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iwd/src/frame-xchg.c

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/*
*
* Wireless daemon for Linux
*
* Copyright (C) 2020 Intel Corporation. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <errno.h>
#include <stdarg.h>
#include <sys/socket.h>
#include <linux/genetlink.h>
#include <ell/ell.h>
#include "linux/nl80211.h"
2021-03-12 04:46:09 +01:00
#include "ell/useful.h"
#include "src/iwd.h"
#include "src/module.h"
#include "src/mpdu.h"
#include "src/util.h"
#include "src/watchlist.h"
#include "src/nl80211util.h"
#include "src/netdev.h"
#include "src/frame-xchg.h"
#include "src/wiphy.h"
#ifndef SOL_NETLINK
#define SOL_NETLINK 270
#endif
struct watch_group {
/*
* Group IDs, except 0, are per wdev for user's convenience.
* I.e. group 1 can be used for P2P discovery and be removed as
* soon as the scan is over on a given device without interfering
* with scans on other devices. This means a module can name
* all the groups it's going to need in a static enum.
* Group 0 is the default group and uses the iwd_get_genl() netlink
* socket shared with all its other users, meaning that it can not
* be closed through the watch API. It is to be used for watches
* that don't need to be unregistered before the virtual interface
* type change or destruction, which are the two events that
* implicitly unregister all existing watches.
*/
uint32_t id;
uint64_t wdev_id;
uint32_t unicast_watch_id;
struct l_io *io;
uint32_t nl_pid;
uint32_t nl_seq;
struct l_queue *write_queue;
struct watchlist watches;
};
struct frame_watch {
uint64_t wdev_id;
uint16_t frame_type;
uint8_t *prefix;
size_t prefix_len;
struct watch_group *group;
struct watchlist_item super;
};
static struct l_queue *watch_groups;
struct wdev_info {
uint64_t id;
uint32_t iftype;
};
static struct l_queue *wdevs;
struct frame_xchg_data {
uint64_t wdev_id;
uint32_t freq;
struct mmpdu_header *tx_mpdu;
size_t tx_mpdu_len;
bool tx_acked;
uint64_t cookie;
bool have_cookie;
bool early_status;
struct {
struct mmpdu_header *mpdu;
const void *body;
size_t body_len;
int rssi;
} early_frame;
struct l_timeout *timeout;
struct l_queue *rx_watches;
frame_xchg_cb_t cb;
frame_xchg_destroy_func_t destroy;
void *user_data;
uint32_t group_id;
unsigned int retry_cnt;
unsigned int retry_interval;
unsigned int resp_timeout;
unsigned int retries_on_ack;
struct wiphy_radio_work_item work;
bool no_cck_rates;
unsigned int tx_cmd_id;
};
struct frame_xchg_watch_data {
struct frame_xchg_prefix *prefix;
frame_xchg_resp_cb_t cb;
};
static struct l_queue *frame_xchgs;
static struct l_genl_family *nl80211;
static uint32_t nl80211_id;
struct frame_prefix_info {
uint16_t frame_type;
const uint8_t *body;
size_t body_len;
uint64_t wdev_id;
};
static bool frame_watch_match_prefix(const void *a, const void *b)
{
const struct watchlist_item *item = a;
const struct frame_watch *watch =
l_container_of(item, struct frame_watch, super);
const struct frame_prefix_info *info = b;
return watch->frame_type == info->frame_type &&
watch->prefix_len <= info->body_len &&
(watch->prefix_len == 0 ||
!memcmp(watch->prefix, info->body, watch->prefix_len)) &&
info->wdev_id == watch->wdev_id;
}
static void frame_watch_unicast_notify(struct l_genl_msg *msg, void *user_data)
{
struct watch_group *group = user_data;
const uint64_t *wdev_id = NULL;
const uint32_t *ifindex = NULL;
struct l_genl_attr attr;
uint16_t type, len, frame_len;
const void *data;
const struct mmpdu_header *mpdu = NULL;
const uint8_t *body;
struct frame_prefix_info info;
int rssi = 0; /* No-RSSI flag value */
if (l_genl_msg_get_command(msg) != NL80211_CMD_FRAME)
return;
if (!l_genl_attr_init(&attr, msg))
return;
while (l_genl_attr_next(&attr, &type, &len, &data)) {
switch (type) {
case NL80211_ATTR_WDEV:
if (len != 8)
break;
wdev_id = data;
break;
case NL80211_ATTR_IFINDEX:
if (len != 4)
break;
ifindex = data;
break;
case NL80211_ATTR_FRAME:
mpdu = mpdu_validate(data, len);
if (!mpdu) {
l_warn("Frame didn't validate as MMPDU");
return;
}
frame_len = len;
break;
case NL80211_ATTR_RX_SIGNAL_DBM:
if (len != 4)
break;
rssi = *(const int32_t *) data;
}
}
if (!wdev_id || (group->wdev_id && group->wdev_id != *wdev_id)) {
l_warn("Bad wdev attribute");
return;
}
if (!mpdu) {
l_warn("Missing frame data");
return;
}
body = mmpdu_body(mpdu);
if (ifindex) {
struct netdev *netdev = netdev_find(*ifindex);
if (netdev && memcmp(mpdu->address_1,
netdev_get_address(netdev), 6) &&
!util_is_broadcast_address(mpdu->address_1))
return;
}
/* Only match the frame type and subtype like the kernel does */
#define FC_FTYPE_STYPE_MASK 0x00fc
info.frame_type = l_get_le16(mpdu) & FC_FTYPE_STYPE_MASK;
info.body = (const uint8_t *) body;
info.body_len = (const uint8_t *) mpdu + frame_len - body;
info.wdev_id = *wdev_id;
WATCHLIST_NOTIFY_MATCHES(&group->watches, frame_watch_match_prefix,
&info, frame_watch_cb_t, mpdu,
info.body, info.body_len, rssi);
/* Has frame_watch_group_destroy been called inside a frame CB? */
if (group->watches.pending_destroy)
l_free(group);
}
static void frame_watch_group_destroy(void *data)
{
struct watch_group *group = data;
if (group->unicast_watch_id)
l_genl_remove_unicast_watch(iwd_get_genl(),
group->unicast_watch_id);
l_io_destroy(group->io);
l_queue_destroy(group->write_queue,
(l_queue_destroy_func_t) l_genl_msg_unref);
/*
* We may be inside a frame notification but even then use
* watchlist_destroy to prevent any more notifications from
* being dispatched.
*/
watchlist_destroy(&group->watches);
if (group->watches.in_notify)
return;
l_free(group);
}
static void frame_watch_free(struct watchlist_item *item)
{
struct frame_watch *watch =
l_container_of(item, struct frame_watch, super);
l_free(watch->prefix);
l_free(watch);
}
static const struct watchlist_ops frame_watch_ops = {
.item_free = frame_watch_free,
};
static bool frame_watch_group_io_write(struct l_io *io, void *user_data)
{
struct watch_group *group = user_data;
struct l_genl_msg *msg;
const void *msg_data;
size_t msg_size;
ssize_t bytes_written;
msg = l_queue_pop_head(group->write_queue);
if (!msg)
return false;
msg_data = l_genl_msg_to_data(msg, nl80211_id, NLM_F_REQUEST,
++group->nl_seq, group->nl_pid,
&msg_size);
bytes_written = send(l_io_get_fd(group->io), msg_data, msg_size, 0);
l_genl_msg_unref(msg);
if (bytes_written < 0) {
l_error("Frame watch group socket write error: %s (%i)",
strerror(errno), errno);
l_queue_push_head(group->write_queue, msg);
return false;
}
return !l_queue_isempty(group->write_queue);
}
static bool frame_watch_group_io_read(struct l_io *io, void *user_data)
{
struct watch_group *group = user_data;
struct cmsghdr *cmsg;
struct msghdr msg;
struct iovec iov;
unsigned char buf[8192];
unsigned char control[32];
ssize_t bytes_read;
struct nlmsghdr *nlmsg;
size_t nlmsg_len;
uint32_t nlmsg_group = 0;
memset(&iov, 0, sizeof(iov));
iov.iov_base = buf;
iov.iov_len = sizeof(buf);
memset(&msg, 0, sizeof(msg));
msg.msg_iov = &iov;
msg.msg_iovlen = 1;
msg.msg_control = control;
msg.msg_controllen = sizeof(control);
bytes_read = recvmsg(l_io_get_fd(group->io), &msg, 0);
if (bytes_read < 0) {
if (errno != EAGAIN && errno != EINTR) {
l_error("Frame watch group socket read error: %s (%i)",
strerror(errno), errno);
return false;
}
return true;
}
nlmsg_len = bytes_read;
for (cmsg = CMSG_FIRSTHDR(&msg); cmsg != NULL;
cmsg = CMSG_NXTHDR(&msg, cmsg)) {
struct nl_pktinfo pktinfo;
if (cmsg->cmsg_level != SOL_NETLINK)
continue;
if (cmsg->cmsg_type != NETLINK_PKTINFO)
continue;
memcpy(&pktinfo, CMSG_DATA(cmsg), sizeof(pktinfo));
nlmsg_group = pktinfo.group;
}
if (nlmsg_group) /* Ignore multicast */
return true;
for (nlmsg = iov.iov_base; NLMSG_OK(nlmsg, nlmsg_len);
nlmsg = NLMSG_NEXT(nlmsg, nlmsg_len)) {
struct l_genl_msg *genl_msg;
if (nlmsg->nlmsg_type != nl80211_id) /* Ignore other families */
continue;
if (nlmsg->nlmsg_seq) /* Ignore responses */
continue;
genl_msg = l_genl_msg_new_from_data((void *) nlmsg,
nlmsg->nlmsg_len);
if (!genl_msg)
continue;
frame_watch_unicast_notify(genl_msg, group);
l_genl_msg_unref(genl_msg);
}
return true;
}
static struct watch_group *frame_watch_group_new(uint64_t wdev_id, uint32_t id)
{
struct watch_group *group = l_new(struct watch_group, 1);
struct sockaddr_nl addr;
socklen_t addrlen = sizeof(addr);
int fd = -1, pktinfo = 1;
group->id = id;
group->wdev_id = wdev_id;
watchlist_init(&group->watches, &frame_watch_ops);
if (id == 0) {
group->unicast_watch_id = l_genl_add_unicast_watch(
iwd_get_genl(),
NL80211_GENL_NAME,
frame_watch_unicast_notify,
group, NULL);
if (unlikely(!group->unicast_watch_id)) {
l_error("Registering for unicast notification failed");
goto err;
}
return group;
}
/*
* If we need to add groups using genl sockets other than our main
* genl socket (iwd_get_genl()), use raw io instead of l_genl. This
* way we don't have to query the genl families -- we already know
* nl80211 is present -- and the handling is simpler, and l_genl,
* while it would work, is not meant to have multiple instances
* per program.
*/
fd = socket(PF_NETLINK,
SOCK_DGRAM | SOCK_CLOEXEC | SOCK_NONBLOCK,
NETLINK_GENERIC);
if (unlikely(fd < 0))
goto err;
memset(&addr, 0, sizeof(addr));
addr.nl_family = AF_NETLINK;
addr.nl_pid = 0;
if (unlikely(bind(fd, (struct sockaddr *) &addr, sizeof(addr)) < 0))
goto err;
if (unlikely(getsockname(fd, (struct sockaddr *) &addr, &addrlen) < 0))
goto err;
group->nl_pid = addr.nl_pid;
if (unlikely(setsockopt(fd, SOL_NETLINK, NETLINK_PKTINFO,
&pktinfo, sizeof(pktinfo)) < 0))
goto err;
group->io = l_io_new(fd);
if (unlikely(!group->io))
goto err;
l_io_set_close_on_destroy(group->io, true);
l_io_set_read_handler(group->io, frame_watch_group_io_read, group,
NULL);
group->write_queue = l_queue_new();
return group;
err:
if (fd > -1)
close(fd);
frame_watch_group_destroy(group);
return NULL;
}
struct watch_group_match_info {
uint64_t wdev_id;
uint32_t id;
};
static bool frame_watch_group_match(const void *a, const void *b)
{
const struct watch_group *group = a;
const struct watch_group_match_info *info = b;
return group->wdev_id == info->wdev_id && group->id == info->id;
}
static struct watch_group *frame_watch_group_get(uint64_t wdev_id, uint32_t id)
{
struct watch_group_match_info info = { id == 0 ? 0 : wdev_id, id };
struct watch_group *group = l_queue_find(watch_groups,
frame_watch_group_match, &info);
if (!group) {
group = frame_watch_group_new(wdev_id, id);
l_queue_push_tail(watch_groups, group);
}
return group;
}
static void frame_watch_register_cb(struct l_genl_msg *msg, void *user_data)
{
if (l_genl_msg_get_error(msg) < 0)
l_error("Could not register frame watch type %04x: %i",
L_PTR_TO_UINT(user_data), l_genl_msg_get_error(msg));
}
static void frame_watch_notify_empty(const struct mmpdu_header *mpdu,
const void *body, size_t body_len,
int rssi, void *user_data)
{
}
struct frame_duplicate_info {
uint64_t wdev_id;
uint16_t frame_type;
const uint8_t *prefix;
size_t prefix_len;
frame_watch_cb_t handler;
void *user_data;
bool duplicate : 1;
bool registered : 1;
};
static bool frame_watch_check_duplicate(void *data, void *user_data)
{
struct watchlist_item *super = data;
struct frame_watch *watch =
l_container_of(super, struct frame_watch, super);
struct frame_duplicate_info *info = user_data;
int common_len = info->prefix_len < watch->prefix_len ?
info->prefix_len : watch->prefix_len;
if (info->wdev_id != watch->wdev_id ||
info->frame_type != watch->frame_type ||
(common_len &&
memcmp(info->prefix, watch->prefix, common_len)))
/* No match */
return false;
if (info->prefix_len >= watch->prefix_len)
/*
* A matching shorter prefix is already registered with
* the kernel, no need to register the new prefix.
*/
info->registered = true;
/*
* If we previously had a watch registered on this socket,
* with the same or a more specific prefix, we can now forget
* its entry as the new watch is going to hold enough
* information to keep us from registering redundant prefixes
* in the future.
*/
if (info->prefix_len <= watch->prefix_len &&
watch->super.notify == frame_watch_notify_empty)
goto drop;
if (info->handler != watch->super.notify ||
info->user_data != watch->super.notify_data)
return false;
/*
* If we already have a watch with the exact same callback and
* user_data and a matching prefix (longer or shorter), drop
* either the existing watch, or the new watch, so as to preserve
* the set of frames that trigger the callback but avoid
* calling back twice with the same user_data.
*/
if (info->prefix_len >= watch->prefix_len) {
info->duplicate = true;
return false;
}
drop:
/*
* Drop the existing watch as a duplicate of the new one. If we are in
* the watchlist notify loop, just mark this item as stale and it will
* be cleaned up afterwards
*/
if (watch->group->watches.in_notify) {
super->id = 0;
watch->group->watches.stale_items = true;
return false;
}
frame_watch_free(&watch->super);
return true;
}
bool frame_watch_add(uint64_t wdev_id, uint32_t group_id, uint16_t frame_type,
const uint8_t *prefix, size_t prefix_len,
frame_watch_cb_t handler, void *user_data,
frame_xchg_destroy_func_t destroy)
{
struct watch_group *group = frame_watch_group_get(wdev_id, group_id);
struct frame_watch *watch;
struct l_genl_msg *msg;
struct frame_duplicate_info info = {
wdev_id, frame_type, prefix, prefix_len,
handler, user_data, false, false
};
if (!group)
return false;
l_queue_foreach_remove(group->watches.items,
frame_watch_check_duplicate, &info);
if (info.duplicate)
return true;
watch = l_new(struct frame_watch, 1);
watch->frame_type = frame_type;
watch->prefix = prefix_len ? l_memdup(prefix, prefix_len) : NULL;
watch->prefix_len = prefix_len;
watch->wdev_id = wdev_id;
watch->group = group;
watchlist_link(&group->watches, &watch->super, handler, user_data,
destroy);
if (info.registered)
return true;
msg = l_genl_msg_new_sized(NL80211_CMD_REGISTER_FRAME, 32 + prefix_len);
l_genl_msg_append_attr(msg, NL80211_ATTR_WDEV, 8, &wdev_id);
l_genl_msg_append_attr(msg, NL80211_ATTR_FRAME_TYPE, 2, &frame_type);
l_genl_msg_append_attr(msg, NL80211_ATTR_FRAME_MATCH,
prefix_len, prefix);
if (group->id == 0)
l_genl_family_send(nl80211, msg, frame_watch_register_cb,
L_UINT_TO_PTR(frame_type), NULL);
else {
l_queue_push_tail(group->write_queue, msg);
l_io_set_write_handler(group->io, frame_watch_group_io_write,
group, NULL);
}
return true;
}
bool frame_watch_group_remove(uint64_t wdev_id, uint32_t group_id)
{
struct watch_group_match_info info = { wdev_id, group_id };
struct watch_group *group = l_queue_remove_if(watch_groups,
frame_watch_group_match, &info);
if (!group)
return false;
frame_watch_group_destroy(group);
return true;
}
static bool frame_watch_item_remove_wdev(void *data, void *user_data)
{
struct frame_watch *watch =
l_container_of(data, struct frame_watch, super);
const uint64_t *wdev_id = user_data;
if (watch->wdev_id != *wdev_id)
return false;
if (watch->super.destroy)
watch->super.destroy(watch->super.notify_data);
frame_watch_free(&watch->super);
return true;
}
static bool frame_watch_group_remove_wdev(void *data, void *user_data)
{
struct watch_group *group = data;
const uint64_t *wdev_id = user_data;
if (group->wdev_id == *wdev_id) {
frame_watch_group_destroy(group);
return true;
}
if (group->id != 0)
return false;
/*
* Have to be careful here because we're messing with watchlist
* internals.
*/
l_queue_foreach_remove(group->watches.items,
frame_watch_item_remove_wdev, user_data);
return false;
}
bool frame_watch_wdev_remove(uint64_t wdev_id)
{
return l_queue_foreach_remove(watch_groups, frame_watch_group_remove_wdev,
&wdev_id) > 0;
}
struct frame_watch_handler_check_info {
uint64_t wdev_id;
frame_watch_cb_t handler;
void *user_data;
};
static bool frame_watch_item_remove_by_handler(void *data, void *user_data)
{
struct frame_watch *watch =
l_container_of(data, struct frame_watch, super);
struct frame_watch_handler_check_info *info = user_data;
if (watch->wdev_id != info->wdev_id ||
watch->super.notify != info->handler ||
watch->super.notify_data != info->user_data)
return false;
if (watch->super.destroy) {
watch->super.destroy(watch->super.notify_data);
watch->super.destroy = NULL;
}
/*
* Keep the entry, with a dummy callback, in order to keep us from
* re-registering its prefix in future frame_watch_add calls. We
* can drop the entry in some circumstances but checking the
* conditions for this costs more than it is worth right now.
*/
watch->super.notify = frame_watch_notify_empty;
return false;
}
/*
* Note this one doesn't interact with the kernel watches, only forgets our
* struct frame_watch instances.
*
* Also note empty groups are not automatically destroyed because right now
* this is not desired in frame_xchg_reset -- the only user of this function.
*/
static bool frame_watch_remove_by_handler(uint64_t wdev_id, uint32_t group_id,
frame_watch_cb_t handler,
void *user_data)
{
struct watch_group_match_info group_info = {
group_id == 0 ? 0 : wdev_id, group_id };
struct frame_watch_handler_check_info handler_info = {
wdev_id, handler, user_data };
struct watch_group *group = l_queue_find(watch_groups,
frame_watch_group_match,
&group_info);
if (!group)
return false;
return l_queue_foreach_remove(group->watches.items,
frame_watch_item_remove_by_handler,
&handler_info) > 0;
}
static bool frame_xchg_tx_retry(struct wiphy_radio_work_item *item);
static bool frame_xchg_resp_handle(const struct mmpdu_header *mpdu,
const void *body, size_t body_len,
int rssi, void *user_data);
static void frame_xchg_resp_cb(const struct mmpdu_header *mpdu,
const void *body, size_t body_len,
int rssi, void *user_data);
static void frame_xchg_wait_cancel(struct frame_xchg_data *fx)
{
struct l_genl_msg *msg;
if (!fx->have_cookie)
return;
l_debug("");
msg = l_genl_msg_new_sized(NL80211_CMD_FRAME_WAIT_CANCEL, 32);
l_genl_msg_append_attr(msg, NL80211_ATTR_WDEV, 8, &fx->wdev_id);
l_genl_msg_append_attr(msg, NL80211_ATTR_COOKIE, 8, &fx->cookie);
l_genl_family_send(nl80211, msg, NULL, NULL, NULL);
fx->have_cookie = false;
}
static void frame_xchg_reset(struct frame_xchg_data *fx)
{
frame_xchg_wait_cancel(fx);
if (fx->timeout)
l_timeout_remove(fx->timeout);
frame-xchg: fix invalid read This seems to happen occationally with testAP (potentially others). The invalid read appears to happen when the frame_xchg_tx_cb detects an early status and no ACK. In this particular case there is no retry interval so we reach the retry limit and 'done' the frame. This frees the 'fx' data all before the destroy callback can get called. Once we finally return and the destroy callback is called 'fx' is freed and we see the invalid write. ==206== Memcheck, a memory error detector ==206== Copyright (C) 2002-2017, and GNU GPL'd, by Julian Seward et al. ==206== Using Valgrind-3.16.1 and LibVEX; rerun with -h for copyright info ==206== Command: iwd -p rad1,rad2,rad3,rad4 -d ==206== Parent PID: 140 ==206== ==206== Invalid write of size 4 ==206== at 0x4493A0: frame_xchg_tx_destroy (frame-xchg.c:941) ==206== by 0x46DAF6: destroy_request (genl.c:673) ==206== by 0x46DAF6: process_unicast (genl.c:1002) ==206== by 0x46DAF6: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206== by 0x403E78: main (main.c:490) ==206== Address 0x4c59c6c is 172 bytes inside a block of size 176 free'd ==206== at 0x483B9F5: free (vg_replace_malloc.c:538) ==206== by 0x40F14C: destroy_work (wiphy.c:248) ==206== by 0x40F14C: wiphy_radio_work_done (wiphy.c:1578) ==206== by 0x44A916: frame_xchg_tx_cb (frame-xchg.c:930) ==206== by 0x46DAD9: process_unicast (genl.c:993) ==206== by 0x46DAD9: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206== by 0x403E78: main (main.c:490) ==206== Block was alloc'd at ==206== at 0x483A809: malloc (vg_replace_malloc.c:307) ==206== by 0x4643CD: l_malloc (util.c:61) ==206== by 0x44AF8C: frame_xchg_startv (frame-xchg.c:1155) ==206== by 0x44B2A4: frame_xchg_start (frame-xchg.c:1108) ==206== by 0x42BC55: ap_send_mgmt_frame (ap.c:709) ==206== by 0x42F513: ap_probe_req_cb (ap.c:1869) ==206== by 0x449752: frame_watch_unicast_notify (frame-xchg.c:233) ==206== by 0x46DA2F: dispatch_unicast_watches (genl.c:961) ==206== by 0x46DA2F: process_unicast (genl.c:980) ==206== by 0x46DA2F: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206==
2020-10-30 17:35:59 +01:00
if (fx->tx_cmd_id) {
l_genl_family_cancel(nl80211, fx->tx_cmd_id);
frame-xchg: fix invalid read This seems to happen occationally with testAP (potentially others). The invalid read appears to happen when the frame_xchg_tx_cb detects an early status and no ACK. In this particular case there is no retry interval so we reach the retry limit and 'done' the frame. This frees the 'fx' data all before the destroy callback can get called. Once we finally return and the destroy callback is called 'fx' is freed and we see the invalid write. ==206== Memcheck, a memory error detector ==206== Copyright (C) 2002-2017, and GNU GPL'd, by Julian Seward et al. ==206== Using Valgrind-3.16.1 and LibVEX; rerun with -h for copyright info ==206== Command: iwd -p rad1,rad2,rad3,rad4 -d ==206== Parent PID: 140 ==206== ==206== Invalid write of size 4 ==206== at 0x4493A0: frame_xchg_tx_destroy (frame-xchg.c:941) ==206== by 0x46DAF6: destroy_request (genl.c:673) ==206== by 0x46DAF6: process_unicast (genl.c:1002) ==206== by 0x46DAF6: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206== by 0x403E78: main (main.c:490) ==206== Address 0x4c59c6c is 172 bytes inside a block of size 176 free'd ==206== at 0x483B9F5: free (vg_replace_malloc.c:538) ==206== by 0x40F14C: destroy_work (wiphy.c:248) ==206== by 0x40F14C: wiphy_radio_work_done (wiphy.c:1578) ==206== by 0x44A916: frame_xchg_tx_cb (frame-xchg.c:930) ==206== by 0x46DAD9: process_unicast (genl.c:993) ==206== by 0x46DAD9: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206== by 0x403E78: main (main.c:490) ==206== Block was alloc'd at ==206== at 0x483A809: malloc (vg_replace_malloc.c:307) ==206== by 0x4643CD: l_malloc (util.c:61) ==206== by 0x44AF8C: frame_xchg_startv (frame-xchg.c:1155) ==206== by 0x44B2A4: frame_xchg_start (frame-xchg.c:1108) ==206== by 0x42BC55: ap_send_mgmt_frame (ap.c:709) ==206== by 0x42F513: ap_probe_req_cb (ap.c:1869) ==206== by 0x449752: frame_watch_unicast_notify (frame-xchg.c:233) ==206== by 0x46DA2F: dispatch_unicast_watches (genl.c:961) ==206== by 0x46DA2F: process_unicast (genl.c:980) ==206== by 0x46DA2F: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206==
2020-10-30 17:35:59 +01:00
fx->tx_cmd_id = 0;
}
l_free(fx->early_frame.mpdu);
fx->early_frame.mpdu = NULL;
l_queue_destroy(fx->rx_watches, l_free);
fx->rx_watches = NULL;
l_free(fx->tx_mpdu);
fx->tx_mpdu = NULL;
frame_watch_remove_by_handler(fx->wdev_id, fx->group_id,
frame_xchg_resp_cb, fx);
}
static void frame_xchg_destroy(struct wiphy_radio_work_item *item)
{
struct frame_xchg_data *fx = l_container_of(item,
struct frame_xchg_data, work);
if (fx->destroy)
fx->destroy(fx->user_data);
frame_xchg_reset(fx);
l_free(fx);
}
static void frame_xchg_done(struct frame_xchg_data *fx, int err)
{
l_queue_remove(frame_xchgs, fx);
if (fx->cb)
fx->cb(err, fx->user_data);
wiphy_radio_work_done(wiphy_find_by_wdev(fx->wdev_id), fx->work.id);
}
static void frame_xchg_timeout_destroy(void *user_data)
{
struct frame_xchg_data *fx = user_data;
fx->timeout = NULL;
}
static void frame_xchg_timeout_cb(struct l_timeout *timeout,
void *user_data)
{
struct frame_xchg_data *fx = user_data;
l_timeout_remove(fx->timeout);
frame_xchg_tx_retry(&fx->work);
}
static void frame_xchg_listen_end_cb(struct l_timeout *timeout,
void *user_data)
{
struct frame_xchg_data *fx = user_data;
if (!fx->retries_on_ack) {
frame_xchg_done(fx, 0);
return;
}
l_timeout_remove(fx->timeout);
fx->retries_on_ack--;
fx->retry_cnt = 0;
frame_xchg_tx_retry(&fx->work);
}
static void frame_xchg_tx_status(struct frame_xchg_data *fx, bool acked)
{
if (!acked) {
frame_xchg_wait_cancel(fx);
if (!fx->retry_interval || fx->retry_cnt >= 15) {
if (!fx->resp_timeout)
fx->have_cookie = false;
l_error("Frame tx retry limit reached");
frame_xchg_done(fx, -ECOMM);
return;
}
l_free(fx->early_frame.mpdu);
fx->early_frame.mpdu = NULL;
fx->timeout = l_timeout_create_ms(fx->retry_interval,
frame_xchg_timeout_cb, fx,
frame_xchg_timeout_destroy);
return;
}
if (!fx->resp_timeout) {
/* No listen period to cancel */
fx->have_cookie = false;
frame_xchg_done(fx, 0);
return;
}
fx->tx_acked = true;
/* Process frames received early for strange drivers */
if (fx->early_frame.mpdu) {
/* The command is now over so no need to cancel it */
fx->have_cookie = false;
l_debug("Processing an early frame");
if (frame_xchg_resp_handle(fx->early_frame.mpdu,
fx->early_frame.body,
fx->early_frame.body_len,
fx->early_frame.rssi, fx))
return;
frame_xchg_listen_end_cb(NULL, fx);
return;
}
/* Txed frame ACKed, listen for response frames */
fx->timeout = l_timeout_create_ms(fx->resp_timeout,
frame_xchg_listen_end_cb, fx,
frame_xchg_timeout_destroy);
}
static void frame_xchg_tx_cb(struct l_genl_msg *msg, void *user_data)
{
struct frame_xchg_data *fx = user_data;
int error = l_genl_msg_get_error(msg);
uint64_t cookie;
bool early_status;
frame-xchg: fix invalid read This seems to happen occationally with testAP (potentially others). The invalid read appears to happen when the frame_xchg_tx_cb detects an early status and no ACK. In this particular case there is no retry interval so we reach the retry limit and 'done' the frame. This frees the 'fx' data all before the destroy callback can get called. Once we finally return and the destroy callback is called 'fx' is freed and we see the invalid write. ==206== Memcheck, a memory error detector ==206== Copyright (C) 2002-2017, and GNU GPL'd, by Julian Seward et al. ==206== Using Valgrind-3.16.1 and LibVEX; rerun with -h for copyright info ==206== Command: iwd -p rad1,rad2,rad3,rad4 -d ==206== Parent PID: 140 ==206== ==206== Invalid write of size 4 ==206== at 0x4493A0: frame_xchg_tx_destroy (frame-xchg.c:941) ==206== by 0x46DAF6: destroy_request (genl.c:673) ==206== by 0x46DAF6: process_unicast (genl.c:1002) ==206== by 0x46DAF6: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206== by 0x403E78: main (main.c:490) ==206== Address 0x4c59c6c is 172 bytes inside a block of size 176 free'd ==206== at 0x483B9F5: free (vg_replace_malloc.c:538) ==206== by 0x40F14C: destroy_work (wiphy.c:248) ==206== by 0x40F14C: wiphy_radio_work_done (wiphy.c:1578) ==206== by 0x44A916: frame_xchg_tx_cb (frame-xchg.c:930) ==206== by 0x46DAD9: process_unicast (genl.c:993) ==206== by 0x46DAD9: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206== by 0x403E78: main (main.c:490) ==206== Block was alloc'd at ==206== at 0x483A809: malloc (vg_replace_malloc.c:307) ==206== by 0x4643CD: l_malloc (util.c:61) ==206== by 0x44AF8C: frame_xchg_startv (frame-xchg.c:1155) ==206== by 0x44B2A4: frame_xchg_start (frame-xchg.c:1108) ==206== by 0x42BC55: ap_send_mgmt_frame (ap.c:709) ==206== by 0x42F513: ap_probe_req_cb (ap.c:1869) ==206== by 0x449752: frame_watch_unicast_notify (frame-xchg.c:233) ==206== by 0x46DA2F: dispatch_unicast_watches (genl.c:961) ==206== by 0x46DA2F: process_unicast (genl.c:980) ==206== by 0x46DA2F: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206==
2020-10-30 17:35:59 +01:00
fx->tx_cmd_id = 0;
if (error < 0) {
if (error == -EBUSY) {
fx->timeout = l_timeout_create_ms(fx->retry_interval,
frame_xchg_timeout_cb, fx,
frame_xchg_timeout_destroy);
return;
}
l_error("Frame tx failed: %s (%i)", strerror(-error), -error);
goto error;
}
if (L_WARN_ON(nl80211_parse_attrs(msg, NL80211_ATTR_COOKIE, &cookie,
NL80211_ATTR_UNSPEC) < 0)) {
error = -EINVAL;
goto error;
}
l_debug("Frame sent, cookie: %"PRIu64" obtained", cookie);
early_status = fx->early_status && cookie == fx->cookie;
fx->tx_acked = early_status && fx->tx_acked;
fx->have_cookie = true;
fx->cookie = cookie;
if (early_status)
frame_xchg_tx_status(fx, fx->tx_acked);
return;
error:
frame_xchg_done(fx, error);
}
static bool frame_xchg_tx_retry(struct wiphy_radio_work_item *item)
{
struct frame_xchg_data *fx = l_container_of(item,
struct frame_xchg_data, work);
struct l_genl_msg *msg;
uint32_t duration = fx->resp_timeout;
/*
* TODO: in Station, AP, P2P-Client, GO or Ad-Hoc modes if we're
* transmitting the frame on the BSS's operating channel we can skip
* NL80211_ATTR_DURATION and we should still receive the frames
* without potentially interfering with other operations.
*
* TODO: we may want to react to NL80211_CMD_CANCEL_REMAIN_ON_CHANNEL
* in the group socket's unicast handler.
*/
msg = l_genl_msg_new_sized(NL80211_CMD_FRAME, 128 + fx->tx_mpdu_len);
l_genl_msg_append_attr(msg, NL80211_ATTR_WDEV, 8, &fx->wdev_id);
l_genl_msg_append_attr(msg, NL80211_ATTR_WIPHY_FREQ, 4, &fx->freq);
l_genl_msg_append_attr(msg, NL80211_ATTR_OFFCHANNEL_TX_OK, 0, NULL);
l_genl_msg_append_attr(msg, NL80211_ATTR_FRAME,
fx->tx_mpdu_len, fx->tx_mpdu);
if (fx->no_cck_rates)
l_genl_msg_append_attr(msg, NL80211_ATTR_TX_NO_CCK_RATE, 0,
NULL);
if (duration)
l_genl_msg_append_attr(msg, NL80211_ATTR_DURATION, 4,
&duration);
fx->tx_cmd_id = l_genl_family_send(nl80211, msg, frame_xchg_tx_cb, fx,
frame-xchg: fix invalid read This seems to happen occationally with testAP (potentially others). The invalid read appears to happen when the frame_xchg_tx_cb detects an early status and no ACK. In this particular case there is no retry interval so we reach the retry limit and 'done' the frame. This frees the 'fx' data all before the destroy callback can get called. Once we finally return and the destroy callback is called 'fx' is freed and we see the invalid write. ==206== Memcheck, a memory error detector ==206== Copyright (C) 2002-2017, and GNU GPL'd, by Julian Seward et al. ==206== Using Valgrind-3.16.1 and LibVEX; rerun with -h for copyright info ==206== Command: iwd -p rad1,rad2,rad3,rad4 -d ==206== Parent PID: 140 ==206== ==206== Invalid write of size 4 ==206== at 0x4493A0: frame_xchg_tx_destroy (frame-xchg.c:941) ==206== by 0x46DAF6: destroy_request (genl.c:673) ==206== by 0x46DAF6: process_unicast (genl.c:1002) ==206== by 0x46DAF6: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206== by 0x403E78: main (main.c:490) ==206== Address 0x4c59c6c is 172 bytes inside a block of size 176 free'd ==206== at 0x483B9F5: free (vg_replace_malloc.c:538) ==206== by 0x40F14C: destroy_work (wiphy.c:248) ==206== by 0x40F14C: wiphy_radio_work_done (wiphy.c:1578) ==206== by 0x44A916: frame_xchg_tx_cb (frame-xchg.c:930) ==206== by 0x46DAD9: process_unicast (genl.c:993) ==206== by 0x46DAD9: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206== by 0x403E78: main (main.c:490) ==206== Block was alloc'd at ==206== at 0x483A809: malloc (vg_replace_malloc.c:307) ==206== by 0x4643CD: l_malloc (util.c:61) ==206== by 0x44AF8C: frame_xchg_startv (frame-xchg.c:1155) ==206== by 0x44B2A4: frame_xchg_start (frame-xchg.c:1108) ==206== by 0x42BC55: ap_send_mgmt_frame (ap.c:709) ==206== by 0x42F513: ap_probe_req_cb (ap.c:1869) ==206== by 0x449752: frame_watch_unicast_notify (frame-xchg.c:233) ==206== by 0x46DA2F: dispatch_unicast_watches (genl.c:961) ==206== by 0x46DA2F: process_unicast (genl.c:980) ==206== by 0x46DA2F: received_data (genl.c:1101) ==206== by 0x46AA4B: io_callback (io.c:118) ==206== by 0x469D6C: l_main_iterate (main.c:477) ==206== by 0x469E1B: l_main_run (main.c:524) ==206== by 0x469E1B: l_main_run (main.c:506) ==206== by 0x46A02B: l_main_run_with_signal (main.c:646) ==206==
2020-10-30 17:35:59 +01:00
NULL);
if (!fx->tx_cmd_id) {
l_error("Error sending frame");
l_genl_msg_unref(msg);
frame_xchg_done(fx, -EIO);
return true;
}
fx->tx_acked = false;
fx->have_cookie = false;
fx->early_status = false;
fx->retry_cnt++;
return false;
}
static bool frame_xchg_match_ptr(const void *a, const void *b)
{
return a == b;
}
static bool frame_xchg_resp_handle(const struct mmpdu_header *mpdu,
const void *body, size_t body_len,
int rssi, void *user_data)
{
struct frame_xchg_data *fx = user_data;
const struct l_queue_entry *entry;
size_t hdr_len;
l_debug("");
if (memcmp(mpdu->address_1, fx->tx_mpdu->address_2, 6))
return false;
if (memcmp(mpdu->address_2, fx->tx_mpdu->address_1, 6))
return false;
/*
* BSSID (address_3) check not practical because some Linux
* drivers report all-zero values and some remote devices send
* wrong addresses. But the frame callback is free to perform
* its own check.
*/
for (entry = l_queue_get_entries(fx->rx_watches);
entry; entry = entry->next) {
struct frame_xchg_watch_data *watch = entry->data;
bool done;
if (body_len < watch->prefix->len ||
memcmp(body, watch->prefix->data,
watch->prefix->len))
continue;
if (!fx->tx_acked)
goto early_frame;
done = watch->cb(mpdu, body, body_len, rssi, fx->user_data);
if (!l_queue_find(frame_xchgs, frame_xchg_match_ptr, fx))
return true;
if (done) {
/* NULL callback here since the caller is done */
fx->cb = NULL;
frame_xchg_done(fx, 0);
return true;
}
}
return false;
early_frame:
/*
* Work around the strange order of events seen with the brcmfmac
* driver where we receive the response frames before the frame
* Tx status, which in turn is receive before the Tx callback with
* the operation cookie... rather then the reverse.
* Save the response frame to be processed in the Tx done callback.
*/
if (fx->early_frame.mpdu)
return false;
hdr_len = (const uint8_t *) body - (const uint8_t *) mpdu;
fx->early_frame.mpdu = l_memdup(mpdu, body_len + hdr_len);
fx->early_frame.body = (const uint8_t *) fx->early_frame.mpdu + hdr_len;
fx->early_frame.body_len = body_len;
fx->early_frame.rssi = rssi;
return false;
}
static void frame_xchg_resp_cb(const struct mmpdu_header *mpdu,
const void *body, size_t body_len,
int rssi, void *user_data)
{
frame_xchg_resp_handle(mpdu, body, body_len, rssi, user_data);
}
static bool frame_xchg_match_running(const void *a, const void *b)
{
const struct frame_xchg_data *fx = a;
const uint64_t *wdev_id = b;
return fx->retry_cnt > 0 && fx->wdev_id == *wdev_id;
}
/*
* Send an action frame described by @frame. If @retry_interval is
* non-zero and we receive no ACK from @peer to any of the retransmissions
* done in the kernel (at a high rate), retry after @retry_interval
* milliseconds from the time the kernel gave up. If no ACK is received
* after all the retransmissions, call @cb with a non-zero error number.
* Otherwise, if @resp_timeout is non-zero, remain on the same channel
* and report any response frames from the frame's destination address
* that match provided prefixes, to the corresponding callbacks. Do so
* for @resp_timeout milliseconds from the ACK receival or until a frame
* callback returns @true. Call @cb when @resp_timeout runs out and
* no frame callback returned @true, or immediately after the ACK if
* @resp_timeout was 0. @frame is an iovec array terminated by an iovec
* struct with NULL-iov_base.
*/
uint32_t frame_xchg_start(uint64_t wdev_id, struct iovec *frame, uint32_t freq,
2020-03-19 22:12:11 +01:00
unsigned int retry_interval, unsigned int resp_timeout,
unsigned int retries_on_ack, uint32_t group_id,
frame_xchg_cb_t cb, void *user_data,
frame_xchg_destroy_func_t destroy, ...)
2020-03-19 22:12:11 +01:00
{
uint32_t id;
2020-03-19 22:12:11 +01:00
va_list args;
va_start(args, destroy);
id = frame_xchg_startv(wdev_id, frame, freq, retry_interval, resp_timeout,
retries_on_ack, group_id, cb, user_data,
destroy, args);
2020-03-19 22:12:11 +01:00
va_end(args);
return id;
2020-03-19 22:12:11 +01:00
}
static const struct wiphy_radio_work_item_ops work_ops = {
.do_work = frame_xchg_tx_retry,
.destroy = frame_xchg_destroy,
};
static bool frame_xchg_wdev_match(const void *a, const void *b)
{
const struct wdev_info *wdev = a;
const uint64_t *id = b;
return wdev->id == *id;
}
uint32_t frame_xchg_startv(uint64_t wdev_id, struct iovec *frame, uint32_t freq,
unsigned int retry_interval, unsigned int resp_timeout,
unsigned int retries_on_ack, uint32_t group_id,
frame_xchg_cb_t cb, void *user_data,
frame_xchg_destroy_func_t destroy, va_list resp_args)
{
struct frame_xchg_data *fx;
size_t frame_len;
struct iovec *iov;
uint8_t *ptr;
struct wdev_info *wdev;
for (frame_len = 0, iov = frame; iov->iov_base; iov++)
frame_len += iov->iov_len;
/*
* This assumes that the first iovec at least contains the mmpdu_fc
* portion of the header used to calculate the minimum length.
*/
if (frame[0].iov_len >= 2 && frame_len <
mmpdu_header_len((const struct mmpdu_header *)
frame[0].iov_base)) {
l_error("Frame too short");
cb(-EMSGSIZE, user_data);
return 0;
}
fx = l_new(struct frame_xchg_data, 1);
if (!frame_xchgs)
frame_xchgs = l_queue_new();
fx->wdev_id = wdev_id;
fx->freq = freq;
fx->retry_interval = retry_interval;
fx->resp_timeout = resp_timeout;
fx->retries_on_ack = retries_on_ack;
fx->cb = cb;
fx->destroy = destroy;
fx->user_data = user_data;
fx->group_id = group_id;
fx->tx_mpdu = l_malloc(frame_len);
fx->tx_mpdu_len = frame_len;
ptr = (uint8_t *) fx->tx_mpdu;
for (iov = frame; iov->iov_base; ptr += iov->iov_len, iov++)
memcpy(ptr, iov->iov_base, iov->iov_len);
wdev = l_queue_find(wdevs, frame_xchg_wdev_match, &wdev_id);
fx->no_cck_rates = wdev &&
(wdev->iftype == NL80211_IFTYPE_P2P_DEVICE ||
wdev->iftype == NL80211_IFTYPE_P2P_CLIENT ||
wdev->iftype == NL80211_IFTYPE_P2P_GO);
/*
* Subscribe to the response frames now instead of in the ACK
* callback to save ourselves race condition considerations.
*/
while (1) {
struct frame_xchg_prefix *prefix;
struct frame_xchg_watch_data *watch;
prefix = va_arg(resp_args, struct frame_xchg_prefix *);
if (!prefix)
break;
watch = l_new(struct frame_xchg_watch_data, 1);
watch->prefix = prefix;
watch->cb = va_arg(resp_args, void *);
frame_watch_add(wdev_id, group_id, prefix->frame_type,
prefix->data, prefix->len,
frame_xchg_resp_cb, fx, NULL);
if (!fx->rx_watches)
fx->rx_watches = l_queue_new();
l_queue_push_tail(fx->rx_watches, watch);
}
fx->retry_cnt = 0;
l_queue_push_tail(frame_xchgs, fx);
/*
* TODO: Assume any offchannel frames are a high priority (0). This may
* need to be re-examined in the future if other operations (e.g.
* wait on channel) are introduced.
*/
return wiphy_radio_work_insert(wiphy_find_by_wdev(wdev_id),
&fx->work, WIPHY_WORK_PRIORITY_FRAME,
&work_ops);
}
static bool frame_xchg_cancel_by_wdev(void *data, void *user_data)
{
struct frame_xchg_data *fx = data;
const uint64_t *wdev_id = user_data;
if (fx->wdev_id != *wdev_id)
return false;
wiphy_radio_work_done(wiphy_find_by_wdev(fx->wdev_id), fx->work.id);
return true;
}
void frame_xchg_stop_wdev(uint64_t wdev_id)
{
l_queue_foreach_remove(frame_xchgs, frame_xchg_cancel_by_wdev,
&wdev_id);
}
static bool frame_xchg_match_id(const void *a, const void *b)
{
const struct frame_xchg_data *fx = a;
const uint32_t *id = b;
return fx->work.id == *id;
}
void frame_xchg_cancel(uint32_t id)
{
struct frame_xchg_data *fx =
l_queue_remove_if(frame_xchgs, frame_xchg_match_id, &id);
if (!fx)
return;
wiphy_radio_work_done(wiphy_find_by_wdev(fx->wdev_id), id);
}
static void frame_xchg_mlme_notify(struct l_genl_msg *msg, void *user_data)
{
uint64_t wdev_id;
struct frame_xchg_data *fx;
uint64_t cookie;
bool ack;
uint8_t cmd = l_genl_msg_get_command(msg);
switch (cmd) {
case NL80211_CMD_FRAME_TX_STATUS:
if (nl80211_parse_attrs(msg, NL80211_ATTR_WDEV, &wdev_id,
NL80211_ATTR_COOKIE, &cookie,
NL80211_ATTR_ACK, &ack,
NL80211_ATTR_UNSPEC) < 0)
return;
fx = l_queue_find(frame_xchgs, frame_xchg_match_running,
&wdev_id);
if (!fx)
return;
l_debug("Received %s for cookie: %"PRIu64,
ack ? "an ACK" : "no ACK", cookie);
if (fx->have_cookie && cookie == fx->cookie && !fx->tx_acked)
frame_xchg_tx_status(fx, ack);
else if (!fx->have_cookie && !fx->tx_acked) {
/*
* Save the information about the frame's ACK status
* to be processed in frame_xchg_tx_cb if we were
* called before it (happens on brcmfmac).
*/
fx->tx_acked = ack;
fx->cookie = cookie;
fx->early_status = true;
}
break;
}
}
static void frame_xchg_config_notify(struct l_genl_msg *msg, void *user_data)
{
uint64_t wdev_id;
uint32_t iftype;
struct wdev_info *wdev;
switch (l_genl_msg_get_command(msg)) {
case NL80211_CMD_NEW_INTERFACE:
case NL80211_CMD_SET_INTERFACE:
if (nl80211_parse_attrs(msg, NL80211_ATTR_WDEV, &wdev_id,
NL80211_ATTR_IFTYPE, &iftype,
NL80211_ATTR_UNSPEC) < 0)
break;
wdev = l_queue_find(wdevs, frame_xchg_wdev_match, &wdev_id);
if (!wdev) {
wdev = l_new(struct wdev_info, 1);
wdev->id = wdev_id;
if (!wdevs)
wdevs = l_queue_new();
l_queue_push_tail(wdevs, wdev);
break;
}
wdev->iftype = iftype;
break;
case NL80211_CMD_DEL_INTERFACE:
if (nl80211_parse_attrs(msg, NL80211_ATTR_WDEV, &wdev_id,
NL80211_ATTR_UNSPEC) < 0)
break;
wdev = l_queue_remove_if(wdevs, frame_xchg_wdev_match, &wdev_id);
if (!wdev)
break;
l_free(wdev);
frame_watch_wdev_remove(wdev_id);
break;
}
}
static int frame_xchg_init(void)
{
struct watch_group *default_group;
const struct l_genl_family_info *info;
nl80211 = l_genl_family_new(iwd_get_genl(), NL80211_GENL_NAME);
if (!nl80211) {
l_error("Failed to obtain nl80211");
return -EIO;
}
info = l_genl_family_get_info(nl80211);
nl80211_id = l_genl_family_info_get_id(info);
default_group = frame_watch_group_new(0, 0);
if (!default_group)
goto error;
if (!l_genl_family_register(nl80211, "config", frame_xchg_config_notify,
NULL, NULL)) {
l_error("Registering for config notifications failed");
goto error;
}
if (!l_genl_family_register(nl80211, "mlme", frame_xchg_mlme_notify,
NULL, NULL)) {
l_error("Registering for MLME notification failed");
goto error;
}
watch_groups = l_queue_new();
l_queue_push_tail(watch_groups, default_group);
return 0;
error:
if (nl80211) {
l_genl_family_free(nl80211);
nl80211 = NULL;
}
if (default_group)
frame_watch_group_destroy(default_group);
return -EIO;
}
static void destroy_xchg_data(void *user_data)
{
struct frame_xchg_data *fx = user_data;
wiphy_radio_work_done(wiphy_find_by_wdev(fx->wdev_id), fx->work.id);
}
static void frame_xchg_exit(void)
{
struct l_queue *groups = watch_groups;
struct l_queue *xchgs = frame_xchgs;
frame_xchgs = NULL;
l_queue_destroy(xchgs, destroy_xchg_data);
watch_groups = NULL;
l_queue_destroy(groups, frame_watch_group_destroy);
l_genl_family_free(nl80211);
nl80211 = NULL;
l_queue_destroy(wdevs, l_free);
wdevs = NULL;
}
IWD_MODULE(frame_xchg, frame_xchg_init, frame_xchg_exit);
IWD_MODULE_DEPENDS(frame_xchg, wiphy)