + DPRINTF(sc, IWN_DEBUG_TRACE, "->%s end\n", __func__);=0A= +=0A= + return iwn_cmd(sc, IWN_CMD_LINK_QUALITY, &linkq, sizeof linkq, async);=0A= +}=0A= +=0A= +static uint16_t=0A= +iwn_get_active_dwell(struct iwn_softc *sc, struct ieee80211_channel *c)=0A= +{=0A= + int n_probes =3D 1;=0A= +=0A= + if (IEEE80211_IS_CHAN_5GHZ(c))=0A= + return IWN_ACTIVE_DWELL_TIME_52 +=0A= + IWN_ACTIVE_DWELL_FACTOR_52 * (n_probes + 1);=0A= + else=0A= + return IWN_ACTIVE_DWELL_TIME_24 +=0A= + IWN_ACTIVE_DWELL_FACTOR_24 * (n_probes + 1);=0A= +}=0A= +=0A= +static uint16_t=0A= +iwn_get_passive_dwell(struct iwn_softc *sc, struct ieee80211_channel *c)=0A= +{=0A= + uint8_t ctx_id =3D 0;=0A= + uint16_t beacon_int;=0A= + struct ieee80211vap *vap;=0A= + struct iwn_vap *ivp;=0A= + uint16_t dwell_time;=0A= +=0A= + dwell_time =3D (IEEE80211_IS_CHAN_2GHZ(c)) ?=0A= + IWN_PASSIVE_DWELL_BASE + IWN_PASSIVE_DWELL_TIME_24 :=0A= + IWN_PASSIVE_DWELL_BASE + IWN_PASSIVE_DWELL_TIME_52;=0A= +=0A= + for (ctx_id =3D 0; ctx_id < IWN_NUM_RXON_CTX; ctx_id++) {=0A= + vap =3D sc->ivap[ctx_id];=0A= + ivp =3D IWN_VAP(vap);=0A= + sc->rxon =3D &sc->rx_on[ctx_id];=0A= + if (!sc->rxon->associd)=0A= + continue;=0A= + beacon_int =3D ivp->beacon_int;=0A= + if (!beacon_int)=0A= + beacon_int =3D IWN_PASSIVE_DWELL_BASE;=0A= + beacon_int =3D (beacon_int * 98) / 100 - IWN_CHANNEL_TUNE_TIME * 2;=0A= + dwell_time =3D min(beacon_int, dwell_time);=0A= + if(sc->ctx !=3D IWN_RXON_PAN_CTX) break;=0A= + }=0A= +=0A= + return dwell_time;=0A= +}=0A= +static void=0A= +iwn_led_pattern(struct iwn_softc *sc)=0A= +{=0A= + int i,j;=0A= +=0A= + for(i =3D 0; i < IWN_MAX_BLINK_TBL; i++) {=0A= + if((sc->sc_led.led_last_tpt) > (blink_tbl[i].tpt * 1024 * 1024))=0A= + break;=0A= + }=0A= +=0A= + for(j =3D 0; j < IWN_MAX_BLINK_TBL; j++) {=0A= + if((sc->sc_led.led_cur_tpt) > (blink_tbl[j].tpt * 1024 * 1024))=0A= + break;=0A= + }=0A= +=0A= + if (i !=3D j)=0A= + iwn_set_led(sc, IWN_LED_LINK,blink_tbl[j].off_time,=0A= + blink_tbl[j].on_time, IWN_LED_INT_BLINK);=0A= +}=0A= +=0A= +=0A= Index: sys/dev/iwn/if_iwnreg.h=0A= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=0A= --- sys/dev/iwn/if_iwnreg.h (revision 254210)=0A= +++ sys/dev/iwn/if_iwnreg.h (working copy)=0A= @@ -2,6 +2,8 @@=0A= /* $OpenBSD: if_iwnreg.h,v 1.40 2010/05/05 19:41:57 damien Exp $ */=0A= =0A= /*-=0A= + * Copyright (c) 2013 Cedric GROSS =0A= + * Copyright (c) 2011 Intel Corporation=0A= * Copyright (c) 2007, 2008=0A= * Damien Bergamini =0A= *=0A= @@ -1046,8 +1048,8 @@=0A= =0A= /* Structure for command IWN_CMD_SET_CRITICAL_TEMP. */=0A= struct iwn_critical_temp {=0A= + uint32_t tempM;=0A= uint32_t reserved;=0A= - uint32_t tempM;=0A= uint32_t tempR;=0A= /* degK <-> degC conversion macros. */=0A= #define IWN_CTOK(c) ((c) + 273)=0A= @@ -1102,6 +1104,10 @@=0A= uint16_t reserved;=0A= } __packed;=0A= =0A= +/* Define maximal number of calib result send to runtime firmware =0A= + * PS: TEMP_OFFSET count for 2 (std and v2)=0A= + */=0A= +#define IWN5000_PHY_CALIB_MAX_RESULT 8=0A= /* Structures for command IWN_CMD_PHY_CALIB. */=0A= struct iwn_phy_calib {=0A= uint8_t code;=0A= @@ -1122,6 +1128,15 @@=0A= uint8_t isvalid;=0A= } __packed;=0A= =0A= +#define IWN_BUF_IX_PHY_CALIB_DC 0=0A= +#define IWN_BUF_IX_PHY_CALIB_LO 1=0A= +#define IWN_BUF_IX_PHY_CALIB_TX_IQ 2=0A= +#define IWN_BUF_IX_PHY_CALIB_CRYSTAL 3=0A= +#define IWN_BUF_IX_PHY_CALIB_BASE_BAND 4=0A= +#define IWN_BUF_IX_PHY_CALIB_TX_IQ_PERIODIC 5=0A= +#define IWN_BUF_IX_PHY_CALIB_TEMP_OFFSET 6 =0A= +#define IWN_BUF_IX_PHY_CALIB_TEMP_OFFSETv2 7=0A= +=0A= struct iwn5000_phy_calib_crystal {=0A= uint8_t code;=0A= uint8_t group;=0A= @@ -1581,6 +1596,8 @@=0A= uint32_t len;=0A= } __packed;=0A= =0A= +#define IWN_FW_TLV_FLAGS_NEW_SCAN_BITPOS 1=0A= +=0A= #define IWN4965_FW_TEXT_MAXSZ ( 96 * 1024)=0A= #define IWN4965_FW_DATA_MAXSZ ( 40 * 1024)=0A= #define IWN5000_FW_TEXT_MAXSZ (256 * 1024)=0A= @@ -1688,6 +1705,16 @@=0A= struct iwn4965_eeprom_chan_samples chans[2];=0A= } __packed;=0A= =0A= +/* =0A= + * ADD / MODIFY STATION Command (Op Code 18) - byte 76-18 -bit13=0A= + * STA_FLAG_PAN_STATION bit:=0A= + * This bit is set (1) for a station in PAN mode =0A= + */=0A= +#define IWN_STA_FLAG_PAN_STATION (1 << 13)=0A= +=0A= +#define IWN_BEACON_INTERVAL_DEFAULT 200=0A= +#define IWN_SLOT_TIME_MIN 20=0A= +=0A= /*=0A= * Offsets of channels descriptions in EEPROM.=0A= */=0A= @@ -1731,6 +1758,16 @@=0A= IWN5000_EEPROM_NO_HT40,=0A= };=0A= =0A= +static const uint32_t iwn2030_regulatory_bands[IWN_NBANDS] =3D {=0A= + IWN5000_EEPROM_BAND1,=0A= + IWN5000_EEPROM_BAND2,=0A= + IWN5000_EEPROM_BAND3,=0A= + IWN5000_EEPROM_BAND4,=0A= + IWN5000_EEPROM_BAND5,=0A= + IWN6000_EEPROM_BAND6,=0A= + IWN5000_EEPROM_BAND7=0A= +};=0A= +=0A= #define IWN_CHAN_BANDS_COUNT 7=0A= #define IWN_MAX_CHAN_PER_BAND 14=0A= static const struct iwn_chan_band {=0A= @@ -1775,6 +1812,8 @@=0A= /* DTIM value to pass in for IWN_POWERSAVE_LVL_VOIP_COMPATIBLE */=0A= #define IWN_POWERSAVE_DTIM_VOIP_COMPATIBLE 2=0A= =0A= +#define IWN_DTIM_INDICATES_UNICAST_PENDING_AT_AP=0A= +=0A= /*=0A= * RF Tx gain values from highest to lowest power (values obtained from=0A= * the reference driver.)=0A= @@ -1891,6 +1930,7 @@=0A= uint32_t min_energy_cck;=0A= uint32_t energy_cck;=0A= uint32_t energy_ofdm;=0A= + uint32_t min_corr_barker_mrc;=0A= };=0A= =0A= /*=0A= @@ -1917,7 +1957,8 @@=0A= 170, 400,=0A= 95,=0A= 95,=0A= - 95=0A= + 95,=0A= + 390=0A= };=0A= =0A= static const struct iwn_sensitivity_limits iwn5150_sensitivity_limits = =3D {=0A= @@ -1929,7 +1970,8 @@=0A= 170, 400,=0A= 95,=0A= 95,=0A= - 95=0A= + 95,=0A= + 390=0A= };=0A= =0A= static const struct iwn_sensitivity_limits iwn1000_sensitivity_limits = =3D {=0A= @@ -1941,7 +1983,8 @@=0A= 170, 400,=0A= 95,=0A= 95,=0A= - 95=0A= + 95,=0A= + 390=0A= };=0A= =0A= static const struct iwn_sensitivity_limits iwn6000_sensitivity_limits = =3D {=0A= @@ -1951,9 +1994,10 @@=0A= 128, 232,=0A= 125, 175,=0A= 160, 310,=0A= - 97,=0A= - 97,=0A= - 100=0A= + 110,=0A= + 110,=0A= + 110,=0A= + 336=0A= };=0A= =0A= /* Get value from linux kernel 3.2.+ in = Drivers/net/wireless/iwlwifi/iwl-2000.c*/=0A= @@ -2052,3 +2096,360 @@=0A= #define IWN_BARRIER_READ_WRITE(sc) \=0A= bus_space_barrier((sc)->sc_st, (sc)->sc_sh, 0, (sc)->sc_sz, \=0A= BUS_SPACE_BARRIER_READ | BUS_SPACE_BARRIER_WRITE)=0A= +=0A= +/* = =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=0A= + * NIC PARAMETERS=0A= + *=0A= + * = =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=0A= + */=0A= + =0A= +/* Flags for managing calibration result. See calib_need =0A= + * in iwn_base_params struct =0A= + */=0A= +#define IWN_FLG_NEED_PHY_CALIB_DC (1<<0)=0A= +#define IWN_FLG_NEED_PHY_CALIB_LO (1<<1)=0A= +#define IWN_FLG_NEED_PHY_CALIB_TX_IQ (1<<2)=0A= +#define IWN_FLG_NEED_PHY_CALIB_CRYSTAL (1<<3)=0A= +#define IWN_FLG_NEED_PHY_CALIB_BASE_BAND (1<<4)=0A= +#define IWN_FLG_NEED_PHY_CALIB_TX_IQ_PERIODIC (1<<5)=0A= +#define IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSET (1<<6)=0A= +#define IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSETv2 (1<<7)=0A= +=0A= + =0A= +/* Define some parameters for managing different NIC.=0A= + * Refer to linux specific file like iwl-xxxx.c to determine correct = value =0A= + * for NIC.=0A= + *=0A= + * @max_ll_items: max number of OTP blocks=0A= + * @shadow_ram_support: shadow support for OTP memory=0A= + * @led_compensation: compensate on the led on/off time per HW according=0A= + * to the deviation to achieve the desired led frequency.=0A= + * The detail algorithm is described in iwl-led.c=0A= + * @chain_noise_num_beacons: number of beacons used to compute chain = noise=0A= + * @adv_thermal_throttle: support advance thermal throttle=0A= + * @support_ct_kill_exit: support ct kill exit condition=0A= + * @support_wimax_coexist: support wimax/wifi co-exist=0A= + * @plcp_delta_threshold: plcp error rate threshold used to trigger=0A= + * radio tuning when there is a high receiving plcp error rate=0A= + * @chain_noise_scale: default chain noise scale used for gain = computation=0A= + * @wd_timeout: TX queues watchdog timeout=0A= + * @max_event_log_size: size of event log buffer size for ucode event = logging=0A= + * @shadow_reg_enable: HW shadhow register bit=0A= + * @no_idle_support: do not support idle mode=0A= + * @hd_v2: v2 of enhanced sensitivity value, used for 2000 series and up=0A= + * advanced_bt_coexist : Advanced BT management=0A= + * bt_session_2 : NIC need a new struct for configure BT coexistence. = Needed =0A= + * only if advanced_bt_coexist is true =0A= + * bt_sco_disable :=0A= + * additional_nic_config: For 6005 series=0A= + * iq_invert : ? But need it for N 2000 series=0A= + * regulatory_bands :=0A= + * enhanced_TX_power : EEPROM Has advanced TX power options. Set 'True'=0A= + * if update_enhanced_txpower =3D iwl_eeprom_enhanced_txpower =0A= + * need_temp_offset_calib : Need to compute some temp offset for = calibration.=0A= + * calib_need : Use IWN_FLG_NEED_PHY_CALIB_* flags to specify which =0A= + * calibration data ucode need. See calib_init_cfg in iwl-xxxx.c =0A= + * linux kernel file=0A= + * additional_gp_drv_bit : Specific bit to defined during nic_config=0A= + */=0A= +struct iwn_base_params {=0A= + uint32_t pll_cfg_val;=0A= + const uint16_t max_ll_items;=0A= +#define IWN_OTP_MAX_LL_ITEMS_1000 (3) /* OTP blocks for 1000 */=0A= +#define IWN_OTP_MAX_LL_ITEMS_6x00 (4) /* OTP blocks for 6x00 */=0A= +#define IWN_OTP_MAX_LL_ITEMS_6x50 (7) /* OTP blocks for 6x50 */=0A= +#define IWN_OTP_MAX_LL_ITEMS_2x00 (4) /* OTP blocks for 2x00 */=0A= + const bool shadow_ram_support;=0A= + uint16_t led_compensation;=0A= + bool adv_thermal_throttle;=0A= + bool support_ct_kill_exit;=0A= + uint8_t plcp_delta_threshold;=0A= + int chain_noise_scale;=0A= + unsigned int wd_timeout;=0A= + uint32_t max_event_log_size;=0A= + const bool shadow_reg_enable;=0A= + const bool hd_v2;=0A= + const bool advanced_bt_coexist;=0A= + const bool bt_session_2;=0A= + const bool bt_sco_disable;=0A= + const bool additional_nic_config;=0A= + const uint32_t *regulatory_bands;=0A= + const bool enhanced_TX_power; // See iwl-agn-devices.c file to = determine that(enhanced_txpower). =0A= + const uint16_t calib_need;=0A= + const bool no_crystal_calibration; // see no_xtal_calib in linux=0A= + const bool support_hostap; //Define IEEE80211_C_HOSTAP for ic_caps=0A= + const bool no_multi_vaps; // see iwn_vap_create=0A= + uint8_t additional_gp_drv_bit; //=0A= + =0A= +};=0A= +=0A= +/* NOTA : Values with comments BEFORE are not yet used in driver */=0A= +static struct iwn_base_params iwn_default_base_params =3D {=0A= + IWN_ANA_PLL_INIT, // pll_cfg_val=0A= + 4, //max_ll_items=0A= + true, // shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + false, // advanced_bt_coexist=0A= + false, // bt_session_2=0A= + true, // bt_sco_disable=0A= + false, //additional_nic_config=0A= + iwn5000_regulatory_bands, //regulatory_bands=0A= + false, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO =0A= + | IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND = ), //calib_need=0A= + false, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, // no_multi_vaps=0A= + 0, //additional_gp_drv_bit=0A= +};=0A= +=0A= +static struct iwn_base_params iwn2030_base_params =3D {=0A= + 0, //pll_cfg_val=0A= + IWN_OTP_MAX_LL_ITEMS_2x00, //max_ll_items=0A= + true, //shadow_ram_support=0A= + /*.led_compensation =3D */ 57,=0A= + /*.adv_thermal_throttle =3D */ true,=0A= + /*.support_ct_kill_exit =3D */ true,=0A= + /*.plcp_delta_threshold =3D */ 50,=0A= + /*.chain_noise_scale =3D */ 1000,=0A= + /*.wd_timeout =3D */ 2000,=0A= + /*.max_event_log_size =3D */ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */ true,=0A= + true, //advanced_bt_coexist=0A= + true, //bt_session_2=0A= + true, //bt_sco_disable=0A= + false, //additional_nic_config=0A= + iwn2030_regulatory_bands, //regulatory_bands=0A= + true, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND |=0A= + IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSETv2 ), //calib_need=0A= + false, //no_crystal_calibration=0A= + true, //support_hostap=0A= + false, //no_multi_vaps=0A= + IWN_GP_DRIVER_REG_BIT_RADIO_IQ_INVERT, // additional_gp_drv_bit=0A= +};=0A= +=0A= +static struct iwn_base_params iwn_1000_base_params =3D {=0A= + IWN_ANA_PLL_INIT, //pll_cfg_val=0A= + IWN_OTP_MAX_LL_ITEMS_1000, //max_ll_items=0A= + false, //shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + false, //advanced_bt_coexist=0A= + false, //bt_session_2=0A= + false, //bt_sco_disable=0A= + false, //additional_nic_config=0A= + iwn5000_regulatory_bands, //regulatory_bands=0A= + false, //enhanced_TX_power=0A= + ( IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND ), = //calib_need=0A= + false, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, //no_multi_vaps=0A= + 0, //additional_gp_drv_bit=0A= +};=0A= +static struct iwn_base_params iwn_6000_base_params =3D {=0A= + 0, //pll_cfg_val=0A= + IWN_OTP_MAX_LL_ITEMS_6x00, // max_ll_items=0A= + true, //shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + false, // advanced_bt_coexist=0A= + false, //bt_session_2=0A= + false, //bt_sco_disable=0A= + false, //additional_nic_config=0A= + iwn6000_regulatory_bands, //regulatory_bands=0A= + true, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND ), = //calib_need=0A= + false, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, //no_multi_vaps=0A= + 0, //additional_gp_drv_bit=0A= +};=0A= +static struct iwn_base_params iwn_6000i_base_params =3D {=0A= + 0, //pll_cfg_val=0A= + IWN_OTP_MAX_LL_ITEMS_6x00, // max_ll_items=0A= + true, //shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + false, // advanced_bt_coexist=0A= + false, //bt_session_2=0A= + true, //bt_sco_disable=0A= + false, //additional_nic_config=0A= + iwn6000_regulatory_bands, //regulatory_bands=0A= + true, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND ), = //calib_need=0A= + false, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, //no_multi_vaps=0A= + 0, //additional_gp_drv_bit=0A= +};=0A= +static struct iwn_base_params iwn_6000g2_base_params =3D {=0A= + 0, //pll_cfg_val=0A= + IWN_OTP_MAX_LL_ITEMS_6x00, // max_ll_items=0A= + true, //shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + false, // advanced_bt_coexist=0A= + false, //bt_session_2=0A= + true, //bt_sco_disable=0A= + false, //additional_nic_config=0A= + iwn6000_regulatory_bands, //regulatory_bands=0A= + true, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND |=0A= + IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSET ), //calib_need=0A= + false, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, //no_multi_vaps=0A= + 0, //additional_gp_drv_bit=0A= +};=0A= +static struct iwn_base_params iwn_6050_base_params =3D {=0A= + 0, //pll_cfg_val=0A= + IWN_OTP_MAX_LL_ITEMS_6x50, // max_ll_items=0A= + true, //shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + false, // advanced_bt_coexist=0A= + false, //bt_session_2=0A= + true, //bt_sco_disable=0A= + true, //additional_nic_config=0A= + iwn6000_regulatory_bands, //regulatory_bands=0A= + true, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND |=0A= + IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSET ), //calib_need=0A= + false, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, //no_multi_vaps=0A= + 0, //additional_gp_drv_bit=0A= +};=0A= +static struct iwn_base_params iwn_6150_base_params =3D {=0A= + 0, //pll_cfg_val=0A= + IWN_OTP_MAX_LL_ITEMS_6x50, // max_ll_items=0A= + true, //shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + false, // advanced_bt_coexist=0A= + false, //bt_session_2=0A= + true, //bt_sco_disable=0A= + true, //additional_nic_config=0A= + iwn6000_regulatory_bands, //regulatory_bands=0A= + true, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND |=0A= + IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSET ), //calib_need=0A= + false, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, //no_multi_vaps=0A= + IWN_GP_DRIVER_6050_1X2, //additional_gp_drv_bit=0A= +};=0A= +//IWL_DEVICE_6035 & IWL_DEVICE_6030=0A= +static struct iwn_base_params iwn_6000g2b_base_params =3D {=0A= + 0, //pll_cfg_val=0A= + IWN_OTP_MAX_LL_ITEMS_6x00, // max_ll_items=0A= + true, //shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + true, // advanced_bt_coexist=0A= + false, //bt_session_2=0A= + true, //bt_sco_disable=0A= + false, //additional_nic_config=0A= + iwn6000_regulatory_bands, //regulatory_bands=0A= + true, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND |=0A= + IWN_FLG_NEED_PHY_CALIB_TEMP_OFFSET ), //calib_need=0A= + false, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, //no_multi_vaps=0A= + 0, //additional_gp_drv_bit=0A= +};=0A= +static struct iwn_base_params iwn_5x50_base_params =3D {=0A= + IWN_ANA_PLL_INIT, // pll_cfg_val=0A= + 4, //max_ll_items=0A= + true, // shadow_ram_support=0A= + /*.led_compensation =3D */57,=0A= + /*.adv_thermal_throttle =3D*/ true,=0A= + /*.support_ct_kill_exit =3D */true,=0A= + /*.plcp_delta_threshold =3D*/ 50, /*IWL_MAX_PLCP_ERR_THRESHOLD_DEF,*/=0A= + /*.chain_noise_scale =3D*/ 1000,=0A= + /*.wd_timeout =3D */2000, /* IWL_LONG_WD_TIMEOUT,*/=0A= + /*.max_event_log_size =3D*/ 512,=0A= + false, //shadow_reg_enable=0A= + /*.hd_v2 =3D */true,=0A= + false, // advanced_bt_coexist=0A= + false, // bt_session_2=0A= + true, // bt_sco_disable=0A= + false, //additional_nic_config=0A= + iwn5000_regulatory_bands, //regulatory_bands=0A= + false, //enhanced_TX_power=0A= + (IWN_FLG_NEED_PHY_CALIB_DC | IWN_FLG_NEED_PHY_CALIB_LO |=0A= + IWN_FLG_NEED_PHY_CALIB_TX_IQ | IWN_FLG_NEED_PHY_CALIB_BASE_BAND ), = //calib_need=0A= + true, //no_crystal_calibration=0A= + false, //support_hostap=0A= + true, // no_multi_vaps=0A= + 0, //additional_gp_drv_bit=0A= +};=0A= +=0A= Index: sys/dev/iwn/if_iwnvar.h=0A= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=0A= --- sys/dev/iwn/if_iwnvar.h (revision 254210)=0A= +++ sys/dev/iwn/if_iwnvar.h (working copy)=0A= @@ -136,6 +136,7 @@=0A= struct ieee80211_node ni; /* must be the first */=0A= uint16_t disable_tid;=0A= uint8_t id;=0A= + uint32_t ridx[256];=0A= struct {=0A= uint64_t bitmap;=0A= int startidx;=0A= @@ -174,6 +175,9 @@=0A= uint32_t energy_samples[10];=0A= u_int cur_energy_sample;=0A= uint32_t energy_cck;=0A= +=0A= + uint32_t corr_barker_mrc;=0A= + uint32_t energy_ofdm;=0A= };=0A= =0A= struct iwn_calib_info {=0A= @@ -315,7 +319,7 @@=0A= struct callout watchdog_to;=0A= struct callout ct_kill_exit_to;=0A= struct iwn_fw_info fw;=0A= - struct iwn_calib_info calibcmd[5];=0A= + struct iwn_calib_info calibcmd[IWN5000_PHY_CALIB_MAX_RESULT];=0A= uint32_t errptr;=0A= =0A= struct iwn_rx_stat last_rx_stat;=0A= ------=_NextPart_000_0004_01CE968D.7B91F040--