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iwd/tools/hwsim.c

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tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
/*
*
* Wireless daemon for Linux
*
treewide: Move the Intel copyright forward to 2019
2019-10-25 00:43:08 +02:00
* Copyright (C) 2013-2019 Intel Corporation. All rights reserved.
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
*
* 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 <stdio.h>
#include <stdlib.h>
#include <getopt.h>
build: Adjust to the latest ELL signal API changes
2018-11-01 22:09:19 +01:00
#include <signal.h>
build: Fix includes for using with -std=c99 compiler option
2018-11-01 22:37:11 +01:00
#include <time.h>
#include <sys/time.h>
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
#include <linux/if_ether.h>
hwsim: Watch RTNL NewLink events Handle NewLink events to detect interface mac address changes. In my current testing I don't see nl80211 events on address change so it's best to react to both types of events.
2017-03-26 03:16:50 +02:00
#include <linux/rtnetlink.h>
#include <net/if_arp.h>
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
#include <ell/ell.h>
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
#include "ell/useful.h"
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
#include "linux/nl80211.h"
#include "src/util.h"
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
#include "src/storage.h"
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
#include "src/mpdu.h"
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
#include "src/crypto.h"
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
#include "src/nl80211util.h"
#include "src/nl80211cmd.h"
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
tools: Change net.connman.iwd.hwsim to net.connman.hwsim
2018-09-14 15:27:57 +02:00
#define HWSIM_SERVICE "net.connman.hwsim"
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
#define HWSIM_RADIO_MANAGER_INTERFACE HWSIM_SERVICE ".RadioManager"
#define HWSIM_RADIO_INTERFACE HWSIM_SERVICE ".Radio"
#define HWSIM_INTERFACE_INTERFACE HWSIM_SERVICE ".Interface"
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
#define HWSIM_RULE_MANAGER_INTERFACE HWSIM_SERVICE ".RuleManager"
#define HWSIM_RULE_INTERFACE HWSIM_SERVICE ".Rule"
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
enum {
HWSIM_CMD_UNSPEC,
HWSIM_CMD_REGISTER,
HWSIM_CMD_FRAME,
HWSIM_CMD_TX_INFO_FRAME,
hwsim: Receive multicast netlink event for NEW/DEL radio commands Kernel sends HWSIM_CMD_NEW_RADIO and HWSIM_CMD_DEL_RADIO multicast events when new radio have been created and when existing one has been deleted. The events are sent to "config" netlink multicast group. The hwsim catches these events and uses the information to monitor what simulated radios are created and deleted in the system.
2014-10-31 14:42:40 +01:00
HWSIM_CMD_NEW_RADIO,
HWSIM_CMD_DEL_RADIO,
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
HWSIM_CMD_GET_RADIO,
hwsim: add ADD/DEL_MAC_ADDR events These events are important to support both moving radios to other namespaces, and to allow scan address randomization to work.
2023-06-28 22:20:31 +02:00
HWSIM_CMD_ADD_MAC_ADDR,
HWSIM_CMD_DEL_MAC_ADDR,
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
__HWSIM_CMD_MAX,
};
hwsim: Fix #define
2015-04-17 17:17:50 +02:00
#define HWSIM_CMD_MAX (__HWSIM_CMD_MAX - 1)
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
enum {
HWSIM_ATTR_UNSPEC,
HWSIM_ATTR_ADDR_RECEIVER,
HWSIM_ATTR_ADDR_TRANSMITTER,
HWSIM_ATTR_FRAME,
HWSIM_ATTR_FLAGS,
HWSIM_ATTR_RX_RATE,
HWSIM_ATTR_SIGNAL,
HWSIM_ATTR_TX_INFO,
HWSIM_ATTR_COOKIE,
HWSIM_ATTR_CHANNELS,
HWSIM_ATTR_RADIO_ID,
HWSIM_ATTR_REG_HINT_ALPHA2,
HWSIM_ATTR_REG_CUSTOM_REG,
HWSIM_ATTR_REG_STRICT_REG,
HWSIM_ATTR_SUPPORT_P2P_DEVICE,
HWSIM_ATTR_USE_CHANCTX,
hwsim: Add attribute to destroy radio when program stops The new attribute causes the radio to be removed if the hwsim process dies. This is the default behaviour. If user calls the binary with -k option, then the radio is kept after hwsim quits. This requires kernel support for HWSIM_ATTR_DESTROY_RADIO_ON_CLOSE attribute.
2014-10-10 09:47:19 +02:00
HWSIM_ATTR_DESTROY_RADIO_ON_CLOSE,
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
HWSIM_ATTR_RADIO_NAME,
HWSIM_ATTR_NO_VIF,
HWSIM_ATTR_FREQ,
hwsim: update hwsim attrs to latest mac80211_hwsim
2018-10-24 22:27:44 +02:00
HWSIM_ATTR_PAD,
HWSIM_ATTR_TX_INFO_FLAGS,
HWSIM_ATTR_PERM_ADDR,
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
HWSIM_ATTR_IFTYPE_SUPPORT,
HWSIM_ATTR_CIPHER_SUPPORT,
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
__HWSIM_ATTR_MAX,
};
#define HWSIM_ATTR_MAX (__HWSIM_ATTR_MAX - 1)
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
/*
* Should be kept in sync with HWSIM_IFTYPE_SUPPORT_MASK in mac80211_hwsim
*/
#define HWSIM_DEFAULT_IFTYPES \
( \
(1 << NL80211_IFTYPE_STATION) | \
(1 << NL80211_IFTYPE_AP) | \
(1 << NL80211_IFTYPE_P2P_CLIENT) | \
(1 << NL80211_IFTYPE_P2P_GO) | \
(1 << NL80211_IFTYPE_ADHOC) | \
(1 << NL80211_IFTYPE_MESH_POINT) \
)
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
enum hwsim_tx_control_flags {
HWSIM_TX_CTL_REQ_TX_STATUS = 1 << 0,
HWSIM_TX_CTL_NO_ACK = 1 << 1,
HWSIM_TX_STAT_ACK = 1 << 2,
};
#define IEEE80211_TX_RATE_TABLE_SIZE 4
hwsim: add new 'Delay' property to Rules This allows a matching frame to be delayed by some number of milliseconds.
2020-06-02 19:30:18 +02:00
#define HWSIM_DELAY_MIN_MS 1
hwsim: add Prefix match rule support Hwsim rules now have a 'Prefix' property which will allow matching frames based on their payload data.
2021-04-06 00:40:24 +02:00
#define HWSIM_MAX_PREFIX_LEN 128
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
struct hwsim_rule {
unsigned int id;
uint8_t source[ETH_ALEN];
uint8_t destination[ETH_ALEN];
bool source_any : 1;
bool destination_any : 1;
bool bidirectional : 1;
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
bool drop : 1;
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
bool drop_ack : 1;
hwsim: require enabling rule before use The hwsim Rule API was structured as properties so once a rule is created it automatically starts being applied to frames. This happens before anything has time to actually define the rule (source, destination etc). This leads to every single frame being matched to the rule until these other properties are added, which can result in unexpected behavior. To fix this an "Enabled" property has been added and the rule will not be applied until this is true.
2021-08-19 00:09:28 +02:00
bool enabled : 1;
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
uint32_t frequency;
int priority;
int signal;
hwsim: add new 'Delay' property to Rules This allows a matching frame to be delayed by some number of milliseconds.
2020-06-02 19:30:18 +02:00
int delay;
hwsim: add Prefix match rule support Hwsim rules now have a 'Prefix' property which will allow matching frames based on their payload data.
2021-04-06 00:40:24 +02:00
uint8_t *prefix;
size_t prefix_len;
hwsim: add MatchBytes/MatchBytesOffset rule properties If set, a rule will start matching 'MatchBytes' some number of bytes into the frame (MatchBytesOffset). This is useful since header information, addresses, and sequence numbers may be unpredictable between test runs. To avoid unintended matches the Prefix property is left unchanged and will match starting at the beginning of the frame.
2021-09-10 00:08:43 +02:00
uint8_t *match;
size_t match_len;
uint16_t match_offset;
hwsim: add MatchTimes property This integer property can be set to only match a rule a number of times rather than all packets. This is useful for testing behavior of a single dropped frame or ack. Once the rule has been matched 'MatchTimes' the rules will no longer be applied (unless set again to some integer greater than zero).
2021-09-07 23:14:42 +02:00
int match_times; /* negative value indicates unused */
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
};
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
struct hwsim_support {
const char *name;
uint32_t value;
};
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
static struct l_genl *genl;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
static struct l_genl_family *hwsim;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
static struct l_genl_family *nl80211;
hwsim: Watch RTNL NewLink events Handle NewLink events to detect interface mac address changes. In my current testing I don't see nl80211 events on address change so it's best to react to both types of events.
2017-03-26 03:16:50 +02:00
static struct l_netlink *rtnl;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
static const char *options;
hwsim: Report exit status to the parent
2016-07-09 01:19:29 +02:00
static int exit_status;
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
static enum action {
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
ACTION_NONE,
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
ACTION_CREATE,
ACTION_DESTROY,
ACTION_LIST,
} action;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
static bool no_vif_attr;
hwsim: Make attribute names consistent
2016-07-09 01:21:48 +02:00
static bool p2p_attr;
hwsim: add --no-register option Starts hwsim but does not register to mac80211_hwsim. This is to allow autotests to disable hwsim, while still having the ability to create/destroy radios over DBus.
2020-12-17 20:36:01 +01:00
static bool no_register = false;
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
static const char *radio_name_attr;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
static struct l_dbus *dbus;
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
static struct l_queue *rules;
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
static unsigned int next_rule_id;
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
static uint32_t hwsim_iftypes = HWSIM_DEFAULT_IFTYPES;
static const uint32_t hwsim_supported_ciphers[] = {
CRYPTO_CIPHER_WEP40,
CRYPTO_CIPHER_WEP104,
CRYPTO_CIPHER_TKIP,
CRYPTO_CIPHER_CCMP,
crypto: Rename BIP to BIP_CMAC To match the spec more closely. Several additional BIP algorithms are being introduced, including BIP_GMAC_128|256 and BIP_CMAC_256.
2022-10-19 23:21:34 +02:00
CRYPTO_CIPHER_BIP_CMAC,
hwsim: add remaining ciphers to supported list This list was not updated when adding the new ciphers which prevented these ciphers from being disabled.
2022-11-01 21:17:40 +01:00
CRYPTO_CIPHER_GCMP,
CRYPTO_CIPHER_GCMP_256,
CRYPTO_CIPHER_CCMP_256,
CRYPTO_CIPHER_BIP_GMAC,
CRYPTO_CIPHER_BIP_GMAC_256,
CRYPTO_CIPHER_BIP_CMAC_256,
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
};
static uint32_t hwsim_ciphers[L_ARRAY_SIZE(hwsim_supported_ciphers)];
static int hwsim_num_ciphers = 0;
/* list of disableable iftypes */
static const struct hwsim_support iftype_map[] = {
{ "station", 1 << NL80211_IFTYPE_STATION },
{ "ap", 1 << NL80211_IFTYPE_AP },
{ "adhoc", 1 << NL80211_IFTYPE_ADHOC },
{ "p2p_client", 1 << NL80211_IFTYPE_P2P_CLIENT },
{ "p2p_go", 1 << NL80211_IFTYPE_P2P_GO },
{ "mesh_point", 1 << NL80211_IFTYPE_MESH_POINT },
{ }
};
static const struct hwsim_support cipher_map[] = {
{ "wep40", CRYPTO_CIPHER_WEP40 },
{ "wep104", CRYPTO_CIPHER_WEP104 },
{ "tkip", CRYPTO_CIPHER_TKIP },
{ "ccmp", CRYPTO_CIPHER_CCMP },
hwsim: add additional ciphers to disable list Allows these ciphers to be disabled when creating radios.
2022-10-26 23:53:49 +02:00
{ "bip_cmac", CRYPTO_CIPHER_BIP_CMAC },
{ "gcmp", CRYPTO_CIPHER_GCMP },
{ "gcmp_256", CRYPTO_CIPHER_GCMP_256 },
{ "ccmp_256", CRYPTO_CIPHER_CCMP_256 },
{ "bip_gmac", CRYPTO_CIPHER_BIP_GMAC },
{ "bip_gmac_256", CRYPTO_CIPHER_BIP_GMAC_256 },
{ "bip_cmac_256", CRYPTO_CIPHER_BIP_CMAC_256 },
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
{ }
};
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
static void do_debug(const char *str, void *user_data)
{
const char *prefix = user_data;
l_info("%s%s", prefix, str);
}
hwsim: add iftype/cipher disabling through DBus Update the Dbus API to allow disabling iftypes and ciphers just as you can with the command line.
2020-12-17 20:36:08 +01:00
static void hwsim_disable_support(const char *disable,
const struct hwsim_support *map, uint32_t *mask)
{
char **list = l_strsplit(disable, ',');
char **iter = list;
int i;
while (*iter) {
for (i = 0; map[i].name; i++) {
if (!strcmp(map[i].name, *iter))
*mask &= ~(map[i].value);
}
iter++;
}
l_strfreev(list);
}
static bool is_cipher_disabled(const char *args, enum crypto_cipher cipher)
{
char **list = l_strsplit(args, ',');
char **iter = list;
int i;
while (*iter) {
for (i = 0; cipher_map[i].name; i++) {
if (!strcmp(*iter, cipher_map[i].name) &&
cipher == cipher_map[i].value) {
printf("disable cipher: %s\n", cipher_map[i].name);
l_strfreev(list);
return true;
}
}
iter++;
}
l_strfreev(list);
return false;
}
static void hwsim_disable_ciphers(const char *disable)
{
uint8_t i;
for (i = 0; i < L_ARRAY_SIZE(hwsim_supported_ciphers); i++) {
if (is_cipher_disabled(disable, hwsim_supported_ciphers[i]))
continue;
hwsim_ciphers[hwsim_num_ciphers] = hwsim_supported_ciphers[i];
hwsim_num_ciphers++;
}
}
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
static void create_callback(struct l_genl_msg *msg, void *user_data)
{
struct l_genl_attr attr;
uint32_t radio_id = 0;
hwsim: Cleanup some style issues
2014-10-08 04:36:10 +02:00
/*
* Note that the radio id is returned in the error field of
hwsim: Radio id was not parsed properly When a new radio is created, the kernel returns the new radio id in the error code. If the error < 0, then that means a real error and other values are used as a radio id. When a radio is destroyed, the error code 0 means a success and other values indicate an error.
2014-10-07 14:07:15 +02:00
* the returned message.
*/
if (!l_genl_attr_init(&attr, msg)) {
int err = l_genl_msg_get_error(msg);
hwsim: Fixed the errors reported by checkpatch.pl
2016-04-20 22:30:59 +02:00
hwsim: Radio id was not parsed properly When a new radio is created, the kernel returns the new radio id in the error code. If the error < 0, then that means a real error and other values are used as a radio id. When a radio is destroyed, the error code 0 means a success and other values indicate an error.
2014-10-07 14:07:15 +02:00
if (err < 0) {
l_warn("Failed to initialize create return attributes"
" [%d/%s]", -err, strerror(-err));
hwsim: Report exit status to the parent
2016-07-09 01:19:29 +02:00
exit_status = EXIT_FAILURE;
hwsim: Radio id was not parsed properly When a new radio is created, the kernel returns the new radio id in the error code. If the error < 0, then that means a real error and other values are used as a radio id. When a radio is destroyed, the error code 0 means a success and other values indicate an error.
2014-10-07 14:07:15 +02:00
goto done;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
}
hwsim: Radio id was not parsed properly When a new radio is created, the kernel returns the new radio id in the error code. If the error < 0, then that means a real error and other values are used as a radio id. When a radio is destroyed, the error code 0 means a success and other values indicate an error.
2014-10-07 14:07:15 +02:00
radio_id = err;
l_info("Created new radio with id %u", radio_id);
} else {
l_warn("Failed to get create return value");
hwsim: Report exit status to the parent
2016-07-09 01:19:29 +02:00
exit_status = EXIT_FAILURE;
hwsim: Radio id was not parsed properly When a new radio is created, the kernel returns the new radio id in the error code. If the error < 0, then that means a real error and other values are used as a radio id. When a radio is destroyed, the error code 0 means a success and other values indicate an error.
2014-10-07 14:07:15 +02:00
goto done;
}
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
done:
l_main_quit();
}
static void destroy_callback(struct l_genl_msg *msg, void *user_data)
{
struct l_genl_attr attr;
uint16_t type, len;
const void *data;
if (!l_genl_attr_init(&attr, msg)) {
hwsim: Radio id was not parsed properly When a new radio is created, the kernel returns the new radio id in the error code. If the error < 0, then that means a real error and other values are used as a radio id. When a radio is destroyed, the error code 0 means a success and other values indicate an error.
2014-10-07 14:07:15 +02:00
int err = l_genl_msg_get_error(msg);
hwsim: Fixed the errors reported by checkpatch.pl
2016-04-20 22:30:59 +02:00
hwsim: Radio id was not parsed properly When a new radio is created, the kernel returns the new radio id in the error code. If the error < 0, then that means a real error and other values are used as a radio id. When a radio is destroyed, the error code 0 means a success and other values indicate an error.
2014-10-07 14:07:15 +02:00
if (err < 0) {
l_warn("Failed to destroy radio [%d/%s]",
-err, strerror(-err));
hwsim: Report exit status to the parent
2016-07-09 01:19:29 +02:00
exit_status = EXIT_FAILURE;
hwsim: Radio id was not parsed properly When a new radio is created, the kernel returns the new radio id in the error code. If the error < 0, then that means a real error and other values are used as a radio id. When a radio is destroyed, the error code 0 means a success and other values indicate an error.
2014-10-07 14:07:15 +02:00
goto done;
}
l_info("Destroyed radio");
hwsim: Don't try l_genl_attr_next if _attr_init fails. This was causing a segfault.
2015-04-17 17:17:50 +02:00
goto done;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
}
hwsim: Fixed the errors reported by checkpatch.pl
2016-04-20 22:30:59 +02:00
while (l_genl_attr_next(&attr, &type, &len, &data))
;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
done:
l_main_quit();
}
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
static void list_callback_done(void *user_data)
{
l_main_quit();
}
static void list_callback(struct l_genl_msg *msg, void *user_data)
{
struct l_genl_attr attr;
uint16_t type, len;
const void *data;
uint32_t idx = 0, channels = 0, custom_reg = 0;
bool reg_strict = false, p2p = false, chanctx = false;
char alpha2[2] = { };
char *hwname = NULL;
if (!l_genl_attr_init(&attr, msg)) {
int err = l_genl_msg_get_error(msg);
hwsim: Fixed the errors reported by checkpatch.pl
2016-04-20 22:30:59 +02:00
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
if (err < 0) {
l_warn("Failed to list radio [%d/%s]",
-err, strerror(-err));
hwsim: Report exit status to the parent
2016-07-09 01:19:29 +02:00
exit_status = EXIT_FAILURE;
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
return;
}
}
while (l_genl_attr_next(&attr, &type, &len, &data)) {
switch (type) {
case HWSIM_ATTR_RADIO_ID:
if (len == 4)
idx = *(int *)data;
break;
case HWSIM_ATTR_CHANNELS:
if (len == 4)
channels = *(uint32_t *)data;
break;
case HWSIM_ATTR_REG_HINT_ALPHA2:
if (len == 2)
memcpy(&alpha2, data, len);
break;
case HWSIM_ATTR_REG_CUSTOM_REG:
if (len == 4)
custom_reg = *(uint32_t *)data;
break;
case HWSIM_ATTR_REG_STRICT_REG:
reg_strict = true;
break;
case HWSIM_ATTR_SUPPORT_P2P_DEVICE:
p2p = true;
break;
case HWSIM_ATTR_USE_CHANCTX:
chanctx = true;
break;
case HWSIM_ATTR_RADIO_NAME:
hwsim: Fix potential memory leak If msg has multiple RADIO NAME attributes, memory leak occurs. Note that this doesn't happen in practice.
2019-10-23 22:24:01 +02:00
if (!hwname) {
hwname = l_new(char, len + 1);
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
strncpy(hwname, data, len);
}
hwsim: Fix potential memory leak If msg has multiple RADIO NAME attributes, memory leak occurs. Note that this doesn't happen in practice.
2019-10-23 22:24:01 +02:00
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
break;
default:
break;
}
}
printf("%s radio id %d channels %d alpha2 %d %d custom reg %d "
"reg strict %d p2p %d chanctx %d\n",
hwname, idx, channels, alpha2[0], alpha2[1], custom_reg,
reg_strict, p2p, chanctx);
if (hwname)
l_free(hwname);
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
struct radio_info_rec {
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
int32_t id;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
uint32_t wiphy_id;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
char alpha2[2];
bool p2p;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
bool custom_regdom;
uint32_t regdom_idx;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
int channels;
hwsim: Use an array of addresses for radio_info_rec.addrs Make accessing the addrs field easier by converting it from a flat buffer concatenation of the 2 addresses to an array of 2 arrays of 6 bytes.
2017-03-10 12:29:08 +01:00
uint8_t addrs[2][ETH_ALEN];
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
char *name;
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
bool ap_only;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
struct l_dbus_message *pending;
uint32_t cmd_id;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
};
struct interface_info_rec {
uint32_t id;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
struct radio_info_rec *radio_rec;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
uint8_t addr[ETH_ALEN];
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
char *name;
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
uint32_t iftype;
hwsim: handle ADD/DEL_MAC_ADDR events Handling these events notifies hwsim of address changes for interface creation/removal outside the initial namespace as well as address changes due to scanning address randomization. Interfaces that hwsim already knows about are still handled via nl80211. But any interfaces not known when ADD/DEL_MAC_ADDR events come will be treated specially. For ADD, a dummy interface object will be created and added to the queue. This lets the frame processing match the destination address correctly. This can happen both for scan randomization and interface creation outside of the initial namespace. For the DEL event we handle similarly and don't touch any interfaces found via nl80211 (i.e. have a 'name') but need to also be careful with the dummy interfaces that were created outside the initial namespace. We want to keep these around but scanning MAC changes can also delete them. This is why a reference count was added so scanning doesn't cause a removal. For example, the following sequence: ADD_MAC_ADDR (interface creation) ADD_MAC_ADDR (scanning started) DEL_MAC_ADDR (scanning done)
2023-06-28 22:20:33 +02:00
int ref;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
};
static struct l_queue *radio_info;
static struct l_queue *interface_info;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
static void radio_free(void *user_data)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
{
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
struct radio_info_rec *rec = user_data;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (rec->cmd_id)
l_genl_family_cancel(nl80211, rec->cmd_id);
if (rec->pending)
l_dbus_message_unref(rec->pending);
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_free(rec->name);
l_free(rec);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
static void interface_free(void *user_data)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
{
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
struct interface_info_rec *rec = user_data;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_free(rec->name);
l_free(rec);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
static void hwsim_radio_cache_cleanup(void)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
{
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_queue_destroy(radio_info, radio_free);
l_queue_destroy(interface_info, interface_free);
radio_info = NULL;
interface_info = NULL;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
static bool radio_info_match_id(const void *a, const void *b)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
{
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
const struct radio_info_rec *rec = a;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
int32_t id = L_PTR_TO_INT(b);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
return rec->id == id;
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
static bool radio_info_match_wiphy_id(const void *a, const void *b)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
{
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
const struct radio_info_rec *rec = a;
uint32_t id = L_PTR_TO_UINT(b);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
return rec->wiphy_id == id;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
hwsim: Look up radio address in radio_info In mac80211_hwsim each radio is assigned two addresses, the second (addr 1) being used over nl80211. In SendFrame we'd hardcode the mapping of address 0 to address 1 even though we track all the addresses in radio_info, so instead use that data to find the radio that has given address 0. Also if no address 0 matches what was supplied over DBus try to find a matching address 1. There are ways userspace can request different addresses when managing mac80211_hwsim radios and the hardcoded mapping would become wrong.
2018-05-22 14:10:07 +02:00
static bool radio_info_match_addr0(const void *a, const void *b)
{
const struct radio_info_rec *rec = a;
const uint8_t *addr0 = b;
return !memcmp(rec->addrs[0], addr0, ETH_ALEN);
}
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
static bool radio_info_match_addr1(const void *a, const void *b)
{
const struct radio_info_rec *rec = a;
const uint8_t *addr1 = b;
return !memcmp(rec->addrs[1], addr1, ETH_ALEN);
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
static bool interface_info_match_id(const void *a, const void *b)
{
const struct interface_info_rec *rec = a;
uint32_t id = L_PTR_TO_UINT(b);
return rec->id == id;
}
hwsim: handle ADD/DEL_MAC_ADDR events Handling these events notifies hwsim of address changes for interface creation/removal outside the initial namespace as well as address changes due to scanning address randomization. Interfaces that hwsim already knows about are still handled via nl80211. But any interfaces not known when ADD/DEL_MAC_ADDR events come will be treated specially. For ADD, a dummy interface object will be created and added to the queue. This lets the frame processing match the destination address correctly. This can happen both for scan randomization and interface creation outside of the initial namespace. For the DEL event we handle similarly and don't touch any interfaces found via nl80211 (i.e. have a 'name') but need to also be careful with the dummy interfaces that were created outside the initial namespace. We want to keep these around but scanning MAC changes can also delete them. This is why a reference count was added so scanning doesn't cause a removal. For example, the following sequence: ADD_MAC_ADDR (interface creation) ADD_MAC_ADDR (scanning started) DEL_MAC_ADDR (scanning done)
2023-06-28 22:20:33 +02:00
static bool interface_info_match_addr(const void *a, const void *b)
{
const struct interface_info_rec *rec = a;
const uint8_t *addr = b;
return memcmp(rec->addr, addr, ETH_ALEN) == 0;
}
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
static const char *radio_get_path(const struct radio_info_rec *rec)
{
static char path[15];
snprintf(path, sizeof(path), "/radio%u", rec->id);
return path;
}
static const char *interface_get_path(const struct interface_info_rec *rec)
{
static char path[25];
snprintf(path, sizeof(path), "%s/%u",
radio_get_path(rec->radio_rec), rec->id);
return path;
}
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
static struct l_dbus_message *dbus_error_failed(struct l_dbus_message *msg)
{
return l_dbus_message_new_error(msg, HWSIM_SERVICE ".Failed",
"Operation failed");
}
static struct l_dbus_message *dbus_error_invalid_args(
struct l_dbus_message *msg)
{
return l_dbus_message_new_error(msg, HWSIM_SERVICE ".InvalidArgs",
"Argument type is wrong");
}
static void dbus_pending_reply(struct l_dbus_message **msg,
struct l_dbus_message *reply)
{
l_dbus_send(dbus, reply);
l_dbus_message_unref(*msg);
*msg = NULL;
}
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
static const char *rule_get_path(struct hwsim_rule *rule)
{
static char path[16];
snprintf(path, sizeof(path), "/rule%u", rule->id);
return path;
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
static bool parse_addresses(const uint8_t *buf, size_t len,
struct radio_info_rec *rec)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
{
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
unsigned int pos = 0, addr_idx = 0;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
while (pos < len) {
int start_pos = pos;
char addr[20];
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Replace isspace usage with l_ascii_isspace
2017-03-08 13:33:18 +01:00
/* Find first word start and end */
while (pos < len && !l_ascii_isspace(buf[pos]))
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
pos++;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
if (pos - start_pos > sizeof(addr) - 1) {
l_error("Can't parse a %s address from sysfs",
rec->name);
return false;
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
memcpy(addr, buf + start_pos, pos - start_pos);
addr[pos - start_pos] = '\0';
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
if (addr_idx >= 2) {
l_error("Hwsim wiphy %s has too many addresses listed "
" in sysfs - only 2 supported", rec->name);
return false;
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Use an array of addresses for radio_info_rec.addrs Make accessing the addrs field easier by converting it from a flat buffer concatenation of the 2 addresses to an array of 2 arrays of 6 bytes.
2017-03-10 12:29:08 +01:00
if (!util_string_to_address(addr, rec->addrs[addr_idx])) {
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_error("Can't parse hwsim wiphy %s address from sysfs",
rec->name);
return false;
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Replace isspace usage with l_ascii_isspace
2017-03-08 13:33:18 +01:00
addr_idx++;
/* Skip until the start of the next word */
while (pos < len && l_ascii_isspace(buf[pos]))
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
pos++;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
if (addr_idx < 2) {
l_error("Hwsim wiphy %s has too few addresses listed "
" in sysfs - only 2 supported", rec->name);
return false;
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
return true;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
static void get_radio_callback(struct l_genl_msg *msg, void *user_data)
{
struct l_genl_attr attr;
uint16_t type, len;
const void *data;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
_auto_(l_free) char *name = NULL;
const int32_t *id = NULL;
struct radio_info_rec *rec = NULL;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
uint8_t file_buffer[128];
int bytes, consumed;
unsigned int uintval;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
bool changed = false;
bool new = false;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
struct radio_info_rec prev_rec;
bool name_change = false;
const char *path;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
struct l_dbus_message *reply;
const struct l_queue_entry *entry;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
if (!l_genl_attr_init(&attr, msg))
return;
while (l_genl_attr_next(&attr, &type, &len, &data)) {
switch (type) {
case HWSIM_ATTR_RADIO_ID:
if (len != 4)
break;
id = data;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
/*
* ID of -1 denotes a pending creation, so if somehow
* the kernel ID counter reaches an extremely high
* number of radios we just bail.
*/
if (L_WARN_ON(*id < 0))
return;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
break;
case HWSIM_ATTR_RADIO_NAME:
hwsim: check if radio name was already set This was caught by static analysis and shouldn't ever happen.
2022-02-18 20:55:04 +01:00
if (name)
break;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
name = l_strndup(data, len);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
break;
}
}
if (!id || !name)
return;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
for (entry = l_queue_get_entries(radio_info); entry;
entry = entry->next) {
struct radio_info_rec *r = entry->data;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (*id == r->id) {
changed = true;
memcpy(&prev_rec, r, sizeof(prev_rec));
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (strcmp(r->name, name))
name_change = true;
l_free(r->name);
r->name = l_steal_ptr(name);
rec = r;
break;
} else if (!strcmp(r->name, name)) {
rec = r;
rec->id = *id;
break;
}
}
if (!rec) {
new = true;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
rec = l_new(struct radio_info_rec, 1);
rec->id = *id;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
rec->name = l_steal_ptr(name);
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
l_genl_attr_init(&attr, msg);
while (l_genl_attr_next(&attr, &type, &len, &data)) {
switch (type) {
case HWSIM_ATTR_CHANNELS:
if (len != 4)
break;
rec->channels = *(uint32_t *) data;
break;
case HWSIM_ATTR_REG_HINT_ALPHA2:
if (len != 2)
break;
memcpy(rec->alpha2, data, 2);
break;
case HWSIM_ATTR_SUPPORT_P2P_DEVICE:
rec->p2p = true;
break;
case HWSIM_ATTR_REG_CUSTOM_REG:
if (len != 4)
break;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
rec->custom_regdom = true;
rec->regdom_idx = *(uint32_t *) data;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
break;
}
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
/*
* Assuming that the radio name is the wiphy name read the wiphy index
* associated with the radio and the wiphy's hardware addresses from
* sysfs. The index could be obtained through NL80211_CMD_GET_WIPHY
* but that is costly and reading the index synchronously simplifies
* the job a lot. We have to resort to sysfs anyway to obtain the
* radio addresses.
*/
bytes = read_file((char *) file_buffer, sizeof(file_buffer) - 1,
"/sys/class/ieee80211/%s/index", rec->name);
if (bytes < 0) {
l_error("Error reading index for %s from sysfs", rec->name);
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
goto err_free_radio;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
}
file_buffer[bytes] = '\0';
if (sscanf((char *) file_buffer, "%u %n", &uintval, &consumed) != 1 ||
consumed != bytes) {
l_error("Error parsing index for %s from sysfs", rec->name);
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
goto err_free_radio;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
}
rec->wiphy_id = uintval;
bytes = read_file(file_buffer, sizeof(file_buffer),
"/sys/class/ieee80211/%s/addresses", rec->name);
if (bytes < 0) {
l_error("Error reading addresses for %s from sysfs", rec->name);
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
goto err_free_radio;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
}
if (!parse_addresses(file_buffer, bytes, rec))
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
goto err_free_radio;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
if (!radio_info)
radio_info = l_queue_new();
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (new)
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_queue_push_tail(radio_info, rec);
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
path = radio_get_path(rec);
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (!changed) {
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
/* Create Dbus object */
if (!l_dbus_object_add_interface(dbus, path,
HWSIM_RADIO_INTERFACE, rec))
l_info("Unable to add the %s interface to %s",
HWSIM_RADIO_INTERFACE, path);
if (!l_dbus_object_add_interface(dbus, path,
L_DBUS_INTERFACE_PROPERTIES,
NULL))
l_info("Unable to add the %s interface to %s",
L_DBUS_INTERFACE_PROPERTIES, path);
} else {
/* Emit property change events */
hwsim: Use an array of addresses for radio_info_rec.addrs Make accessing the addrs field easier by converting it from a flat buffer concatenation of the 2 addresses to an array of 2 arrays of 6 bytes.
2017-03-10 12:29:08 +01:00
if (memcmp(&prev_rec.addrs, &rec->addrs, sizeof(rec->addrs)))
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_property_changed(dbus, path,
HWSIM_RADIO_INTERFACE,
"Addresses");
if (name_change)
l_dbus_property_changed(dbus, path,
HWSIM_RADIO_INTERFACE, "Name");
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
/* Send pending CreateRadio reply */
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (rec->pending) {
reply = l_dbus_message_new_method_return(rec->pending);
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
l_dbus_message_set_arguments(reply, "o", path);
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
dbus_pending_reply(&rec->pending, reply);
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
return;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
err_free_radio:
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (rec->pending)
dbus_pending_reply(&rec->pending,
dbus_error_failed(rec->pending));
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (!new)
l_queue_remove(radio_info, rec);
radio_free(rec);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
static bool radio_ap_only(struct radio_info_rec *rec)
{
const struct l_queue_entry *i;
unsigned int n = 0;
bool have_ap = false;
for (i = l_queue_get_entries(interface_info); i; i = i->next) {
struct interface_info_rec *interface = i->data;
if (interface->radio_rec != rec)
continue;
if (interface->iftype == NL80211_IFTYPE_AP)
have_ap = true;
n += 1;
}
return n == 1 && have_ap;
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
static void get_wiphy_callback(struct l_genl_msg *msg, void *user_data)
{
hwsim: Use nl80211_parse_attrs Simplify the code by using nl80211_parse_attrs utility instead of open coding the attribute parsing.
2021-12-27 17:32:30 +01:00
const char *name;
uint32_t id;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
struct radio_info_rec *rec;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Use nl80211_parse_attrs Simplify the code by using nl80211_parse_attrs utility instead of open coding the attribute parsing.
2021-12-27 17:32:30 +01:00
if (nl80211_parse_attrs(msg, NL80211_ATTR_WIPHY, &id,
NL80211_ATTR_WIPHY_NAME, &name,
NL80211_ATTR_UNSPEC) < 0)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
return;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
rec = l_queue_find(radio_info, radio_info_match_wiphy_id,
hwsim: Use nl80211_parse_attrs Simplify the code by using nl80211_parse_attrs utility instead of open coding the attribute parsing.
2021-12-27 17:32:30 +01:00
L_UINT_TO_PTR(id));
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
if (!rec)
return;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Use nl80211_parse_attrs Simplify the code by using nl80211_parse_attrs utility instead of open coding the attribute parsing.
2021-12-27 17:32:30 +01:00
if (!strcmp(rec->name, name))
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
return;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_free(rec->name);
hwsim: Use nl80211_parse_attrs Simplify the code by using nl80211_parse_attrs utility instead of open coding the attribute parsing.
2021-12-27 17:32:30 +01:00
rec->name = l_strdup(name);
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_property_changed(dbus, radio_get_path(rec),
HWSIM_RADIO_INTERFACE, "Name");
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
static void get_interface_callback(struct l_genl_msg *msg, void *user_data)
{
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
uint32_t ifindex;
uint32_t wiphy_id;
uint32_t iftype;
const uint8_t *addr;
const char *ifname;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
struct interface_info_rec *rec;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
struct radio_info_rec *radio_rec;
bool old;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
const char *path;
struct interface_info_rec prev_rec;
bool name_change = false;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
if (nl80211_parse_attrs(msg, NL80211_ATTR_IFINDEX, &ifindex,
NL80211_ATTR_IFNAME, &ifname,
NL80211_ATTR_WIPHY, &wiphy_id,
NL80211_ATTR_IFTYPE, &iftype,
NL80211_ATTR_MAC, &addr,
NL80211_ATTR_UNSPEC) < 0)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
return;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
radio_rec = l_queue_find(radio_info, radio_info_match_wiphy_id,
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
L_UINT_TO_PTR(wiphy_id));
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
if (!radio_rec)
/* This is not a hwsim interface, don't track it */
return;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
rec = l_queue_find(interface_info, interface_info_match_id,
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
L_UINT_TO_PTR(ifindex));
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
if (rec) {
old = true;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
memcpy(&prev_rec, rec, sizeof(prev_rec));
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
if (strcmp(rec->name, ifname))
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
name_change = true;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_free(rec->name);
} else {
old = false;
rec = l_new(struct interface_info_rec, 1);
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
rec->id = ifindex;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
rec->radio_rec = radio_rec;
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
memcpy(rec->addr, addr, ETH_ALEN);
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
rec->name = l_strdup(ifname);
rec->iftype = iftype;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
if (!interface_info)
interface_info = l_queue_new();
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
if (!old)
l_queue_push_tail(interface_info, rec);
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
path = interface_get_path(rec);
if (!old) {
/* Create Dbus object */
if (!l_dbus_object_add_interface(dbus, path,
HWSIM_INTERFACE_INTERFACE, rec))
l_info("Unable to add the %s interface to %s",
HWSIM_INTERFACE_INTERFACE, path);
if (!l_dbus_object_add_interface(dbus, path,
L_DBUS_INTERFACE_PROPERTIES,
NULL))
l_info("Unable to add the %s interface to %s",
L_DBUS_INTERFACE_PROPERTIES, path);
} else {
/* Emit property change events */
if (memcmp(prev_rec.addr, rec->addr, ETH_ALEN))
l_dbus_property_changed(dbus, path,
HWSIM_INTERFACE_INTERFACE,
hwsim: Fix property name typo in notification
2017-03-10 12:29:07 +01:00
"Address");
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
if (name_change)
l_dbus_property_changed(dbus, path,
HWSIM_INTERFACE_INTERFACE,
"Name");
}
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
radio_rec->ap_only = radio_ap_only(radio_rec);
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
}
static bool interface_info_destroy_by_radio(void *data, void *user_data)
{
struct interface_info_rec *rec = data;
struct radio_info_rec *radio_rec = user_data;
if (rec->radio_rec != radio_rec)
return false;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_unregister_object(dbus, interface_get_path(rec));
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
interface_free(rec);
return true;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
static void del_radio_event(struct l_genl_msg *msg)
{
struct radio_info_rec *radio;
struct l_genl_attr attr;
uint16_t type, len;
const void *data;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
const int32_t *id = NULL;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
if (!l_genl_attr_init(&attr, msg))
return;
while (l_genl_attr_next(&attr, &type, &len, &data)) {
switch (type) {
case HWSIM_ATTR_RADIO_ID:
if (len != 4)
break;
id = data;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (L_WARN_ON(*id < 0))
return;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
break;
}
}
if (!id)
return;
radio = l_queue_find(radio_info, radio_info_match_id,
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
L_INT_TO_PTR(*id));
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
if (!radio)
return;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_queue_foreach_remove(interface_info, interface_info_destroy_by_radio,
radio);
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_unregister_object(dbus, radio_get_path(radio));
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
l_queue_remove(radio_info, radio);
hwsim: Invoke l_queue_remove prior to object deletion While the current code is quite safe, the new ordering makes more logical sense and doesn't confuse static analysis tools.
2019-10-17 20:03:08 +02:00
radio_free(radio);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
static void set_interface_event(struct l_genl_msg *msg)
{
struct interface_info_rec *interface;
uint32_t ifindex;
uint32_t iftype;
if (nl80211_parse_attrs(msg, NL80211_ATTR_IFINDEX, &ifindex,
NL80211_ATTR_IFTYPE, &iftype,
NL80211_ATTR_UNSPEC) < 0)
return;
interface = l_queue_find(interface_info, interface_info_match_id,
L_UINT_TO_PTR(ifindex));
if (!interface)
return;
if (interface->iftype == iftype)
return;
l_debug("Interface iftype changed for ifindex: %u, iftype: %u",
ifindex, iftype);
interface->iftype = iftype;
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
interface->radio_rec->ap_only = radio_ap_only(interface->radio_rec);
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
static void del_interface_event(struct l_genl_msg *msg)
{
struct interface_info_rec *interface;
hwsim: Use nl80211_parse_attrs Simplify the code by using nl80211_parse_attrs utility instead of open coding the attribute parsing.
2021-12-27 17:32:30 +01:00
uint32_t ifindex;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Use nl80211_parse_attrs Simplify the code by using nl80211_parse_attrs utility instead of open coding the attribute parsing.
2021-12-27 17:32:30 +01:00
if (nl80211_parse_attrs(msg, NL80211_ATTR_IFINDEX, &ifindex,
NL80211_ATTR_UNSPEC) < 0)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
return;
interface = l_queue_find(interface_info, interface_info_match_id,
hwsim: Use nl80211_parse_attrs Simplify the code by using nl80211_parse_attrs utility instead of open coding the attribute parsing.
2021-12-27 17:32:30 +01:00
L_UINT_TO_PTR(ifindex));
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
if (!interface)
return;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_unregister_object(dbus, interface_get_path(interface));
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
l_queue_remove(interface_info, interface);
hwsim: Invoke l_queue_remove prior to object deletion While the current code is quite safe, the new ordering makes more logical sense and doesn't confuse static analysis tools.
2019-10-17 20:03:08 +02:00
interface_free(interface);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
}
static void hwsim_config(struct l_genl_msg *msg, void *user_data)
{
struct l_genl_attr attr;
uint16_t type, len;
const void *data;
uint8_t cmd;
cmd = l_genl_msg_get_command(msg);
l_debug("Config changed cmd %u", cmd);
if (!l_genl_attr_init(&attr, msg))
return;
while (l_genl_attr_next(&attr, &type, &len, &data))
l_debug("\tattr type %d len %d", type, len);
switch (cmd) {
case HWSIM_CMD_NEW_RADIO:
get_radio_callback(msg, NULL);
break;
case HWSIM_CMD_DEL_RADIO:
del_radio_event(msg);
break;
}
}
static void nl80211_config_notify(struct l_genl_msg *msg, void *user_data)
{
hwsim: Pretty-print command name Instead of just printing the command id, print the human readable name.
2021-12-27 20:29:11 +01:00
uint8_t cmd = l_genl_msg_get_command(msg);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim: Pretty-print command name Instead of just printing the command id, print the human readable name.
2021-12-27 20:29:11 +01:00
l_debug("Config notification %s(%u)", nl80211cmd_to_string(cmd), cmd);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
switch (cmd) {
case NL80211_CMD_NEW_WIPHY:
get_wiphy_callback(msg, NULL);
break;
case NL80211_CMD_NEW_INTERFACE:
get_interface_callback(msg, NULL);
break;
hwsim: Keep track of interface types
2021-12-27 17:14:17 +01:00
case NL80211_CMD_SET_INTERFACE:
set_interface_event(msg);
break;
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
case NL80211_CMD_DEL_INTERFACE:
del_interface_event(msg);
break;
}
}
hwsim: Watch RTNL NewLink events Handle NewLink events to detect interface mac address changes. In my current testing I don't see nl80211 events on address change so it's best to react to both types of events.
2017-03-26 03:16:50 +02:00
static void rtnl_newlink_notify(const struct ifinfomsg *ifi, int bytes)
{
struct rtattr *attr;
struct interface_info_rec *rec;
bool addr_change = false, name_change = false;
const char *path;
rec = l_queue_find(interface_info, interface_info_match_id,
L_UINT_TO_PTR(ifi->ifi_index));
if (!rec)
return;
for (attr = IFLA_RTA(ifi); RTA_OK(attr, bytes);
attr = RTA_NEXT(attr, bytes)) {
switch (attr->rta_type) {
case IFLA_IFNAME:
if (!strcmp(rec->name, RTA_DATA(attr)))
continue;
name_change = true;
l_free(rec->name);
rec->name = l_strdup(RTA_DATA(attr));
break;
case IFLA_ADDRESS:
if (RTA_PAYLOAD(attr) < ETH_ALEN)
break;
if (!memcmp(rec->addr, RTA_DATA(attr), ETH_ALEN))
continue;
addr_change = true;
memcpy(rec->addr, RTA_DATA(attr), ETH_ALEN);
break;
}
}
if (!addr_change && !name_change)
return;
path = interface_get_path(rec);
if (addr_change)
l_dbus_property_changed(dbus, path, HWSIM_INTERFACE_INTERFACE,
"Address");
if (name_change)
l_dbus_property_changed(dbus, path, HWSIM_INTERFACE_INTERFACE,
"Name");
}
static void rtnl_link_notify(uint16_t type, const void *data, uint32_t len,
void *user_data)
{
const struct ifinfomsg *ifi = data;
unsigned int bytes;
if (ifi->ifi_type != ARPHRD_ETHER)
return;
bytes = len - NLMSG_ALIGN(sizeof(struct ifinfomsg));
switch (type) {
case RTM_NEWLINK:
rtnl_newlink_notify(ifi, bytes);
break;
}
}
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
struct hwsim_tx_info {
int8_t idx;
uint8_t count;
};
struct hwsim_frame {
int refcount;
uint8_t src_ether_addr[ETH_ALEN];
uint8_t dst_ether_addr[ETH_ALEN];
struct radio_info_rec *src_radio;
struct radio_info_rec *ack_radio;
uint32_t flags;
const uint64_t *cookie;
int32_t signal;
uint32_t frequency;
uint16_t tx_info_len;
const struct hwsim_tx_info *tx_info;
uint16_t payload_len;
const uint8_t *payload;
bool acked;
struct l_genl_msg *msg;
int pending_callback_count;
};
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
static bool radio_match_addr(const struct radio_info_rec *radio,
const uint8_t *addr)
{
hwsim: Use util_is_broadcast_address Replace is_multicast_addr with util_is_broadcast_address usage. is_multicast_addr seems to have been wrong, first because we're not interested in just any multicast address (defined to be same as "group address"), but rather specifically the broadcast address, as we don't know of any specific address groups other than broadcast. And also wrong because the "Individual/Group bit" is the LSB of byte 0, not the MSB of byte 0 apparently.
2017-09-22 05:06:24 +02:00
if (!radio || util_is_broadcast_address(addr))
return !radio && util_is_broadcast_address(addr);
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
return !memcmp(addr, radio->addrs[0], ETH_ALEN) ||
!memcmp(addr, radio->addrs[1], ETH_ALEN);
}
static void process_rules(const struct radio_info_rec *src_radio,
const struct radio_info_rec *dst_radio,
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
struct hwsim_frame *frame, bool ack, bool *drop,
hwsim: add new 'Delay' property to Rules This allows a matching frame to be delayed by some number of milliseconds.
2020-06-02 19:30:18 +02:00
uint32_t *delay)
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
{
const struct l_queue_entry *rule_entry;
for (rule_entry = l_queue_get_entries(rules); rule_entry;
rule_entry = rule_entry->next) {
struct hwsim_rule *rule = rule_entry->data;
hwsim: require enabling rule before use The hwsim Rule API was structured as properties so once a rule is created it automatically starts being applied to frames. This happens before anything has time to actually define the rule (source, destination etc). This leads to every single frame being matched to the rule until these other properties are added, which can result in unexpected behavior. To fix this an "Enabled" property has been added and the rule will not be applied until this is true.
2021-08-19 00:09:28 +02:00
if (!rule->enabled)
hwsim: fix early bail out processing rules If a rule was disabled it would cause hwsim to not continue processing frames using rules further in the queue. _Most_ tests only use one rule so this shouldn't have changed their behavior but others which use multiple rules may be effected and the tests have not been running properly.
2022-10-06 00:46:28 +02:00
continue;
hwsim: require enabling rule before use The hwsim Rule API was structured as properties so once a rule is created it automatically starts being applied to frames. This happens before anything has time to actually define the rule (source, destination etc). This leads to every single frame being matched to the rule until these other properties are added, which can result in unexpected behavior. To fix this an "Enabled" property has been added and the rule will not be applied until this is true.
2021-08-19 00:09:28 +02:00
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
if (!rule->source_any &&
!radio_match_addr(src_radio, rule->source) &&
(!rule->bidirectional ||
!radio_match_addr(dst_radio, rule->source)))
continue;
if (!rule->destination_any &&
!radio_match_addr(dst_radio,
rule->destination) &&
(!rule->bidirectional ||
!radio_match_addr(src_radio,
rule->destination)))
continue;
/*
* If source matches only because rule->bidirectional was
* true, make sure destination is "any" or matches source
* radio's address.
*/
if (!rule->source_any && rule->bidirectional &&
radio_match_addr(dst_radio, rule->source))
if (!rule->destination_any &&
!radio_match_addr(dst_radio,
rule->destination))
continue;
if (rule->frequency && rule->frequency != frame->frequency)
continue;
hwsim: add Prefix match rule support Hwsim rules now have a 'Prefix' property which will allow matching frames based on their payload data.
2021-04-06 00:40:24 +02:00
if (rule->prefix && frame->payload_len >= rule->prefix_len) {
if (memcmp(rule->prefix, frame->payload,
rule->prefix_len) != 0)
continue;
}
hwsim: add MatchBytes/MatchBytesOffset rule properties If set, a rule will start matching 'MatchBytes' some number of bytes into the frame (MatchBytesOffset). This is useful since header information, addresses, and sequence numbers may be unpredictable between test runs. To avoid unintended matches the Prefix property is left unchanged and will match starting at the beginning of the frame.
2021-09-10 00:08:43 +02:00
if (rule->match && frame->payload_len >=
rule->match_len + rule->match_offset) {
if (memcmp(rule->match,
frame->payload + rule->match_offset,
rule->match_len))
continue;
}
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
/* Rule deemed to match frame, apply any changes */
hwsim: add MatchTimes property This integer property can be set to only match a rule a number of times rather than all packets. This is useful for testing behavior of a single dropped frame or ack. Once the rule has been matched 'MatchTimes' the rules will no longer be applied (unless set again to some integer greater than zero).
2021-09-07 23:14:42 +02:00
if (rule->match_times == 0)
continue;
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
if (rule->signal)
frame->signal = rule->signal / 100;
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
/* Don't drop if this is an ACK, unless drop_ack is set */
if (!ack || (ack && rule->drop_ack))
*drop = rule->drop;
hwsim: add new 'Delay' property to Rules This allows a matching frame to be delayed by some number of milliseconds.
2020-06-02 19:30:18 +02:00
if (delay)
*delay = rule->delay;
hwsim: add MatchTimes property This integer property can be set to only match a rule a number of times rather than all packets. This is useful for testing behavior of a single dropped frame or ack. Once the rule has been matched 'MatchTimes' the rules will no longer be applied (unless set again to some integer greater than zero).
2021-09-07 23:14:42 +02:00
if (rule->match_times > 0)
rule->match_times--;
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
}
}
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
struct send_frame_info {
struct hwsim_frame *frame;
struct radio_info_rec *radio;
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
void *user_data;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
};
static bool send_frame_tx_info(struct hwsim_frame *frame)
{
struct l_genl_msg *msg;
msg = l_genl_msg_new_sized(HWSIM_CMD_TX_INFO_FRAME,
128 + frame->tx_info_len);
l_genl_msg_append_attr(msg, HWSIM_ATTR_ADDR_TRANSMITTER, ETH_ALEN,
frame->src_radio->addrs[1]);
l_genl_msg_append_attr(msg, HWSIM_ATTR_FLAGS, 4, &frame->flags);
l_genl_msg_append_attr(msg, HWSIM_ATTR_SIGNAL, 4, &frame->signal);
l_genl_msg_append_attr(msg, HWSIM_ATTR_COOKIE, 8, frame->cookie);
l_genl_msg_append_attr(msg, HWSIM_ATTR_TX_INFO, frame->tx_info_len,
frame->tx_info);
if (!l_genl_family_send(hwsim, msg, NULL, NULL, NULL)) {
l_error("Sending HWSIM_CMD_TX_INFO_FRAME failed");
return false;
}
return true;
}
static bool send_frame(struct send_frame_info *info,
l_genl_msg_func_t callback,
l_genl_destroy_func_t destroy)
{
struct l_genl_msg *msg;
uint32_t rx_rate = 2;
unsigned int id;
msg = l_genl_msg_new_sized(HWSIM_CMD_FRAME,
128 + info->frame->payload_len);
l_genl_msg_append_attr(msg, HWSIM_ATTR_ADDR_RECEIVER, ETH_ALEN,
info->radio->addrs[1]);
l_genl_msg_append_attr(msg, HWSIM_ATTR_FRAME, info->frame->payload_len,
info->frame->payload);
l_genl_msg_append_attr(msg, HWSIM_ATTR_RX_RATE, 4,
&rx_rate);
l_genl_msg_append_attr(msg, HWSIM_ATTR_SIGNAL, 4,
&info->frame->signal);
l_genl_msg_append_attr(msg, HWSIM_ATTR_FREQ, 4,
&info->frame->frequency);
id = l_genl_family_send(hwsim, msg, callback, info, destroy);
if (!id) {
l_error("Sending HWSIM_CMD_FRAME failed");
return false;
}
return true;
}
static struct hwsim_frame *hwsim_frame_ref(struct hwsim_frame *frame)
{
__sync_fetch_and_add(&frame->refcount, 1);
return frame;
}
static void hwsim_frame_unref(struct hwsim_frame *frame)
{
if (__sync_sub_and_fetch(&frame->refcount, 1))
return;
if (!frame->pending_callback_count) {
/*
* Apparently done with this frame, send tx info and signal
* the returning of an ACK frame in the opposite direction.
*/
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
if (!(frame->flags & HWSIM_TX_CTL_NO_ACK) && frame->acked) {
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
bool drop = false;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
process_rules(frame->ack_radio, frame->src_radio,
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
frame, true, &drop, NULL);
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
if (!drop)
frame->flags |= HWSIM_TX_STAT_ACK;
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
}
hwsim: Don't crash if source radio not found We already print an error when this happens, no need to crash.
2018-05-22 14:10:06 +02:00
if (frame->src_radio)
send_frame_tx_info(frame);
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
}
l_genl_msg_unref(frame->msg);
l_free(frame);
}
static void send_frame_callback(struct l_genl_msg *msg, void *user_data)
{
struct send_frame_info *info = user_data;
hwsim: don't print on when send frame fails This happens quite often and spams the console with this error.
2022-02-14 21:34:37 +01:00
if (l_genl_msg_get_error(msg) == 0) {
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
info->frame->acked = true;
info->frame->ack_radio = info->radio;
}
info->frame->pending_callback_count--;
}
static void send_frame_destroy(void *user_data)
{
struct send_frame_info *info = user_data;
hwsim_frame_unref(info->frame);
l_free(info);
}
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
static void send_custom_frame_callback(struct l_genl_msg *msg, void *user_data)
{
struct send_frame_info *info = user_data;
struct l_dbus_message *message = info->user_data;
struct l_dbus_message *reply;
hwsim: Fix leak of send_frame_info->user_data In case the genl object is cleaned up prior to the callback being called, the DBus message might get leaked. Can only happen in bizarre cases.
2018-01-31 06:00:46 +01:00
info->user_data = NULL;
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
if (l_genl_msg_get_error(msg) < 0) {
/* Radio address or frequency didn't match */
l_debug("HWSIM_CMD_FRAME failed for destination %s: %d",
util_address_to_string(info->radio->addrs[0]),
l_genl_msg_get_error(msg));
dbus_pending_reply(&message, dbus_error_invalid_args(message));
return;
}
reply = l_dbus_message_new_method_return(message);
l_dbus_message_set_arguments(reply, "");
dbus_pending_reply(&message, reply);
}
static void send_custom_frame_destroy(void *user_data)
{
struct send_frame_info *info = user_data;
hwsim: Fix leak of send_frame_info->user_data In case the genl object is cleaned up prior to the callback being called, the DBus message might get leaked. Can only happen in bizarre cases.
2018-01-31 06:00:46 +01:00
if (info->user_data)
l_dbus_message_unref(info->user_data);
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
l_free(info->frame);
l_free(info);
}
static bool send_custom_frame(const uint8_t *addr, uint32_t freq,
int32_t signal, const void *payload, uint32_t len,
void *user_data)
{
struct hwsim_frame *frame = l_new(struct hwsim_frame, 1);
struct send_frame_info *info = l_new(struct send_frame_info, 1);
frame->frequency = freq;
frame->signal = signal;
frame->payload_len = len;
frame->payload = payload;
info->frame = frame;
info->user_data = user_data;
hwsim: Look up radio address in radio_info In mac80211_hwsim each radio is assigned two addresses, the second (addr 1) being used over nl80211. In SendFrame we'd hardcode the mapping of address 0 to address 1 even though we track all the addresses in radio_info, so instead use that data to find the radio that has given address 0. Also if no address 0 matches what was supplied over DBus try to find a matching address 1. There are ways userspace can request different addresses when managing mac80211_hwsim radios and the hardcoded mapping would become wrong.
2018-05-22 14:10:07 +02:00
info->radio = l_queue_find(radio_info, radio_info_match_addr0, addr) ?:
l_queue_find(radio_info, radio_info_match_addr1, addr);
if (!info->radio)
goto error;
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
if (!send_frame(info, send_custom_frame_callback,
hwsim: Look up radio address in radio_info In mac80211_hwsim each radio is assigned two addresses, the second (addr 1) being used over nl80211. In SendFrame we'd hardcode the mapping of address 0 to address 1 even though we track all the addresses in radio_info, so instead use that data to find the radio that has given address 0. Also if no address 0 matches what was supplied over DBus try to find a matching address 1. There are ways userspace can request different addresses when managing mac80211_hwsim radios and the hardcoded mapping would become wrong.
2018-05-22 14:10:07 +02:00
send_custom_frame_destroy))
goto error;
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
return true;
hwsim: Look up radio address in radio_info In mac80211_hwsim each radio is assigned two addresses, the second (addr 1) being used over nl80211. In SendFrame we'd hardcode the mapping of address 0 to address 1 even though we track all the addresses in radio_info, so instead use that data to find the radio that has given address 0. Also if no address 0 matches what was supplied over DBus try to find a matching address 1. There are ways userspace can request different addresses when managing mac80211_hwsim radios and the hardcoded mapping would become wrong.
2018-05-22 14:10:07 +02:00
error:
l_free(frame);
l_free(info);
return false;
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
}
tools: delay hwsim sending frame Using mac80211_hwsim can sometimes result in out of order messages coming from the kernel. Since mac80211_hwsim immediately sends out frames and the kernel keeps command responses in a separate queue, bad scheduling can result in these messages being out of order. In some cases we receive Auth/Assoc frames before the response to our original CMD_CONNECT. This causes autotests to fail randomly, some more often than others. To fix this we can introduce a small delay into hwsim. Just a 1ms delay makes the random failures disappear in the tests. This delay is also makes hwsim more realistic since actual hardware will always introduce some kind of delay when sending or receiving frames.
2020-05-04 22:16:13 +02:00
static void frame_delay_callback(struct l_timeout *timeout, void *user_data)
{
struct send_frame_info *send_info = user_data;
if (send_frame(send_info, send_frame_callback,
send_frame_destroy))
send_info->frame->pending_callback_count++;
else
send_frame_destroy(send_info);
hwsim: remove unconditional packet delay This was initially put in to solve an issue that was specific to mac80211_hwsim where the connect callback would get queued and delayed until after the connect event. This caused IWD to get very confused. Later it was found that "real" drivers can sometimes do this so some code was added to IWD core to handle it. Now there isn't much point to delay all frames unless a rule specifies so change the behavior back to sending out frames immediately.
2021-08-19 00:09:29 +02:00
if (timeout)
l_timeout_remove(timeout);
tools: delay hwsim sending frame Using mac80211_hwsim can sometimes result in out of order messages coming from the kernel. Since mac80211_hwsim immediately sends out frames and the kernel keeps command responses in a separate queue, bad scheduling can result in these messages being out of order. In some cases we receive Auth/Assoc frames before the response to our original CMD_CONNECT. This causes autotests to fail randomly, some more often than others. To fix this we can introduce a small delay into hwsim. Just a 1ms delay makes the random failures disappear in the tests. This delay is also makes hwsim more realistic since actual hardware will always introduce some kind of delay when sending or receiving frames.
2020-05-04 22:16:13 +02:00
}
hwsim: remove unconditional packet delay This was initially put in to solve an issue that was specific to mac80211_hwsim where the connect callback would get queued and delayed until after the connect event. This caused IWD to get very confused. Later it was found that "real" drivers can sometimes do this so some code was added to IWD core to handle it. Now there isn't much point to delay all frames unless a rule specifies so change the behavior back to sending out frames immediately.
2021-08-19 00:09:29 +02:00
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
/*
* Process frames in a similar way to how the kernel built-in hwsim medium
* does this, with an additional optimization for unicast frames and
treewide: fix typos
2020-01-21 07:21:38 +01:00
* additional modifications to frames decided by user-configurable rules.
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
*/
static void process_frame(struct hwsim_frame *frame)
{
const struct l_queue_entry *entry;
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
bool drop_mcast = false;
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
bool beacon = false;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
hwsim: Use util_is_broadcast_address Replace is_multicast_addr with util_is_broadcast_address usage. is_multicast_addr seems to have been wrong, first because we're not interested in just any multicast address (defined to be same as "group address"), but rather specifically the broadcast address, as we don't know of any specific address groups other than broadcast. And also wrong because the "Individual/Group bit" is the LSB of byte 0, not the MSB of byte 0 apparently.
2017-09-22 05:06:24 +02:00
if (util_is_broadcast_address(frame->dst_ether_addr))
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
process_rules(frame->src_radio, NULL, frame, false,
&drop_mcast, NULL);
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
if (frame->payload_len >= 2 &&
frame->payload[0] == 0x80 &&
frame->payload[1] == 0x00)
beacon = true;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
for (entry = l_queue_get_entries(radio_info); entry;
entry = entry->next) {
struct radio_info_rec *radio = entry->data;
struct send_frame_info *send_info;
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
bool drop = drop_mcast;
hwsim: remove unconditional packet delay This was initially put in to solve an issue that was specific to mac80211_hwsim where the connect callback would get queued and delayed until after the connect event. This caused IWD to get very confused. Later it was found that "real" drivers can sometimes do this so some code was added to IWD core to handle it. Now there isn't much point to delay all frames unless a rule specifies so change the behavior back to sending out frames immediately.
2021-08-19 00:09:29 +02:00
uint32_t delay = 0;
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
const struct l_queue_entry *i;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
if (radio == frame->src_radio)
continue;
/*
* The kernel hwsim medium passes multicast frames to all
* radios that are on the same frequency as this frame but
* the netlink medium API only lets userspace pass frames to
* radios by known hardware address. It does check that the
* receiving radio is on the same frequency though so we can
* send to all known addresses.
*
* If the frame's Receiver Address (RA) is a multicast
* address, then send the frame to every radio that is
* registered. If it's a unicast address then optimize
* by only forwarding the frame to the radios that have
* at least one interface with this specific address.
*/
hwsim: Use util_is_broadcast_address Replace is_multicast_addr with util_is_broadcast_address usage. is_multicast_addr seems to have been wrong, first because we're not interested in just any multicast address (defined to be same as "group address"), but rather specifically the broadcast address, as we don't know of any specific address groups other than broadcast. And also wrong because the "Individual/Group bit" is the LSB of byte 0, not the MSB of byte 0 apparently.
2017-09-22 05:06:24 +02:00
if (!util_is_broadcast_address(frame->dst_ether_addr)) {
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
for (i = l_queue_get_entries(interface_info);
i; i = i->next) {
struct interface_info_rec *interface = i->data;
if (interface->radio_rec != radio)
continue;
if (!memcmp(interface->addr,
frame->dst_ether_addr,
ETH_ALEN))
break;
}
if (!i)
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
continue;
}
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
process_rules(frame->src_radio, radio, frame, false,
&drop, &delay);
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
if (drop)
continue;
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
hwsim: Optimize frame forwarding Right now hwsim blindly tries to forward broadcast/multicast frames to all interfaces it knows about and relies on the kernel to reject the forwarding attempt if the frequency does not match. This results in multiple copies of the same message being added to the genl transmit queue. On slower systems this can cause a run-away memory consumption effect where the queued messages are not processed in time prior to a new message being received for forwarding. The likelyhood of this effect manifesting itself is directly related to the number of hostapd instances that are created and are beaconing simultaneously. Try to optimize frame forwarding by not sending beacon frames to those interfaces that are in AP mode (i.e. pure hostapd instances) since such interfaces are going to be operating on a different frequency and would not be interested in processing beacon frames anyway. This optimization cuts down peak memory use during certain tests by 30x or more (~33mb to ~1mb) when profiled with 'valgrind --tool=massif'
2021-12-27 17:49:07 +01:00
/*
* Don't bother sending beacons to other AP interfaces
* if the AP interface is the only one on this phy
*/
if (beacon && radio->ap_only)
continue;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
send_info = l_new(struct send_frame_info, 1);
send_info->radio = radio;
send_info->frame = hwsim_frame_ref(frame);
hwsim: remove unconditional packet delay This was initially put in to solve an issue that was specific to mac80211_hwsim where the connect callback would get queued and delayed until after the connect event. This caused IWD to get very confused. Later it was found that "real" drivers can sometimes do this so some code was added to IWD core to handle it. Now there isn't much point to delay all frames unless a rule specifies so change the behavior back to sending out frames immediately.
2021-08-19 00:09:29 +02:00
if (delay) {
if (!l_timeout_create_ms(delay, frame_delay_callback,
send_info, NULL)) {
l_error("Error delaying frame %ums, "
"frame will be dropped", delay);
send_frame_destroy(send_info);
}
} else
frame_delay_callback(NULL, send_info);
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
}
hwsim_frame_unref(frame);
}
hwsim: move frame processing into a separate function The ADD/DEL_MAC_ADDR events come through the unicast handler so move the frame processing to a separate function so these other events can be handled.
2023-06-28 22:20:32 +02:00
static void hwsim_frame_event(struct l_genl_msg *msg)
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
{
struct hwsim_frame *frame;
hwsim: Use new mpdu.h structs
2017-08-31 04:04:43 +02:00
const struct mmpdu_header *mpdu;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
struct l_genl_attr attr;
uint16_t type, len;
const void *data;
const uint8_t *transmitter = NULL, *freq = NULL, *flags = NULL;
if (!l_genl_attr_init(&attr, msg))
return;
frame = l_new(struct hwsim_frame, 1);
while (l_genl_attr_next(&attr, &type, &len, &data)) {
switch (type) {
case HWSIM_ATTR_ADDR_TRANSMITTER:
if (len != ETH_ALEN)
break;
transmitter = data;
break;
case HWSIM_ATTR_FREQ:
if (len != 4)
break;
freq = data;
break;
case HWSIM_ATTR_FLAGS:
if (len != 4)
break;
flags = data;
break;
case HWSIM_ATTR_COOKIE:
if (len != 8)
break;
frame->cookie = (const uint64_t *) data;
break;
case HWSIM_ATTR_FRAME:
if (len > IEEE80211_MAX_DATA_LEN)
break;
hwsim: Don't require full mpdu_mgmt_header in frames Don't require the full length of a Management MPDU as a condition to forward the frame, only require data up to the three addresses we need to know where to forward the frame. This check was failing with some frames during a deauthentication. We could possibly forward shorter frames too if needed (send to all possible recipients.)
2017-03-14 00:51:21 +01:00
/* Duration + Address1 + Address2 + Address3 + SeqCtl */
if (len < sizeof(struct mpdu_fc) + 22) {
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
l_error("Frame payload too short for header");
break;
}
frame->payload_len = len;
frame->payload = data;
break;
case HWSIM_ATTR_TX_INFO:
if (len > sizeof(struct hwsim_tx_info) *
IEEE80211_TX_RATE_TABLE_SIZE)
break;
frame->tx_info_len = len;
frame->tx_info = data;
break;
default:
hwsim: limit "Unknown attribute type:" print Since we don't catch all hwsim attribute types in unicast_handler you see tons of "Unknown attribute type: X" prints. Since this is not an error, we should only print if the attribute does not exist in the attribute list.
2018-10-24 22:27:45 +02:00
if (type >= __HWSIM_ATTR_MAX)
l_warn("Unknown attribute type: %u", type);
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
break;
}
}
if (!frame->payload || !frame->tx_info || !frame->cookie ||
!flags || !freq || !transmitter) {
l_error("Incomplete HWSIM_CMD_FRAME");
l_free(frame);
return;
}
frame->signal = -30;
frame->msg = l_genl_msg_ref(msg);
frame->refcount = 1;
frame->src_radio = l_queue_find(radio_info, radio_info_match_addr1,
transmitter);
if (!frame->src_radio) {
l_error("Unknown transmitter address %s, probably need to "
"update radio dump code for this kernel",
util_address_to_string(transmitter));
hwsim_frame_unref(frame);
return;
}
frame->frequency = *(uint32_t *) freq;
frame->flags = *(uint32_t *) flags;
hwsim: Use new mpdu.h structs
2017-08-31 04:04:43 +02:00
mpdu = (const struct mmpdu_header *) frame->payload;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
hwsim: Use new mpdu.h structs
2017-08-31 04:04:43 +02:00
memcpy(frame->src_ether_addr, mpdu->address_2, ETH_ALEN);
memcpy(frame->dst_ether_addr, mpdu->address_1, ETH_ALEN);
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
process_frame(frame);
}
hwsim: handle ADD/DEL_MAC_ADDR events Handling these events notifies hwsim of address changes for interface creation/removal outside the initial namespace as well as address changes due to scanning address randomization. Interfaces that hwsim already knows about are still handled via nl80211. But any interfaces not known when ADD/DEL_MAC_ADDR events come will be treated specially. For ADD, a dummy interface object will be created and added to the queue. This lets the frame processing match the destination address correctly. This can happen both for scan randomization and interface creation outside of the initial namespace. For the DEL event we handle similarly and don't touch any interfaces found via nl80211 (i.e. have a 'name') but need to also be careful with the dummy interfaces that were created outside the initial namespace. We want to keep these around but scanning MAC changes can also delete them. This is why a reference count was added so scanning doesn't cause a removal. For example, the following sequence: ADD_MAC_ADDR (interface creation) ADD_MAC_ADDR (scanning started) DEL_MAC_ADDR (scanning done)
2023-06-28 22:20:33 +02:00
static bool get_tx_rx_addrs(struct l_genl_msg *msg, const uint8_t **tx_out,
const uint8_t **rx_out)
{
struct l_genl_attr attr;
uint16_t type, len;
const void *data;
const uint8_t *tx = NULL, *rx = NULL;
if (!l_genl_attr_init(&attr, msg))
return false;
while (l_genl_attr_next(&attr, &type, &len, &data)) {
switch (type) {
case HWSIM_ATTR_ADDR_TRANSMITTER:
if (len != ETH_ALEN)
return false;
tx = data;
break;
case HWSIM_ATTR_ADDR_RECEIVER:
if (len != ETH_ALEN)
return false;
rx = data;
break;
default:
break;
}
}
if (!tx || !rx)
return false;
*tx_out = tx;
*rx_out = rx;
return true;
}
static void hwsim_add_mac_event(struct l_genl_msg *msg)
{
const uint8_t *tx = NULL, *rx = NULL;
struct radio_info_rec *radio_rec;
struct interface_info_rec *interface_rec;
if (!get_tx_rx_addrs(msg, &tx, &rx))
return;
/* No radio matches the TX address, hwsim must not have created it */
radio_rec = l_queue_find(radio_info, radio_info_match_addr1, tx);
if (!radio_rec)
return;
interface_rec = l_queue_find(interface_info,
interface_info_match_addr, rx);
if (interface_rec) {
/* Existing interface, address changes handled via nl80211 */
if (interface_rec->name)
return;
/*
* Transient/dummy interface we already know about. This likely
* was created, then a scan changed the address temporarily.
* Reflect this change and increment the ref so the following
* DEL event doesn't destroy it
*/
__atomic_fetch_add(&interface_rec->ref, 1, __ATOMIC_SEQ_CST);
return;
}
/*
* Create a dummy interface entry for this address that only contains
* the radio and address. This is either a transient entry due to scan
* randomization or an interface created outside this namespace.
*/
interface_rec = l_new(struct interface_info_rec, 1);
interface_rec->radio_rec = radio_rec;
interface_rec->ref = 1;
memcpy(interface_rec->addr, rx, ETH_ALEN);
l_queue_push_tail(interface_info, interface_rec);
}
static void hwsim_del_mac_event(struct l_genl_msg *msg)
{
const uint8_t *tx = NULL, *rx = NULL;
struct radio_info_rec *radio_rec;
struct interface_info_rec *interface_rec;
if (!get_tx_rx_addrs(msg, &tx, &rx))
return;
/* No radio matches the TX address, hwsim must not have created it */
radio_rec = l_queue_find(radio_info, radio_info_match_addr1, tx);
if (!radio_rec)
return;
interface_rec = l_queue_find(interface_info,
interface_info_match_addr, rx);
if (!interface_rec)
return;
/*
* This change is handled via nl80211 so we don't want to touch this
* interface here.
*/
if (interface_rec->name)
return;
if (__atomic_sub_fetch(&interface_rec->ref, 1, __ATOMIC_SEQ_CST))
return;
l_queue_remove(interface_info, interface_rec);
l_free(interface_rec);
}
hwsim: move frame processing into a separate function The ADD/DEL_MAC_ADDR events come through the unicast handler so move the frame processing to a separate function so these other events can be handled.
2023-06-28 22:20:32 +02:00
static void hwsim_unicast_handler(struct l_genl_msg *msg, void *user_data)
{
uint8_t cmd;
if (l_genl_msg_get_error(msg) < 0)
return;
cmd = l_genl_msg_get_command(msg);
switch (cmd) {
case HWSIM_CMD_FRAME:
hwsim_frame_event(msg);
break;
hwsim: handle ADD/DEL_MAC_ADDR events Handling these events notifies hwsim of address changes for interface creation/removal outside the initial namespace as well as address changes due to scanning address randomization. Interfaces that hwsim already knows about are still handled via nl80211. But any interfaces not known when ADD/DEL_MAC_ADDR events come will be treated specially. For ADD, a dummy interface object will be created and added to the queue. This lets the frame processing match the destination address correctly. This can happen both for scan randomization and interface creation outside of the initial namespace. For the DEL event we handle similarly and don't touch any interfaces found via nl80211 (i.e. have a 'name') but need to also be careful with the dummy interfaces that were created outside the initial namespace. We want to keep these around but scanning MAC changes can also delete them. This is why a reference count was added so scanning doesn't cause a removal. For example, the following sequence: ADD_MAC_ADDR (interface creation) ADD_MAC_ADDR (scanning started) DEL_MAC_ADDR (scanning done)
2023-06-28 22:20:33 +02:00
case HWSIM_CMD_ADD_MAC_ADDR:
hwsim_add_mac_event(msg);
break;
case HWSIM_CMD_DEL_MAC_ADDR:
hwsim_del_mac_event(msg);
break;
hwsim: move frame processing into a separate function The ADD/DEL_MAC_ADDR events come through the unicast handler so move the frame processing to a separate function so these other events can be handled.
2023-06-28 22:20:32 +02:00
default:
break;
}
}
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
static void radio_manager_create_callback(struct l_genl_msg *msg,
void *user_data)
{
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
struct radio_info_rec *radio = user_data;
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
struct l_dbus_message *reply;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
radio->cmd_id = 0;
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (l_genl_msg_get_error(msg) >= 0)
return;
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
/*
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
* In theory pending should always be set. This is to handle the
* NEW_RADIO event coming prior to this callback and this callback
* also having an error. It doesn't seem possible for this to happen,
* but who knows.
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
*/
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (radio->pending) {
reply = dbus_error_failed(radio->pending);
dbus_pending_reply(&radio->pending, reply);
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
}
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
l_queue_remove(radio_info, radio);
radio_free(radio);
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
}
static struct l_dbus_message *radio_manager_create(struct l_dbus *dbus,
struct l_dbus_message *message,
void *user_data)
{
struct l_genl_msg *new_msg;
hwsim: change radio Create() to take a dictionary The Create() API was limited to only taking a Name and boolean (for p2p enabling). The actual hwsim nl80211 API can take more attributes than this (which are actually utilized when creating from the command line). To get the DBus API up to the same functionality the two arguments in Create were replaced with a single dictionary. This allows for extending later if more arguments are needed.
2020-12-17 20:36:04 +01:00
struct l_dbus_message_iter dict;
struct l_dbus_message_iter variant;
const char *key;
const char *name = NULL;
bool p2p = false;
hwsim: add iftype/cipher disabling through DBus Update the Dbus API to allow disabling iftypes and ciphers just as you can with the command line.
2020-12-17 20:36:08 +01:00
const char *disabled_iftypes = NULL;
const char *disabled_ciphers = NULL;
hwsim: add NoVirtualInterface option to DBus API This was available with --no-interface but no such option existed for the DBus API.
2022-04-05 20:30:07 +02:00
bool no_vif = false;
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
struct radio_info_rec *radio;
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
hwsim: change radio Create() to take a dictionary The Create() API was limited to only taking a Name and boolean (for p2p enabling). The actual hwsim nl80211 API can take more attributes than this (which are actually utilized when creating from the command line). To get the DBus API up to the same functionality the two arguments in Create were replaced with a single dictionary. This allows for extending later if more arguments are needed.
2020-12-17 20:36:04 +01:00
if (!l_dbus_message_get_arguments(message, "a{sv}", &dict))
goto invalid;
while (l_dbus_message_iter_next_entry(&dict, &key, &variant)) {
bool ret = false;
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
hwsim: change radio Create() to take a dictionary The Create() API was limited to only taking a Name and boolean (for p2p enabling). The actual hwsim nl80211 API can take more attributes than this (which are actually utilized when creating from the command line). To get the DBus API up to the same functionality the two arguments in Create were replaced with a single dictionary. This allows for extending later if more arguments are needed.
2020-12-17 20:36:04 +01:00
if (!strcmp(key, "Name"))
ret = l_dbus_message_iter_get_variant(&variant,
"s", &name);
else if (!strcmp(key, "P2P"))
ret = l_dbus_message_iter_get_variant(&variant,
"b", &p2p);
hwsim: add iftype/cipher disabling through DBus Update the Dbus API to allow disabling iftypes and ciphers just as you can with the command line.
2020-12-17 20:36:08 +01:00
else if (!strcmp(key, "InterfaceTypeDisable"))
ret = l_dbus_message_iter_get_variant(&variant, "s",
&disabled_iftypes);
else if (!strcmp(key, "CipherTypeDisable"))
ret = l_dbus_message_iter_get_variant(&variant, "s",
&disabled_ciphers);
hwsim: add NoVirtualInterface option to DBus API This was available with --no-interface but no such option existed for the DBus API.
2022-04-05 20:30:07 +02:00
else if (!strcmp(key, "NoVirtualInterface"))
ret = l_dbus_message_iter_get_variant(&variant, "b",
&no_vif);
hwsim: change radio Create() to take a dictionary The Create() API was limited to only taking a Name and boolean (for p2p enabling). The actual hwsim nl80211 API can take more attributes than this (which are actually utilized when creating from the command line). To get the DBus API up to the same functionality the two arguments in Create were replaced with a single dictionary. This allows for extending later if more arguments are needed.
2020-12-17 20:36:04 +01:00
if (!ret)
goto invalid;
}
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
if (!name)
goto invalid;
hwsim: Don't use l_genl_msg_new_sized with a conditional l_genl API will now automatically grow message buffers as needed, so there's no need to make the logic over-complicated
2021-02-08 22:35:32 +01:00
new_msg = l_genl_msg_new(HWSIM_CMD_NEW_RADIO);
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
l_genl_msg_append_attr(new_msg, HWSIM_ATTR_DESTROY_RADIO_ON_CLOSE,
0, NULL);
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
l_genl_msg_append_attr(new_msg, HWSIM_ATTR_RADIO_NAME,
strlen(name) + 1, name);
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
if (p2p)
l_genl_msg_append_attr(new_msg, HWSIM_ATTR_SUPPORT_P2P_DEVICE,
0, NULL);
hwsim: add iftype/cipher disabling through DBus Update the Dbus API to allow disabling iftypes and ciphers just as you can with the command line.
2020-12-17 20:36:08 +01:00
if (disabled_iftypes) {
hwsim_disable_support(disabled_iftypes, iftype_map,
&hwsim_iftypes);
if (hwsim_iftypes != HWSIM_DEFAULT_IFTYPES)
l_genl_msg_append_attr(new_msg,
HWSIM_ATTR_IFTYPE_SUPPORT,
4, &hwsim_iftypes);
}
if (disabled_ciphers) {
hwsim_disable_ciphers(disabled_ciphers);
if (hwsim_num_ciphers)
l_genl_msg_append_attr(new_msg, HWSIM_ATTR_CIPHER_SUPPORT,
sizeof(uint32_t) * hwsim_num_ciphers,
hwsim_ciphers);
}
hwsim: add NoVirtualInterface option to DBus API This was available with --no-interface but no such option existed for the DBus API.
2022-04-05 20:30:07 +02:00
if (no_vif)
l_genl_msg_append_attr(new_msg, HWSIM_ATTR_NO_VIF, 0, NULL);
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
radio = l_new(struct radio_info_rec, 1);
radio->pending = l_dbus_message_ref(message);
radio->name = l_strdup(name);
radio->id = -1;
if (!radio_info)
radio_info = l_queue_new();
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
hwsim: allow concurrent radio creations Currently CreateRadio only allows a single outstanding DBus message until the radio is fully created. 99% of the time this is just fine but in order to test dual phy cards there needs to be support for phy's appearing at the same time. This required storing the pending DBus message inside the radio object rather than a single static variable. The code was refactored to handle the internal radio info objects better for the various cases: - Creation from CreateRadio() - Radio already existed before hwsim started, or created externally - Existing radio changed name, address, etc. First, Name is now a required option to CreateRadio(). This allows the radio info to be pushed to the queue immediately (also allowing the pending DBus message to be tracked). Then, when the NEW_RADIO event fires the pending radio can be looked up (by name) and filled with the remaining info. If the radio was not found by name but a matching ID was found this is the 'changed' case and the radio is re-initialized with the changed values. If neither name or ID matches the radio was created externally, or prior to hwsim starting. A radio info object is created at this time and initialized. The ID was changed to a signed integer in order to initialize it to an invalid number -1. Doing this was required since a pending uninitalized radio ID (0) could match an existing radio ID. This required some bounds checks in case the kernels counter reaches an extremely high value. This isn't likely to ever happen in practice.
2022-02-16 20:39:42 +01:00
l_queue_push_tail(radio_info, radio);
radio->cmd_id = l_genl_family_send(hwsim, new_msg,
radio_manager_create_callback,
radio, NULL);
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
return NULL;
hwsim: change radio Create() to take a dictionary The Create() API was limited to only taking a Name and boolean (for p2p enabling). The actual hwsim nl80211 API can take more attributes than this (which are actually utilized when creating from the command line). To get the DBus API up to the same functionality the two arguments in Create were replaced with a single dictionary. This allows for extending later if more arguments are needed.
2020-12-17 20:36:04 +01:00
invalid:
return dbus_error_invalid_args(message);
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
}
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
static void setup_radio_manager_interface(struct l_dbus_interface *interface)
{
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
l_dbus_interface_method(interface, "CreateRadio", 0,
hwsim: change radio Create() to take a dictionary The Create() API was limited to only taking a Name and boolean (for p2p enabling). The actual hwsim nl80211 API can take more attributes than this (which are actually utilized when creating from the command line). To get the DBus API up to the same functionality the two arguments in Create were replaced with a single dictionary. This allows for extending later if more arguments are needed.
2020-12-17 20:36:04 +01:00
radio_manager_create, "o", "a{sv}",
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
"path", "name", "p2p_device");
}
static void radio_destroy_callback(struct l_genl_msg *msg, void *user_data)
{
struct l_dbus_message *message = user_data;
struct l_dbus_message *reply;
struct l_genl_attr attr;
int err;
if (l_genl_attr_init(&attr, msg))
goto error;
err = l_genl_msg_get_error(msg);
if (err < 0)
goto error;
reply = l_dbus_message_new_method_return(message);
l_dbus_message_set_arguments(reply, "");
dbus_pending_reply(&message, reply);
return;
error:
reply = dbus_error_failed(message);
dbus_pending_reply(&message, reply);
}
static struct l_dbus_message *radio_destroy(struct l_dbus *dbus,
struct l_dbus_message *message,
void *user_data)
{
struct l_genl_msg *del_msg;
struct radio_info_rec *radio = user_data;
del_msg = l_genl_msg_new_sized(HWSIM_CMD_DEL_RADIO, 8);
l_genl_msg_append_attr(del_msg, HWSIM_ATTR_RADIO_ID, 4, &radio->id);
l_genl_family_send(hwsim, del_msg, radio_destroy_callback,
l_dbus_message_ref(message), NULL);
return NULL;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
}
static bool radio_property_get_name(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
const struct radio_info_rec *rec = user_data;
l_dbus_message_builder_append_basic(builder, 's', rec->name);
return true;
}
static bool radio_property_get_addresses(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
const struct radio_info_rec *rec = user_data;
unsigned int i;
l_dbus_message_builder_enter_array(builder, "s");
hwsim: Use an array of addresses for radio_info_rec.addrs Make accessing the addrs field easier by converting it from a flat buffer concatenation of the 2 addresses to an array of 2 arrays of 6 bytes.
2017-03-10 12:29:08 +01:00
for (i = 0; i < sizeof(rec->addrs) / ETH_ALEN; i++) {
const char *str = util_address_to_string(rec->addrs[i]);
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_message_builder_append_basic(builder, 's', str);
}
l_dbus_message_builder_leave_array(builder);
return true;
}
static bool radio_property_get_channels(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
const struct radio_info_rec *rec = user_data;
uint16_t val = rec->channels;
l_dbus_message_builder_append_basic(builder, 'q', &val);
return true;
}
static bool radio_property_get_alpha2(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
const struct radio_info_rec *rec = user_data;
if (rec->alpha2[0] == 0 || rec->alpha2[1] == 0)
return false;
l_dbus_message_builder_enter_struct(builder, "yy");
l_dbus_message_builder_append_basic(builder, 'y', &rec->alpha2[0]);
l_dbus_message_builder_append_basic(builder, 'y', &rec->alpha2[1]);
l_dbus_message_builder_leave_struct(builder);
return true;
}
static bool radio_property_get_p2p(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
const struct radio_info_rec *rec = user_data;
bool val = rec->p2p;
l_dbus_message_builder_append_basic(builder, 'b', &val);
return true;
}
static bool radio_property_get_regdom(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
const struct radio_info_rec *rec = user_data;
if (!rec->custom_regdom)
return false;
l_dbus_message_builder_append_basic(builder, 'u', &rec->regdom_idx);
return true;
}
static void setup_radio_interface(struct l_dbus_interface *interface)
{
hwsim: DBus methods for creating and destroying radios
2017-03-10 12:29:04 +01:00
l_dbus_interface_method(interface, "Destroy", 0, radio_destroy, "", "");
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_interface_property(interface, "Name", 0, "s",
radio_property_get_name, NULL);
hwsim: Fix the Interface.Addresses property type
2017-03-26 03:16:49 +02:00
l_dbus_interface_property(interface, "Addresses", 0, "as",
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
radio_property_get_addresses, NULL);
l_dbus_interface_property(interface, "Channels", 0, "q",
radio_property_get_channels, NULL);
l_dbus_interface_property(interface, "Alpha2", 0, "(yy)",
radio_property_get_alpha2, NULL);
l_dbus_interface_property(interface, "P2PDevice", 0, "b",
radio_property_get_p2p, NULL);
l_dbus_interface_property(interface, "RegulatoryDomainIndex", 0, "u",
radio_property_get_regdom, NULL);
}
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
static struct l_dbus_message *interface_send_frame(struct l_dbus *dbus,
struct l_dbus_message *message,
void *user_data)
{
struct l_dbus_message_iter addr;
struct l_dbus_message_iter data;
const void *frame;
const uint8_t *receiver;
uint32_t len;
uint32_t freq;
int32_t signal;
if (!l_dbus_message_get_arguments(message, "ayuiay", &addr, &freq,
&signal, &data))
goto invalid_args;
if (!l_dbus_message_iter_get_fixed_array(&addr,
(const void **)&receiver, &len))
goto invalid_args;
if (len != 6)
goto invalid_args;
if (!l_dbus_message_iter_get_fixed_array(&data, &frame, &len))
goto invalid_args;
if (!send_custom_frame(receiver, freq, signal, frame, len,
l_dbus_message_ref(message))) {
l_dbus_message_unref(message);
goto invalid_args;
}
return NULL;
invalid_args:
return dbus_error_invalid_args(message);
}
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
static bool interface_property_get_name(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
const struct interface_info_rec *rec = user_data;
l_dbus_message_builder_append_basic(builder, 's', rec->name);
return true;
}
static bool interface_property_get_address(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
const struct interface_info_rec *rec = user_data;
const char *str = util_address_to_string(rec->addr);
l_dbus_message_builder_append_basic(builder, 's', str);
return true;
}
static void setup_interface_interface(struct l_dbus_interface *interface)
{
hwsim: add spoofing frame support Added a new method SendFrame() under the radios .Interface interface. This method takes two byte arrays as parameters, first is the station address to send the frame to, and the second is the raw frame data.
2018-01-30 20:19:48 +01:00
l_dbus_interface_method(interface, "SendFrame", 0,
interface_send_frame, "", "ayuiay", "station",
"frequency", "signal", "frame");
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_interface_property(interface, "Name", 0, "s",
interface_property_get_name, NULL);
l_dbus_interface_property(interface, "Address", 0, "s",
interface_property_get_address, NULL);
}
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
static int rule_compare_priority(const void *a, const void *b, void *user)
{
const struct hwsim_rule *rule_a = a;
const struct hwsim_rule *rule_b = b;
treewide: guard compare functions against signed integer overflow Besides being undefined behaviour, signed integer overflow can cause unexpected comparison results. In the case of network_rank_compare(), a connected network with rank INT_MAX would cause newly inserted networks with negative rank to be inserted earlier in the ordered network list. This is reflected in the GetOrderedMethods() DBus method as can be seen in the following iwctl output: [iwd]# station wlan0 get-networks Network name Security Signal ---------------------------------------------------- BEOLAN 8021x **** } BeoBlue psk *** } all unknown, UI_Test_Network psk *** } hence assigned deneb_2G psk *** } negative rank BEOGUEST open **** } > titan psk **** Linksys05274_5GHz_dmt psk **** Lyngby-4G-4 5GHz psk ****
2020-08-14 15:40:33 +02:00
return (rule_a->priority > rule_b->priority) ? 1 : -1;
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
}
static struct l_dbus_message *rule_add(struct l_dbus *dbus,
struct l_dbus_message *message,
void *user_data)
{
struct hwsim_rule *rule;
const char *path;
struct l_dbus_message *reply;
rule = l_new(struct hwsim_rule, 1);
rule->id = next_rule_id++;
rule->source_any = true;
rule->destination_any = true;
hwsim: remove unconditional packet delay This was initially put in to solve an issue that was specific to mac80211_hwsim where the connect callback would get queued and delayed until after the connect event. This caused IWD to get very confused. Later it was found that "real" drivers can sometimes do this so some code was added to IWD core to handle it. Now there isn't much point to delay all frames unless a rule specifies so change the behavior back to sending out frames immediately.
2021-08-19 00:09:29 +02:00
rule->delay = 0;
hwsim: require enabling rule before use The hwsim Rule API was structured as properties so once a rule is created it automatically starts being applied to frames. This happens before anything has time to actually define the rule (source, destination etc). This leads to every single frame being matched to the rule until these other properties are added, which can result in unexpected behavior. To fix this an "Enabled" property has been added and the rule will not be applied until this is true.
2021-08-19 00:09:28 +02:00
rule->enabled = false;
hwsim: add MatchTimes property This integer property can be set to only match a rule a number of times rather than all packets. This is useful for testing behavior of a single dropped frame or ack. Once the rule has been matched 'MatchTimes' the rules will no longer be applied (unless set again to some integer greater than zero).
2021-09-07 23:14:42 +02:00
rule->match_times = -1;
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
rule->drop_ack = true;
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
if (!rules)
rules = l_queue_new();
l_queue_insert(rules, rule, rule_compare_priority, NULL);
path = rule_get_path(rule);
if (!l_dbus_object_add_interface(dbus, path,
HWSIM_RULE_INTERFACE, rule))
l_info("Unable to add the %s interface to %s",
HWSIM_RULE_INTERFACE, path);
if (!l_dbus_object_add_interface(dbus, path,
L_DBUS_INTERFACE_PROPERTIES, NULL))
l_info("Unable to add the %s interface to %s",
L_DBUS_INTERFACE_PROPERTIES, path);
reply = l_dbus_message_new_method_return(message);
l_dbus_message_set_arguments(reply, "o", path);
return reply;
}
static void setup_rule_manager_interface(struct l_dbus_interface *interface)
{
l_dbus_interface_method(interface, "AddRule", 0,
rule_add, "o", "", "path");
}
hwsim: properly cleanup rules queue After adding prefix matching the rule structure contained allocated memory which was not being cleaned up on exit if rules still remained in the list (removing the rule via DBus was done correctly)
2023-04-10 19:12:32 +02:00
static void destroy_rule(void *user_data)
{
struct hwsim_rule *rule = user_data;
if (rule->prefix)
l_free(rule->prefix);
if (rule->match)
l_free(rule->match);
l_free(rule);
}
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
static struct l_dbus_message *rule_remove(struct l_dbus *dbus,
struct l_dbus_message *message,
void *user_data)
{
struct hwsim_rule *rule = user_data;
const char *path;
path = rule_get_path(rule);
l_queue_remove(rules, rule);
hwsim: add Prefix match rule support Hwsim rules now have a 'Prefix' property which will allow matching frames based on their payload data.
2021-04-06 00:40:24 +02:00
hwsim: properly cleanup rules queue After adding prefix matching the rule structure contained allocated memory which was not being cleaned up on exit if rules still remained in the list (removing the rule via DBus was done correctly)
2023-04-10 19:12:32 +02:00
destroy_rule(rule);
hwsim: add Prefix match rule support Hwsim rules now have a 'Prefix' property which will allow matching frames based on their payload data.
2021-04-06 00:40:24 +02:00
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
l_dbus_unregister_object(dbus, path);
return l_dbus_message_new_method_return(message);
}
static bool rule_property_get_source(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
const char *str;
if (rule->source_any)
str = "any";
else
str = util_address_to_string(rule->source);
l_dbus_message_builder_append_basic(builder, 's', str);
return true;
}
static struct l_dbus_message *rule_property_set_source(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
const char *str;
if (!l_dbus_message_iter_get_variant(new_value, "s", &str))
return dbus_error_invalid_args(message);
if (!strcmp(str, "any"))
rule->source_any = true;
else {
if (!util_string_to_address(str, rule->source))
return dbus_error_invalid_args(message);
rule->source_any = false;
}
return l_dbus_message_new_method_return(message);
}
static bool rule_property_get_destination(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
const char *str;
if (rule->destination_any)
str = "any";
hwsim: Use util_is_broadcast_address Replace is_multicast_addr with util_is_broadcast_address usage. is_multicast_addr seems to have been wrong, first because we're not interested in just any multicast address (defined to be same as "group address"), but rather specifically the broadcast address, as we don't know of any specific address groups other than broadcast. And also wrong because the "Individual/Group bit" is the LSB of byte 0, not the MSB of byte 0 apparently.
2017-09-22 05:06:24 +02:00
else if (util_is_broadcast_address(rule->destination))
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
str = "multicast";
else
str = util_address_to_string(rule->destination);
l_dbus_message_builder_append_basic(builder, 's', str);
return true;
}
static struct l_dbus_message *rule_property_set_destination(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
const char *str;
if (!l_dbus_message_iter_get_variant(new_value, "s", &str))
return dbus_error_invalid_args(message);
if (!strcmp(str, "any"))
rule->destination_any = true;
else if (!strcmp(str, "multicast")) {
rule->destination[0] = 0x80;
rule->destination_any = false;
} else {
if (!util_string_to_address(str, rule->destination))
return dbus_error_invalid_args(message);
rule->destination_any = false;
}
return l_dbus_message_new_method_return(message);
}
static bool rule_property_get_bidirectional(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
bool bval = rule->bidirectional;
l_dbus_message_builder_append_basic(builder, 'b', &bval);
return true;
}
static struct l_dbus_message *rule_property_set_bidirectional(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
bool bval;
if (!l_dbus_message_iter_get_variant(new_value, "b", &bval))
return dbus_error_invalid_args(message);
rule->bidirectional = bval;
return l_dbus_message_new_method_return(message);
}
static bool rule_property_get_frequency(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
l_dbus_message_builder_append_basic(builder, 'u', &rule->frequency);
return true;
}
static struct l_dbus_message *rule_property_set_frequency(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
if (!l_dbus_message_iter_get_variant(new_value, "u", &rule->frequency))
return dbus_error_invalid_args(message);
return l_dbus_message_new_method_return(message);
}
static bool rule_property_get_priority(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
int16_t intval = rule->priority;
l_dbus_message_builder_append_basic(builder, 'n', &intval);
return true;
}
static struct l_dbus_message *rule_property_set_priority(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
int16_t intval;
if (!l_dbus_message_iter_get_variant(new_value, "n", &intval))
return dbus_error_invalid_args(message);
rule->priority = intval;
l_queue_remove(rules, rule);
l_queue_insert(rules, rule, rule_compare_priority, NULL);
return l_dbus_message_new_method_return(message);
}
static bool rule_property_get_signal(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
int16_t intval = rule->signal;
l_dbus_message_builder_append_basic(builder, 'n', &intval);
return true;
}
static struct l_dbus_message *rule_property_set_signal(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
int16_t intval;
if (!l_dbus_message_iter_get_variant(new_value, "n", &intval) ||
intval > 0 || intval < -10000)
return dbus_error_invalid_args(message);
rule->signal = intval;
return l_dbus_message_new_method_return(message);
}
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
static bool rule_property_get_drop(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
bool bval = rule->drop;
l_dbus_message_builder_append_basic(builder, 'b', &bval);
return true;
}
static struct l_dbus_message *rule_property_set_drop(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
bool bval;
if (!l_dbus_message_iter_get_variant(new_value, "b", &bval))
return dbus_error_invalid_args(message);
rule->drop = bval;
return l_dbus_message_new_method_return(message);
}
hwsim: add new 'Delay' property to Rules This allows a matching frame to be delayed by some number of milliseconds.
2020-06-02 19:30:18 +02:00
static bool rule_property_get_delay(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
l_dbus_message_builder_append_basic(builder, 'u', &rule->delay);
return true;
}
static struct l_dbus_message *rule_property_set_delay(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
uint32_t val;
if (!l_dbus_message_iter_get_variant(new_value, "u", &val) ||
val < HWSIM_DELAY_MIN_MS)
return dbus_error_invalid_args(message);
rule->delay = val;
return l_dbus_message_new_method_return(message);
}
hwsim: add Prefix match rule support Hwsim rules now have a 'Prefix' property which will allow matching frames based on their payload data.
2021-04-06 00:40:24 +02:00
static bool rule_property_get_prefix(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
size_t i;
l_dbus_message_builder_enter_array(builder, "y");
for (i = 0; i < rule->prefix_len; i++)
l_dbus_message_builder_append_basic(builder, 'y',
rule->prefix + i);
l_dbus_message_builder_leave_array(builder);
return true;
}
static struct l_dbus_message *rule_property_set_prefix(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
struct l_dbus_message_iter iter;
const uint8_t *prefix;
uint32_t len;
if (!l_dbus_message_iter_get_variant(new_value, "ay", &iter))
goto invalid_args;
if (!l_dbus_message_iter_get_fixed_array(&iter,
(const void **)&prefix, &len))
goto invalid_args;
if (len > HWSIM_MAX_PREFIX_LEN)
goto invalid_args;
if (rule->prefix)
l_free(rule->prefix);
rule->prefix = l_memdup(prefix, len);
rule->prefix_len = len;
return l_dbus_message_new_method_return(message);
invalid_args:
return dbus_error_invalid_args(message);
}
hwsim: add MatchBytes/MatchBytesOffset rule properties If set, a rule will start matching 'MatchBytes' some number of bytes into the frame (MatchBytesOffset). This is useful since header information, addresses, and sequence numbers may be unpredictable between test runs. To avoid unintended matches the Prefix property is left unchanged and will match starting at the beginning of the frame.
2021-09-10 00:08:43 +02:00
static bool rule_property_get_match(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
size_t i;
l_dbus_message_builder_enter_array(builder, "y");
for (i = 0; i < rule->match_len; i++)
l_dbus_message_builder_append_basic(builder, 'y',
rule->match + i);
l_dbus_message_builder_leave_array(builder);
return true;
}
static struct l_dbus_message *rule_property_set_match(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
struct l_dbus_message_iter iter;
const uint8_t *match;
uint32_t len;
if (!l_dbus_message_iter_get_variant(new_value, "ay", &iter))
goto invalid_args;
if (!l_dbus_message_iter_get_fixed_array(&iter,
(const void **)&match, &len))
goto invalid_args;
if (len > HWSIM_MAX_PREFIX_LEN)
goto invalid_args;
if (rule->match)
l_free(rule->match);
rule->match = l_memdup(match, len);
rule->match_len = len;
return l_dbus_message_new_method_return(message);
invalid_args:
return dbus_error_invalid_args(message);
}
static bool rule_property_get_match_offset(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
uint16_t val = rule->match_offset;
l_dbus_message_builder_append_basic(builder, 'q', &val);
return true;
}
static struct l_dbus_message *rule_property_set_match_offset(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
uint16_t val;
if (!l_dbus_message_iter_get_variant(new_value, "q", &val))
return dbus_error_invalid_args(message);
rule->match_offset = val;
return l_dbus_message_new_method_return(message);
}
hwsim: require enabling rule before use The hwsim Rule API was structured as properties so once a rule is created it automatically starts being applied to frames. This happens before anything has time to actually define the rule (source, destination etc). This leads to every single frame being matched to the rule until these other properties are added, which can result in unexpected behavior. To fix this an "Enabled" property has been added and the rule will not be applied until this is true.
2021-08-19 00:09:28 +02:00
static bool rule_property_get_enabled(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
bool bval = rule->enabled;
l_dbus_message_builder_append_basic(builder, 'b', &bval);
return true;
}
static struct l_dbus_message *rule_property_set_enabled(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
bool bval;
if (!l_dbus_message_iter_get_variant(new_value, "b", &bval))
return dbus_error_invalid_args(message);
rule->enabled = bval;
return l_dbus_message_new_method_return(message);
}
hwsim: add MatchTimes property This integer property can be set to only match a rule a number of times rather than all packets. This is useful for testing behavior of a single dropped frame or ack. Once the rule has been matched 'MatchTimes' the rules will no longer be applied (unless set again to some integer greater than zero).
2021-09-07 23:14:42 +02:00
static bool rule_property_get_match_times(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
uint16_t val = rule->match_times;
l_dbus_message_builder_append_basic(builder, 'q', &val);
return true;
}
static struct l_dbus_message *rule_property_set_match_times(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
uint16_t val;
if (!l_dbus_message_iter_get_variant(new_value, "q", &val))
return dbus_error_invalid_args(message);
rule->match_times = val;
return l_dbus_message_new_method_return(message);
}
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
static bool rule_property_get_drop_ack(struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_builder *builder,
void *user_data)
{
struct hwsim_rule *rule = user_data;
bool bval = rule->drop_ack;
l_dbus_message_builder_append_basic(builder, 'b', &bval);
return true;
}
static struct l_dbus_message *rule_property_set_drop_ack(
struct l_dbus *dbus,
struct l_dbus_message *message,
struct l_dbus_message_iter *new_value,
l_dbus_property_complete_cb_t complete,
void *user_data)
{
struct hwsim_rule *rule = user_data;
bool bval;
if (!l_dbus_message_iter_get_variant(new_value, "b", &bval))
return dbus_error_invalid_args(message);
rule->drop_ack = bval;
return l_dbus_message_new_method_return(message);
}
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
static void setup_rule_interface(struct l_dbus_interface *interface)
{
l_dbus_interface_method(interface, "Remove", 0, rule_remove, "", "");
hwsim: Use L_DBUS_PROPERTY_FLAG_AUTO_EMIT
2020-01-29 17:51:40 +01:00
l_dbus_interface_property(interface, "Source",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "s",
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
rule_property_get_source,
rule_property_set_source);
hwsim: Use L_DBUS_PROPERTY_FLAG_AUTO_EMIT
2020-01-29 17:51:40 +01:00
l_dbus_interface_property(interface, "Destination",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "s",
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
rule_property_get_destination,
rule_property_set_destination);
hwsim: Use L_DBUS_PROPERTY_FLAG_AUTO_EMIT
2020-01-29 17:51:40 +01:00
l_dbus_interface_property(interface, "Bidirectional",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "b",
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
rule_property_get_bidirectional,
rule_property_set_bidirectional);
hwsim: Use L_DBUS_PROPERTY_FLAG_AUTO_EMIT
2020-01-29 17:51:40 +01:00
l_dbus_interface_property(interface, "Frequency",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "u",
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
rule_property_get_frequency,
rule_property_set_frequency);
hwsim: Use L_DBUS_PROPERTY_FLAG_AUTO_EMIT
2020-01-29 17:51:40 +01:00
l_dbus_interface_property(interface, "Priority",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "n",
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
rule_property_get_priority,
rule_property_set_priority);
hwsim: Use L_DBUS_PROPERTY_FLAG_AUTO_EMIT
2020-01-29 17:51:40 +01:00
l_dbus_interface_property(interface, "SignalStrength",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "n",
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
rule_property_get_signal,
rule_property_set_signal);
hwsim: Use L_DBUS_PROPERTY_FLAG_AUTO_EMIT
2020-01-29 17:51:40 +01:00
l_dbus_interface_property(interface, "Drop",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "b",
hwsim: Add Rule.Drop property Add a way to have matching packets dropped by the hwsim medium.
2017-08-23 18:18:48 +02:00
rule_property_get_drop,
rule_property_set_drop);
hwsim: add new 'Delay' property to Rules This allows a matching frame to be delayed by some number of milliseconds.
2020-06-02 19:30:18 +02:00
l_dbus_interface_property(interface, "Delay",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "u",
rule_property_get_delay,
rule_property_set_delay);
hwsim: add Prefix match rule support Hwsim rules now have a 'Prefix' property which will allow matching frames based on their payload data.
2021-04-06 00:40:24 +02:00
l_dbus_interface_property(interface, "Prefix",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "ay",
rule_property_get_prefix,
rule_property_set_prefix);
hwsim: add MatchBytes/MatchBytesOffset rule properties If set, a rule will start matching 'MatchBytes' some number of bytes into the frame (MatchBytesOffset). This is useful since header information, addresses, and sequence numbers may be unpredictable between test runs. To avoid unintended matches the Prefix property is left unchanged and will match starting at the beginning of the frame.
2021-09-10 00:08:43 +02:00
l_dbus_interface_property(interface, "MatchBytes",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "ay",
rule_property_get_match,
rule_property_set_match);
l_dbus_interface_property(interface, "MatchBytesOffset",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "q",
rule_property_get_match_offset,
rule_property_set_match_offset);
hwsim: require enabling rule before use The hwsim Rule API was structured as properties so once a rule is created it automatically starts being applied to frames. This happens before anything has time to actually define the rule (source, destination etc). This leads to every single frame being matched to the rule until these other properties are added, which can result in unexpected behavior. To fix this an "Enabled" property has been added and the rule will not be applied until this is true.
2021-08-19 00:09:28 +02:00
l_dbus_interface_property(interface, "Enabled",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "b",
rule_property_get_enabled,
rule_property_set_enabled);
hwsim: add MatchTimes property This integer property can be set to only match a rule a number of times rather than all packets. This is useful for testing behavior of a single dropped frame or ack. Once the rule has been matched 'MatchTimes' the rules will no longer be applied (unless set again to some integer greater than zero).
2021-09-07 23:14:42 +02:00
l_dbus_interface_property(interface, "MatchTimes",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "q",
rule_property_get_match_times,
rule_property_set_match_times);
hwsim: add DropAck rule property The hwsim rules did not treat frames and ACKs any differently which can mislead the developer especially when setting a rule prefix. If a prefix was used the frame ACK was actually being matched against the original frame payload which seems wrong because the ACK is not the original frame. Though strange, matching the frame prefix on an ACK has its place if the developer wants to block just the ACK rather than the frame so to make this case more clear 'DropAck' was added as a rule property. And only if this is true will an ACK be checked and potentially dropped. To maintain the current hwsim behavior DropAck will default to true.
2021-09-07 23:14:44 +02:00
l_dbus_interface_property(interface, "DropAck",
L_DBUS_PROPERTY_FLAG_AUTO_EMIT, "b",
rule_property_get_drop_ack,
rule_property_set_drop_ack);
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
}
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
static void request_name_callback(struct l_dbus *dbus, bool success,
bool queued, void *user_data)
{
if (!success)
l_error("Name request failed");
}
static void ready_callback(void *user_data)
{
tools: Change net.connman.iwd.hwsim to net.connman.hwsim
2018-09-14 15:27:57 +02:00
l_dbus_name_acquire(dbus, HWSIM_SERVICE, false, false, true,
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
request_name_callback, NULL);
hwsim: Update to the new ell API
2019-10-28 21:02:30 +01:00
if (!l_dbus_object_manager_enable(dbus, "/"))
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_info("Unable to register the ObjectManager");
}
static void disconnect_callback(void *user_data)
{
l_info("D-Bus disconnected, quitting...");
l_main_quit();
}
static bool setup_dbus_hwsim(void)
{
dbus = l_dbus_new_default(L_DBUS_SYSTEM_BUS);
if (!dbus) {
l_error("Unable to connect to Dbus");
return false;
}
if (!l_dbus_register_interface(dbus, HWSIM_RADIO_MANAGER_INTERFACE,
setup_radio_manager_interface,
NULL, false)) {
l_error("Unable to register the %s interface",
HWSIM_RADIO_MANAGER_INTERFACE);
return false;
}
if (!l_dbus_register_interface(dbus, HWSIM_RADIO_INTERFACE,
setup_radio_interface, NULL, false)) {
l_error("Unable to register the %s interface",
HWSIM_RADIO_INTERFACE);
return false;
}
if (!l_dbus_register_interface(dbus, HWSIM_INTERFACE_INTERFACE,
setup_interface_interface,
NULL, false)) {
l_error("Unable to register the %s interface",
HWSIM_INTERFACE_INTERFACE);
return false;
}
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
if (!l_dbus_register_interface(dbus, HWSIM_RULE_MANAGER_INTERFACE,
setup_rule_manager_interface,
NULL, false)) {
l_error("Unable to register the %s interface",
HWSIM_RULE_MANAGER_INTERFACE);
return false;
}
if (!l_dbus_register_interface(dbus, HWSIM_RULE_INTERFACE,
setup_rule_interface, NULL, false)) {
l_error("Unable to register the %s interface",
HWSIM_RULE_INTERFACE);
return false;
}
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
if (!l_dbus_object_add_interface(dbus, "/",
HWSIM_RADIO_MANAGER_INTERFACE,
NULL)) {
l_info("Unable to add the %s interface to /",
HWSIM_RADIO_MANAGER_INTERFACE);
return false;
}
hwsim: Add Rule and RuleManager dbus interfaces
2017-03-10 12:29:11 +01:00
if (!l_dbus_object_add_interface(dbus, "/",
HWSIM_RULE_MANAGER_INTERFACE,
NULL)) {
l_info("Unable to add the %s interface to /",
HWSIM_RULE_MANAGER_INTERFACE);
return false;
}
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
l_dbus_set_ready_handler(dbus, ready_callback, dbus, NULL);
l_dbus_set_disconnect_handler(dbus, disconnect_callback, NULL, NULL);
return true;
}
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
static void register_callback(struct l_genl_msg *msg, void *user_data)
{
int err = l_genl_msg_get_error(msg);
if (err < 0) {
l_error("HWSIM_CMD_REGISTER failed: %s (%d)",
strerror(-err), -err);
exit_status = EXIT_FAILURE;
l_main_quit();
return;
}
l_info("Registered as a transmission medium");
}
static void get_interface_done_initial(void *user_data)
{
struct l_genl_msg *msg;
hwsim: add --no-register option Starts hwsim but does not register to mac80211_hwsim. This is to allow autotests to disable hwsim, while still having the ability to create/destroy radios over DBus.
2020-12-17 20:36:01 +01:00
if (no_register)
return;
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
msg = l_genl_msg_new_sized(HWSIM_CMD_REGISTER, 4);
l_genl_family_send(hwsim, msg, register_callback, NULL, NULL);
}
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
static void get_radio_done_initial(void *user_data)
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
{
struct l_genl_msg *msg;
hwsim: Refactor radio, wiphy and interface tracking Read wiphy addresses from sysfs and perform the wiphy name to wiphy idx mapping using sysfs. Do this directly on a new radio notification and stop using new wiphy notifications except for updating the radio names. Having the wiphy index available synchronously when parsing a new radio event we store the wiphy index in the radio_info_rec struct directly and drop struct wiphy_info_rec as there was a 1:1 mapping. With this, and knowing that all radio_info data is available when new interface notifications are received, the tracking is simplified because dbus objects can be created and destroyed within the notification handlers. We also now store both the wiphy hardware address data and separately the interface MAC addresses and can use them more appropriately in the medium implementation.
2017-03-03 12:42:25 +01:00
/*
* Query interfaces now that we know we have all the radio data
* for radio lookups inside get_interface_callback, and we know
* nl80211_ready has already been called.
*/
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
msg = l_genl_msg_new(NL80211_CMD_GET_INTERFACE);
if (!l_genl_family_dump(nl80211, msg, get_interface_callback,
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
NULL, get_interface_done_initial)) {
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
l_error("Getting nl80211 interface information failed");
goto error;
}
if (!l_genl_family_register(nl80211, "config", nl80211_config_notify,
NULL, NULL)) {
l_error("Registering for nl80211 config notification "
"failed");
goto error;
}
hwsim: Watch RTNL NewLink events Handle NewLink events to detect interface mac address changes. In my current testing I don't see nl80211 events on address change so it's best to react to both types of events.
2017-03-26 03:16:50 +02:00
rtnl = l_netlink_new(NETLINK_ROUTE);
if (!rtnl) {
l_error("Failed to open route netlink socket");
goto error;
}
if (!l_netlink_register(rtnl, RTNLGRP_LINK,
rtnl_link_notify, NULL, NULL)) {
l_error("Failed to register for RTNL link notifications");
goto error;
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
return;
error:
exit_status = EXIT_FAILURE;
l_main_quit();
}
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
static void hwsim_ready(void)
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
{
struct l_genl_msg *msg;
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
size_t msg_size;
uint32_t radio_id;
hwsim: Receive multicast netlink event for NEW/DEL radio commands Kernel sends HWSIM_CMD_NEW_RADIO and HWSIM_CMD_DEL_RADIO multicast events when new radio have been created and when existing one has been deleted. The events are sent to "config" netlink multicast group. The hwsim catches these events and uses the information to monitor what simulated radios are created and deleted in the system.
2014-10-31 14:42:40 +01:00
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
switch (action) {
case ACTION_LIST:
msg = l_genl_msg_new_sized(HWSIM_CMD_GET_RADIO,
options ? 8 : 4);
if (options) {
radio_id = atoi(options);
l_genl_msg_append_attr(msg, HWSIM_ATTR_RADIO_ID,
4, &radio_id);
l_genl_family_send(hwsim, msg, list_callback,
NULL, list_callback_done);
} else {
l_genl_family_dump(hwsim, msg, list_callback,
NULL, list_callback_done);
}
break;
case ACTION_CREATE:
msg_size = 0;
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
if (radio_name_attr)
hwsim: Fix netlink attribute size calculation The name attribute in the NEW RADIO command needs at least 4 bytes for the attribute header (struct nlattr), all the characters of the name string and a NUL byte, and up to 3 bytes of alignment padding. Otherwise, depending on the name length and whether the NO_VIF attribute was the last, that attribute could end up being dropped and we were ending up with too many interfaces inside test-runner.
2017-03-14 00:51:17 +01:00
msg_size += strlen(radio_name_attr) + 8;
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
if (no_vif_attr)
msg_size += 4;
hwsim: Make attribute names consistent
2016-07-09 01:21:48 +02:00
if (p2p_attr)
hwsim: Add option to enable p2p support
2016-07-07 19:25:56 +02:00
msg_size += 4;
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
msg = l_genl_msg_new_sized(HWSIM_CMD_NEW_RADIO, msg_size);
hwsim: Minor style fix
2014-10-13 19:56:27 +02:00
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
if (radio_name_attr)
l_genl_msg_append_attr(msg, HWSIM_ATTR_RADIO_NAME,
hwsim: Include terminating 0 byte in radio name attribute The kernel expects the radio name attribute to include the string's zero byte. Things may still work without this if there is padding after the attribute. This has been now patched and the zero byte will be optional when that patch makes its way through different trees.
2017-03-03 12:42:24 +01:00
strlen(radio_name_attr) + 1,
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
radio_name_attr);
if (no_vif_attr)
l_genl_msg_append_attr(msg, HWSIM_ATTR_NO_VIF, 0, NULL);
hwsim: Make attribute names consistent
2016-07-09 01:21:48 +02:00
if (p2p_attr)
hwsim: Add option to enable p2p support
2016-07-07 19:25:56 +02:00
l_genl_msg_append_attr(msg,
HWSIM_ATTR_SUPPORT_P2P_DEVICE,
0, NULL);
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
if (hwsim_iftypes != HWSIM_DEFAULT_IFTYPES)
l_genl_msg_append_attr(msg, HWSIM_ATTR_IFTYPE_SUPPORT,
4, &hwsim_iftypes);
if (hwsim_num_ciphers)
l_genl_msg_append_attr(msg, HWSIM_ATTR_CIPHER_SUPPORT,
sizeof(uint32_t) * hwsim_num_ciphers,
hwsim_ciphers);
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
l_genl_family_send(hwsim, msg, create_callback, NULL, NULL);
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
break;
case ACTION_DESTROY:
radio_id = atoi(options);
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
hwsim: Receive multicast netlink event for NEW/DEL radio commands Kernel sends HWSIM_CMD_NEW_RADIO and HWSIM_CMD_DEL_RADIO multicast events when new radio have been created and when existing one has been deleted. The events are sent to "config" netlink multicast group. The hwsim catches these events and uses the information to monitor what simulated radios are created and deleted in the system.
2014-10-31 14:42:40 +01:00
msg = l_genl_msg_new_sized(HWSIM_CMD_DEL_RADIO, 8);
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
l_genl_msg_append_attr(msg, HWSIM_ATTR_RADIO_ID, 4, &radio_id);
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
l_genl_family_send(hwsim, msg, destroy_callback, NULL, NULL);
hwsim: Fixup minor style issues
2014-11-15 05:17:30 +01:00
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
break;
hwsim: Fixed the errors reported by checkpatch.pl
2016-04-20 22:30:59 +02:00
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
case ACTION_NONE:
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
if (!setup_dbus_hwsim())
goto error;
hwsim: Don't handle netlink events in command mode Don't handle the hwsim netlink events we use to track radios and interfaces if we're not in daemon mode. This quiets dbus errors when using hwsim through the command line.
2017-03-14 00:51:19 +01:00
if (!l_genl_family_register(hwsim, "config", hwsim_config,
NULL, NULL)) {
l_error("Failed to create hwsim config listener\n");
goto error;
}
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
msg = l_genl_msg_new(HWSIM_CMD_GET_RADIO);
if (!l_genl_family_dump(hwsim, msg, get_radio_callback,
NULL, get_radio_done_initial)) {
l_error("Getting hwsim radio information failed");
goto error;
}
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
if (!l_genl_add_unicast_watch(genl, "MAC80211_HWSIM",
hwsim: move frame processing into a separate function The ADD/DEL_MAC_ADDR events come through the unicast handler so move the frame processing to a separate function so these other events can be handled.
2023-06-28 22:20:32 +02:00
hwsim_unicast_handler,
NULL, NULL)) {
l_error("Failed to set hwsim unicast handler");
hwsim: Add wmedium implementation Implement a hwsim wireless medium inside hwsim.c. This doesn't do anything to the frames it moves around yet, only tries to implement the same logic that the kernel medium contains.
2017-03-10 12:29:09 +01:00
goto error;
}
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
break;
}
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
return;
hwsim: Basic DBus interface to radio information In daemon mode start a basic passive DBus interface to expose the information on radios attached to mac80211_hwsim. In this version interfaces have objects of their own. It might be simpler to only show them as an array property on the radio object (array of pairs of string, one string for address, one for name).
2017-03-08 13:33:19 +01:00
error:
exit_status = EXIT_FAILURE;
l_main_quit();
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
}
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
static void family_discovered(const struct l_genl_family_info *info,
void *user_data)
hwsim: Exit hwsim if MAC80211_HWSIM vanishes If the MAC80211_HWSIM netlink family disappears, exit hwsim. This can happen already at startup, for example if MAC80211_HWSIM functionality is not compiled in the kernel or respective module loaded.
2014-10-27 14:01:20 +01:00
{
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
if (!strcmp(l_genl_family_info_get_name(info), "MAC80211_HWSIM"))
hwsim = l_genl_family_new(genl, "MAC80211_HWSIM");
else if (!strcmp(l_genl_family_info_get_name(info), NL80211_GENL_NAME))
nl80211 = l_genl_family_new(genl, NL80211_GENL_NAME);
}
static void discovery_done(void *user_data)
{
if (!hwsim) {
fprintf(stderr, "MAC80211_HWSIM doesn't exist.\n"
"Load it manually using modprobe mac80211_hwsim\n");
goto quit;
}
if (!nl80211) {
fprintf(stderr, "nl80211 doesn't exist.\n"
"Load it manually using modprobe cfg80211\n");
goto quit;
}
hwsim_ready();
return;
quit:
exit_status = EXIT_FAILURE;
hwsim: Exit hwsim if MAC80211_HWSIM vanishes If the MAC80211_HWSIM netlink family disappears, exit hwsim. This can happen already at startup, for example if MAC80211_HWSIM functionality is not compiled in the kernel or respective module loaded.
2014-10-27 14:01:20 +01:00
l_main_quit();
}
hwsim: Use l_main_run_with_signal instead of open coding it
2018-11-01 19:58:34 +01:00
static void signal_handler(uint32_t signo, void *user_data)
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
{
switch (signo) {
case SIGINT:
case SIGTERM:
l_main_quit();
break;
}
}
static void usage(void)
{
printf("hwsim - Wireless simulator\n"
"Usage:\n");
printf("\thwsim [options]\n");
printf("Options:\n"
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
"\t-L, --list [id] List simulated radios\n"
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
"\t-C, --create Create new simulated radio\n"
"\t-D, --destroy <id> Destroy existing radio\n"
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
"\t-n, --name <name> Name of a radio to be created\n"
"\t-i, --nointerface Do not create VIF\n"
hwsim: Add option to enable p2p support
2016-07-07 19:25:56 +02:00
"\t-p, --p2p Support P2P\n"
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
"\t-t, --iftype-disable List of disabled iftypes\n"
"\t-c, --cipher-disable List of disabled ciphers\n"
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
"\t-h, --help Show help options\n");
}
static const struct option main_options[] = {
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
{ "list", optional_argument, NULL, 'L' },
{ "create", no_argument, NULL, 'C' },
{ "destroy", required_argument, NULL, 'D' },
{ "name", required_argument, NULL, 'n' },
{ "nointerface", no_argument, NULL, 'i' },
hwsim: Add option to enable p2p support
2016-07-07 19:25:56 +02:00
{ "p2p", no_argument, NULL, 'p' },
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
{ "version", no_argument, NULL, 'v' },
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
{ "iftype-disable", required_argument, NULL, 't' },
{ "cipher-disable", required_argument, NULL, 'c' },
hwsim: add --no-register option Starts hwsim but does not register to mac80211_hwsim. This is to allow autotests to disable hwsim, while still having the ability to create/destroy radios over DBus.
2020-12-17 20:36:01 +01:00
{ "no-register", no_argument, NULL, 'r' },
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
{ "help", no_argument, NULL, 'h' },
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
{ }
};
int main(int argc, char *argv[])
{
hwsim: Report exit status to the parent
2016-07-09 01:19:29 +02:00
int actions = 0;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
for (;;) {
int opt;
hwsim: add --no-register option Starts hwsim but does not register to mac80211_hwsim. This is to allow autotests to disable hwsim, while still having the ability to create/destroy radios over DBus.
2020-12-17 20:36:01 +01:00
opt = getopt_long(argc, argv, ":L:CD:kndetrc:ipvh", main_options,
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
NULL);
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
if (opt < 0)
break;
switch (opt) {
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
case ':':
if (optopt == 'L') {
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
action = ACTION_LIST;
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
actions++;
} else {
printf("option '-%c' requires an argument\n",
optopt);
hwsim: Report exit status to the parent
2016-07-09 01:19:29 +02:00
return EXIT_FAILURE;
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
}
break;
case 'L':
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
action = ACTION_LIST;
options = optarg;
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
actions++;
break;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
case 'C':
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
action = ACTION_CREATE;
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
actions++;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
break;
case 'D':
hwsim: Refactor create/list/destroy action logic
2016-07-07 20:33:38 +02:00
action = ACTION_DESTROY;
options = optarg;
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
actions++;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
break;
hwsim: Add params: --name, --nointerface
2016-05-17 23:41:38 +02:00
case 'n':
radio_name_attr = optarg;
break;
case 'i':
no_vif_attr = true;
hwsim: Add attribute to destroy radio when program stops The new attribute causes the radio to be removed if the hwsim process dies. This is the default behaviour. If user calls the binary with -k option, then the radio is kept after hwsim quits. This requires kernel support for HWSIM_ATTR_DESTROY_RADIO_ON_CLOSE attribute.
2014-10-10 09:47:19 +02:00
break;
hwsim: Add option to enable p2p support
2016-07-07 19:25:56 +02:00
case 'p':
hwsim: Make attribute names consistent
2016-07-09 01:21:48 +02:00
p2p_attr = true;
hwsim: Add option to enable p2p support
2016-07-07 19:25:56 +02:00
break;
hwsim: allow specific radio iftypes/ciphers mac80211_hwsim now allows setting supported iftypes/ciphers. This patch enables this support in hwsim. Specific iftypes/ciphers can now be disabled via the command line when creating a radio: Disable iftypes: --iftype-disable station,ap,adhoc,p2p_client,p2p_go,mesh_point Disable cipher types: --cipher-disable ccmp,tkip,wep
2019-05-13 23:29:22 +02:00
case 't':
hwsim_disable_support(optarg, iftype_map,
&hwsim_iftypes);
break;
case 'c':
hwsim_disable_ciphers(optarg);
break;
hwsim: add --no-register option Starts hwsim but does not register to mac80211_hwsim. This is to allow autotests to disable hwsim, while still having the ability to create/destroy radios over DBus.
2020-12-17 20:36:01 +01:00
case 'r':
no_register = true;
break;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
case 'v':
printf("%s\n", VERSION);
return EXIT_SUCCESS;
case 'h':
usage();
return EXIT_SUCCESS;
default:
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
printf("unrecognized argument '%s'\n",
argv[optind - 1]);
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
return EXIT_FAILURE;
}
}
if (argc - optind > 0) {
fprintf(stderr, "Invalid command line parameters\n");
return EXIT_FAILURE;
}
hwsim: Add support for HWSIM_CMD_GET_RADIO Add a new option to the hwsim binary to fetch all or a given hwsim radio. Print out radio information which is currently returned in the reply to user space. Add new hwsim attributes to the enum and tweak getopt to behave properly with or without giving the radio id on the command line.
2014-11-13 07:55:46 +01:00
if (actions > 1) {
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
fprintf(stderr, "Only one action can be specified\n");
return EXIT_FAILURE;
}
hwsim: Update to new l_main api
2016-06-09 00:41:38 +02:00
if (!l_main_init())
return EXIT_FAILURE;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
l_log_set_stderr();
hwsim: Enable debug output
2021-12-27 18:01:54 +01:00
l_debug_enable("*");
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
exit_status = EXIT_FAILURE;
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
printf("Wireless simulator ver %s\n", VERSION);
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
genl = l_genl_new();
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
if (!genl) {
fprintf(stderr, "Failed to initialize generic netlink\n");
goto done;
}
if (getenv("HWSIM_DEBUG"))
l_genl_set_debug(genl, do_debug, "[GENL] ", NULL);
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
if (!l_genl_discover_families(genl, family_discovered, NULL,
discovery_done)) {
fprintf(stderr, "Unable to start family discovery\n");
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
l_genl_unref(genl);
goto done;
}
hwsim: Use l_main_run_with_signal instead of open coding it
2018-11-01 19:58:34 +01:00
exit_status = l_main_run_with_signal(signal_handler, NULL);
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
tools: Update hwsim to the new genl api
2019-05-17 22:44:26 +02:00
l_genl_family_free(hwsim);
l_genl_family_free(nl80211);
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
l_genl_unref(genl);
hwsim: Clean up some trivial style issues The code had too many empty lines in places where it would be logical to just group the statements together.
2017-03-10 17:22:44 +01:00
l_dbus_destroy(dbus);
hwsim: Add daemon mode with radio information tracking Add a daemon mode that is entered when no action was specified on the command line. In this mode hwsim tracks information on radios through the netlink events. The interface to make use of the information is added in the next patch.
2017-02-22 04:04:52 +01:00
hwsim_radio_cache_cleanup();
hwsim: properly cleanup rules queue After adding prefix matching the rule structure contained allocated memory which was not being cleaned up on exit if rules still remained in the list (removing the rule via DBus was done correctly)
2023-04-10 19:12:32 +02:00
l_queue_destroy(rules, destroy_rule);
hwsim: Add user-defined rules for frames passed by medium Define rule structure, add the list of current rules and code to match frames against rules and apply RSSI changes.
2017-03-10 12:29:10 +01:00
hwsim: Watch RTNL NewLink events Handle NewLink events to detect interface mac address changes. In my current testing I don't see nl80211 events on address change so it's best to react to both types of events.
2017-03-26 03:16:50 +02:00
l_netlink_destroy(rtnl);
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
done:
hwsim: Update to new l_main api
2016-06-09 00:41:38 +02:00
l_main_exit();
tools: Add simple utility for interacting with mac80221_hwsim
2014-08-09 00:40:43 +02:00
return exit_status;
}