/* * Linux cfgp2p driver * * Copyright (C) 1999-2012, Broadcom Corporation * * Unless you and Broadcom execute a separate written software license * agreement governing use of this software, this software is licensed to you * under the terms of the GNU General Public License version 2 (the "GPL"), * available at http://www.broadcom.com/licenses/GPLv2.php, with the * following added to such license: * * As a special exception, the copyright holders of this software give you * permission to link this software with independent modules, and to copy and * distribute the resulting executable under terms of your choice, provided that * you also meet, for each linked independent module, the terms and conditions of * the license of that module. An independent module is a module which is not * derived from this software. The special exception does not apply to any * modifications of the software. * * Notwithstanding the above, under no circumstances may you combine this * software in any way with any other Broadcom software provided under a license * other than the GPL, without Broadcom's express prior written consent. * * $Id: wl_cfgp2p.c 308397 2012-01-15 07:32:58Z $ * */ #include <typedefs.h> #include <linuxver.h> #include <osl.h> #include <linux/kernel.h> #include <linux/kthread.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/types.h> #include <linux/string.h> #include <linux/timer.h> #include <linux/if_arp.h> #include <asm/uaccess.h> #include <bcmutils.h> #include <bcmendian.h> #include <proto/ethernet.h> #include <wl_cfg80211.h> #include <wl_cfgp2p.h> #include <wldev_common.h> #include <wl_android.h> static s8 scanparambuf[WLC_IOCTL_SMLEN]; static bool wl_cfgp2p_has_ie(u8 *ie, u8 **tlvs, u32 *tlvs_len, const u8 *oui, u32 oui_len, u8 type); static s32 wl_cfgp2p_vndr_ie(struct wl_priv *wl, struct net_device *ndev, s32 bssidx, s32 pktflag, s8 *oui, s32 ie_id, s8 *data, s32 data_len, s32 delete); static int wl_cfgp2p_start_xmit(struct sk_buff *skb, struct net_device *ndev); static int wl_cfgp2p_do_ioctl(struct net_device *net, struct ifreq *ifr, int cmd); static int wl_cfgp2p_if_open(struct net_device *net); static int wl_cfgp2p_if_stop(struct net_device *net); static const struct net_device_ops wl_cfgp2p_if_ops = { .ndo_open = wl_cfgp2p_if_open, .ndo_stop = wl_cfgp2p_if_stop, .ndo_do_ioctl = wl_cfgp2p_do_ioctl, .ndo_start_xmit = wl_cfgp2p_start_xmit, }; bool wl_cfgp2p_is_pub_action(void *frame, u32 frame_len) { wifi_p2p_pub_act_frame_t *pact_frm; if (frame == NULL) return false; pact_frm = (wifi_p2p_pub_act_frame_t *)frame; if (frame_len < sizeof(wifi_p2p_pub_act_frame_t) -1) return false; if (pact_frm->category == P2P_PUB_AF_CATEGORY && pact_frm->action == P2P_PUB_AF_ACTION && pact_frm->oui_type == P2P_VER && memcmp(pact_frm->oui, P2P_OUI, sizeof(pact_frm->oui)) == 0) { return true; } return false; } bool wl_cfgp2p_is_p2p_action(void *frame, u32 frame_len) { wifi_p2p_action_frame_t *act_frm; if (frame == NULL) return false; act_frm = (wifi_p2p_action_frame_t *)frame; if (frame_len < sizeof(wifi_p2p_action_frame_t) -1) return false; if (act_frm->category == P2P_AF_CATEGORY && act_frm->type == P2P_VER && memcmp(act_frm->OUI, P2P_OUI, DOT11_OUI_LEN) == 0) { return true; } return false; } bool wl_cfgp2p_is_gas_action(void *frame, u32 frame_len) { wifi_p2psd_gas_pub_act_frame_t *sd_act_frm; if (frame == NULL) return false; sd_act_frm = (wifi_p2psd_gas_pub_act_frame_t *)frame; if (frame_len < sizeof(wifi_p2psd_gas_pub_act_frame_t) - 1) return false; if (sd_act_frm->category != P2PSD_ACTION_CATEGORY) return false; if (sd_act_frm->action == P2PSD_ACTION_ID_GAS_IREQ || sd_act_frm->action == P2PSD_ACTION_ID_GAS_IRESP || sd_act_frm->action == P2PSD_ACTION_ID_GAS_CREQ || sd_act_frm->action == P2PSD_ACTION_ID_GAS_CRESP) return true; else return false; } void wl_cfgp2p_print_actframe(bool tx, void *frame, u32 frame_len) { wifi_p2p_pub_act_frame_t *pact_frm; wifi_p2p_action_frame_t *act_frm; wifi_p2psd_gas_pub_act_frame_t *sd_act_frm; if (!frame || frame_len <= 2) return; if (wl_cfgp2p_is_pub_action(frame, frame_len)) { pact_frm = (wifi_p2p_pub_act_frame_t *)frame; switch (pact_frm->subtype) { case P2P_PAF_GON_REQ: CFGP2P_ERR(("%s P2P Group Owner Negotiation Req Frame\n", (tx)? "TX": "RX")); break; case P2P_PAF_GON_RSP: CFGP2P_ERR(("%s P2P Group Owner Negotiation Rsp Frame\n", (tx)? "TX": "RX")); break; case P2P_PAF_GON_CONF: CFGP2P_ERR(("%s P2P Group Owner Negotiation Confirm Frame\n", (tx)? "TX": "RX")); break; case P2P_PAF_INVITE_REQ: CFGP2P_ERR(("%s P2P Invitation Request Frame\n", (tx)? "TX": "RX")); break; case P2P_PAF_INVITE_RSP: CFGP2P_ERR(("%s P2P Invitation Response Frame\n", (tx)? "TX": "RX")); break; case P2P_PAF_DEVDIS_REQ: CFGP2P_ERR(("%s P2P Device Discoverability Request Frame\n", (tx)? "TX": "RX")); break; case P2P_PAF_DEVDIS_RSP: CFGP2P_ERR(("%s P2P Device Discoverability Response Frame\n", (tx)? "TX": "RX")); break; case P2P_PAF_PROVDIS_REQ: CFGP2P_ERR(("%s P2P Provision Discovery Request Frame\n", (tx)? "TX": "RX")); break; case P2P_PAF_PROVDIS_RSP: CFGP2P_ERR(("%s P2P Provision Discovery Response Frame\n", (tx)? "TX": "RX")); break; default: CFGP2P_ERR(("%s Unknown P2P Public Action Frame\n", (tx)? "TX": "RX")); } } else if (wl_cfgp2p_is_p2p_action(frame, frame_len)) { act_frm = (wifi_p2p_action_frame_t *)frame; switch (act_frm->subtype) { case P2P_AF_NOTICE_OF_ABSENCE: CFGP2P_ERR(("%s P2P Notice of Absence Frame\n", (tx)? "TX": "RX")); break; case P2P_AF_PRESENCE_REQ: CFGP2P_ERR(("%s P2P Presence Request Frame\n", (tx)? "TX": "RX")); break; case P2P_AF_PRESENCE_RSP: CFGP2P_ERR(("%s P2P Presence Response Frame\n", (tx)? "TX": "RX")); break; case P2P_AF_GO_DISC_REQ: CFGP2P_ERR(("%s P2P Discoverability Request Frame\n", (tx)? "TX": "RX")); break; default: CFGP2P_ERR(("%s Unknown P2P Action Frame\n", (tx)? "TX": "RX")); } } else if (wl_cfgp2p_is_gas_action(frame, frame_len)) { sd_act_frm = (wifi_p2psd_gas_pub_act_frame_t *)frame; switch (sd_act_frm->action) { case P2PSD_ACTION_ID_GAS_IREQ: CFGP2P_ERR(("%s P2P GAS Initial Request\n", (tx)? "TX" : "RX")); break; case P2PSD_ACTION_ID_GAS_IRESP: CFGP2P_ERR(("%s P2P GAS Initial Response\n", (tx)? "TX" : "RX")); break; case P2PSD_ACTION_ID_GAS_CREQ: CFGP2P_ERR(("%s P2P GAS Comback Request\n", (tx)? "TX" : "RX")); break; case P2PSD_ACTION_ID_GAS_CRESP: CFGP2P_ERR(("%s P2P GAS Comback Response\n", (tx)? "TX" : "RX")); break; default: CFGP2P_ERR(("%s Unknown P2P GAS Frame\n", (tx)? "TX" : "RX")); } } } /* * Initialize variables related to P2P * */ s32 wl_cfgp2p_init_priv(struct wl_priv *wl) { if (!(wl->p2p = kzalloc(sizeof(struct p2p_info), GFP_KERNEL))) { CFGP2P_ERR(("struct p2p_info allocation failed\n")); return -ENOMEM; } #define INIT_IE(IE_TYPE, BSS_TYPE) \ do { \ memset(wl_to_p2p_bss_saved_ie(wl, BSS_TYPE).p2p_ ## IE_TYPE ## _ie, 0, \ sizeof(wl_to_p2p_bss_saved_ie(wl, BSS_TYPE).p2p_ ## IE_TYPE ## _ie)); \ wl_to_p2p_bss_saved_ie(wl, BSS_TYPE).p2p_ ## IE_TYPE ## _ie_len = 0; \ } while (0); INIT_IE(probe_req, P2PAPI_BSSCFG_PRIMARY); INIT_IE(probe_res, P2PAPI_BSSCFG_PRIMARY); INIT_IE(assoc_req, P2PAPI_BSSCFG_PRIMARY); INIT_IE(assoc_res, P2PAPI_BSSCFG_PRIMARY); INIT_IE(beacon, P2PAPI_BSSCFG_PRIMARY); INIT_IE(probe_req, P2PAPI_BSSCFG_DEVICE); INIT_IE(probe_res, P2PAPI_BSSCFG_DEVICE); INIT_IE(assoc_req, P2PAPI_BSSCFG_DEVICE); INIT_IE(assoc_res, P2PAPI_BSSCFG_DEVICE); INIT_IE(beacon, P2PAPI_BSSCFG_DEVICE); INIT_IE(probe_req, P2PAPI_BSSCFG_CONNECTION); INIT_IE(probe_res, P2PAPI_BSSCFG_CONNECTION); INIT_IE(assoc_req, P2PAPI_BSSCFG_CONNECTION); INIT_IE(assoc_res, P2PAPI_BSSCFG_CONNECTION); INIT_IE(beacon, P2PAPI_BSSCFG_CONNECTION); #undef INIT_IE wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_PRIMARY) = wl_to_prmry_ndev(wl); wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_PRIMARY) = 0; wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_DEVICE) = NULL; wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE) = 0; wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_CONNECTION) = NULL; wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_CONNECTION) = 0; spin_lock_init(&wl->p2p->timer_lock); return BCME_OK; } /* * Deinitialize variables related to P2P * */ void wl_cfgp2p_deinit_priv(struct wl_priv *wl) { CFGP2P_DBG(("In\n")); if (wl->p2p) { kfree(wl->p2p); } wl->p2p_supported = 0; } /* * Set P2P functions into firmware */ s32 wl_cfgp2p_set_firm_p2p(struct wl_priv *wl) { struct net_device *ndev = wl_to_prmry_ndev(wl); struct ether_addr null_eth_addr = { { 0, 0, 0, 0, 0, 0 } }; s32 ret = BCME_OK; s32 val = 0; /* Do we have to check whether APSTA is enabled or not ? */ wldev_iovar_getint(ndev, "apsta", &val); if (val == 0) { val = 1; wldev_ioctl(ndev, WLC_DOWN, &val, sizeof(s32), true); wldev_iovar_setint(ndev, "apsta", val); wldev_ioctl(ndev, WLC_UP, &val, sizeof(s32), true); } val = 1; /* Disable firmware roaming for P2P */ wldev_iovar_setint(ndev, "roam_off", val); /* In case of COB type, firmware has default mac address * After Initializing firmware, we have to set current mac address to * firmware for P2P device address */ ret = wldev_iovar_setbuf_bsscfg(ndev, "p2p_da_override", &null_eth_addr, sizeof(null_eth_addr), wl->ioctl_buf, WLC_IOCTL_MAXLEN, 0, &wl->ioctl_buf_sync); if (ret && ret != BCME_UNSUPPORTED) { CFGP2P_ERR(("failed to update device address\n")); } return ret; } /* Create a new P2P BSS. * Parameters: * @mac : MAC address of the BSS to create * @if_type : interface type: WL_P2P_IF_GO or WL_P2P_IF_CLIENT * @chspec : chspec to use if creating a GO BSS. * Returns 0 if success. */ s32 wl_cfgp2p_ifadd(struct wl_priv *wl, struct ether_addr *mac, u8 if_type, chanspec_t chspec) { wl_p2p_if_t ifreq; s32 err; struct net_device *ndev = wl_to_prmry_ndev(wl); ifreq.type = if_type; ifreq.chspec = chspec; memcpy(ifreq.addr.octet, mac->octet, sizeof(ifreq.addr.octet)); CFGP2P_INFO(("---wl p2p_ifadd %02x:%02x:%02x:%02x:%02x:%02x %s %u\n", ifreq.addr.octet[0], ifreq.addr.octet[1], ifreq.addr.octet[2], ifreq.addr.octet[3], ifreq.addr.octet[4], ifreq.addr.octet[5], (if_type == WL_P2P_IF_GO) ? "go" : "client", (chspec & WL_CHANSPEC_CHAN_MASK) >> WL_CHANSPEC_CHAN_SHIFT)); err = wldev_iovar_setbuf(ndev, "p2p_ifadd", &ifreq, sizeof(ifreq), wl->ioctl_buf, WLC_IOCTL_MAXLEN, &wl->ioctl_buf_sync); return err; } /* Delete a P2P BSS. * Parameters: * @mac : MAC address of the BSS to create * Returns 0 if success. */ s32 wl_cfgp2p_ifdel(struct wl_priv *wl, struct ether_addr *mac) { s32 ret; struct net_device *netdev = wl_to_prmry_ndev(wl); CFGP2P_INFO(("------primary idx %d : wl p2p_ifdel %02x:%02x:%02x:%02x:%02x:%02x\n", netdev->ifindex, mac->octet[0], mac->octet[1], mac->octet[2], mac->octet[3], mac->octet[4], mac->octet[5])); ret = wldev_iovar_setbuf(netdev, "p2p_ifdel", mac, sizeof(*mac), wl->ioctl_buf, WLC_IOCTL_MAXLEN, &wl->ioctl_buf_sync); if (unlikely(ret < 0)) { printk("'wl p2p_ifdel' error %d\n", ret); } return ret; } /* Change a P2P Role. * Parameters: * @mac : MAC address of the BSS to change a role * Returns 0 if success. */ s32 wl_cfgp2p_ifchange(struct wl_priv *wl, struct ether_addr *mac, u8 if_type, chanspec_t chspec) { wl_p2p_if_t ifreq; s32 err; struct net_device *netdev = wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_CONNECTION); ifreq.type = if_type; ifreq.chspec = chspec; memcpy(ifreq.addr.octet, mac->octet, sizeof(ifreq.addr.octet)); CFGP2P_INFO(("---wl p2p_ifchange %02x:%02x:%02x:%02x:%02x:%02x %s %u\n", ifreq.addr.octet[0], ifreq.addr.octet[1], ifreq.addr.octet[2], ifreq.addr.octet[3], ifreq.addr.octet[4], ifreq.addr.octet[5], (if_type == WL_P2P_IF_GO) ? "go" : "client", (chspec & WL_CHANSPEC_CHAN_MASK) >> WL_CHANSPEC_CHAN_SHIFT)); err = wldev_iovar_setbuf(netdev, "p2p_ifupd", &ifreq, sizeof(ifreq), wl->ioctl_buf, WLC_IOCTL_MAXLEN, &wl->ioctl_buf_sync); if (unlikely(err < 0)) { printk("'wl p2p_ifupd' error %d\n", err); } return err; } /* Get the index of a created P2P BSS. * Parameters: * @mac : MAC address of the created BSS * @index : output: index of created BSS * Returns 0 if success. */ s32 wl_cfgp2p_ifidx(struct wl_priv *wl, struct ether_addr *mac, s32 *index) { s32 ret; u8 getbuf[64]; struct net_device *dev = wl_to_prmry_ndev(wl); CFGP2P_INFO(("---wl p2p_if %02x:%02x:%02x:%02x:%02x:%02x\n", mac->octet[0], mac->octet[1], mac->octet[2], mac->octet[3], mac->octet[4], mac->octet[5])); ret = wldev_iovar_getbuf_bsscfg(dev, "p2p_if", mac, sizeof(*mac), getbuf, sizeof(getbuf), wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_PRIMARY), NULL); if (ret == 0) { memcpy(index, getbuf, sizeof(index)); CFGP2P_INFO(("---wl p2p_if ==> %d\n", *index)); } return ret; } static s32 wl_cfgp2p_set_discovery(struct wl_priv *wl, s32 on) { s32 ret = BCME_OK; struct net_device *ndev = wl_to_prmry_ndev(wl); CFGP2P_DBG(("enter\n")); ret = wldev_iovar_setint(ndev, "p2p_disc", on); if (unlikely(ret < 0)) { CFGP2P_ERR(("p2p_disc %d error %d\n", on, ret)); } return ret; } /* Set the WL driver's P2P mode. * Parameters : * @mode : is one of WL_P2P_DISC_ST_{SCAN,LISTEN,SEARCH}. * @channel : the channel to listen * @listen_ms : the time (milli seconds) to wait * @bssidx : bss index for BSSCFG * Returns 0 if success */ s32 wl_cfgp2p_set_p2p_mode(struct wl_priv *wl, u8 mode, u32 channel, u16 listen_ms, int bssidx) { wl_p2p_disc_st_t discovery_mode; s32 ret; struct net_device *dev; CFGP2P_DBG(("enter\n")); if (unlikely(bssidx >= P2PAPI_BSSCFG_MAX)) { CFGP2P_ERR((" %d index out of range\n", bssidx)); return -1; } dev = wl_to_p2p_bss_ndev(wl, bssidx); if (unlikely(dev == NULL)) { CFGP2P_ERR(("bssidx %d is not assigned\n", bssidx)); return BCME_NOTFOUND; } /* Put the WL driver into P2P Listen Mode to respond to P2P probe reqs */ discovery_mode.state = mode; discovery_mode.chspec = CH20MHZ_CHSPEC(channel); discovery_mode.dwell = listen_ms; ret = wldev_iovar_setbuf_bsscfg(dev, "p2p_state", &discovery_mode, sizeof(discovery_mode), wl->ioctl_buf, WLC_IOCTL_MAXLEN, bssidx, &wl->ioctl_buf_sync); return ret; } /* Get the index of the P2P Discovery BSS */ static s32 wl_cfgp2p_get_disc_idx(struct wl_priv *wl, s32 *index) { s32 ret; struct net_device *dev = wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_PRIMARY); ret = wldev_iovar_getint(dev, "p2p_dev", index); CFGP2P_INFO(("p2p_dev bsscfg_idx=%d ret=%d\n", *index, ret)); if (unlikely(ret < 0)) { CFGP2P_ERR(("'p2p_dev' error %d\n", ret)); return ret; } return ret; } s32 wl_cfgp2p_init_discovery(struct wl_priv *wl) { s32 index = 0; s32 ret = BCME_OK; CFGP2P_DBG(("enter\n")); if (wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE) != 0) { CFGP2P_ERR(("do nothing, already initialized\n")); return ret; } ret = wl_cfgp2p_set_discovery(wl, 1); if (ret < 0) { CFGP2P_ERR(("set discover error\n")); return ret; } /* Enable P2P Discovery in the WL Driver */ ret = wl_cfgp2p_get_disc_idx(wl, &index); if (ret < 0) { return ret; } wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_DEVICE) = wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_PRIMARY); wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE) = index; /* Set the initial discovery state to SCAN */ ret = wl_cfgp2p_set_p2p_mode(wl, WL_P2P_DISC_ST_SCAN, 0, 0, wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE)); if (unlikely(ret != 0)) { CFGP2P_ERR(("unable to set WL_P2P_DISC_ST_SCAN\n")); wl_cfgp2p_set_discovery(wl, 0); wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE) = 0; wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_DEVICE) = NULL; return 0; } return ret; } /* Deinitialize P2P Discovery * Parameters : * @wl : wl_private data * Returns 0 if succes */ static s32 wl_cfgp2p_deinit_discovery(struct wl_priv *wl) { s32 ret = BCME_OK; CFGP2P_DBG(("enter\n")); if (wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE) == 0) { CFGP2P_ERR(("do nothing, not initialized\n")); return -1; } /* Set the discovery state to SCAN */ ret = wl_cfgp2p_set_p2p_mode(wl, WL_P2P_DISC_ST_SCAN, 0, 0, wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE)); /* Disable P2P discovery in the WL driver (deletes the discovery BSSCFG) */ ret = wl_cfgp2p_set_discovery(wl, 0); /* Clear our saved WPS and P2P IEs for the discovery BSS. The driver * deleted these IEs when wl_cfgp2p_set_discovery() deleted the discovery * BSS. */ /* Clear the saved bsscfg index of the discovery BSSCFG to indicate we * have no discovery BSS. */ wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE) = 0; wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_DEVICE) = NULL; return ret; } /* Enable P2P Discovery * Parameters: * @wl : wl_private data * @ie : probe request ie (WPS IE + P2P IE) * @ie_len : probe request ie length * Returns 0 if success. */ s32 wl_cfgp2p_enable_discovery(struct wl_priv *wl, struct net_device *dev, const u8 *ie, u32 ie_len) { s32 ret = BCME_OK; if (wl_get_p2p_status(wl, DISCOVERY_ON)) { CFGP2P_INFO((" DISCOVERY is already initialized, we have nothing to do\n")); goto set_ie; } wl_set_p2p_status(wl, DISCOVERY_ON); CFGP2P_DBG(("enter\n")); ret = wl_cfgp2p_init_discovery(wl); if (unlikely(ret < 0)) { CFGP2P_ERR((" init discovery error %d\n", ret)); goto exit; } /* Set wsec to any non-zero value in the discovery bsscfg to ensure our * P2P probe responses have the privacy bit set in the 802.11 WPA IE. * Some peer devices may not initiate WPS with us if this bit is not set. */ ret = wldev_iovar_setint_bsscfg(wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_DEVICE), "wsec", AES_ENABLED, wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE)); if (unlikely(ret < 0)) { CFGP2P_ERR((" wsec error %d\n", ret)); } set_ie: ret = wl_cfgp2p_set_management_ie(wl, dev, wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE), VNDR_IE_PRBREQ_FLAG, ie, ie_len); if (unlikely(ret < 0)) { CFGP2P_ERR(("set probreq ie occurs error %d\n", ret)); goto exit; } exit: return ret; } /* Disable P2P Discovery * Parameters: * @wl : wl_private_data * Returns 0 if success. */ s32 wl_cfgp2p_disable_discovery(struct wl_priv *wl) { s32 ret = BCME_OK; CFGP2P_DBG((" enter\n")); wl_clr_p2p_status(wl, DISCOVERY_ON); if (wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE) == 0) { CFGP2P_ERR((" do nothing, not initialized\n")); goto exit; } ret = wl_cfgp2p_set_p2p_mode(wl, WL_P2P_DISC_ST_SCAN, 0, 0, wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE)); if (unlikely(ret < 0)) { CFGP2P_ERR(("unable to set WL_P2P_DISC_ST_SCAN\n")); } /* Do a scan abort to stop the driver's scan engine in case it is still * waiting out an action frame tx dwell time. */ #ifdef NOT_YET if (wl_get_p2p_status(wl, SCANNING)) { p2pwlu_scan_abort(hdl, FALSE); } #endif wl_clr_p2p_status(wl, DISCOVERY_ON); ret = wl_cfgp2p_deinit_discovery(wl); exit: return ret; } s32 wl_cfgp2p_escan(struct wl_priv *wl, struct net_device *dev, u16 active, u32 num_chans, u16 *channels, s32 search_state, u16 action, u32 bssidx) { s32 ret = BCME_OK; s32 memsize; s32 eparams_size; u32 i; s8 *memblk; wl_p2p_scan_t *p2p_params; wl_escan_params_t *eparams; wlc_ssid_t ssid; /* Scan parameters */ #define P2PAPI_SCAN_NPROBES 1 #define P2PAPI_SCAN_DWELL_TIME_MS 50 #define P2PAPI_SCAN_SOCIAL_DWELL_TIME_MS 40 #define P2PAPI_SCAN_HOME_TIME_MS 10 struct net_device *pri_dev = wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_PRIMARY); wl_set_p2p_status(wl, SCANNING); /* Allocate scan params which need space for 3 channels and 0 ssids */ eparams_size = (WL_SCAN_PARAMS_FIXED_SIZE + OFFSETOF(wl_escan_params_t, params)) + num_chans * sizeof(eparams->params.channel_list[0]); memsize = sizeof(wl_p2p_scan_t) + eparams_size; memblk = scanparambuf; if (memsize > sizeof(scanparambuf)) { CFGP2P_ERR((" scanpar buf too small (%u > %u)\n", memsize, sizeof(scanparambuf))); return -1; } memset(memblk, 0, memsize); memset(wl->ioctl_buf, 0, WLC_IOCTL_MAXLEN); if (search_state == WL_P2P_DISC_ST_SEARCH) { /* * If we in SEARCH STATE, we don't need to set SSID explictly * because dongle use P2P WILDCARD internally by default */ wl_cfgp2p_set_p2p_mode(wl, WL_P2P_DISC_ST_SEARCH, 0, 0, bssidx); ssid.SSID_len = htod32(0); } else if (search_state == WL_P2P_DISC_ST_SCAN) { /* SCAN STATE 802.11 SCAN * WFD Supplicant has p2p_find command with (type=progressive, type= full) * So if P2P_find command with type=progressive, * we have to set ssid to P2P WILDCARD because * we just do broadcast scan unless setting SSID */ strcpy(ssid.SSID, WL_P2P_WILDCARD_SSID); ssid.SSID_len = htod32(WL_P2P_WILDCARD_SSID_LEN); wl_cfgp2p_set_p2p_mode(wl, WL_P2P_DISC_ST_SCAN, 0, 0, bssidx); } /* Fill in the P2P scan structure at the start of the iovar param block */ p2p_params = (wl_p2p_scan_t*) memblk; p2p_params->type = 'E'; /* Fill in the Scan structure that follows the P2P scan structure */ eparams = (wl_escan_params_t*) (p2p_params + 1); eparams->params.bss_type = DOT11_BSSTYPE_ANY; if (active) eparams->params.scan_type = DOT11_SCANTYPE_ACTIVE; else eparams->params.scan_type = DOT11_SCANTYPE_PASSIVE; memcpy(&eparams->params.bssid, ðer_bcast, ETHER_ADDR_LEN); if (ssid.SSID_len) memcpy(&eparams->params.ssid, &ssid, sizeof(wlc_ssid_t)); eparams->params.nprobes = htod32(P2PAPI_SCAN_NPROBES); eparams->params.home_time = htod32(P2PAPI_SCAN_HOME_TIME_MS); if (wl_get_drv_status_all(wl, CONNECTED)) eparams->params.active_time = htod32(-1); else if (num_chans == 3) eparams->params.active_time = htod32(P2PAPI_SCAN_SOCIAL_DWELL_TIME_MS); else eparams->params.active_time = htod32(P2PAPI_SCAN_DWELL_TIME_MS); eparams->params.passive_time = htod32(-1); eparams->params.channel_num = htod32((0 << WL_SCAN_PARAMS_NSSID_SHIFT) | (num_chans & WL_SCAN_PARAMS_COUNT_MASK)); for (i = 0; i < num_chans; i++) { eparams->params.channel_list[i] = htodchanspec(channels[i]); } eparams->version = htod32(ESCAN_REQ_VERSION); eparams->action = htod16(action); eparams->sync_id = htod16(0x1234); CFGP2P_INFO(("SCAN CHANNELS : ")); for (i = 0; i < num_chans; i++) { if (i == 0) CFGP2P_INFO(("%d", channels[i])); else CFGP2P_INFO((",%d", channels[i])); } CFGP2P_INFO(("\n")); ret = wldev_iovar_setbuf_bsscfg(pri_dev, "p2p_scan", memblk, memsize, wl->ioctl_buf, WLC_IOCTL_MAXLEN, bssidx, &wl->ioctl_buf_sync); return ret; } /* search function to reach at common channel to send action frame * Parameters: * @wl : wl_private data * @ndev : net device for bssidx * @bssidx : bssidx for BSS * Returns 0 if success. */ s32 wl_cfgp2p_act_frm_search(struct wl_priv *wl, struct net_device *ndev, s32 bssidx, s32 channel) { s32 ret = 0; u32 chan_cnt = 0; u16 *default_chan_list = NULL; if (!p2p_is_on(wl)) return -BCME_ERROR; CFGP2P_ERR((" Enter\n")); if (bssidx == P2PAPI_BSSCFG_PRIMARY) bssidx = wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE); if (channel) chan_cnt = 1; else chan_cnt = SOCIAL_CHAN_CNT; default_chan_list = kzalloc(chan_cnt * sizeof(*default_chan_list), GFP_KERNEL); if (default_chan_list == NULL) { CFGP2P_ERR(("channel list allocation failed \n")); ret = -ENOMEM; goto exit; } if (channel) { default_chan_list[0] = channel; } else { default_chan_list[0] = SOCIAL_CHAN_1; default_chan_list[1] = SOCIAL_CHAN_2; default_chan_list[2] = SOCIAL_CHAN_3; } ret = wl_cfgp2p_escan(wl, ndev, true, SOCIAL_CHAN_CNT, default_chan_list, WL_P2P_DISC_ST_SEARCH, WL_SCAN_ACTION_START, bssidx); kfree(default_chan_list); exit: return ret; } /* Check whether pointed-to IE looks like WPA. */ #define wl_cfgp2p_is_wpa_ie(ie, tlvs, len) wl_cfgp2p_has_ie(ie, tlvs, len, \ (const uint8 *)WPS_OUI, WPS_OUI_LEN, WPA_OUI_TYPE) /* Check whether pointed-to IE looks like WPS. */ #define wl_cfgp2p_is_wps_ie(ie, tlvs, len) wl_cfgp2p_has_ie(ie, tlvs, len, \ (const uint8 *)WPS_OUI, WPS_OUI_LEN, WPS_OUI_TYPE) /* Check whether the given IE looks like WFA P2P IE. */ #define wl_cfgp2p_is_p2p_ie(ie, tlvs, len) wl_cfgp2p_has_ie(ie, tlvs, len, \ (const uint8 *)WFA_OUI, WFA_OUI_LEN, WFA_OUI_TYPE_P2P) /* Check whether the given IE looks like WFA WFDisplay IE. */ #define WFA_OUI_TYPE_WFD 0x0a /* WiFi Display OUI TYPE */ #define wl_cfgp2p_is_wfd_ie(ie, tlvs, len) wl_cfgp2p_has_ie(ie, tlvs, len, \ (const uint8 *)WFA_OUI, WFA_OUI_LEN, WFA_OUI_TYPE_WFD) /* Delete and Set a management vndr ie to firmware * Parameters: * @wl : wl_private data * @ndev : net device for bssidx * @bssidx : bssidx for BSS * @pktflag : packet flag for IE (VNDR_IE_PRBREQ_FLAG,VNDR_IE_PRBRSP_FLAG, VNDR_IE_ASSOCRSP_FLAG, * VNDR_IE_ASSOCREQ_FLAG) * @ie : VNDR IE (such as P2P IE , WPS IE) * @ie_len : VNDR IE Length * Returns 0 if success. */ s32 wl_cfgp2p_set_management_ie(struct wl_priv *wl, struct net_device *ndev, s32 bssidx, s32 pktflag, const u8 *vndr_ie, u32 vndr_ie_len) { /* Vendor-specific Information Element ID */ #define VNDR_SPEC_ELEMENT_ID 0xdd s32 ret = BCME_OK; u32 pos; u8 *ie_buf; u8 *mgmt_ie_buf = NULL; u32 mgmt_ie_buf_len = 0; u32 *mgmt_ie_len = 0; u8 ie_id, ie_len; u8 delete = 0; #define IE_TYPE(type, bsstype) (wl_to_p2p_bss_saved_ie(wl, bsstype).p2p_ ## type ## _ie) #define IE_TYPE_LEN(type, bsstype) (wl_to_p2p_bss_saved_ie(wl, bsstype).p2p_ ## type ## _ie_len) if (p2p_is_on(wl) && bssidx != -1) { if (bssidx == P2PAPI_BSSCFG_PRIMARY) bssidx = wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE); switch (pktflag) { case VNDR_IE_PRBREQ_FLAG : mgmt_ie_buf = IE_TYPE(probe_req, bssidx); mgmt_ie_len = &IE_TYPE_LEN(probe_req, bssidx); mgmt_ie_buf_len = sizeof(IE_TYPE(probe_req, bssidx)); break; case VNDR_IE_PRBRSP_FLAG : mgmt_ie_buf = IE_TYPE(probe_res, bssidx); mgmt_ie_len = &IE_TYPE_LEN(probe_res, bssidx); mgmt_ie_buf_len = sizeof(IE_TYPE(probe_res, bssidx)); break; case VNDR_IE_ASSOCREQ_FLAG : mgmt_ie_buf = IE_TYPE(assoc_req, bssidx); mgmt_ie_len = &IE_TYPE_LEN(assoc_req, bssidx); mgmt_ie_buf_len = sizeof(IE_TYPE(assoc_req, bssidx)); break; case VNDR_IE_ASSOCRSP_FLAG : mgmt_ie_buf = IE_TYPE(assoc_res, bssidx); mgmt_ie_len = &IE_TYPE_LEN(assoc_res, bssidx); mgmt_ie_buf_len = sizeof(IE_TYPE(assoc_res, bssidx)); break; case VNDR_IE_BEACON_FLAG : mgmt_ie_buf = IE_TYPE(beacon, bssidx); mgmt_ie_len = &IE_TYPE_LEN(beacon, bssidx); mgmt_ie_buf_len = sizeof(IE_TYPE(beacon, bssidx)); break; default: mgmt_ie_buf = NULL; mgmt_ie_len = NULL; CFGP2P_ERR(("not suitable type\n")); return -1; } } else if (wl_get_mode_by_netdev(wl, ndev) == WL_MODE_AP) { switch (pktflag) { case VNDR_IE_PRBRSP_FLAG : mgmt_ie_buf = wl->ap_info->probe_res_ie; mgmt_ie_len = &wl->ap_info->probe_res_ie_len; mgmt_ie_buf_len = sizeof(wl->ap_info->probe_res_ie); break; case VNDR_IE_BEACON_FLAG : mgmt_ie_buf = wl->ap_info->beacon_ie; mgmt_ie_len = &wl->ap_info->beacon_ie_len; mgmt_ie_buf_len = sizeof(wl->ap_info->beacon_ie); break; default: mgmt_ie_buf = NULL; mgmt_ie_len = NULL; CFGP2P_ERR(("not suitable type\n")); return -1; } bssidx = 0; } else if (bssidx == -1 && wl_get_mode_by_netdev(wl, ndev) == WL_MODE_BSS) { switch (pktflag) { case VNDR_IE_PRBREQ_FLAG : mgmt_ie_buf = wl->sta_info->probe_req_ie; mgmt_ie_len = &wl->sta_info->probe_req_ie_len; mgmt_ie_buf_len = sizeof(wl->sta_info->probe_req_ie); break; case VNDR_IE_ASSOCREQ_FLAG : mgmt_ie_buf = wl->sta_info->assoc_req_ie; mgmt_ie_len = &wl->sta_info->assoc_req_ie_len; mgmt_ie_buf_len = sizeof(wl->sta_info->assoc_req_ie); break; default: mgmt_ie_buf = NULL; mgmt_ie_len = NULL; CFGP2P_ERR(("not suitable type\n")); return -1; } bssidx = 0; } else { CFGP2P_ERR(("not suitable type\n")); return -1; } if (vndr_ie_len > mgmt_ie_buf_len) { CFGP2P_ERR(("extra IE size too big\n")); ret = -ENOMEM; } else { if (mgmt_ie_buf != NULL) { if (vndr_ie_len && (vndr_ie_len == *mgmt_ie_len) && (memcmp(mgmt_ie_buf, vndr_ie, vndr_ie_len) == 0)) { CFGP2P_INFO(("Previous mgmt IE is equals to current IE")); goto exit; } pos = 0; delete = 1; ie_buf = (u8 *) mgmt_ie_buf; while (pos < *mgmt_ie_len) { ie_id = ie_buf[pos++]; ie_len = ie_buf[pos++]; if ((ie_id == DOT11_MNG_VS_ID) && (wl_cfgp2p_is_wps_ie(&ie_buf[pos-2], NULL, 0) || wl_cfgp2p_is_p2p_ie(&ie_buf[pos-2], NULL, 0) || wl_cfgp2p_is_wfd_ie(&ie_buf[pos-2], NULL, 0))) { CFGP2P_INFO(("DELELED ID : %d, Len : %d , OUI :" "%02x:%02x:%02x\n", ie_id, ie_len, ie_buf[pos], ie_buf[pos+1], ie_buf[pos+2])); ret = wl_cfgp2p_vndr_ie(wl, ndev, bssidx, pktflag, ie_buf+pos, VNDR_SPEC_ELEMENT_ID, ie_buf+pos+3, ie_len-3, delete); } pos += ie_len; } } *mgmt_ie_len = 0; /* Add if there is any extra IE */ if (vndr_ie && vndr_ie_len) { /* save the current IE in wl struct */ memcpy(mgmt_ie_buf, vndr_ie, vndr_ie_len); *mgmt_ie_len = vndr_ie_len; pos = 0; ie_buf = (u8 *) vndr_ie; delete = 0; while (pos < vndr_ie_len) { ie_id = ie_buf[pos++]; ie_len = ie_buf[pos++]; if ((ie_id == DOT11_MNG_VS_ID) && (wl_cfgp2p_is_wps_ie(&ie_buf[pos-2], NULL, 0) || wl_cfgp2p_is_p2p_ie(&ie_buf[pos-2], NULL, 0) || wl_cfgp2p_is_wfd_ie(&ie_buf[pos-2], NULL, 0))) { CFGP2P_INFO(("ADDED ID : %d, Len : %d , OUI :" "%02x:%02x:%02x\n", ie_id, ie_len, ie_buf[pos], ie_buf[pos+1], ie_buf[pos+2])); ret = wl_cfgp2p_vndr_ie(wl, ndev, bssidx, pktflag, ie_buf+pos, VNDR_SPEC_ELEMENT_ID, ie_buf+pos+3, ie_len-3, delete); } pos += ie_len; } } } #undef IE_TYPE #undef IE_TYPE_LEN exit: return ret; } /* Clear the manament IE buffer of BSSCFG * Parameters: * @wl : wl_private data * @bssidx : bssidx for BSS * * Returns 0 if success. */ s32 wl_cfgp2p_clear_management_ie(struct wl_priv *wl, s32 bssidx) { #define INIT_IE(IE_TYPE, BSS_TYPE) \ do { \ memset(wl_to_p2p_bss_saved_ie(wl, BSS_TYPE).p2p_ ## IE_TYPE ## _ie, 0, \ sizeof(wl_to_p2p_bss_saved_ie(wl, BSS_TYPE).p2p_ ## IE_TYPE ## _ie)); \ wl_to_p2p_bss_saved_ie(wl, BSS_TYPE).p2p_ ## IE_TYPE ## _ie_len = 0; \ } while (0); if (bssidx < 0) { CFGP2P_ERR(("invalid bssidx\n")); return BCME_BADARG; } INIT_IE(probe_req, bssidx); INIT_IE(probe_res, bssidx); INIT_IE(assoc_req, bssidx); INIT_IE(assoc_res, bssidx); INIT_IE(beacon, bssidx); return BCME_OK; } /* Is any of the tlvs the expected entry? If * not update the tlvs buffer pointer/length. */ static bool wl_cfgp2p_has_ie(u8 *ie, u8 **tlvs, u32 *tlvs_len, const u8 *oui, u32 oui_len, u8 type) { /* If the contents match the OUI and the type */ if (ie[TLV_LEN_OFF] >= oui_len + 1 && !bcmp(&ie[TLV_BODY_OFF], oui, oui_len) && type == ie[TLV_BODY_OFF + oui_len]) { return TRUE; } if (tlvs == NULL) return FALSE; /* point to the next ie */ ie += ie[TLV_LEN_OFF] + TLV_HDR_LEN; /* calculate the length of the rest of the buffer */ *tlvs_len -= (int)(ie - *tlvs); /* update the pointer to the start of the buffer */ *tlvs = ie; return FALSE; } wpa_ie_fixed_t * wl_cfgp2p_find_wpaie(u8 *parse, u32 len) { bcm_tlv_t *ie; while ((ie = bcm_parse_tlvs(parse, (u32)len, DOT11_MNG_VS_ID))) { if (wl_cfgp2p_is_wpa_ie((u8*)ie, &parse, &len)) { return (wpa_ie_fixed_t *)ie; } } return NULL; } wpa_ie_fixed_t * wl_cfgp2p_find_wpsie(u8 *parse, u32 len) { bcm_tlv_t *ie; while ((ie = bcm_parse_tlvs(parse, (u32)len, DOT11_MNG_VS_ID))) { if (wl_cfgp2p_is_wps_ie((u8*)ie, &parse, &len)) { return (wpa_ie_fixed_t *)ie; } } return NULL; } wifi_p2p_ie_t * wl_cfgp2p_find_p2pie(u8 *parse, u32 len) { bcm_tlv_t *ie; while ((ie = bcm_parse_tlvs(parse, (int)len, DOT11_MNG_VS_ID))) { if (wl_cfgp2p_is_p2p_ie((uint8*)ie, &parse, &len)) { return (wifi_p2p_ie_t *)ie; } } return NULL; } wifi_wfd_ie_t * wl_cfgp2p_find_wfdie(u8 *parse, u32 len) { bcm_tlv_t *ie; while ((ie = bcm_parse_tlvs(parse, (int)len, DOT11_MNG_VS_ID))) { if (wl_cfgp2p_is_wfd_ie((uint8*)ie, &parse, &len)) { return (wifi_wfd_ie_t *)ie; } } return NULL; } static s32 wl_cfgp2p_vndr_ie(struct wl_priv *wl, struct net_device *ndev, s32 bssidx, s32 pktflag, s8 *oui, s32 ie_id, s8 *data, s32 data_len, s32 delete) { s32 err = BCME_OK; s32 buf_len; s32 iecount; vndr_ie_setbuf_t *ie_setbuf; /* Validate the pktflag parameter */ if ((pktflag & ~(VNDR_IE_BEACON_FLAG | VNDR_IE_PRBRSP_FLAG | VNDR_IE_ASSOCRSP_FLAG | VNDR_IE_AUTHRSP_FLAG | VNDR_IE_PRBREQ_FLAG | VNDR_IE_ASSOCREQ_FLAG))) { CFGP2P_ERR(("p2pwl_vndr_ie: Invalid packet flag 0x%x\n", pktflag)); return -1; } buf_len = sizeof(vndr_ie_setbuf_t) + data_len - 1; ie_setbuf = (vndr_ie_setbuf_t *) kzalloc(buf_len, GFP_KERNEL); CFGP2P_INFO((" ie_id : %02x, data length : %d\n", ie_id, data_len)); if (!ie_setbuf) { CFGP2P_ERR(("Error allocating buffer for IE\n")); return -ENOMEM; } if (delete) strcpy(ie_setbuf->cmd, "del"); else strcpy(ie_setbuf->cmd, "add"); /* Buffer contains only 1 IE */ iecount = htod32(1); memcpy((void *)&ie_setbuf->vndr_ie_buffer.iecount, &iecount, sizeof(int)); pktflag = htod32(pktflag); memcpy((void *)&ie_setbuf->vndr_ie_buffer.vndr_ie_list[0].pktflag, &pktflag, sizeof(uint32)); ie_setbuf->vndr_ie_buffer.vndr_ie_list[0].vndr_ie_data.id = ie_id; ie_setbuf->vndr_ie_buffer.vndr_ie_list[0].vndr_ie_data.len = (uchar)(data_len + VNDR_IE_MIN_LEN); memcpy(ie_setbuf->vndr_ie_buffer.vndr_ie_list[0].vndr_ie_data.oui, oui, 3); memcpy(ie_setbuf->vndr_ie_buffer.vndr_ie_list[0].vndr_ie_data.data, data, data_len); err = wldev_iovar_setbuf_bsscfg(ndev, "vndr_ie", ie_setbuf, buf_len, wl->ioctl_buf, WLC_IOCTL_MAXLEN, bssidx, &wl->ioctl_buf_sync); CFGP2P_INFO(("vndr_ie iovar returns %d\n", err)); kfree(ie_setbuf); return err; } /* * Search the bssidx based on dev argument * Parameters: * @wl : wl_private data * @ndev : net device to search bssidx * Returns bssidx for ndev */ s32 wl_cfgp2p_find_idx(struct wl_priv *wl, struct net_device *ndev) { u32 i; s32 index = -1; if (ndev == NULL) { CFGP2P_ERR((" ndev is NULL\n")); goto exit; } if (!wl->p2p_supported) { return P2PAPI_BSSCFG_PRIMARY; } for (i = 0; i < P2PAPI_BSSCFG_MAX; i++) { if (ndev == wl_to_p2p_bss_ndev(wl, i)) { index = wl_to_p2p_bss_bssidx(wl, i); break; } } if (index == -1) return P2PAPI_BSSCFG_PRIMARY; exit: return index; } /* * Callback function for WLC_E_P2P_DISC_LISTEN_COMPLETE */ s32 wl_cfgp2p_listen_complete(struct wl_priv *wl, struct net_device *ndev, const wl_event_msg_t *e, void *data) { s32 ret = BCME_OK; CFGP2P_DBG((" Enter\n")); if (wl_get_p2p_status(wl, LISTEN_EXPIRED) == 0) { wl_set_p2p_status(wl, LISTEN_EXPIRED); if (timer_pending(&wl->p2p->listen_timer)) { spin_lock_bh(&wl->p2p->timer_lock); del_timer_sync(&wl->p2p->listen_timer); spin_unlock_bh(&wl->p2p->timer_lock); } cfg80211_remain_on_channel_expired(ndev, wl->last_roc_id, &wl->remain_on_chan, wl->remain_on_chan_type, GFP_KERNEL); } else wl_clr_p2p_status(wl, LISTEN_EXPIRED); return ret; } /* * Timer expire callback function for LISTEN * We can't report cfg80211_remain_on_channel_expired from Timer ISR context, * so lets do it from thread context. */ static void wl_cfgp2p_listen_expired(unsigned long data) { wl_event_msg_t msg; struct wl_priv *wl = (struct wl_priv *) data; CFGP2P_DBG((" Enter\n")); msg.event_type = hton32(WLC_E_P2P_DISC_LISTEN_COMPLETE); wl_cfg80211_event(wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_DEVICE), &msg, NULL); } /* * Do a P2P Listen on the given channel for the given duration. * A listen consists of sitting idle and responding to P2P probe requests * with a P2P probe response. * * This fn assumes dongle p2p device discovery is already enabled. * Parameters : * @wl : wl_private data * @channel : channel to listen * @duration_ms : the time (milli seconds) to wait */ s32 wl_cfgp2p_discover_listen(struct wl_priv *wl, s32 channel, u32 duration_ms) { #define INIT_TIMER(timer, func, duration, extra_delay) \ do { \ init_timer(timer); \ timer->function = func; \ timer->expires = jiffies + msecs_to_jiffies(duration + extra_delay); \ timer->data = (unsigned long) wl; \ add_timer(timer); \ } while (0); s32 ret = BCME_OK; struct timer_list *_timer; CFGP2P_DBG((" Enter Channel : %d, Duration : %d\n", channel, duration_ms)); if (unlikely(wl_get_p2p_status(wl, DISCOVERY_ON) == 0)) { CFGP2P_ERR((" Discovery is not set, so we have noting to do\n")); ret = BCME_NOTREADY; goto exit; } if (timer_pending(&wl->p2p->listen_timer)) { CFGP2P_DBG(("previous LISTEN is not completed yet\n")); goto exit; } else wl_clr_p2p_status(wl, LISTEN_EXPIRED); wl_cfgp2p_set_p2p_mode(wl, WL_P2P_DISC_ST_LISTEN, channel, (u16) duration_ms, wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE)); _timer = &wl->p2p->listen_timer; /* We will wait to receive WLC_E_P2P_DISC_LISTEN_COMPLETE from dongle , * otherwise we will wait up to duration_ms + 200ms */ INIT_TIMER(_timer, wl_cfgp2p_listen_expired, duration_ms, 200); #undef INIT_TIMER exit: return ret; } s32 wl_cfgp2p_discover_enable_search(struct wl_priv *wl, u8 enable) { s32 ret = BCME_OK; CFGP2P_DBG((" Enter\n")); if (!wl_get_p2p_status(wl, DISCOVERY_ON)) { CFGP2P_DBG((" do nothing, discovery is off\n")); return ret; } if (wl_get_p2p_status(wl, SEARCH_ENABLED) == enable) { CFGP2P_DBG(("already : %d\n", enable)); return ret; } wl_chg_p2p_status(wl, SEARCH_ENABLED); /* When disabling Search, reset the WL driver's p2p discovery state to * WL_P2P_DISC_ST_SCAN. */ if (!enable) { wl_clr_p2p_status(wl, SCANNING); ret = wl_cfgp2p_set_p2p_mode(wl, WL_P2P_DISC_ST_SCAN, 0, 0, wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE)); } return ret; } /* * Callback function for WLC_E_ACTION_FRAME_COMPLETE, WLC_E_ACTION_FRAME_OFF_CHAN_COMPLETE */ s32 wl_cfgp2p_action_tx_complete(struct wl_priv *wl, struct net_device *ndev, const wl_event_msg_t *e, void *data) { s32 ret = BCME_OK; u32 event_type = ntoh32(e->event_type); u32 status = ntoh32(e->status); CFGP2P_DBG((" Enter\n")); if (event_type == WLC_E_ACTION_FRAME_COMPLETE) { CFGP2P_INFO((" WLC_E_ACTION_FRAME_COMPLETE is received : %d\n", status)); if (status == WLC_E_STATUS_SUCCESS) { wl_set_p2p_status(wl, ACTION_TX_COMPLETED); } else { wl_set_p2p_status(wl, ACTION_TX_NOACK); CFGP2P_ERR(("WLC_E_ACTION_FRAME_COMPLETE : NO ACK\n")); } } else { CFGP2P_INFO((" WLC_E_ACTION_FRAME_OFFCHAN_COMPLETE is received," "status : %d\n", status)); wake_up_interruptible(&wl->netif_change_event); } return ret; } /* Send an action frame immediately without doing channel synchronization. * * This function does not wait for a completion event before returning. * The WLC_E_ACTION_FRAME_COMPLETE event will be received when the action * frame is transmitted. * The WLC_E_ACTION_FRAME_OFF_CHAN_COMPLETE event will be received when an * 802.11 ack has been received for the sent action frame. */ s32 wl_cfgp2p_tx_action_frame(struct wl_priv *wl, struct net_device *dev, wl_af_params_t *af_params, s32 bssidx) { s32 ret = BCME_OK; s32 timeout = 0; CFGP2P_INFO(("\n")); CFGP2P_INFO(("channel : %u , dwell time : %u\n", af_params->channel, af_params->dwell_time)); wl_clr_p2p_status(wl, ACTION_TX_COMPLETED); wl_clr_p2p_status(wl, ACTION_TX_NOACK); #define MAX_WAIT_TIME 2000 if (bssidx == P2PAPI_BSSCFG_PRIMARY) bssidx = wl_to_p2p_bss_bssidx(wl, P2PAPI_BSSCFG_DEVICE); ret = wldev_iovar_setbuf_bsscfg(dev, "actframe", af_params, sizeof(*af_params), wl->ioctl_buf, WLC_IOCTL_MAXLEN, bssidx, &wl->ioctl_buf_sync); if (ret < 0) { CFGP2P_ERR((" sending action frame is failed\n")); goto exit; } timeout = wait_event_interruptible_timeout(wl->netif_change_event, (wl_get_p2p_status(wl, ACTION_TX_COMPLETED) || wl_get_p2p_status(wl, ACTION_TX_NOACK)), msecs_to_jiffies(MAX_WAIT_TIME)); if (timeout > 0 && wl_get_p2p_status(wl, ACTION_TX_COMPLETED)) { CFGP2P_INFO(("tx action frame operation is completed\n")); ret = BCME_OK; } else { ret = BCME_ERROR; CFGP2P_INFO(("tx action frame operation is failed\n")); } exit: CFGP2P_INFO((" via act frame iovar : status = %d\n", ret)); #undef MAX_WAIT_TIME return ret; } /* Generate our P2P Device Address and P2P Interface Address from our primary * MAC address. */ void wl_cfgp2p_generate_bss_mac(struct ether_addr *primary_addr, struct ether_addr *out_dev_addr, struct ether_addr *out_int_addr) { memset(out_dev_addr, 0, sizeof(*out_dev_addr)); memset(out_int_addr, 0, sizeof(*out_int_addr)); /* Generate the P2P Device Address. This consists of the device's * primary MAC address with the locally administered bit set. */ memcpy(out_dev_addr, primary_addr, sizeof(*out_dev_addr)); out_dev_addr->octet[0] |= 0x02; /* Generate the P2P Interface Address. If the discovery and connection * BSSCFGs need to simultaneously co-exist, then this address must be * different from the P2P Device Address. */ memcpy(out_int_addr, out_dev_addr, sizeof(*out_int_addr)); out_int_addr->octet[4] ^= 0x80; } /* P2P IF Address change to Virtual Interface MAC Address */ void wl_cfg80211_change_ifaddr(u8* buf, struct ether_addr *p2p_int_addr, u8 element_id) { wifi_p2p_ie_t *ie = (wifi_p2p_ie_t*) buf; u16 len = ie->len; u8 *subel; u8 subelt_id; u16 subelt_len; CFGP2P_DBG((" Enter\n")); /* Point subel to the P2P IE's subelt field. * Subtract the preceding fields (id, len, OUI, oui_type) from the length. */ subel = ie->subelts; len -= 4; /* exclude OUI + OUI_TYPE */ while (len >= 3) { /* attribute id */ subelt_id = *subel; subel += 1; len -= 1; /* 2-byte little endian */ subelt_len = *subel++; subelt_len |= *subel++ << 8; len -= 2; len -= subelt_len; /* for the remaining subelt fields */ if (subelt_id == element_id) { if (subelt_id == P2P_SEID_INTINTADDR) { memcpy(subel, p2p_int_addr->octet, ETHER_ADDR_LEN); CFGP2P_INFO(("Intended P2P Interface Address ATTR FOUND\n")); } else if (subelt_id == P2P_SEID_DEV_ID) { memcpy(subel, p2p_int_addr->octet, ETHER_ADDR_LEN); CFGP2P_INFO(("Device ID ATTR FOUND\n")); } else if (subelt_id == P2P_SEID_DEV_INFO) { memcpy(subel, p2p_int_addr->octet, ETHER_ADDR_LEN); CFGP2P_INFO(("Device INFO ATTR FOUND\n")); } else if (subelt_id == P2P_SEID_GROUP_ID) { memcpy(subel, p2p_int_addr->octet, ETHER_ADDR_LEN); CFGP2P_INFO(("GROUP ID ATTR FOUND\n")); } return; } else { CFGP2P_DBG(("OTHER id : %d\n", subelt_id)); } subel += subelt_len; } } /* * Check if a BSS is up. * This is a common implementation called by most OSL implementations of * p2posl_bss_isup(). DO NOT call this function directly from the * common code -- call p2posl_bss_isup() instead to allow the OSL to * override the common implementation if necessary. */ bool wl_cfgp2p_bss_isup(struct net_device *ndev, int bsscfg_idx) { s32 result, val; bool isup = false; s8 getbuf[64]; /* Check if the BSS is up */ *(int*)getbuf = -1; result = wldev_iovar_getbuf_bsscfg(ndev, "bss", &bsscfg_idx, sizeof(bsscfg_idx), getbuf, sizeof(getbuf), 0, NULL); if (result != 0) { CFGP2P_ERR(("'wl bss -C %d' failed: %d\n", bsscfg_idx, result)); CFGP2P_ERR(("NOTE: this ioctl error is normal " "when the BSS has not been created yet.\n")); } else { val = *(int*)getbuf; val = dtoh32(val); CFGP2P_INFO(("---wl bss -C %d ==> %d\n", bsscfg_idx, val)); isup = (val ? TRUE : FALSE); } return isup; } /* Bring up or down a BSS */ s32 wl_cfgp2p_bss(struct wl_priv *wl, struct net_device *ndev, s32 bsscfg_idx, s32 up) { s32 ret = BCME_OK; s32 val = up ? 1 : 0; struct { s32 cfg; s32 val; } bss_setbuf; bss_setbuf.cfg = htod32(bsscfg_idx); bss_setbuf.val = htod32(val); CFGP2P_INFO(("---wl bss -C %d %s\n", bsscfg_idx, up ? "up" : "down")); ret = wldev_iovar_setbuf(ndev, "bss", &bss_setbuf, sizeof(bss_setbuf), wl->ioctl_buf, WLC_IOCTL_MAXLEN, &wl->ioctl_buf_sync); if (ret != 0) { CFGP2P_ERR(("'bss %d' failed with %d\n", up, ret)); } return ret; } /* Check if 'p2p' is supported in the driver */ s32 wl_cfgp2p_supported(struct wl_priv *wl, struct net_device *ndev) { s32 ret = BCME_OK; s32 p2p_supported = 0; ret = wldev_iovar_getint(ndev, "p2p", &p2p_supported); if (ret < 0) { CFGP2P_ERR(("wl p2p error %d\n", ret)); return 0; } if (p2p_supported == 1) { CFGP2P_INFO(("p2p is supported\n")); } else { CFGP2P_INFO(("p2p is unsupported\n")); p2p_supported = 0; } return p2p_supported; } /* Cleanup P2P resources */ s32 wl_cfgp2p_down(struct wl_priv *wl) { if (timer_pending(&wl->p2p->listen_timer)) del_timer_sync(&wl->p2p->listen_timer); wl_cfgp2p_deinit_priv(wl); return 0; } s32 wl_cfgp2p_set_p2p_noa(struct wl_priv *wl, struct net_device *ndev, char* buf, int len) { s32 ret = -1; int count, start, duration; wl_p2p_sched_t dongle_noa; CFGP2P_DBG((" Enter\n")); memset(&dongle_noa, 0, sizeof(dongle_noa)); if (wl->p2p && wl->p2p->vif_created) { wl->p2p->noa.desc[0].start = 0; sscanf(buf, "%d %d %d", &count, &start, &duration); CFGP2P_DBG(("set_p2p_noa count %d start %d duration %d\n", count, start, duration)); if (count != -1) wl->p2p->noa.desc[0].count = count; /* supplicant gives interval as start */ if (start != -1) wl->p2p->noa.desc[0].interval = start; if (duration != -1) wl->p2p->noa.desc[0].duration = duration; if (wl->p2p->noa.desc[0].count != 255) { wl->p2p->noa.desc[0].start = 200; dongle_noa.type = WL_P2P_SCHED_TYPE_REQ_ABS; dongle_noa.action = WL_P2P_SCHED_ACTION_GOOFF; dongle_noa.option = WL_P2P_SCHED_OPTION_TSFOFS; } else { /* Continuous NoA interval. */ dongle_noa.action = WL_P2P_SCHED_ACTION_NONE; dongle_noa.type = WL_P2P_SCHED_TYPE_ABS; if ((wl->p2p->noa.desc[0].interval == 102) || (wl->p2p->noa.desc[0].interval == 100)) { wl->p2p->noa.desc[0].start = 100 - wl->p2p->noa.desc[0].duration; dongle_noa.option = WL_P2P_SCHED_OPTION_BCNPCT; } else { dongle_noa.option = WL_P2P_SCHED_OPTION_NORMAL; } } /* Put the noa descriptor in dongle format for dongle */ dongle_noa.desc[0].count = htod32(wl->p2p->noa.desc[0].count); if (dongle_noa.option == WL_P2P_SCHED_OPTION_BCNPCT) { dongle_noa.desc[0].start = htod32(wl->p2p->noa.desc[0].start); dongle_noa.desc[0].duration = htod32(wl->p2p->noa.desc[0].duration); } else { dongle_noa.desc[0].start = htod32(wl->p2p->noa.desc[0].start*1000); dongle_noa.desc[0].duration = htod32(wl->p2p->noa.desc[0].duration*1000); } dongle_noa.desc[0].interval = htod32(wl->p2p->noa.desc[0].interval*1000); ret = wldev_iovar_setbuf(wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_CONNECTION), "p2p_noa", &dongle_noa, sizeof(dongle_noa), wl->ioctl_buf, WLC_IOCTL_MAXLEN, &wl->ioctl_buf_sync); if (ret < 0) { CFGP2P_ERR(("fw set p2p_noa failed %d\n", ret)); } } else { CFGP2P_ERR(("ERROR: set_noa in non-p2p mode\n")); } return ret; } s32 wl_cfgp2p_get_p2p_noa(struct wl_priv *wl, struct net_device *ndev, char* buf, int buf_len) { wifi_p2p_noa_desc_t *noa_desc; int len = 0, i; char _buf[200]; CFGP2P_DBG((" Enter\n")); buf[0] = '\0'; if (wl->p2p && wl->p2p->vif_created) { if (wl->p2p->noa.desc[0].count || wl->p2p->ops.ops) { _buf[0] = 1; /* noa index */ _buf[1] = (wl->p2p->ops.ops ? 0x80: 0) | (wl->p2p->ops.ctw & 0x7f); /* ops + ctw */ len += 2; if (wl->p2p->noa.desc[0].count) { noa_desc = (wifi_p2p_noa_desc_t*)&_buf[len]; noa_desc->cnt_type = wl->p2p->noa.desc[0].count; noa_desc->duration = wl->p2p->noa.desc[0].duration; noa_desc->interval = wl->p2p->noa.desc[0].interval; noa_desc->start = wl->p2p->noa.desc[0].start; len += sizeof(wifi_p2p_noa_desc_t); } if (buf_len <= len * 2) { CFGP2P_ERR(("ERROR: buf_len %d in not enough for" "returning noa in string format\n", buf_len)); return -1; } /* We have to convert the buffer data into ASCII strings */ for (i = 0; i < len; i++) { sprintf(buf, "%02x", _buf[i]); buf += 2; } buf[i*2] = '\0'; } } else { CFGP2P_ERR(("ERROR: get_noa in non-p2p mode\n")); return -1; } return len * 2; } s32 wl_cfgp2p_set_p2p_ps(struct wl_priv *wl, struct net_device *ndev, char* buf, int len) { int ps, ctw; int ret = -1; s32 legacy_ps; CFGP2P_DBG((" Enter\n")); if (wl->p2p && wl->p2p->vif_created) { sscanf(buf, "%d %d %d", &legacy_ps, &ps, &ctw); CFGP2P_DBG((" Enter legacy_ps %d ps %d ctw %d\n", legacy_ps, ps, ctw)); if (ctw != -1) { wl->p2p->ops.ctw = ctw; ret = 0; } if (ps != -1) { wl->p2p->ops.ops = ps; ret = wldev_iovar_setbuf(wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_CONNECTION), "p2p_ops", &wl->p2p->ops, sizeof(wl->p2p->ops), wl->ioctl_buf, WLC_IOCTL_MAXLEN, &wl->ioctl_buf_sync); if (ret < 0) { CFGP2P_ERR(("fw set p2p_ops failed %d\n", ret)); } } if ((legacy_ps != -1) && ((legacy_ps == PM_MAX) || (legacy_ps == PM_OFF))) { ret = wldev_ioctl(wl_to_p2p_bss_ndev(wl, P2PAPI_BSSCFG_CONNECTION), WLC_SET_PM, &legacy_ps, sizeof(legacy_ps), true); if (unlikely(ret)) { CFGP2P_ERR(("error (%d)\n", ret)); } } else CFGP2P_ERR(("ilegal setting\n")); } else { CFGP2P_ERR(("ERROR: set_p2p_ps in non-p2p mode\n")); ret = -1; } return ret; } u8 * wl_cfgp2p_retreive_p2pattrib(void *buf, u8 element_id) { wifi_p2p_ie_t *ie = NULL; u16 len = 0; u8 *subel; u8 subelt_id; u16 subelt_len; if (!buf) { WL_ERR(("P2P IE not present")); return 0; } ie = (wifi_p2p_ie_t*) buf; len = ie->len; /* Point subel to the P2P IE's subelt field. * Subtract the preceding fields (id, len, OUI, oui_type) from the length. */ subel = ie->subelts; len -= 4; /* exclude OUI + OUI_TYPE */ while (len >= 3) { /* attribute id */ subelt_id = *subel; subel += 1; len -= 1; /* 2-byte little endian */ subelt_len = *subel++; subelt_len |= *subel++ << 8; len -= 2; len -= subelt_len; /* for the remaining subelt fields */ if (subelt_id == element_id) { /* This will point to start of subelement attrib after * attribute id & len */ return subel; } /* Go to next subelement */ subel += subelt_len; } /* Not Found */ return NULL; } #define P2P_GROUP_CAPAB_GO_BIT 0x01 u8 * wl_cfgp2p_retreive_p2p_dev_addr(wl_bss_info_t *bi, u32 bi_length) { wifi_p2p_ie_t * p2p_ie = NULL; u8 *capability = NULL; bool p2p_go = 0; u8 *ptr = NULL; if (!(p2p_ie = wl_cfgp2p_find_p2pie(((u8 *) bi) + bi->ie_offset, bi->ie_length))) { WL_ERR(("P2P IE not found")); return NULL; } if (!(capability = wl_cfgp2p_retreive_p2pattrib(p2p_ie, P2P_SEID_P2P_INFO))) { WL_ERR(("P2P Capability attribute not found")); return NULL; } /* Check Group capability for Group Owner bit */ p2p_go = capability[1] & P2P_GROUP_CAPAB_GO_BIT; if (!p2p_go) { return bi->BSSID.octet; } /* In probe responses, DEVICE INFO attribute will be present */ if (!(ptr = wl_cfgp2p_retreive_p2pattrib(p2p_ie, P2P_SEID_DEV_INFO))) { /* If DEVICE_INFO is not found, this might be a beacon frame. * check for DEVICE_ID in the beacon frame. */ ptr = wl_cfgp2p_retreive_p2pattrib(p2p_ie, P2P_SEID_DEV_ID); } if (!ptr) WL_ERR((" Both DEVICE_ID & DEVICE_INFO attribute not present in P2P IE ")); return ptr; } s32 wl_cfgp2p_register_ndev(struct wl_priv *wl) { int ret = 0; struct net_device* net = NULL; struct wireless_dev *wdev; uint8 temp_addr[ETHER_ADDR_LEN] = { 0x00, 0x90, 0x4c, 0x33, 0x22, 0x11 }; /* Allocate etherdev, including space for private structure */ if (!(net = alloc_etherdev(sizeof(wl)))) { CFGP2P_ERR(("%s: OOM - alloc_etherdev\n", __FUNCTION__)); goto fail; } strcpy(net->name, "p2p%d"); net->name[IFNAMSIZ - 1] = '\0'; /* Copy the reference to wl_priv */ memcpy((void *)netdev_priv(net), &wl, sizeof(wl)); #if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 31)) ASSERT(!net->open); net->do_ioctl = wl_cfgp2p_do_ioctl; net->hard_start_xmit = wl_cfgp2p_start_xmit; net->open = wl_cfgp2p_if_open; net->stop = wl_cfgp2p_if_stop; #else ASSERT(!net->netdev_ops); net->netdev_ops = &wl_cfgp2p_if_ops; #endif /* Register with a dummy MAC addr */ memcpy(net->dev_addr, temp_addr, ETHER_ADDR_LEN); wdev = kzalloc(sizeof(*wdev), GFP_KERNEL); if (unlikely(!wdev)) { WL_ERR(("Could not allocate wireless device\n")); return -ENOMEM; } wdev->wiphy = wl->wdev->wiphy; wdev->iftype = wl_mode_to_nl80211_iftype(WL_MODE_BSS); net->ieee80211_ptr = wdev; SET_NETDEV_DEV(net, wiphy_dev(wdev->wiphy)); /* Associate p2p0 network interface with new wdev */ wdev->netdev = net; /* store p2p net ptr for further reference. Note that iflist won't have this * entry as there corresponding firmware interface is a "Hidden" interface. */ if (wl->p2p_net) { CFGP2P_ERR(("p2p_net defined already.\n")); return -EINVAL; } else { wl->p2p_wdev = wdev; wl->p2p_net = net; } ret = register_netdev(net); if (ret) { CFGP2P_ERR((" register_netdevice failed (%d)\n", ret)); goto fail; } printk("%s: P2P Interface Registered\n", net->name); return ret; fail: #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 31) net->open = NULL; #else net->netdev_ops = NULL; #endif if (net) { unregister_netdev(net); free_netdev(net); } return -ENODEV; } s32 wl_cfgp2p_unregister_ndev(struct wl_priv *wl) { if (!wl || !wl->p2p_net) { CFGP2P_ERR(("Invalid Ptr\n")); return -EINVAL; } unregister_netdev(wl->p2p_net); free_netdev(wl->p2p_net); return 0; } static int wl_cfgp2p_start_xmit(struct sk_buff *skb, struct net_device *ndev) { CFGP2P_DBG(("(%s) is not used for data operations. Droping the packet. \n", ndev->name)); return 0; } static int wl_cfgp2p_do_ioctl(struct net_device *net, struct ifreq *ifr, int cmd) { int ret = 0; struct wl_priv *wl = *(struct wl_priv **)netdev_priv(net); struct net_device *ndev = wl_to_prmry_ndev(wl); /* There is no ifidx corresponding to p2p0 in our firmware. So we should * not Handle any IOCTL cmds on p2p0 other than ANDROID PRIVATE CMDs. * For Android PRIV CMD handling map it to primary I/F */ if (cmd == SIOCDEVPRIVATE+1) { #if defined(OEM_ANROID) ret = wl_android_priv_cmd(ndev, ifr, cmd); #else (void)ndev; #endif } else { CFGP2P_ERR(("%s: IOCTL req 0x%x on p2p0 I/F. Ignoring. \n", __FUNCTION__, cmd)); return -1; } return ret; } static int wl_cfgp2p_if_open(struct net_device *net) { CFGP2P_DBG(("Do Nothing \n")); return 0; } static int wl_cfgp2p_if_stop(struct net_device *net) { CFGP2P_DBG(("Do Nothing \n")); return 0; }