mirror of
https://git.kernel.org/pub/scm/network/wireless/iwd.git
synced 2024-11-25 09:39:25 +01:00
p2p: Add GO-side of GO Negotiation (responder)
Allow the possibility of becoming the Group-owner when we parse the GO Negotiation Request, build GO Negotiation Response and parse the GO Negotiation Confirmation, i.e. if we're responding to a negotiation initiated by the peer after it needed to request user action. Until now the code assumed we can't become the GO or we'd report error.
This commit is contained in:
parent
52810ba445
commit
4fa4cc5867
219
src/p2p.c
219
src/p2p.c
@ -1636,8 +1636,6 @@ static bool p2p_go_negotiation_confirm_cb(const struct mmpdu_header *mpdu,
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{
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struct p2p_go_negotiation_confirmation info;
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int r;
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enum scan_band band;
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uint32_t frequency;
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l_debug("");
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@ -1668,40 +1666,79 @@ static bool p2p_go_negotiation_confirm_cb(const struct mmpdu_header *mpdu,
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return true;
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}
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if (!p2p_device_validate_channel_list(dev, &info.channel_list,
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&info.operating_channel))
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return true;
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band = scan_oper_class_to_band(
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(const uint8_t *) info.operating_channel.country,
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info.operating_channel.oper_class);
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frequency = scan_channel_to_freq(info.operating_channel.channel_num,
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band);
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if (!frequency) {
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l_error("Bad operating channel in GO Negotiation Confirmation");
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p2p_connect_failed(dev);
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return true;
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}
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/* Check whether WFD IE is required, validate it if present */
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if (!p2p_device_validate_conn_wfd(dev, info.wfd, info.wfd_size)) {
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p2p_connect_failed(dev);
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return true;
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}
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dev->conn_go_oper_freq = frequency;
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memcpy(&dev->go_group_id, &info.group_id,
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sizeof(struct p2p_group_id_attr));
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/*
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* In both scenarios the Channel List is a subset of what we previously
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* sent in the GO Negotiation Response and must contain the Operating
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* Channel.
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*/
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if (!p2p_device_validate_channel_list(dev, &info.channel_list,
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&info.operating_channel)) {
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p2p_connect_failed(dev);
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return true;
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}
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/*
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* Confirmation received. For simplicity wait idly the maximum amount
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* of time indicated by the peer in the GO Negotiation Response's
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* Configuration Timeout attribute and start the provisioning phase.
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* Not validating .capability.group_caps, it's either reserved
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* (dev->is_go) or has to be identical to that in the GO Negotiation
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* Request (!dev->is_go).
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*/
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dev->conn_peer_config_timeout = l_timeout_create_ms(
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if (dev->is_go) {
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if (memcmp(info.operating_channel.country,
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dev->listen_country, 3) ||
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info.operating_channel.oper_class !=
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dev->listen_oper_class ||
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info.operating_channel.channel_num !=
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dev->listen_channel) {
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l_error("Bad operating channel in GO Negotiation "
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"Confirmation");
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p2p_connect_failed(dev);
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return true;
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}
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/*
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* Start setting the group up right away and we'll add the
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* client's Configuation Timeout to the WSC start timeout's
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* value.
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*/
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p2p_device_interface_create(dev);
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} else {
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enum scan_band band = scan_oper_class_to_band(
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(const uint8_t *) info.operating_channel.country,
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info.operating_channel.oper_class);
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uint32_t frequency = scan_channel_to_freq(
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info.operating_channel.channel_num,
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band);
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if (!frequency) {
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l_error("Bad operating channel in GO Negotiation "
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"Confirmation");
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p2p_connect_failed(dev);
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return true;
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}
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dev->conn_go_oper_freq = frequency;
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memcpy(&dev->go_group_id, &info.group_id,
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sizeof(struct p2p_group_id_attr));
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/*
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* Confirmation received. For simplicity wait idly the maximum
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* amount of time indicated by the peer in the GO Negotiation
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* Request's Configuration Timeout attribute and start the
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* provisioning phase.
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*/
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dev->conn_peer_config_timeout = l_timeout_create_ms(
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dev->conn_config_delay,
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p2p_config_timeout, dev,
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p2p_config_timeout_destroy);
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}
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return true;
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}
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@ -1733,7 +1770,6 @@ static void p2p_device_go_negotiation_req_cb(const struct mmpdu_header *mpdu,
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int iov_len = 0;
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struct p2p_peer *peer;
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enum p2p_attr_status_code status = P2P_STATUS_SUCCESS;
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bool tie_breaker = false;
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l_debug("");
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@ -1782,24 +1818,12 @@ static void p2p_device_go_negotiation_req_cb(const struct mmpdu_header *mpdu,
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goto respond;
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}
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if (req_info.go_intent == 0 && !req_info.go_tie_breaker) {
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l_error("Can't negotiate client role and GO operation not "
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"supported");
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dev->conn_go_tie_breaker = !req_info.go_tie_breaker;
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dev->is_go = P2P_GO_INTENT * 2 + dev->conn_go_tie_breaker >
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req_info.go_intent * 2;
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if (peer->wsc.pending_connect) {
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struct l_dbus_message *reply =
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dbus_error_not_supported(
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peer->wsc.pending_connect);
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dbus_pending_reply(&peer->wsc.pending_connect, reply);
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}
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p2p_connect_failed(dev);
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status = P2P_STATUS_FAIL_INCOMPATIBLE_PARAMS;
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goto p2p_free;
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}
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if (req_info.capability.group_caps & P2P_GROUP_CAP_PERSISTENT_GROUP) {
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if ((req_info.capability.group_caps & P2P_GROUP_CAP_PERSISTENT_GROUP) &&
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!dev->is_go) {
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if (peer->wsc.pending_connect) {
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struct l_dbus_message *reply =
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dbus_error_not_supported(
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@ -1821,6 +1845,70 @@ static void p2p_device_go_negotiation_req_cb(const struct mmpdu_header *mpdu,
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goto p2p_free;
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}
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if (!p2p_device_validate_channel_list(dev, &req_info.channel_list,
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&req_info.operating_channel)) {
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p2p_connect_failed(dev);
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status = P2P_STATUS_FAIL_INCOMPATIBLE_PARAMS;
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goto p2p_free;
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}
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if (dev->is_go) {
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const struct l_queue_entry *entry;
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const struct p2p_channel_entries *entries;
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int i;
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/*
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* Section 3.1.4.2.1: "The Channel List attribute shall
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* indicate the channels that the P2P Device can support as
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* Operating Channel of the P2P Group if it becomes P2P Group
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* Owner."
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* Section 3.1.4.2.2: "The channels indicated in the Channel
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* List shall only include channels from the Channel List
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* attribute in the GO Negotiation Request frame. [...]
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* The channel indicated in the Operating Channel attribute
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* shall be one of the channels in the Channel List attribute
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* in the GO Negotiation Response frame."
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*
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* Since the sender is not becoming the GO this shouldn't
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* affect us but following 3.1.4.2.2 our operating channel
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* should be one of those listed in the GO Negotiation
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* Response which in turn are the subset of those in the
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* Request. So effectively the list in the Request limits
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* the peer's set of supported operating channels both as the
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* GO and the Client. Check that our listen channel is in
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* that set.
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* TODO: if it's not, look for a different channel.
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*/
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for (entry = l_queue_get_entries(
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req_info.channel_list.channel_entries);
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entry; entry = entry->next) {
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entries = entry->data;
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if (entries->oper_class == dev->listen_oper_class)
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break;
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}
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if (!entry) {
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l_error("Our Operating Class not listed in "
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"the GO Negotiation Request");
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p2p_connect_failed(dev);
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status = P2P_STATUS_FAIL_NO_COMMON_CHANNELS;
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goto p2p_free;
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}
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for (i = 0; i < entries->n_channels; i++)
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if (entries->channels[i] == dev->listen_channel)
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break;
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if (i == entries->n_channels) {
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l_error("Our listen channel not listed in "
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"the GO Negotiation Request");
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p2p_connect_failed(dev);
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status = P2P_STATUS_FAIL_NO_COMMON_CHANNELS;
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goto p2p_free;
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}
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}
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/* Check whether WFD IE is required, validate it if present */
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if (!p2p_device_validate_conn_wfd(dev, req_info.wfd,
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req_info.wfd_size)) {
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@ -1833,29 +1921,62 @@ static void p2p_device_go_negotiation_req_cb(const struct mmpdu_header *mpdu,
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p2p_device_discovery_stop(dev);
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dev->conn_go_dialog_token = req_info.dialog_token;
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dev->conn_config_delay = req_info.config_timeout.go_config_timeout * 10;
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memcpy(dev->conn_peer_interface_addr, req_info.intended_interface_addr,
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6);
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if (dev->is_go && dev->conn_peer) {
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p2p_set_group_id(dev);
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dev->conn_config_delay =
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req_info.config_timeout.client_config_timeout * 10;
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} else {
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dev->conn_config_delay =
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req_info.config_timeout.go_config_timeout * 10;
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}
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p2p_free:
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tie_breaker = !req_info.go_tie_breaker;
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dev->conn_go_tie_breaker = !req_info.go_tie_breaker;
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p2p_clear_go_negotiation_req(&req_info);
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respond:
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/* Build and send the GO Negotiation Response */
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resp_info.dialog_token = dev->conn_go_dialog_token;
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resp_info.status = status;
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resp_info.capability.device_caps = dev->capability.device_caps;
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resp_info.capability.group_caps = 0; /* Reserved */
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resp_info.go_intent = 0; /* Don't want to be the GO */
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resp_info.go_tie_breaker = tie_breaker;
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if (dev->is_go && dev->conn_peer) {
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struct l_queue *channel_list = l_queue_new();
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struct p2p_channel_entries *channel_entries =
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l_malloc(sizeof(struct p2p_channel_entries) + 1);
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resp_info.capability = dev->capability;
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memcpy(resp_info.operating_channel.country,
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dev->listen_country, 3);
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resp_info.operating_channel.oper_class = dev->listen_oper_class;
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resp_info.operating_channel.channel_num = dev->listen_channel;
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memcpy(&resp_info.group_id, &dev->go_group_id,
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sizeof(struct p2p_group_id_attr));
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channel_entries->oper_class = dev->listen_oper_class;
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channel_entries->n_channels = 1;
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channel_entries->channels[0] = dev->listen_channel;
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l_queue_push_tail(channel_list, channel_entries);
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memcpy(resp_info.channel_list.country, dev->listen_country, 3);
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resp_info.channel_list.channel_entries = channel_list;
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} else {
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resp_info.capability.device_caps = dev->capability.device_caps;
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resp_info.capability.group_caps = 0; /* Reserved */
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p2p_device_fill_channel_list(dev, &resp_info.channel_list);
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}
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resp_info.go_intent = P2P_GO_INTENT;
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resp_info.go_tie_breaker = dev->conn_go_tie_breaker;
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resp_info.config_timeout.go_config_timeout = 50; /* 500ms */
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resp_info.config_timeout.client_config_timeout = 50; /* 500ms */
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if (dev->conn_peer)
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memcpy(resp_info.intended_interface_addr, dev->conn_addr, 6);
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p2p_device_fill_channel_list(dev, &resp_info.channel_list);
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resp_info.device_info = dev->device_info;
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resp_info.device_info.wsc_config_methods = dev->conn_config_method;
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resp_info.device_password_id = dev->conn_password_id;
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