/* * Wi-Fi Direct - P2P Group Owner Negotiation * Copyright (c) 2009-2010, Atheros Communications * * This software may be distributed under the terms of the BSD license. * See README for more details. */ #include "includes.h" #include "common.h" #include "utils/eloop.h" #include "common/ieee802_11_defs.h" #include "common/ieee802_11_common.h" #include "common/wpa_ctrl.h" #include "wps/wps_defs.h" #include "p2p_i.h" #include "p2p.h" static int p2p_go_det(u8 own_intent, u8 peer_value) { u8 peer_intent = peer_value >> 1; if (own_intent == peer_intent) { if (own_intent == P2P_MAX_GO_INTENT) return -1; /* both devices want to become GO */ /* Use tie breaker bit to determine GO */ return (peer_value & 0x01) ? 0 : 1; } return own_intent > peer_intent; } int p2p_peer_channels_check(struct p2p_data *p2p, struct p2p_channels *own, struct p2p_device *dev, const u8 *channel_list, size_t channel_list_len) { const u8 *pos, *end; struct p2p_channels *ch; u8 channels; struct p2p_channels intersection; ch = &dev->channels; os_memset(ch, 0, sizeof(*ch)); pos = channel_list; end = channel_list + channel_list_len; if (end - pos < 3) return -1; os_memcpy(dev->country, pos, 3); wpa_hexdump_ascii(MSG_DEBUG, "P2P: Peer country", pos, 3); if (pos[2] != 0x04 && os_memcmp(pos, p2p->cfg->country, 2) != 0) { p2p_info(p2p, "Mismatching country (ours=%c%c peer's=%c%c)", p2p->cfg->country[0], p2p->cfg->country[1], pos[0], pos[1]); return -1; } pos += 3; while (end - pos > 2) { struct p2p_reg_class *cl = &ch->reg_class[ch->reg_classes]; cl->reg_class = *pos++; channels = *pos++; if (channels > end - pos) { p2p_info(p2p, "Invalid peer Channel List"); return -1; } cl->channels = channels > P2P_MAX_REG_CLASS_CHANNELS ? P2P_MAX_REG_CLASS_CHANNELS : channels; os_memcpy(cl->channel, pos, cl->channels); pos += channels; ch->reg_classes++; if (ch->reg_classes == P2P_MAX_REG_CLASSES) break; } p2p_channels_intersect(own, &dev->channels, &intersection); p2p_dbg(p2p, "Own reg_classes %d peer reg_classes %d intersection reg_classes %d", (int) own->reg_classes, (int) dev->channels.reg_classes, (int) intersection.reg_classes); if (intersection.reg_classes == 0) { p2p_info(p2p, "No common channels found"); return -1; } return 0; } static int p2p_peer_channels(struct p2p_data *p2p, struct p2p_device *dev, const u8 *channel_list, size_t channel_list_len) { return p2p_peer_channels_check(p2p, &p2p->channels, dev, channel_list, channel_list_len); } u16 p2p_wps_method_pw_id(enum p2p_wps_method wps_method) { switch (wps_method) { case WPS_PIN_DISPLAY: return DEV_PW_REGISTRAR_SPECIFIED; case WPS_PIN_KEYPAD: return DEV_PW_USER_SPECIFIED; case WPS_PBC: return DEV_PW_PUSHBUTTON; case WPS_NFC: return DEV_PW_NFC_CONNECTION_HANDOVER; case WPS_P2PS: return DEV_PW_P2PS_DEFAULT; default: return DEV_PW_DEFAULT; } } static const char * p2p_wps_method_str(enum p2p_wps_method wps_method) { switch (wps_method) { case WPS_PIN_DISPLAY: return "Display"; case WPS_PIN_KEYPAD: return "Keypad"; case WPS_PBC: return "PBC"; case WPS_NFC: return "NFC"; case WPS_P2PS: return "P2PS"; default: return "??"; } } static struct wpabuf * p2p_build_go_neg_req(struct p2p_data *p2p, struct p2p_device *peer) { struct wpabuf *buf; u8 *len; u8 group_capab; size_t extra = 0; u16 pw_id; bool is_6ghz_capab; #ifdef CONFIG_WIFI_DISPLAY if (p2p->wfd_ie_go_neg) extra = wpabuf_len(p2p->wfd_ie_go_neg); #endif /* CONFIG_WIFI_DISPLAY */ if (p2p->vendor_elem && p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_REQ]) extra += wpabuf_len(p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_REQ]); buf = wpabuf_alloc(1000 + extra); if (buf == NULL) return NULL; p2p_buf_add_public_action_hdr(buf, P2P_GO_NEG_REQ, peer->dialog_token); len = p2p_buf_add_ie_hdr(buf); group_capab = 0; if (peer->flags & P2P_DEV_PREFER_PERSISTENT_GROUP) { group_capab |= P2P_GROUP_CAPAB_PERSISTENT_GROUP; if (peer->flags & P2P_DEV_PREFER_PERSISTENT_RECONN) group_capab |= P2P_GROUP_CAPAB_PERSISTENT_RECONN; } if (p2p->cross_connect) group_capab |= P2P_GROUP_CAPAB_CROSS_CONN; if (p2p->cfg->p2p_intra_bss) group_capab |= P2P_GROUP_CAPAB_INTRA_BSS_DIST; p2p_buf_add_capability(buf, p2p->dev_capab & ~P2P_DEV_CAPAB_CLIENT_DISCOVERABILITY, group_capab); p2p_buf_add_go_intent(buf, (p2p->go_intent << 1) | peer->tie_breaker); p2p_buf_add_config_timeout(buf, p2p->go_timeout, p2p->client_timeout); p2p_buf_add_listen_channel(buf, p2p->cfg->country, p2p->cfg->reg_class, p2p->cfg->channel); if (p2p->ext_listen_interval) p2p_buf_add_ext_listen_timing(buf, p2p->ext_listen_period, p2p->ext_listen_interval); p2p_buf_add_intended_addr(buf, p2p->intended_addr); is_6ghz_capab = is_p2p_6ghz_capable(p2p) && p2p_is_peer_6ghz_capab(p2p, peer->info.p2p_device_addr); if (p2p->num_pref_freq) { bool go = p2p->go_intent == 15; struct p2p_channels pref_chanlist; p2p_pref_channel_filter(&p2p->channels, p2p->pref_freq_list, p2p->num_pref_freq, &pref_chanlist, go); p2p_channels_dump(p2p, "channel list after filtering", &pref_chanlist); p2p_buf_add_channel_list(buf, p2p->cfg->country, &pref_chanlist, is_6ghz_capab); } else { p2p_buf_add_channel_list(buf, p2p->cfg->country, &p2p->channels, is_6ghz_capab); } p2p_buf_add_device_info(buf, p2p, peer); p2p_buf_add_operating_channel(buf, p2p->cfg->country, p2p->op_reg_class, p2p->op_channel); p2p_buf_update_ie_hdr(buf, len); p2p_buf_add_pref_channel_list(buf, p2p->pref_freq_list, p2p->num_pref_freq); /* WPS IE with Device Password ID attribute */ pw_id = p2p_wps_method_pw_id(peer->wps_method); if (peer->oob_pw_id) pw_id = peer->oob_pw_id; if (p2p_build_wps_ie(p2p, buf, pw_id, 0) < 0) { p2p_dbg(p2p, "Failed to build WPS IE for GO Negotiation Request"); wpabuf_free(buf); return NULL; } #ifdef CONFIG_WIFI_DISPLAY if (p2p->wfd_ie_go_neg) wpabuf_put_buf(buf, p2p->wfd_ie_go_neg); #endif /* CONFIG_WIFI_DISPLAY */ if (p2p->vendor_elem && p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_REQ]) wpabuf_put_buf(buf, p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_REQ]); return buf; } int p2p_connect_send(struct p2p_data *p2p, struct p2p_device *dev) { struct wpabuf *req; int freq; if (dev->flags & P2P_DEV_PD_BEFORE_GO_NEG) { u16 config_method; p2p_dbg(p2p, "Use PD-before-GO-Neg workaround for " MACSTR, MAC2STR(dev->info.p2p_device_addr)); if (dev->wps_method == WPS_PIN_DISPLAY) config_method = WPS_CONFIG_KEYPAD; else if (dev->wps_method == WPS_PIN_KEYPAD) config_method = WPS_CONFIG_DISPLAY; else if (dev->wps_method == WPS_PBC) config_method = WPS_CONFIG_PUSHBUTTON; else if (dev->wps_method == WPS_P2PS) config_method = WPS_CONFIG_P2PS; else return -1; return p2p_prov_disc_req(p2p, dev->info.p2p_device_addr, NULL, config_method, 0, 0, 1); } freq = dev->listen_freq > 0 ? dev->listen_freq : dev->oper_freq; if (dev->oob_go_neg_freq > 0) freq = dev->oob_go_neg_freq; if (freq <= 0) { p2p_dbg(p2p, "No Listen/Operating frequency known for the peer " MACSTR " to send GO Negotiation Request", MAC2STR(dev->info.p2p_device_addr)); return -1; } req = p2p_build_go_neg_req(p2p, dev); if (req == NULL) return -1; p2p_dbg(p2p, "Sending GO Negotiation Request"); p2p_set_state(p2p, P2P_CONNECT); p2p->pending_action_state = P2P_PENDING_GO_NEG_REQUEST; p2p->go_neg_peer = dev; eloop_cancel_timeout(p2p_go_neg_wait_timeout, p2p, NULL); dev->flags |= P2P_DEV_WAIT_GO_NEG_RESPONSE; dev->connect_reqs++; if (p2p_send_action(p2p, freq, dev->info.p2p_device_addr, p2p->cfg->dev_addr, dev->info.p2p_device_addr, wpabuf_head(req), wpabuf_len(req), 500) < 0) { p2p_dbg(p2p, "Failed to send Action frame"); /* Use P2P find to recover and retry */ p2p_set_timeout(p2p, 0, 0); } else dev->go_neg_req_sent++; wpabuf_free(req); return 0; } static struct wpabuf * p2p_build_go_neg_resp(struct p2p_data *p2p, struct p2p_device *peer, u8 dialog_token, u8 status, u8 tie_breaker) { struct wpabuf *buf; u8 *len; u8 group_capab; size_t extra = 0; u16 pw_id; bool is_6ghz_capab; struct p2p_channels pref_chanlist; p2p_dbg(p2p, "Building GO Negotiation Response"); #ifdef CONFIG_WIFI_DISPLAY if (p2p->wfd_ie_go_neg) extra = wpabuf_len(p2p->wfd_ie_go_neg); #endif /* CONFIG_WIFI_DISPLAY */ if (p2p->vendor_elem && p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_RESP]) extra += wpabuf_len(p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_RESP]); buf = wpabuf_alloc(1000 + extra); if (buf == NULL) return NULL; p2p_buf_add_public_action_hdr(buf, P2P_GO_NEG_RESP, dialog_token); len = p2p_buf_add_ie_hdr(buf); p2p_buf_add_status(buf, status); group_capab = 0; if (peer && peer->go_state == LOCAL_GO) { if (peer->flags & P2P_DEV_PREFER_PERSISTENT_GROUP) { group_capab |= P2P_GROUP_CAPAB_PERSISTENT_GROUP; if (peer->flags & P2P_DEV_PREFER_PERSISTENT_RECONN) group_capab |= P2P_GROUP_CAPAB_PERSISTENT_RECONN; } if (p2p->cross_connect) group_capab |= P2P_GROUP_CAPAB_CROSS_CONN; if (p2p->cfg->p2p_intra_bss) group_capab |= P2P_GROUP_CAPAB_INTRA_BSS_DIST; } p2p_buf_add_capability(buf, p2p->dev_capab & ~P2P_DEV_CAPAB_CLIENT_DISCOVERABILITY, group_capab); p2p_buf_add_go_intent(buf, (p2p->go_intent << 1) | tie_breaker); p2p_buf_add_config_timeout(buf, p2p->go_timeout, p2p->client_timeout); if (p2p->override_pref_op_class) { p2p_dbg(p2p, "Override operating channel preference"); p2p_buf_add_operating_channel(buf, p2p->cfg->country, p2p->override_pref_op_class, p2p->override_pref_channel); } else if (peer && peer->go_state == REMOTE_GO && !p2p->num_pref_freq) { p2p_dbg(p2p, "Omit Operating Channel attribute"); } else { p2p_buf_add_operating_channel(buf, p2p->cfg->country, p2p->op_reg_class, p2p->op_channel); } p2p_buf_add_intended_addr(buf, p2p->intended_addr); if (p2p->num_pref_freq) { bool go = (peer && peer->go_state == LOCAL_GO) || p2p->go_intent == 15; p2p_pref_channel_filter(&p2p->channels, p2p->pref_freq_list, p2p->num_pref_freq, &pref_chanlist, go); p2p_channels_dump(p2p, "channel list after filtering", &pref_chanlist); } else { p2p_copy_channels(&pref_chanlist, &p2p->channels, p2p->allow_6ghz); } if (status || peer == NULL) { p2p_buf_add_channel_list(buf, p2p->cfg->country, &pref_chanlist, false); } else if (peer->go_state == REMOTE_GO) { is_6ghz_capab = is_p2p_6ghz_capable(p2p) && p2p_is_peer_6ghz_capab(p2p, peer->info.p2p_device_addr); p2p_buf_add_channel_list(buf, p2p->cfg->country, &pref_chanlist, is_6ghz_capab); } else { struct p2p_channels res; is_6ghz_capab = is_p2p_6ghz_capable(p2p) && p2p_is_peer_6ghz_capab(p2p, peer->info.p2p_device_addr); p2p_channels_intersect(&pref_chanlist, &peer->channels, &res); p2p_buf_add_channel_list(buf, p2p->cfg->country, &res, is_6ghz_capab); } p2p_buf_add_device_info(buf, p2p, peer); if (peer && peer->go_state == LOCAL_GO) { p2p_buf_add_group_id(buf, p2p->cfg->dev_addr, p2p->ssid, p2p->ssid_len); } p2p_buf_update_ie_hdr(buf, len); /* WPS IE with Device Password ID attribute */ pw_id = p2p_wps_method_pw_id(peer ? peer->wps_method : WPS_NOT_READY); if (peer && peer->oob_pw_id) pw_id = peer->oob_pw_id; if (p2p_build_wps_ie(p2p, buf, pw_id, 0) < 0) { p2p_dbg(p2p, "Failed to build WPS IE for GO Negotiation Response"); wpabuf_free(buf); return NULL; } #ifdef CONFIG_WIFI_DISPLAY if (p2p->wfd_ie_go_neg) wpabuf_put_buf(buf, p2p->wfd_ie_go_neg); #endif /* CONFIG_WIFI_DISPLAY */ if (p2p->vendor_elem && p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_RESP]) wpabuf_put_buf(buf, p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_RESP]); return buf; } /** * p2p_reselect_channel - Re-select operating channel based on peer information * @p2p: P2P module context from p2p_init() * @intersection: Support channel list intersection from local and peer * * This function is used to re-select the best channel after having received * information from the peer to allow supported channel lists to be intersected. * This can be used to improve initial channel selection done in * p2p_prepare_channel() prior to the start of GO Negotiation. In addition, this * can be used for Invitation case. */ void p2p_reselect_channel(struct p2p_data *p2p, struct p2p_channels *intersection) { struct p2p_reg_class *cl; int freq; u8 op_reg_class, op_channel; unsigned int i; const int op_classes_5ghz[] = { 124, 125, 115, 0 }; const int op_classes_ht40[] = { 126, 127, 116, 117, 0 }; const int op_classes_vht[] = { 128, 129, 130, 0 }; const int op_classes_edmg[] = { 181, 182, 183, 0 }; if (p2p->own_freq_preference > 0 && p2p_freq_to_channel(p2p->own_freq_preference, &op_reg_class, &op_channel) == 0 && p2p_channels_includes(intersection, op_reg_class, op_channel)) { p2p_dbg(p2p, "Pick own channel preference (reg_class %u channel %u) from intersection", op_reg_class, op_channel); p2p->op_reg_class = op_reg_class; p2p->op_channel = op_channel; return; } if (p2p->best_freq_overall > 0 && p2p_freq_to_channel(p2p->best_freq_overall, &op_reg_class, &op_channel) == 0 && p2p_channels_includes(intersection, op_reg_class, op_channel)) { p2p_dbg(p2p, "Pick best overall channel (reg_class %u channel %u) from intersection", op_reg_class, op_channel); p2p->op_reg_class = op_reg_class; p2p->op_channel = op_channel; return; } /* First, try to pick the best channel from another band */ freq = p2p_channel_to_freq(p2p->op_reg_class, p2p->op_channel); if (freq >= 2400 && freq < 2500 && p2p->best_freq_5 > 0 && !p2p_channels_includes(intersection, p2p->op_reg_class, p2p->op_channel) && p2p_freq_to_channel(p2p->best_freq_5, &op_reg_class, &op_channel) == 0 && p2p_channels_includes(intersection, op_reg_class, op_channel)) { p2p_dbg(p2p, "Pick best 5 GHz channel (reg_class %u channel %u) from intersection", op_reg_class, op_channel); p2p->op_reg_class = op_reg_class; p2p->op_channel = op_channel; return; } if (freq >= 4900 && freq < 6000 && p2p->best_freq_24 > 0 && !p2p_channels_includes(intersection, p2p->op_reg_class, p2p->op_channel) && p2p_freq_to_channel(p2p->best_freq_24, &op_reg_class, &op_channel) == 0 && p2p_channels_includes(intersection, op_reg_class, op_channel)) { p2p_dbg(p2p, "Pick best 2.4 GHz channel (reg_class %u channel %u) from intersection", op_reg_class, op_channel); p2p->op_reg_class = op_reg_class; p2p->op_channel = op_channel; return; } /* Select channel with highest preference if the peer supports it */ for (i = 0; p2p->cfg->pref_chan && i < p2p->cfg->num_pref_chan; i++) { if (p2p_channels_includes(intersection, p2p->cfg->pref_chan[i].op_class, p2p->cfg->pref_chan[i].chan)) { p2p->op_reg_class = p2p->cfg->pref_chan[i].op_class; p2p->op_channel = p2p->cfg->pref_chan[i].chan; p2p_dbg(p2p, "Pick highest preferred channel (op_class %u channel %u) from intersection", p2p->op_reg_class, p2p->op_channel); return; } } /* Try a channel where we might be able to use EDMG */ if (p2p_channel_select(intersection, op_classes_edmg, &p2p->op_reg_class, &p2p->op_channel) == 0) { p2p_dbg(p2p, "Pick possible EDMG channel (op_class %u channel %u) from intersection", p2p->op_reg_class, p2p->op_channel); return; } /* Try a channel where we might be able to use VHT */ if (p2p_channel_select(intersection, op_classes_vht, &p2p->op_reg_class, &p2p->op_channel) == 0) { p2p_dbg(p2p, "Pick possible VHT channel (op_class %u channel %u) from intersection", p2p->op_reg_class, p2p->op_channel); return; } /* Try a channel where we might be able to use HT40 */ if (p2p_channel_select(intersection, op_classes_ht40, &p2p->op_reg_class, &p2p->op_channel) == 0) { p2p_dbg(p2p, "Pick possible HT40 channel (op_class %u channel %u) from intersection", p2p->op_reg_class, p2p->op_channel); return; } /* Prefer a 5 GHz channel */ if (p2p_channel_select(intersection, op_classes_5ghz, &p2p->op_reg_class, &p2p->op_channel) == 0) { p2p_dbg(p2p, "Pick possible 5 GHz channel (op_class %u channel %u) from intersection", p2p->op_reg_class, p2p->op_channel); return; } /* * Try to see if the original channel is in the intersection. If * so, no need to change anything, as it already contains some * randomness. */ if (p2p_channels_includes(intersection, p2p->op_reg_class, p2p->op_channel)) { p2p_dbg(p2p, "Using original operating class and channel (op_class %u channel %u) from intersection", p2p->op_reg_class, p2p->op_channel); return; } /* * Fall back to whatever is included in the channel intersection since * no better options seems to be available. */ cl = &intersection->reg_class[0]; p2p_dbg(p2p, "Pick another channel (reg_class %u channel %u) from intersection", cl->reg_class, cl->channel[0]); p2p->op_reg_class = cl->reg_class; p2p->op_channel = cl->channel[0]; } int p2p_go_select_channel(struct p2p_data *p2p, struct p2p_device *dev, u8 *status) { struct p2p_channels tmp, intersection; p2p_channels_dump(p2p, "own channels", &p2p->channels); p2p_channels_dump(p2p, "peer channels", &dev->channels); p2p_channels_intersect(&p2p->channels, &dev->channels, &tmp); p2p_channels_dump(p2p, "intersection", &tmp); p2p_channels_remove_freqs(&tmp, &p2p->no_go_freq); p2p_channels_dump(p2p, "intersection after no-GO removal", &tmp); p2p_channels_intersect(&tmp, &p2p->cfg->channels, &intersection); p2p_channels_dump(p2p, "intersection with local channel list", &intersection); if (intersection.reg_classes == 0 || intersection.reg_class[0].channels == 0) { *status = P2P_SC_FAIL_NO_COMMON_CHANNELS; p2p_dbg(p2p, "No common channels found"); return -1; } if (!p2p_channels_includes(&intersection, p2p->op_reg_class, p2p->op_channel)) { if (dev->flags & P2P_DEV_FORCE_FREQ) { *status = P2P_SC_FAIL_NO_COMMON_CHANNELS; p2p_dbg(p2p, "Peer does not support the forced channel"); return -1; } p2p_dbg(p2p, "Selected operating channel (op_class %u channel %u) not acceptable to the peer", p2p->op_reg_class, p2p->op_channel); p2p_reselect_channel(p2p, &intersection); } else if (!(dev->flags & P2P_DEV_FORCE_FREQ) && !p2p->cfg->cfg_op_channel) { p2p_dbg(p2p, "Try to optimize channel selection with peer information received; previously selected op_class %u channel %u", p2p->op_reg_class, p2p->op_channel); p2p_reselect_channel(p2p, &intersection); } if (!p2p->ssid_set) { p2p_build_ssid(p2p, p2p->ssid, &p2p->ssid_len); p2p->ssid_set = 1; } return 0; } static void p2p_check_pref_chan_no_recv(struct p2p_data *p2p, int go, struct p2p_device *dev, struct p2p_message *msg, const struct weighted_pcl freq_list[], unsigned int size) { u8 op_class, op_channel; unsigned int oper_freq = 0, i, j; int found = 0; p2p_dbg(p2p, "Peer didn't provide a preferred frequency list, see if any of our preferred channels are supported by peer device"); /* * Search for a common channel in our preferred frequency list which is * also supported by the peer device. */ for (i = 0; i < size && !found; i++) { /* Make sure that the common frequency is supported by peer. */ oper_freq = freq_list[i].freq; if (p2p_freq_to_channel(oper_freq, &op_class, &op_channel) < 0 || !p2p_pref_freq_allowed(&freq_list[i], go)) continue; for (j = 0; j < msg->channel_list_len; j++) { if (!msg->channel_list || op_channel != msg->channel_list[j]) continue; p2p->op_reg_class = op_class; p2p->op_channel = op_channel; os_memcpy(&p2p->channels, &p2p->cfg->channels, sizeof(struct p2p_channels)); found = 1; break; } } if (found) { p2p_dbg(p2p, "Freq %d MHz is a preferred channel and is also supported by peer, use it as the operating channel", oper_freq); } else { p2p_dbg(p2p, "None of our preferred channels are supported by peer!"); } } static void p2p_check_pref_chan_recv(struct p2p_data *p2p, int go, struct p2p_device *dev, struct p2p_message *msg, const struct weighted_pcl freq_list[], unsigned int size) { u8 op_class, op_channel; unsigned int oper_freq = 0, i, j; int found = 0; /* * Peer device supports a Preferred Frequency List. * Search for a common channel in the preferred frequency lists * of both peer and local devices. */ for (i = 0; i < size && !found; i++) { for (j = 2; j < (msg->pref_freq_list_len / 2); j++) { oper_freq = p2p_channel_to_freq( msg->pref_freq_list[2 * j], msg->pref_freq_list[2 * j + 1]); if (freq_list[i].freq != oper_freq) continue; if (p2p_freq_to_channel(oper_freq, &op_class, &op_channel) < 0) continue; /* cannot happen */ if (!p2p_pref_freq_allowed(&freq_list[i], go)) break; p2p->op_reg_class = op_class; p2p->op_channel = op_channel; os_memcpy(&p2p->channels, &p2p->cfg->channels, sizeof(struct p2p_channels)); found = 1; break; } } if (found) { p2p_dbg(p2p, "Freq %d MHz is a common preferred channel for both peer and local, use it as operating channel", oper_freq); } else { p2p_dbg(p2p, "No common preferred channels found!"); } } void p2p_check_pref_chan(struct p2p_data *p2p, int go, struct p2p_device *dev, struct p2p_message *msg) { unsigned int size; unsigned int i; u8 op_class, op_channel; char txt[100], *pos, *end; bool is_6ghz_capab; int res; /* * Use the preferred channel list from the driver only if there is no * forced_freq, e.g., P2P_CONNECT freq=..., and no preferred operating * channel hardcoded in the configuration file. */ if (!p2p->cfg->get_pref_freq_list || p2p->cfg->num_pref_chan || (dev->flags & P2P_DEV_FORCE_FREQ) || p2p->cfg->cfg_op_channel) return; /* Obtain our preferred frequency list from driver based on P2P role. */ size = P2P_MAX_PREF_CHANNELS; if (p2p->cfg->get_pref_freq_list(p2p->cfg->cb_ctx, go, &p2p->num_pref_freq, p2p->pref_freq_list)) return; size = p2p->num_pref_freq; if (!size) return; /* Filter out frequencies that are not acceptable for P2P use */ is_6ghz_capab = is_p2p_6ghz_capable(p2p) && p2p_is_peer_6ghz_capab(p2p, dev->info.p2p_device_addr); i = 0; while (i < size) { if (p2p_freq_to_channel(p2p->pref_freq_list[i].freq, &op_class, &op_channel) < 0 || (!p2p_channels_includes(&p2p->cfg->channels, op_class, op_channel) && (go || !p2p_channels_includes(&p2p->cfg->cli_channels, op_class, op_channel))) || (is_6ghz_freq(p2p->pref_freq_list[i].freq) && !is_6ghz_capab)) { p2p_dbg(p2p, "Ignore local driver frequency preference %u MHz since it is not acceptable for P2P use (go=%d)", p2p->pref_freq_list[i].freq, go); if (size - i - 1 > 0) os_memmove(&p2p->pref_freq_list[i], &p2p->pref_freq_list[i + 1], (size - i - 1) * sizeof(struct weighted_pcl)); size--; continue; } /* Preferred frequency is acceptable for P2P use */ i++; } pos = txt; end = pos + sizeof(txt); for (i = 0; i < size; i++) { res = os_snprintf(pos, end - pos, " %u", p2p->pref_freq_list[i].freq); if (os_snprintf_error(end - pos, res)) break; pos += res; } *pos = '\0'; p2p_dbg(p2p, "Local driver frequency preference (size=%u):%s", size, txt); /* * Check if peer's preference of operating channel is in * our preferred channel list. */ for (i = 0; i < size; i++) { if (p2p->pref_freq_list[i].freq == (unsigned int) dev->oper_freq && p2p_pref_freq_allowed(&p2p->pref_freq_list[i], go)) break; } if (i != size && p2p_freq_to_channel(p2p->pref_freq_list[i].freq, &op_class, &op_channel) == 0) { /* Peer operating channel preference matches our preference */ p2p->op_reg_class = op_class; p2p->op_channel = op_channel; os_memcpy(&p2p->channels, &p2p->cfg->channels, sizeof(struct p2p_channels)); return; } p2p_dbg(p2p, "Peer operating channel preference: %d MHz is not in our preferred channel list", dev->oper_freq); /* Check if peer's preferred channel list is * _not_ included in the GO Negotiation Request or Invitation Request. */ if (msg->pref_freq_list_len == 0) p2p_check_pref_chan_no_recv(p2p, go, dev, msg, p2p->pref_freq_list, size); else p2p_check_pref_chan_recv(p2p, go, dev, msg, p2p->pref_freq_list, size); } void p2p_process_go_neg_req(struct p2p_data *p2p, const u8 *sa, const u8 *data, size_t len, int rx_freq) { struct p2p_device *dev = NULL; struct wpabuf *resp; struct p2p_message msg; u8 status = P2P_SC_FAIL_INVALID_PARAMS; int tie_breaker = 0; int freq; p2p_dbg(p2p, "Received GO Negotiation Request from " MACSTR "(freq=%d)", MAC2STR(sa), rx_freq); if (p2p_parse(data, len, &msg)) return; if (!msg.capability) { p2p_dbg(p2p, "Mandatory Capability attribute missing from GO Negotiation Request"); #ifdef CONFIG_P2P_STRICT goto fail; #endif /* CONFIG_P2P_STRICT */ } if (msg.go_intent) tie_breaker = *msg.go_intent & 0x01; else { p2p_dbg(p2p, "Mandatory GO Intent attribute missing from GO Negotiation Request"); #ifdef CONFIG_P2P_STRICT goto fail; #endif /* CONFIG_P2P_STRICT */ } if (!msg.config_timeout) { p2p_dbg(p2p, "Mandatory Configuration Timeout attribute missing from GO Negotiation Request"); #ifdef CONFIG_P2P_STRICT goto fail; #endif /* CONFIG_P2P_STRICT */ } if (!msg.listen_channel) { p2p_dbg(p2p, "No Listen Channel attribute received"); goto fail; } if (!msg.operating_channel) { p2p_dbg(p2p, "No Operating Channel attribute received"); goto fail; } if (!msg.channel_list) { p2p_dbg(p2p, "No Channel List attribute received"); goto fail; } if (!msg.intended_addr) { p2p_dbg(p2p, "No Intended P2P Interface Address attribute received"); goto fail; } if (!msg.p2p_device_info) { p2p_dbg(p2p, "No P2P Device Info attribute received"); goto fail; } if (os_memcmp(msg.p2p_device_addr, sa, ETH_ALEN) != 0) { p2p_dbg(p2p, "Unexpected GO Negotiation Request SA=" MACSTR " != dev_addr=" MACSTR, MAC2STR(sa), MAC2STR(msg.p2p_device_addr)); goto fail; } dev = p2p_get_device(p2p, sa); if (msg.status && *msg.status) { p2p_dbg(p2p, "Unexpected Status attribute (%d) in GO Negotiation Request", *msg.status); if (dev && p2p->go_neg_peer == dev && *msg.status == P2P_SC_FAIL_REJECTED_BY_USER) { /* * This mechanism for using Status attribute in GO * Negotiation Request is not compliant with the P2P * specification, but some deployed devices use it to * indicate rejection of GO Negotiation in a case where * they have sent out GO Negotiation Response with * status 1. The P2P specification explicitly disallows * this. To avoid unnecessary interoperability issues * and extra frames, mark the pending negotiation as * failed and do not reply to this GO Negotiation * Request frame. */ p2p->cfg->send_action_done(p2p->cfg->cb_ctx); p2p_go_neg_failed(p2p, *msg.status); p2p_parse_free(&msg); return; } goto fail; } if (dev == NULL) dev = p2p_add_dev_from_go_neg_req(p2p, sa, &msg); else if ((dev->flags & P2P_DEV_PROBE_REQ_ONLY) || !(dev->flags & P2P_DEV_REPORTED)) p2p_add_dev_info(p2p, sa, dev, &msg); else if (!dev->listen_freq && !dev->oper_freq) { /* * This may happen if the peer entry was added based on PD * Request and no Probe Request/Response frame has been received * from this peer (or that information has timed out). */ p2p_dbg(p2p, "Update peer " MACSTR " based on GO Neg Req since listen/oper freq not known", MAC2STR(dev->info.p2p_device_addr)); p2p_add_dev_info(p2p, sa, dev, &msg); } if (dev) p2p_update_peer_6ghz_capab(dev, &msg); if (p2p->go_neg_peer && p2p->go_neg_peer == dev) eloop_cancel_timeout(p2p_go_neg_wait_timeout, p2p, NULL); if (dev && dev->flags & P2P_DEV_USER_REJECTED) { p2p_dbg(p2p, "User has rejected this peer"); status = P2P_SC_FAIL_REJECTED_BY_USER; } else if (dev == NULL || (dev->wps_method == WPS_NOT_READY && (p2p->authorized_oob_dev_pw_id == 0 || p2p->authorized_oob_dev_pw_id != msg.dev_password_id))) { p2p_dbg(p2p, "Not ready for GO negotiation with " MACSTR, MAC2STR(sa)); status = P2P_SC_FAIL_INFO_CURRENTLY_UNAVAILABLE; p2p->cfg->go_neg_req_rx(p2p->cfg->cb_ctx, sa, msg.dev_password_id, msg.go_intent ? (*msg.go_intent >> 1) : 0); } else if (p2p->go_neg_peer && p2p->go_neg_peer != dev) { p2p_dbg(p2p, "Already in Group Formation with another peer"); status = P2P_SC_FAIL_UNABLE_TO_ACCOMMODATE; } else { int go; if (!p2p->go_neg_peer) { p2p_dbg(p2p, "Starting GO Negotiation with previously authorized peer"); if (!(dev->flags & P2P_DEV_FORCE_FREQ)) { p2p_dbg(p2p, "Use default channel settings"); p2p->op_reg_class = p2p->cfg->op_reg_class; p2p->op_channel = p2p->cfg->op_channel; os_memcpy(&p2p->channels, &p2p->cfg->channels, sizeof(struct p2p_channels)); } else { p2p_dbg(p2p, "Use previously configured forced channel settings"); } } dev->flags &= ~P2P_DEV_NOT_YET_READY; if (!msg.go_intent) { p2p_dbg(p2p, "No GO Intent attribute received"); goto fail; } if ((*msg.go_intent >> 1) > P2P_MAX_GO_INTENT) { p2p_dbg(p2p, "Invalid GO Intent value (%u) received", *msg.go_intent >> 1); goto fail; } if (dev->go_neg_req_sent && os_memcmp(sa, p2p->cfg->dev_addr, ETH_ALEN) > 0) { p2p_dbg(p2p, "Do not reply since peer has higher address and GO Neg Request already sent"); p2p_parse_free(&msg); return; } if (dev->go_neg_req_sent && (dev->flags & P2P_DEV_PEER_WAITING_RESPONSE)) { p2p_dbg(p2p, "Do not reply since peer is waiting for us to start a new GO Negotiation and GO Neg Request already sent"); p2p_parse_free(&msg); return; } go = p2p_go_det(p2p->go_intent, *msg.go_intent); if (go < 0) { p2p_dbg(p2p, "Incompatible GO Intent"); status = P2P_SC_FAIL_BOTH_GO_INTENT_15; goto fail; } if (p2p_peer_channels(p2p, dev, msg.channel_list, msg.channel_list_len) < 0) { p2p_dbg(p2p, "No common channels found"); status = P2P_SC_FAIL_NO_COMMON_CHANNELS; goto fail; } switch (msg.dev_password_id) { case DEV_PW_REGISTRAR_SPECIFIED: p2p_dbg(p2p, "PIN from peer Display"); if (dev->wps_method != WPS_PIN_KEYPAD) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; case DEV_PW_USER_SPECIFIED: p2p_dbg(p2p, "Peer entered PIN on Keypad"); if (dev->wps_method != WPS_PIN_DISPLAY) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; case DEV_PW_PUSHBUTTON: p2p_dbg(p2p, "Peer using pushbutton"); if (dev->wps_method != WPS_PBC) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; case DEV_PW_P2PS_DEFAULT: p2p_dbg(p2p, "Peer using P2PS pin"); if (dev->wps_method != WPS_P2PS) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; default: if (msg.dev_password_id && msg.dev_password_id == dev->oob_pw_id) { p2p_dbg(p2p, "Peer using NFC"); if (dev->wps_method != WPS_NFC) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str( dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; } #ifdef CONFIG_WPS_NFC if (p2p->authorized_oob_dev_pw_id && msg.dev_password_id == p2p->authorized_oob_dev_pw_id) { p2p_dbg(p2p, "Using static handover with our device password from NFC Tag"); dev->wps_method = WPS_NFC; dev->oob_pw_id = p2p->authorized_oob_dev_pw_id; break; } #endif /* CONFIG_WPS_NFC */ p2p_dbg(p2p, "Unsupported Device Password ID %d", msg.dev_password_id); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } if (go && p2p_go_select_channel(p2p, dev, &status) < 0) goto fail; dev->go_state = go ? LOCAL_GO : REMOTE_GO; dev->oper_freq = p2p_channel_to_freq(msg.operating_channel[3], msg.operating_channel[4]); p2p_dbg(p2p, "Peer operating channel preference: %d MHz", dev->oper_freq); /* * Use the driver preferred frequency list extension if * supported. */ p2p_check_pref_chan(p2p, go, dev, &msg); if (msg.config_timeout) { dev->go_timeout = msg.config_timeout[0]; dev->client_timeout = msg.config_timeout[1]; } p2p_dbg(p2p, "GO Negotiation with " MACSTR, MAC2STR(sa)); if (p2p->state != P2P_IDLE) p2p_stop_find_for_freq(p2p, rx_freq); p2p_set_state(p2p, P2P_GO_NEG); p2p_clear_timeout(p2p); dev->dialog_token = msg.dialog_token; os_memcpy(dev->intended_addr, msg.intended_addr, ETH_ALEN); p2p->go_neg_peer = dev; eloop_cancel_timeout(p2p_go_neg_wait_timeout, p2p, NULL); status = P2P_SC_SUCCESS; } fail: if (dev) dev->status = status; resp = p2p_build_go_neg_resp(p2p, dev, msg.dialog_token, status, !tie_breaker); p2p_parse_free(&msg); if (resp == NULL) return; p2p_dbg(p2p, "Sending GO Negotiation Response"); if (rx_freq > 0) freq = rx_freq; else freq = p2p_channel_to_freq(p2p->cfg->reg_class, p2p->cfg->channel); if (freq < 0) { p2p_dbg(p2p, "Unknown regulatory class/channel"); wpabuf_free(resp); return; } if (status == P2P_SC_SUCCESS) { p2p->pending_action_state = P2P_PENDING_GO_NEG_RESPONSE; dev->flags |= P2P_DEV_WAIT_GO_NEG_CONFIRM; if (os_memcmp(sa, p2p->cfg->dev_addr, ETH_ALEN) < 0) { /* * Peer has smaller address, so the GO Negotiation * Response from us is expected to complete * negotiation. Ignore a GO Negotiation Response from * the peer if it happens to be received after this * point due to a race condition in GO Negotiation * Request transmission and processing. */ dev->flags &= ~P2P_DEV_WAIT_GO_NEG_RESPONSE; } } else p2p->pending_action_state = P2P_PENDING_GO_NEG_RESPONSE_FAILURE; if (p2p_send_action(p2p, freq, sa, p2p->cfg->dev_addr, p2p->cfg->dev_addr, wpabuf_head(resp), wpabuf_len(resp), 100) < 0) { p2p_dbg(p2p, "Failed to send Action frame"); } wpabuf_free(resp); } static struct wpabuf * p2p_build_go_neg_conf(struct p2p_data *p2p, struct p2p_device *peer, u8 dialog_token, u8 status, const u8 *resp_chan, int go) { struct wpabuf *buf; u8 *len; struct p2p_channels res; u8 group_capab; size_t extra = 0; bool is_6ghz_capab; p2p_dbg(p2p, "Building GO Negotiation Confirm"); #ifdef CONFIG_WIFI_DISPLAY if (p2p->wfd_ie_go_neg) extra = wpabuf_len(p2p->wfd_ie_go_neg); #endif /* CONFIG_WIFI_DISPLAY */ if (p2p->vendor_elem && p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_CONF]) extra += wpabuf_len(p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_CONF]); buf = wpabuf_alloc(1000 + extra); if (buf == NULL) return NULL; p2p_buf_add_public_action_hdr(buf, P2P_GO_NEG_CONF, dialog_token); len = p2p_buf_add_ie_hdr(buf); p2p_buf_add_status(buf, status); group_capab = 0; if (peer->go_state == LOCAL_GO) { if (peer->flags & P2P_DEV_PREFER_PERSISTENT_GROUP) { group_capab |= P2P_GROUP_CAPAB_PERSISTENT_GROUP; if (peer->flags & P2P_DEV_PREFER_PERSISTENT_RECONN) group_capab |= P2P_GROUP_CAPAB_PERSISTENT_RECONN; } if (p2p->cross_connect) group_capab |= P2P_GROUP_CAPAB_CROSS_CONN; if (p2p->cfg->p2p_intra_bss) group_capab |= P2P_GROUP_CAPAB_INTRA_BSS_DIST; } p2p_buf_add_capability(buf, p2p->dev_capab & ~P2P_DEV_CAPAB_CLIENT_DISCOVERABILITY, group_capab); if (go || resp_chan == NULL) p2p_buf_add_operating_channel(buf, p2p->cfg->country, p2p->op_reg_class, p2p->op_channel); else p2p_buf_add_operating_channel(buf, (const char *) resp_chan, resp_chan[3], resp_chan[4]); p2p_channels_intersect(&p2p->channels, &peer->channels, &res); is_6ghz_capab = is_p2p_6ghz_capable(p2p) && p2p_is_peer_6ghz_capab(p2p, peer->info.p2p_device_addr); p2p_buf_add_channel_list(buf, p2p->cfg->country, &res, is_6ghz_capab); if (go) { p2p_buf_add_group_id(buf, p2p->cfg->dev_addr, p2p->ssid, p2p->ssid_len); } p2p_buf_update_ie_hdr(buf, len); #ifdef CONFIG_WIFI_DISPLAY if (p2p->wfd_ie_go_neg) wpabuf_put_buf(buf, p2p->wfd_ie_go_neg); #endif /* CONFIG_WIFI_DISPLAY */ if (p2p->vendor_elem && p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_CONF]) wpabuf_put_buf(buf, p2p->vendor_elem[VENDOR_ELEM_P2P_GO_NEG_CONF]); return buf; } void p2p_process_go_neg_resp(struct p2p_data *p2p, const u8 *sa, const u8 *data, size_t len, int rx_freq) { struct p2p_device *dev; int go = -1; struct p2p_message msg; u8 status = P2P_SC_SUCCESS; int freq; p2p_dbg(p2p, "Received GO Negotiation Response from " MACSTR " (freq=%d)", MAC2STR(sa), rx_freq); dev = p2p_get_device(p2p, sa); if (dev == NULL || dev->wps_method == WPS_NOT_READY || dev != p2p->go_neg_peer) { p2p_dbg(p2p, "Not ready for GO negotiation with " MACSTR, MAC2STR(sa)); return; } if (p2p_parse(data, len, &msg)) return; if (!(dev->flags & P2P_DEV_WAIT_GO_NEG_RESPONSE)) { p2p_dbg(p2p, "Was not expecting GO Negotiation Response - ignore"); p2p_parse_free(&msg); return; } dev->flags &= ~P2P_DEV_WAIT_GO_NEG_RESPONSE; p2p_update_peer_6ghz_capab(dev, &msg); if (msg.dialog_token != dev->dialog_token) { p2p_dbg(p2p, "Unexpected Dialog Token %u (expected %u)", msg.dialog_token, dev->dialog_token); p2p_parse_free(&msg); return; } if (!msg.status) { p2p_dbg(p2p, "No Status attribute received"); status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; } if (*msg.status) { p2p_dbg(p2p, "GO Negotiation rejected: status %d", *msg.status); dev->go_neg_req_sent = 0; if (*msg.status == P2P_SC_FAIL_INFO_CURRENTLY_UNAVAILABLE) { p2p_dbg(p2p, "Wait for the peer to become ready for GO Negotiation"); dev->flags |= P2P_DEV_NOT_YET_READY; eloop_cancel_timeout(p2p_go_neg_wait_timeout, p2p, NULL); eloop_register_timeout(120, 0, p2p_go_neg_wait_timeout, p2p, NULL); if (p2p->state == P2P_CONNECT_LISTEN) p2p_set_state(p2p, P2P_WAIT_PEER_CONNECT); else p2p_set_state(p2p, P2P_WAIT_PEER_IDLE); p2p_set_timeout(p2p, 0, 0); } else { p2p_dbg(p2p, "Stop GO Negotiation attempt"); p2p_go_neg_failed(p2p, *msg.status); } p2p->cfg->send_action_done(p2p->cfg->cb_ctx); p2p_parse_free(&msg); return; } if (!msg.capability) { p2p_dbg(p2p, "Mandatory Capability attribute missing from GO Negotiation Response"); #ifdef CONFIG_P2P_STRICT status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; #endif /* CONFIG_P2P_STRICT */ } if (!msg.p2p_device_info) { p2p_dbg(p2p, "Mandatory P2P Device Info attribute missing from GO Negotiation Response"); #ifdef CONFIG_P2P_STRICT status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; #endif /* CONFIG_P2P_STRICT */ } if (!msg.intended_addr) { p2p_dbg(p2p, "No Intended P2P Interface Address attribute received"); status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; } if (!msg.go_intent) { p2p_dbg(p2p, "No GO Intent attribute received"); status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; } if ((*msg.go_intent >> 1) > P2P_MAX_GO_INTENT) { p2p_dbg(p2p, "Invalid GO Intent value (%u) received", *msg.go_intent >> 1); status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; } go = p2p_go_det(p2p->go_intent, *msg.go_intent); if (go < 0) { p2p_dbg(p2p, "Incompatible GO Intent"); status = P2P_SC_FAIL_INCOMPATIBLE_PARAMS; goto fail; } if (!go && msg.group_id) { /* Store SSID for Provisioning step */ p2p->ssid_len = msg.group_id_len - ETH_ALEN; os_memcpy(p2p->ssid, msg.group_id + ETH_ALEN, p2p->ssid_len); } else if (!go) { p2p_dbg(p2p, "Mandatory P2P Group ID attribute missing from GO Negotiation Response"); p2p->ssid_len = 0; status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; } if (!msg.config_timeout) { p2p_dbg(p2p, "Mandatory Configuration Timeout attribute missing from GO Negotiation Response"); #ifdef CONFIG_P2P_STRICT status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; #endif /* CONFIG_P2P_STRICT */ } else { dev->go_timeout = msg.config_timeout[0]; dev->client_timeout = msg.config_timeout[1]; } if (msg.wfd_subelems) { wpabuf_free(dev->info.wfd_subelems); dev->info.wfd_subelems = wpabuf_dup(msg.wfd_subelems); } if (!msg.operating_channel && !go) { /* * Note: P2P Client may omit Operating Channel attribute to * indicate it does not have a preference. */ p2p_dbg(p2p, "No Operating Channel attribute received"); status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; } if (!msg.channel_list) { p2p_dbg(p2p, "No Channel List attribute received"); status = P2P_SC_FAIL_INVALID_PARAMS; goto fail; } if (p2p_peer_channels(p2p, dev, msg.channel_list, msg.channel_list_len) < 0) { p2p_dbg(p2p, "No common channels found"); status = P2P_SC_FAIL_NO_COMMON_CHANNELS; goto fail; } if (msg.operating_channel) { dev->oper_freq = p2p_channel_to_freq(msg.operating_channel[3], msg.operating_channel[4]); p2p_dbg(p2p, "Peer operating channel preference: %d MHz", dev->oper_freq); } else dev->oper_freq = 0; switch (msg.dev_password_id) { case DEV_PW_REGISTRAR_SPECIFIED: p2p_dbg(p2p, "PIN from peer Display"); if (dev->wps_method != WPS_PIN_KEYPAD) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; case DEV_PW_USER_SPECIFIED: p2p_dbg(p2p, "Peer entered PIN on Keypad"); if (dev->wps_method != WPS_PIN_DISPLAY) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; case DEV_PW_PUSHBUTTON: p2p_dbg(p2p, "Peer using pushbutton"); if (dev->wps_method != WPS_PBC) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; case DEV_PW_P2PS_DEFAULT: p2p_dbg(p2p, "P2P: Peer using P2PS default pin"); if (dev->wps_method != WPS_P2PS) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; default: if (msg.dev_password_id && msg.dev_password_id == dev->oob_pw_id) { p2p_dbg(p2p, "Peer using NFC"); if (dev->wps_method != WPS_NFC) { p2p_dbg(p2p, "We have wps_method=%s -> incompatible", p2p_wps_method_str(dev->wps_method)); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } break; } p2p_dbg(p2p, "Unsupported Device Password ID %d", msg.dev_password_id); status = P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD; goto fail; } if (go && p2p_go_select_channel(p2p, dev, &status) < 0) goto fail; /* * Use the driver preferred frequency list extension if local device is * GO. */ if (go) p2p_check_pref_chan(p2p, go, dev, &msg); p2p_set_state(p2p, P2P_GO_NEG); p2p_clear_timeout(p2p); p2p_dbg(p2p, "GO Negotiation with " MACSTR, MAC2STR(sa)); os_memcpy(dev->intended_addr, msg.intended_addr, ETH_ALEN); fail: /* Store GO Negotiation Confirmation to allow retransmission */ wpabuf_free(dev->go_neg_conf); dev->go_neg_conf = p2p_build_go_neg_conf(p2p, dev, msg.dialog_token, status, msg.operating_channel, go); p2p_parse_free(&msg); if (dev->go_neg_conf == NULL) return; p2p_dbg(p2p, "Sending GO Negotiation Confirm"); if (status == P2P_SC_SUCCESS) { p2p->pending_action_state = P2P_PENDING_GO_NEG_CONFIRM; dev->go_state = go ? LOCAL_GO : REMOTE_GO; } else p2p->pending_action_state = P2P_NO_PENDING_ACTION; if (rx_freq > 0) freq = rx_freq; else freq = dev->listen_freq; dev->go_neg_conf_freq = freq; dev->go_neg_conf_sent = 0; if (p2p_send_action(p2p, freq, sa, p2p->cfg->dev_addr, sa, wpabuf_head(dev->go_neg_conf), wpabuf_len(dev->go_neg_conf), 50) < 0) { p2p_dbg(p2p, "Failed to send Action frame"); p2p_go_neg_failed(p2p, -1); p2p->cfg->send_action_done(p2p->cfg->cb_ctx); } else dev->go_neg_conf_sent++; if (status != P2P_SC_SUCCESS) { p2p_dbg(p2p, "GO Negotiation failed"); p2p_go_neg_failed(p2p, status); } } void p2p_process_go_neg_conf(struct p2p_data *p2p, const u8 *sa, const u8 *data, size_t len) { struct p2p_device *dev; struct p2p_message msg; p2p_dbg(p2p, "Received GO Negotiation Confirm from " MACSTR, MAC2STR(sa)); dev = p2p_get_device(p2p, sa); if (dev == NULL || dev->wps_method == WPS_NOT_READY || dev != p2p->go_neg_peer) { p2p_dbg(p2p, "Not ready for GO negotiation with " MACSTR, MAC2STR(sa)); return; } if (p2p->pending_action_state == P2P_PENDING_GO_NEG_RESPONSE) { p2p_dbg(p2p, "Stopped waiting for TX status on GO Negotiation Response since we already received Confirmation"); p2p->pending_action_state = P2P_NO_PENDING_ACTION; } if (p2p_parse(data, len, &msg)) return; if (!(dev->flags & P2P_DEV_WAIT_GO_NEG_CONFIRM)) { p2p_dbg(p2p, "Was not expecting GO Negotiation Confirm - ignore"); p2p_parse_free(&msg); return; } dev->flags &= ~P2P_DEV_WAIT_GO_NEG_CONFIRM; p2p->cfg->send_action_done(p2p->cfg->cb_ctx); if (msg.dialog_token != dev->dialog_token) { p2p_dbg(p2p, "Unexpected Dialog Token %u (expected %u)", msg.dialog_token, dev->dialog_token); p2p_parse_free(&msg); return; } if (!msg.status) { p2p_dbg(p2p, "No Status attribute received"); p2p_parse_free(&msg); return; } if (*msg.status) { p2p_dbg(p2p, "GO Negotiation rejected: status %d", *msg.status); p2p_go_neg_failed(p2p, *msg.status); p2p_parse_free(&msg); return; } p2p_update_peer_6ghz_capab(dev, &msg); if (dev->go_state == REMOTE_GO && msg.group_id) { /* Store SSID for Provisioning step */ p2p->ssid_len = msg.group_id_len - ETH_ALEN; os_memcpy(p2p->ssid, msg.group_id + ETH_ALEN, p2p->ssid_len); } else if (dev->go_state == REMOTE_GO) { p2p_dbg(p2p, "Mandatory P2P Group ID attribute missing from GO Negotiation Confirmation"); p2p->ssid_len = 0; p2p_go_neg_failed(p2p, P2P_SC_FAIL_INVALID_PARAMS); p2p_parse_free(&msg); return; } if (!msg.operating_channel) { p2p_dbg(p2p, "Mandatory Operating Channel attribute missing from GO Negotiation Confirmation"); #ifdef CONFIG_P2P_STRICT p2p_parse_free(&msg); return; #endif /* CONFIG_P2P_STRICT */ } else if (dev->go_state == REMOTE_GO) { int oper_freq = p2p_channel_to_freq(msg.operating_channel[3], msg.operating_channel[4]); if (oper_freq != dev->oper_freq) { p2p_dbg(p2p, "Updated peer (GO) operating channel preference from %d MHz to %d MHz", dev->oper_freq, oper_freq); dev->oper_freq = oper_freq; } } if (!msg.channel_list) { p2p_dbg(p2p, "Mandatory Operating Channel attribute missing from GO Negotiation Confirmation"); #ifdef CONFIG_P2P_STRICT p2p_parse_free(&msg); return; #endif /* CONFIG_P2P_STRICT */ } p2p_parse_free(&msg); if (dev->go_state == UNKNOWN_GO) { /* * This should not happen since GO negotiation has already * been completed. */ p2p_dbg(p2p, "Unexpected GO Neg state - do not know which end becomes GO"); return; } /* * The peer could have missed our ctrl::ack frame for GO Negotiation * Confirm and continue retransmitting the frame. To reduce the * likelihood of the peer not getting successful TX status for the * GO Negotiation Confirm frame, wait a short time here before starting * the group so that we will remain on the current channel to * acknowledge any possible retransmission from the peer. */ p2p_dbg(p2p, "20 ms wait on current channel before starting group"); os_sleep(0, 20000); p2p_go_complete(p2p, dev); }