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458 lines
16 KiB
Plaintext
Notes for test-runner usage
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***************************
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Tool Description
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================
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test-runner is an automated test execution tool for IWD. It is capable of
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creating the emulated environments representing a variety of network topologies
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and run the automated tests of IWD functionality.
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Software Prerequisites
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======================
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The test-runner tool requires the following binaries to be present on the host
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OS:
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Name: Tested ver.:
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1. qemu 2.4.1
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2. Linux kernel 4.20+
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3. dbus-daemon 1.11.18
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4. iproute2
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5. iw 3.17
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6. python 3.9
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7. haveged no ver. avail.
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8. hostapd recent
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9. <iwd>/tools/hwsim 0.0
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10. <iwd>/src/iwd 0.0
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11. ofono (optional)
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12. phonesim (optional)
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13. wpa_supplicant 2.9
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14. radvd 2.18
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15. dhcpd
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Note: The version for hostapd is listed as 'recent'. Older hostapd versions
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will work but we are continually adopting new features from hostapd and using
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those to test. Its recommended to use a recent release of hostapd.
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Note: The test-runner mounts host's file system in readonly mode and executes
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the above binaries inside of an emulated environment directly from it.
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Note: Running EAP-SIM/AKA/AKA' tests using oFono will require oFono and
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phonesim to be installed on the host. This is explained further in the
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"Running with oFono and phonesim" section.
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In addition, the following Python packages are required:
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Name: Tested ver.:
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1. python-prettytable 0.7.2
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2. python-termcolor 1.1.0
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3. python-pyroute2 0.5.14
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4. python-gobject 3.38.0
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5. python-dbus 1.2.16
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6. scapy 2.4.5
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Building Kernel
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===============
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test-runner can work both in a fully virtualized environment (QEMU) or inside
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a UML (User Mode Linux) instance. Its recommended using UML as its both faster
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and more reliable than QEMU for timing specific scenarios. When building the
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kernel for UML its important to always specify ARCH=um for any build command.
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The default architectures seem to muck with the kernel config that UML needs
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and will likely result in a UML binary that won't run under test-runner.
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The test-runner tool requires a kernel that is at least build with these
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minimal options for a successful boot and execution:
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<arch>_defconfig Default kernel configuration
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kvm_guest.config Default configuration for
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kvm guests (QEMU only)
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<iwd>/tools/test_runner_kernel_config The test-runner specific
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configuration
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These configurations should be installed as .config in the kernel source
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directory. To build a x86_64 UML kernel the sequence of commands may look
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as follows:
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$ cd linux-X.X.X
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$ make ARCH=um x86_64_defconfig
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$ ARCH=um sh <iwd>/tools/test_runner_kernel_config
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$ make ARCH=um olddefconfig
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After that a default kernel with the required options can be built:
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$ make ARCH=um -j$(nproc)
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If you do need to build a QEMU kernel you can remove ARCH=um and make the
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kvm_guest.config target as well.
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After building (for UML) there should be a 'linux' executable at the root of the
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repository, this is the UML binary that should be supplied to test-runner with
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the --kernel,-k option.
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For QEMU it is instead a kernel image located at arch/boot/<arch>/bzImage.
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Note: If your host distribution does not contain a regulatory.db you may get an
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error similar to this when building the kernel:
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No rule to make target '/lib/firmware/regulatory.db'...
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To fix this you must download the regulatory.db manually and place it in
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/lib/firmware. This can be found here:
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https://git.kernel.org/pub/scm/linux/kernel/git/sforshee/wireless-regdb.git
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Note: To catch locking related issues the following set of kernel config
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options may be useful:
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CONFIG_LOCKDEP_SUPPORT=y
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CONFIG_DEBUG_SPINLOCK=y
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CONFIG_DEBUG_LOCK_ALLOC=y
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CONFIG_PROVE_LOCKING=y
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CONFIG_LOCKDEP=y
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CONFIG_DEBUG_MUTEXES=y
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By default the test-runner will search for the kernel image in these locations:
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<iwd>/tools/bzImage
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or
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<iwd>/tools/arch/x86/boot/bzImage
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An arbitrary kernel image location can be specified by using '--kernel <path>'
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parameter into test-runner.
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Running Automated Tests
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=======================
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Before running any tests, its expected that the folder /var/lib/iwd exists on
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the host machine. If not, you will see a mounting error when starting
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test-runner.
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mkdir /var/lib/iwd
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By default, the automated test configuration directories reside in
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'<iwd>/autotests' and have a mandatory prefix of 'test'.
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<iwd>/autotests/test1
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/test2
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...
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The test configurations along with test cases in <iwd>/autotests/test*
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directories will be discovered and executed by test-runner in sequential
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fashion. The following set of commands is sufficient to run the automated
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tests shipped with IWD:
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$ cd <iwd>/tools
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$ sudo ./test-runner -k <kernel binary>
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One can specify a particular set of test configurations to be executed by using
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'-A <dir1,dir2>' parameter. An absolute path is necessary for the test
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configuration directories outside of <iwd>/autotests.
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The command line may look as follows:
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$ sudo ./test-runner -A test1,test3,/home/test4
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Glob matching is also supported when specifying a test list:
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$ sudo ./test-runner -A testWPA*
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Creating Test Configurations
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============================
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A typical test configuration directory may consist of these types of files:
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hw.conf Defines the network configuration and
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properties of the radios.
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*Test or *Test.py The set of test cases for IWD functionality
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implemented using Python scripting language.
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These files must have one of the two predefined
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suffixes: 'test' or 'test.py'. The file name
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must also be more descriptive than simply 'test'.
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e.g. 'connection_test' or 'failure_test'. Files
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named 'test' will not be dynamically loaded due
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to python module naming overlap.
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*.conf A configuration file for an instance of hostapd
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(Defined in hw.conf) service.
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Each configuration directory has exactly one hw.conf, where the number of
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Python script files is virtually unlimited. The number of hostapd configuration
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files is bounded by the limitation in mac80211_hwsim driver and is set
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to 99. (The mac80211_hwsim driver allows to create 100 of simultaneous radios
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and one of them is reserved by the test-runner for IWD)
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A typical contents of a test configuration directory may look as follows:
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/test1/hw.conf
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ap1.conf
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ap2.conf
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networkScanTest
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networkConnectTest.py
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Note: Any additional files in your test directory will be copied to /tmp inside
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the VM. These additional file should be referenced using /tmp/<file> inside
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any configuration file for hostapd.
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Defining Network
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----------------
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Network topology along with configuration for the automated test cases is
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predetermined in hardware configuration file 'hw.conf'. In addition, it allows
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to establish the relationships between the emulated hardware radios and
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services that represent various entities of a wireless network.
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The following sample hardware configuration file allows to emulate a network
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of three nodes. Two of which are access points and the third one represents a
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supplicant running IWD:
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#~~~~~~~~~~~~~~~~~~~~~~~~~ hw.conf ~~~~~~~~~~~~~~~~~~~~~~~~~
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# Lines starting with # are ignored
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# 'SETUP' is a manditory configuration group.
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[SETUP]
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#
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# Total number of radios requested per network setup. This includes
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# the radios used by APs as well as one for IWD. This field is mandatory and
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# has a range of [1, 100].
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num_radios=3
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# Maximum execution interval per Python script file in seconds. This field is
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# optional.
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# Default: 20 seconds.
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#max_test_exec_interval_sec=5
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#
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# The following two configuration groups are examples of the radio
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# configurations.
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#
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# This group of settings allows to specify a set of properties for a radio. The
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# name of the group represents a radio identifier. These configuration groups
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# are optional.
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[rad0]
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# For each radX group you can specify radio properties:
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# Disables the provided interface type(s):
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disable_iftype=ap,p2p
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# Disables the provided cipher types:
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disable_cipher=ccmp,bip
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# 'HOSTAPD' configuration group identifies a set of access points (AP) for the
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# current network topology. Each key/value pair represents a single AP that is
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# emulated by the instance of hostapd service. The key indicates an arbitrary
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# radio identifier and value specifies a configuration file for the instance.
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# If a radio identifier can not be mapped to a predefined radio configuration
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# (identifier is not part of the 'radio_confs' list), then a radio with the
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# default configuration is used. This configuration group is optional.
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[HOSTAPD]
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rad0=ap1.conf
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rad1=ap2.conf
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# 'radius_server' is a special option used to specify a hostapd instance which
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# acts as a radius server only (not an access point). This option does not
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# require an additional 'num_radios' to be used.
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radius_server=radius.conf
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#~~~~~~~~~~~~~~~~~~ end of hw.conf ~~~~~~~~~~~~~~~~~~~~~~~~~
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Configuring Access Points
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-------------------------
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The test-runner tool makes use of the hostapd service to emulate the access
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points (AP). Despite the fact that hostapd service comes preinstalled on most
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Linux distributions, test-runner uses some of the recently introduced features,
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which may only be available from the master tree of the hostapd repository:
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git://w1.fi/srv/git/hostap.git
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OR (its HTTP version)
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http://w1.fi/hostap.git
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commit id: 31d3692fe5d56c05753ed4a70c7943979e1d29e7 or above is required.
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The sequence of commands to clone, build and install hostapd may look as
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follows:
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$ git clone git://w1.fi/srv/git/hostap.git
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$ cd hostap/hostapd
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$ cp <iwd>/doc/hostapd.config .config
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Note: You may need to pre-install: 'gnutls-devel' and 'libgcrypt-devel'
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libraries.
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$ make install
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Note: All hostapd build options (CONFIG_*) are stored in doc/hostapd.config.
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Any new options which are required for a test should be added there.
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Note: If 'make install' fails with the netlink warnings you may need to
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install libnl-1.0pre8 (or later).
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Note: It is recommended to override the pre-installed version of hostapd with
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the newly built one to avoid any confusion. The simplest way to make sure
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that the correct version of hostapd is used is to execute the following
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command:
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$ hostapd -h
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Make sure that '-i' option is available in the list of option.
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For more information on hostapd refer to this page:
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https://wireless.wiki.kernel.org/en/users/documentation/hostapd
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A full set of the hostapd configurations along with explanation can be
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found at:
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https://w1.fi/cgit/hostap/plain/hostapd/hostapd.conf
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Note: for EAP-SIM/AKA/AKA' hostapd needs an authenticator running separately.
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IWD has a python version of hostapd's "hlrauc.c". This may work out of the box
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on your system, but the pycrypto library is required. This can be installed
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with python pip3:
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sudo pip3 install pycrypto
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Running with oFono and phonesim
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-------------------------------
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EAP-SIM/AKA/AKA' require SIM card access to perform the authentication
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algorithms. This is achieved in test runner using oFono and phonesim. If
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either oFono or phonesim are not found when test runner starts, any test
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involving oFono will be skipped. Using the option "sim_keys=ofono" in the
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hardware config file will tell test runner that the test should use oFono.
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There is some setup that needs to be done before test runner will work with
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ofono/phonesim
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setup ofono:
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$ git clone git://git.kernel.org/pub/scm/network/ofono/ofono.git
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$ cd ofono
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$ ./bootstrap-configure
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$ make install
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setup phonesim:
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$ git clone git://git.kernel.org/pub/scm/network/ofono/phonesim.git
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$ cd phonesim
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$ ./bootstrap-configure
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$ make install
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Now test runner should pick up both installed binaries.
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Note: EAP-SIM/AKA/AKA' can also be tested using the hardcoded SIM plugin. This
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just reads hardcoded SIM values from a local file. Tests using this plugin
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should not need any additional setup. This plugin is enabled by setting
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"sim_keys=<file>" in the hardware config file.
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Writing Python Test Scripts
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---------------------------
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The test-runner tool relies on test cases written in Python script language
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to exercise the functionality of IWD. The outcomes of the tests are determined
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by the exit status of a process running test and reported on per Python file
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bases. The test creators are highly encouraged to use the Python unit test
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framework.
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For more information on Python unit test framework refer to the following page:
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http://pyunit.sourceforge.net/pyunit.html
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Using hardware passthrough
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---------------------------
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The --hw, -w flag lets you pass in a config file containing USB/PCI adapter
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addresses, which can then be used as radios inside the test/VM just as the
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virtual mac80211_hwsim radios are used. Note: physical radios cannot be used at
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the same time as mac80211_hwsim radios.
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Using this option, in some cases, does require some pre-configuration that won't
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be described in this document. Specifically, PCI adapters are very involved to
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get setup, and require special kernel boot options (on the host), BIOS changes,
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and most likely a lot of time to get the system working reliably. Because of
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this only USB adapters will be discussed in this document.
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If PCI passthrough is something you need, it would be best to follow this guide:
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https://wiki.archlinux.org/index.php/PCI_passthrough_via_OVMF
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First, whatever kernel you are using must contain the adapters driver and, if
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required, firmware built in. The driver can be built in using 'make menuconfig'
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and finding the correct driver for your adapter:
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Device Driver -> Network Device Support -> Wireless LAN
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Enable [*] the driver(s) you need, save, and exit.
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The firmware also needs to be built in, and this will require you finding the
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right firmware file (/lib/firmware/) required for your adapter and adding it to
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CONFIG_EXTRA_FIRMWARE in your .config file. It is sometimes not very obvious
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what firmware you need. I have found that during the kernel boot some adapters
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will print out if the firmware was not found, and the name of the firmware file
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they expect. If you are having trouble finding the firmware file try continuing
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on and see what happens when test-runner starts. Google is also your friend.
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Once you have the kernel built you can write your hardware config file for
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test-runner. Find the USB bus and device for the adapter:
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$ lsusb
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You should see your device listed with a 'Bus' and 'Device' number:
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$ Bus 001 Device 002: ........
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Put these into your passthrough config file under a 'USBAdapters' group:
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[USBAdapters]
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rad0=1,2
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Note: The 'rad#' does not matter at this time. These named keys will not
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correspond to rad0, rad1, etc in your test config file. This may change in the
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future.
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You can then run test-runner using this config file:
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./test-runner -k <kernel> --hw passthrough.conf ...
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If running specific tests you need to ensure you have enough adapters defined
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in the config file, and that the adapters support the features you expect. For
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example, some adapters cannot go into AP mode, or use certain channels. If your
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test expects these features and the adapters do not support them, the test will
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fail in sometimes unexpected ways.
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Using the 'shell' feature
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---------------------------
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The --shell,-s flag allows you to boot into a shell inside the test-runner VM.
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If this flag is used the python test will not actually run, only the environment
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will be setup. Tis is useful for diagnosing issues with a particular test
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quickly without having to modify the python test and restart the VM. The shell
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flag is meant to be used in conjunction with --autotest,-A. If no specific test
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is specified test-runner will default to the 'shell' test, which is just an
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empty test with one adapter.
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Using the shell with real hardware (--hw flag) is even more powerful. If your
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system is setup for USB/PCI passthrough you can expose physical network cards
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in the VM and use them in the shell sandbox. This allows you to try out
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different kernels in the VM very quickly (no reboots/swapping out kernels on
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the host system).
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Here are some examples of --shell usage:
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Setup environment for 'testWPA' and boot into shell:
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./test-runner -k <kernel> -A testWPA --shell
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Boot directly into 'shell' test (sandbox):
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./test-runner -k <kernel> --shell
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Use hardware passthrough:
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./test-runner -k <kernel> --hw <hw.conf> --shell
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