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5b0ba21a03
Signed-off-by: Yegor Yefremov <yegorslists@googlemail.com>
181 lines
8.6 KiB
Plaintext
181 lines
8.6 KiB
Plaintext
/**
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\page driver_wrapper Driver wrapper implementation (driver.h, drivers.c)
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All hardware and driver dependent functionality is in separate C files
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that implement defined wrapper functions. Other parts
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of the wpa_supplicant are designed to be hardware, driver, and operating
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system independent.
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Driver wrappers need to implement whatever calls are used in the
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target operating system/driver for controlling wireless LAN
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devices. As an example, in case of Linux, these are mostly some glue
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code and ioctl() calls and netlink message parsing for Linux Wireless
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Extensions (WE). Since features required for WPA were added only recently to
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Linux Wireless Extensions (in version 18), some driver specific code is used
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in number of driver interface implementations. These driver dependent parts
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can be replaced with generic code in \ref driver_wext.c once the target driver
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includes full support for WE-18. After that, all Linux drivers, at
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least in theory, could use the same driver wrapper code.
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A driver wrapper needs to implement some or all of the functions
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defined in \ref driver.h. These functions are registered by filling struct
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\ref wpa_driver_ops with function pointers. Hardware independent parts of
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wpa_supplicant will call these functions to control the driver/wlan
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card. In addition, support for driver events is required. The event
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callback function, \ref wpa_supplicant_event(), and its parameters are
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documented in \ref driver.h. In addition, a pointer to the 'struct
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\ref wpa_driver_ops' needs to be registered in \ref drivers.c file.
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When porting to other operating systems, the driver wrapper should be
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modified to use the native interface of the target OS. It is possible
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that some extra requirements for the interface between the driver
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wrapper and generic wpa_supplicant code are discovered during porting
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to a new operating system. These will be addressed on case by case
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basis by modifying the interface and updating the other driver
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wrappers for this. The goal is to avoid changing this interface
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without very good reasons in order to limit the number of changes
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needed to other wrappers and hardware independent parts of
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wpa_supplicant. When changes are required, recommended way is to
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make them in backwards compatible way that allows existing driver
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interface implementations to be compiled without any modification.
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Generic Linux Wireless Extensions functions are implemented in
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\ref driver_wext.c. All Linux driver wrappers can use these when the kernel
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driver supports the generic ioctl()s and wireless events. Driver
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specific functions are implemented in separate C files, e.g.,
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\ref driver_hostap.c. These files need to define struct \ref wpa_driver_ops
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entry that will be used in \ref wpa_supplicant.c when calling driver
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functions. struct \ref wpa_driver_ops entries are registered in \ref drivers.c.
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In general, it is likely to be useful to first take a look at couple
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of driver interface examples before starting on implementing a new
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one. \ref driver_hostap.c and \ref driver_wext.c include a complete
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implementation for Linux drivers that use wpa_supplicant-based control
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of WPA IE and roaming. \ref driver_ndis.c (with help from \ref driver_ndis_.c)
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is an example of a complete interface for Windows NDIS interface for
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drivers that generate WPA IE themselves and decide when to roam. These
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example implementations include full support for all security modes.
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\section driver_req Driver requirements for WPA
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WPA introduces new requirements for the device driver. At least some
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of these need to be implemented in order to provide enough support for
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wpa_supplicant.
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\subsection driver_tkip_ccmp TKIP/CCMP
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WPA requires that the pairwise cipher suite (encryption algorithm for
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unicast data packets) is TKIP or CCMP. These are new encryption
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protocols and thus, the driver will need to be modified to support
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them. Depending on the used wlan hardware, some parts of these may be
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implemented by the hardware/firmware.
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Specification for both TKIP and CCMP is available from IEEE (IEEE
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802.11i amendment). Fully functional, hardware independent
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implementation of both encryption protocols is also available in Host
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AP driver (driver/modules/hostap_{tkip,ccmp}.c). In addition, Linux 2.6
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kernel tree has generic implementations for WEP, TKIP, and CCMP that can
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be used in Linux drivers.
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The driver will also need to provide configuration mechanism to allow
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user space programs to configure TKIP and CCMP. Linux Wireless Extensions
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v18 added support for configuring these algorithms and
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individual/non-default keys. If the target kernel does not include WE-18,
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private ioctls can be used to provide similar functionality.
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\subsection driver_roaming Roaming control and scanning support
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wpa_supplicant can optionally control AP selection based on the
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information received from Beacon and/or Probe Response frames
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(ap_scan=1 mode in configuration). This means that the driver should
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support external control for scan process. In case of Linux, use of
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new Wireless Extensions scan support (i.e., 'iwlist wlan0 scan') is
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recommended. The current driver wrapper (\ref driver_wext.c) uses this for
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scan results.
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Scan results must also include the WPA information element. Support for
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this was added in WE-18. With older versions, a custom event can be used
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to provide the full WPA IE (including element id and length) as a hex
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string that is included in the scan results.
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wpa_supplicant needs to also be able to request the driver to
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associate with a specific BSS. Current Host AP driver and matching
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\ref driver_hostap.c wrapper uses following sequence for this
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request. Similar/identical mechanism should be usable also with other
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drivers.
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- set WPA IE for AssocReq with private ioctl
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- set SSID with SIOCSIWESSID
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- set channel/frequency with SIOCSIWFREQ
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- set BSSID with SIOCSIWAP
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(this last ioctl will trigger the driver to request association)
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\subsection driver_wpa_ie WPA IE generation
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wpa_supplicant selects which cipher suites and key management suites
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are used. Based on this information, it generates a WPA IE. This is
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provided to the driver interface in the associate call. This does not
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match with Windows NDIS drivers which generate the WPA IE
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themselves.
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wpa_supplicant allows Windows NDIS-like behavior by providing the
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selected cipher and key management suites in the associate call. If
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the driver generates its own WPA IE and that differs from the one
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generated by wpa_supplicant, the driver has to inform wpa_supplicant
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about the used WPA IE (i.e., the one it used in (Re)Associate
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Request). This notification is done using EVENT_ASSOCINFO event (see
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\ref driver.h). wpa_supplicant is normally configured to use
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ap_scan=2 mode with drivers that control WPA IE generation and roaming.
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\subsection driver_events Driver events
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wpa_supplicant needs to receive event callbacks when certain events
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occur (association, disassociation, Michael MIC failure, scan results
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available, PMKSA caching candidate). These events and the callback
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details are defined in \ref driver.h (\ref wpa_supplicant_event() function
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and enum \ref wpa_event_type).
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On Linux, association and disassociation can use existing Wireless
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Extensions event that is reporting new AP with SIOCGIWAP
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event. Similarly, completion of a scan can be reported with SIOCGIWSCAN
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event.
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Michael MIC failure event was added in WE-18. Older versions of Wireless
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Extensions will need to use a custom event. Host AP driver used a custom
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event with following contents: MLME-MICHAELMICFAILURE.indication(keyid=#
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broadcast/unicast addr=addr2). This is the recommended format until
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the driver can be moved to use WE-18 mechanism.
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\subsection driver_wext_summary Summary of Linux Wireless Extensions use
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AP selection depends on ap_scan configuration:
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ap_scan=1:
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- wpa_supplicant requests scan with SIOCSIWSCAN
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- driver reports scan complete with wireless event SIOCGIWSCAN
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- wpa_supplicant reads scan results with SIOCGIWSCAN (multiple call if
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a larger buffer is needed)
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- wpa_supplicant decides which AP to use based on scan results
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- wpa_supplicant configures driver to associate with the selected BSS
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(SIOCSIWMODE, SIOCSIWGENIE, SIOCSIWAUTH, SIOCSIWFREQ,
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SIOCSIWESSID, SIOCSIWAP)
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ap_scan=2:
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- wpa_supplicant configures driver to associate with an SSID
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(SIOCSIWMODE, SIOCSIWGENIE, SIOCSIWAUTH, SIOCSIWESSID)
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After this, both modes use similar steps:
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- optionally (or required for drivers that generate WPA/RSN IE for
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(Re)AssocReq), driver reports association parameters (AssocReq IEs)
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with wireless event IWEVASSOCREQIE (and optionally IWEVASSOCRESPIE)
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- driver reports association with wireless event SIOCGIWAP
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- wpa_supplicant takes care of EAPOL frame handling (validating
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information from associnfo and if needed, from scan results if WPA/RSN
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IE from the Beacon frame is not reported through associnfo)
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*/
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