qemu/tests/Makefile.include

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export SRC_PATH
qapi-py = $(SRC_PATH)/scripts/qapi.py $(SRC_PATH)/scripts/ordereddict.py
# Get the list of all supported sysemu targets
SYSEMU_TARGET_LIST := $(subst -softmmu.mak,,$(notdir \
$(wildcard $(SRC_PATH)/default-configs/*-softmmu.mak)))
check-unit-y = tests/check-qdict$(EXESUF)
gcov-files-check-qdict-y = qobject/qdict.c
check-unit-y += tests/check-qfloat$(EXESUF)
gcov-files-check-qfloat-y = qobject/qfloat.c
check-unit-y += tests/check-qint$(EXESUF)
gcov-files-check-qint-y = qobject/qint.c
check-unit-y += tests/check-qstring$(EXESUF)
gcov-files-check-qstring-y = qobject/qstring.c
check-unit-y += tests/check-qlist$(EXESUF)
gcov-files-check-qlist-y = qobject/qlist.c
check-unit-y += tests/check-qnull$(EXESUF)
gcov-files-check-qnull-y = qobject/qnull.c
check-unit-y += tests/check-qjson$(EXESUF)
gcov-files-check-qjson-y = qobject/qjson.c
check-unit-y += tests/test-qmp-output-visitor$(EXESUF)
gcov-files-test-qmp-output-visitor-y = qapi/qmp-output-visitor.c
qapi: Add new clone visitor We have a couple places in the code base that want to deep-clone one QAPI object into another, and they were resorting to serializing the struct out to QObject then reparsing it. A much more efficient version can be done by adding a new clone visitor. Since cloning is still relatively uncommon, expose the use of the new visitor via a QAPI_CLONE() macro that takes care of type-punning the underlying function pointer, rather than generating lots of unused functions for types that won't be cloned. And yes, we're relying on the compiler treating all pointers equally, even though a strict C program cannot portably do so - but we're not the first one in the qemu code base to expect it to work (hello, glib!). The choice of adding a fourth visitor type deserves some explanation. On the surface, the clone visitor is mostly an input visitor (it takes arbitrary input - in this case, another QAPI object - and creates a new QAPI object during the course of the visit). But ever since commit da72ab0 consolidated enum visits based on the visitor type, using VISITOR_INPUT would cause us to run visit_type_str(), even though for cloning there is nothing to do (we just copy the enum value across, without regards to its mapping to strings). Also, since our input happens to be a QAPI object, we can also satisfy the internal checks for VISITOR_OUTPUT. So in the end, I settled with a new VISITOR_CLONE, and chose its value such that many internal checks can use 'v->type & mask', sticking to 'v->type == value' where the difference matters. Note that we can only clone objects (including alternates) and lists, not built-ins or enums. The visitor core hides integer width from the actual visitor (since commit 04e070d), and as long as that's the case, we can't clone top-level integers. Then again, those can always be cloned by direct copy, since they are not objects with deep pointers, so it's no real loss. And restricting cloning to just objects and lists is cleaner than restricting it to non-integers. As such, I documented that the clone visitor is for direct use only by code internal to QAPI, and should not be used on incomplete objects (other than a hack to work around the fact that we allow NULL in place of "" in visit_type_str() in other output visitors). Note that as written, the clone visitor will never fail on a complete object. Scalars (including enums) not at the root of the clone copy just fine with no additional effort while visiting the scalar, by virtue of a g_memdup() each time we push another struct onto the stack. Cloning a string requires deduplication of a pointer, which means it can also provide the guarantee of an input visitor of never producing NULL even when still accepting NULL in place of "" the way the QMP output visitor does. Cloning an 'any' type could be possible by incrementing the QObject refcnt, but it's not obvious whether that is better than implementing a QObject deep clone. So for now, we document it as unsupported, and intentionally omit the .type_any() callback to let a developer know their usage needs implementation. Add testsuite coverage for several different clone situations, to ensure that the code is working. I also tested that valgrind was happy with the test. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1465490926-28625-14-git-send-email-eblake@redhat.com> Reviewed-by: Markus Armbruster <armbru@redhat.com> Signed-off-by: Markus Armbruster <armbru@redhat.com>
2016-06-09 19:48:44 +03:00
check-unit-y += tests/test-clone-visitor$(EXESUF)
gcov-files-test-clone-visitor-y = qapi/qapi-clone-visitor.c
check-unit-y += tests/test-qmp-input-visitor$(EXESUF)
gcov-files-test-qmp-input-visitor-y = qapi/qmp-input-visitor.c
check-unit-y += tests/test-qmp-input-strict$(EXESUF)
check-unit-y += tests/test-qmp-commands$(EXESUF)
gcov-files-test-qmp-commands-y = qapi/qmp-dispatch.c
check-unit-y += tests/test-string-input-visitor$(EXESUF)
gcov-files-test-string-input-visitor-y = qapi/string-input-visitor.c
check-unit-y += tests/test-string-output-visitor$(EXESUF)
gcov-files-test-string-output-visitor-y = qapi/string-output-visitor.c
check-unit-y += tests/test-qmp-event$(EXESUF)
gcov-files-test-qmp-event-y += qapi/qmp-event.c
check-unit-y += tests/test-opts-visitor$(EXESUF)
gcov-files-test-opts-visitor-y = qapi/opts-visitor.c
check-unit-y += tests/test-coroutine$(EXESUF)
gcov-files-test-coroutine-y = coroutine-$(CONFIG_COROUTINE_BACKEND).c
check-unit-y += tests/test-visitor-serialization$(EXESUF)
check-unit-y += tests/test-iov$(EXESUF)
gcov-files-test-iov-y = util/iov.c
check-unit-y += tests/test-aio$(EXESUF)
check-unit-$(CONFIG_POSIX) += tests/test-rfifolock$(EXESUF)
check-unit-y += tests/test-throttle$(EXESUF)
gcov-files-test-aio-$(CONFIG_WIN32) = aio-win32.c
gcov-files-test-aio-$(CONFIG_POSIX) = aio-posix.c
check-unit-y += tests/test-thread-pool$(EXESUF)
gcov-files-test-thread-pool-y = thread-pool.c
add hierarchical bitmap data type and test cases HBitmaps provides an array of bits. The bits are stored as usual in an array of unsigned longs, but HBitmap is also optimized to provide fast iteration over set bits; going from one bit to the next is O(logB n) worst case, with B = sizeof(long) * CHAR_BIT: the result is low enough that the number of levels is in fact fixed. In order to do this, it stacks multiple bitmaps with progressively coarser granularity; in all levels except the last, bit N is set iff the N-th unsigned long is nonzero in the immediately next level. When iteration completes on the last level it can examine the 2nd-last level to quickly skip entire words, and even do so recursively to skip blocks of 64 words or powers thereof (32 on 32-bit machines). Given an index in the bitmap, it can be split in group of bits like this (for the 64-bit case): bits 0-57 => word in the last bitmap | bits 58-63 => bit in the word bits 0-51 => word in the 2nd-last bitmap | bits 52-57 => bit in the word bits 0-45 => word in the 3rd-last bitmap | bits 46-51 => bit in the word So it is easy to move up simply by shifting the index right by log2(BITS_PER_LONG) bits. To move down, you shift the index left similarly, and add the word index within the group. Iteration uses ffs (find first set bit) to find the next word to examine; this operation can be done in constant time in most current architectures. Setting or clearing a range of m bits on all levels, the work to perform is O(m + m/W + m/W^2 + ...), which is O(m) like on a regular bitmap. When iterating on a bitmap, each bit (on any level) is only visited once. Hence, The total cost of visiting a bitmap with m bits in it is the number of bits that are set in all bitmaps. Unless the bitmap is extremely sparse, this is also O(m + m/W + m/W^2 + ...), so the amortized cost of advancing from one bit to the next is usually constant. Reviewed-by: Laszlo Ersek <lersek@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
2013-01-21 20:09:40 +04:00
gcov-files-test-hbitmap-y = util/hbitmap.c
check-unit-y += tests/test-hbitmap$(EXESUF)
gcov-files-test-hbitmap-y = blockjob.c
check-unit-y += tests/test-blockjob$(EXESUF)
check-unit-y += tests/test-blockjob-txn$(EXESUF)
check-unit-y += tests/test-x86-cpuid$(EXESUF)
# all code tested by test-x86-cpuid is inside topology.h
gcov-files-test-x86-cpuid-y =
ifeq ($(CONFIG_SOFTMMU),y)
check-unit-y += tests/test-xbzrle$(EXESUF)
gcov-files-test-xbzrle-y = migration/xbzrle.c
check-unit-$(CONFIG_POSIX) += tests/test-vmstate$(EXESUF)
endif
check-unit-y += tests/test-cutils$(EXESUF)
gcov-files-test-cutils-y += util/cutils.c
check-unit-y += tests/test-mul64$(EXESUF)
gcov-files-test-mul64-y = util/host-utils.c
check-unit-y += tests/test-int128$(EXESUF)
# all code tested by test-int128 is inside int128.h
gcov-files-test-int128-y =
check-unit-y += tests/rcutorture$(EXESUF)
gcov-files-rcutorture-y = util/rcu.c
check-unit-y += tests/test-rcu-list$(EXESUF)
gcov-files-test-rcu-list-y = util/rcu.c
check-unit-y += tests/test-qdist$(EXESUF)
gcov-files-test-qdist-y = util/qdist.c
check-unit-y += tests/test-qht$(EXESUF)
gcov-files-test-qht-y = util/qht.c
check-unit-y += tests/test-qht-par$(EXESUF)
gcov-files-test-qht-par-y = util/qht.c
check-unit-y += tests/test-bitops$(EXESUF)
check-unit-$(CONFIG_HAS_GLIB_SUBPROCESS_TESTS) += tests/test-qdev-global-props$(EXESUF)
check-unit-y += tests/check-qom-interface$(EXESUF)
gcov-files-check-qom-interface-y = qom/object.c
check-unit-y += tests/check-qom-proplist$(EXESUF)
gcov-files-check-qom-proplist-y = qom/object.c
check-unit-y += tests/test-qemu-opts$(EXESUF)
gcov-files-test-qemu-opts-y = qom/test-qemu-opts.c
block: add event when disk usage exceeds threshold Managing applications, like oVirt (http://www.ovirt.org), make extensive use of thin-provisioned disk images. To let the guest run smoothly and be not unnecessarily paused, oVirt sets a disk usage threshold (so called 'high water mark') based on the occupation of the device, and automatically extends the image once the threshold is reached or exceeded. In order to detect the crossing of the threshold, oVirt has no choice but aggressively polling the QEMU monitor using the query-blockstats command. This lead to unnecessary system load, and is made even worse under scale: deployments with hundreds of VMs are no longer rare. To fix this, this patch adds: * A new monitor command `block-set-write-threshold', to set a mark for a given block device. * A new event `BLOCK_WRITE_THRESHOLD', to report if a block device usage exceeds the threshold. * A new `write_threshold' field into the `BlockDeviceInfo' structure, to report the configured threshold. This will allow the managing application to use smarter and more efficient monitoring, greatly reducing the need of polling. [Updated qemu-iotests 067 output to add the new 'write_threshold' property. --Stefan] [Changed g_assert_false() to !g_assert() to fix the build on older glib versions. --Kevin] Signed-off-by: Francesco Romani <fromani@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com> Message-id: 1421068273-692-1-git-send-email-fromani@redhat.com Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
2015-01-12 16:11:13 +03:00
check-unit-y += tests/test-write-threshold$(EXESUF)
gcov-files-test-write-threshold-y = block/write-threshold.c
check-unit-y += tests/test-crypto-hash$(EXESUF)
check-unit-y += tests/test-crypto-cipher$(EXESUF)
crypto: add QCryptoSecret object class for password/key handling Introduce a new QCryptoSecret object class which will be used for providing passwords and keys to other objects which need sensitive credentials. The new object can provide secret values directly as properties, or indirectly via a file. The latter includes support for file descriptor passing syntax on UNIX platforms. Ordinarily passing secret values directly as properties is insecure, since they are visible in process listings, or in log files showing the CLI args / QMP commands. It is possible to use AES-256-CBC to encrypt the secret values though, in which case all that is visible is the ciphertext. For ad hoc developer testing though, it is fine to provide the secrets directly without encryption so this is not explicitly forbidden. The anticipated scenario is that libvirtd will create a random master key per QEMU instance (eg /var/run/libvirt/qemu/$VMNAME.key) and will use that key to encrypt all passwords it provides to QEMU via '-object secret,....'. This avoids the need for libvirt (or other mgmt apps) to worry about file descriptor passing. It also makes life easier for people who are scripting the management of QEMU, for whom FD passing is significantly more complex. Providing data inline (insecure, only for ad hoc dev testing) $QEMU -object secret,id=sec0,data=letmein Providing data indirectly in raw format printf "letmein" > mypasswd.txt $QEMU -object secret,id=sec0,file=mypasswd.txt Providing data indirectly in base64 format $QEMU -object secret,id=sec0,file=mykey.b64,format=base64 Providing data with encryption $QEMU -object secret,id=master0,file=mykey.b64,format=base64 \ -object secret,id=sec0,data=[base64 ciphertext],\ keyid=master0,iv=[base64 IV],format=base64 Note that 'format' here refers to the format of the ciphertext data. The decrypted data must always be in raw byte format. More examples are shown in the updated docs. Reviewed-by: Eric Blake <eblake@redhat.com> Signed-off-by: Daniel P. Berrange <berrange@redhat.com>
2015-10-14 11:58:38 +03:00
check-unit-y += tests/test-crypto-secret$(EXESUF)
check-unit-$(CONFIG_GNUTLS) += tests/test-crypto-tlscredsx509$(EXESUF)
check-unit-$(CONFIG_GNUTLS) += tests/test-crypto-tlssession$(EXESUF)
ifneq (,$(findstring qemu-ga,$(TOOLS)))
check-unit-$(CONFIG_LINUX) += tests/test-qga$(EXESUF)
endif
check-unit-y += tests/test-timed-average$(EXESUF)
check-unit-y += tests/test-io-task$(EXESUF)
check-unit-y += tests/test-io-channel-socket$(EXESUF)
check-unit-y += tests/test-io-channel-file$(EXESUF)
check-unit-$(CONFIG_GNUTLS) += tests/test-io-channel-tls$(EXESUF)
check-unit-y += tests/test-io-channel-command$(EXESUF)
check-unit-y += tests/test-io-channel-buffer$(EXESUF)
check-unit-y += tests/test-base64$(EXESUF)
check-unit-$(if $(CONFIG_NETTLE_KDF),y,$(CONFIG_GCRYPT_KDF)) += tests/test-crypto-pbkdf$(EXESUF)
check-unit-y += tests/test-crypto-ivgen$(EXESUF)
check-unit-y += tests/test-crypto-afsplit$(EXESUF)
check-unit-y += tests/test-crypto-xts$(EXESUF)
check-unit-y += tests/test-crypto-block$(EXESUF)
gcov-files-test-logging-y = tests/test-logging.c
check-unit-y += tests/test-logging$(EXESUF)
check-unit-$(CONFIG_REPLICATION) += tests/test-replication$(EXESUF)
check-unit-y += tests/test-bufferiszero$(EXESUF)
gcov-files-check-bufferiszero-y = util/bufferiszero.c
check-block-$(CONFIG_POSIX) += tests/qemu-iotests-quick.sh
# All QTests for now are POSIX-only, but the dependencies are
# really in libqtest, not in the testcases themselves.
check-qtest-generic-y = tests/device-introspect-test$(EXESUF)
gcov-files-generic-y = qdev-monitor.c qmp.c
tests: Fix how qom-test is run We want to run qom-test for every architecture, without having to manually add it to every architecture's list of tests. Commit 3687d53 accomplished this by adding it to every architecture's list automatically. However, some architectures inherit their tests from others, like this: check-qtest-x86_64-y = $(check-qtest-i386-y) check-qtest-microblazeel-y = $(check-qtest-microblaze-y) check-qtest-xtensaeb-y = $(check-qtest-xtensa-y) For such architectures, we ended up running the (slow!) test twice. Commit 2b8419c attempted to avoid this by adding the test only when it's not already present. Works only as long as we consider adding the test to the architectures on the left hand side *after* the ones on the right hand side: x86_64 after i386, microblazeel after microblaze, xtensaeb after xtensa. Turns out we consider them in $(SYSEMU_TARGET_LIST) order. Defined as SYSEMU_TARGET_LIST := $(subst -softmmu.mak,,$(notdir \ $(wildcard $(SRC_PATH)/default-configs/*-softmmu.mak))) On my machine, this results in the oder xtensa, x86_64, microblazeel, microblaze, i386. Consequently, qom-test runs twice for microblazeel and x86_64. Replace this complex and flawed machinery with a much simpler one: add generic tests (currently just qom-test) to check-qtest-generic-y instead of check-qtest-$(target)-y for every target, then run $(check-qtest-generic-y) for every target. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Andreas Färber <afaerber@suse.de> Message-Id: <1443689999-12182-5-git-send-email-armbru@redhat.com>
2015-10-01 11:59:53 +03:00
gcov-files-ipack-y += hw/ipack/ipack.c
check-qtest-ipack-y += tests/ipoctal232-test$(EXESUF)
gcov-files-ipack-y += hw/char/ipoctal232.c
check-qtest-virtioserial-y += tests/virtio-console-test$(EXESUF)
gcov-files-virtioserial-y += hw/char/virtio-console.c
gcov-files-virtio-y += i386-softmmu/hw/virtio/virtio.c
check-qtest-virtio-y += tests/virtio-net-test$(EXESUF)
gcov-files-virtio-y += i386-softmmu/hw/net/virtio-net.c
check-qtest-virtio-y += tests/virtio-balloon-test$(EXESUF)
gcov-files-virtio-y += i386-softmmu/hw/virtio/virtio-balloon.c
check-qtest-virtio-y += tests/virtio-blk-test$(EXESUF)
gcov-files-virtio-y += i386-softmmu/hw/block/virtio-blk.c
check-qtest-virtio-y += tests/virtio-rng-test$(EXESUF)
gcov-files-virtio-y += hw/virtio/virtio-rng.c
check-qtest-virtio-y += tests/virtio-scsi-test$(EXESUF)
gcov-files-virtio-y += i386-softmmu/hw/scsi/virtio-scsi.c
ifeq ($(CONFIG_VIRTIO)$(CONFIG_VIRTFS)$(CONFIG_PCI),yyy)
check-qtest-virtio-y += tests/virtio-9p-test$(EXESUF)
gcov-files-virtio-y += hw/9pfs/virtio-9p.c
gcov-files-virtio-y += i386-softmmu/hw/9pfs/virtio-9p-device.c
endif
check-qtest-virtio-y += tests/virtio-serial-test$(EXESUF)
gcov-files-virtio-y += i386-softmmu/hw/char/virtio-serial-bus.c
check-qtest-virtio-y += $(check-qtest-virtioserial-y)
gcov-files-virtio-y += $(gcov-files-virtioserial-y)
check-qtest-pci-y += tests/e1000-test$(EXESUF)
gcov-files-pci-y += hw/net/e1000.c
check-qtest-pci-y += tests/e1000e-test$(EXESUF)
gcov-files-pci-y += hw/net/e1000e.c hw/net/e1000e_core.c
check-qtest-pci-y += tests/rtl8139-test$(EXESUF)
gcov-files-pci-y += hw/net/rtl8139.c
check-qtest-pci-y += tests/pcnet-test$(EXESUF)
gcov-files-pci-y += hw/net/pcnet.c
gcov-files-pci-y += hw/net/pcnet-pci.c
check-qtest-pci-y += tests/eepro100-test$(EXESUF)
gcov-files-pci-y += hw/net/eepro100.c
check-qtest-pci-y += tests/ne2000-test$(EXESUF)
gcov-files-pci-y += hw/net/ne2000.c
check-qtest-pci-y += tests/nvme-test$(EXESUF)
gcov-files-pci-y += hw/block/nvme.c
check-qtest-pci-y += tests/ac97-test$(EXESUF)
gcov-files-pci-y += hw/audio/ac97.c
check-qtest-pci-y += tests/es1370-test$(EXESUF)
gcov-files-pci-y += hw/audio/es1370.c
check-qtest-pci-y += $(check-qtest-virtio-y)
gcov-files-pci-y += $(gcov-files-virtio-y) hw/virtio/virtio-pci.c
check-qtest-pci-y += tests/tpci200-test$(EXESUF)
gcov-files-pci-y += hw/ipack/tpci200.c
check-qtest-pci-y += $(check-qtest-ipack-y)
gcov-files-pci-y += $(gcov-files-ipack-y)
check-qtest-pci-y += tests/display-vga-test$(EXESUF)
gcov-files-pci-y += hw/display/vga.c
gcov-files-pci-y += hw/display/cirrus_vga.c
gcov-files-pci-y += hw/display/vga-pci.c
gcov-files-pci-y += hw/display/virtio-gpu.c
gcov-files-pci-y += hw/display/virtio-gpu-pci.c
gcov-files-pci-$(CONFIG_VIRTIO_VGA) += hw/display/virtio-vga.c
check-qtest-pci-y += tests/intel-hda-test$(EXESUF)
gcov-files-pci-y += hw/audio/intel-hda.c hw/audio/hda-codec.c
check-qtest-pci-$(CONFIG_EVENTFD) += tests/ivshmem-test$(EXESUF)
gcov-files-pci-y += hw/misc/ivshmem.c
check-qtest-i386-y = tests/endianness-test$(EXESUF)
check-qtest-i386-y += tests/fdc-test$(EXESUF)
gcov-files-i386-y = hw/block/fdc.c
check-qtest-i386-y += tests/ide-test$(EXESUF)
check-qtest-i386-y += tests/ahci-test$(EXESUF)
check-qtest-i386-y += tests/hd-geo-test$(EXESUF)
gcov-files-i386-y += hw/block/hd-geometry.c
check-qtest-i386-y += tests/boot-order-test$(EXESUF)
check-qtest-i386-y += tests/bios-tables-test$(EXESUF)
check-qtest-i386-y += tests/boot-serial-test$(EXESUF)
check-qtest-i386-y += tests/pxe-test$(EXESUF)
check-qtest-i386-y += tests/rtc-test$(EXESUF)
check-qtest-i386-y += tests/ipmi-kcs-test$(EXESUF)
check-qtest-i386-y += tests/ipmi-bt-test$(EXESUF)
check-qtest-i386-y += tests/i440fx-test$(EXESUF)
check-qtest-i386-y += tests/fw_cfg-test$(EXESUF)
check-qtest-i386-y += tests/drive_del-test$(EXESUF)
check-qtest-i386-y += tests/wdt_ib700-test$(EXESUF)
check-qtest-i386-y += tests/tco-test$(EXESUF)
gcov-files-i386-y += hw/watchdog/watchdog.c hw/watchdog/wdt_ib700.c
check-qtest-i386-y += $(check-qtest-pci-y)
gcov-files-i386-y += $(gcov-files-pci-y)
check-qtest-i386-y += tests/vmxnet3-test$(EXESUF)
gcov-files-i386-y += hw/net/vmxnet3.c
gcov-files-i386-y += hw/net/net_rx_pkt.c
gcov-files-i386-y += hw/net/net_tx_pkt.c
check-qtest-i386-y += tests/pvpanic-test$(EXESUF)
gcov-files-i386-y += i386-softmmu/hw/misc/pvpanic.c
check-qtest-i386-y += tests/i82801b11-test$(EXESUF)
gcov-files-i386-y += hw/pci-bridge/i82801b11.c
check-qtest-i386-y += tests/ioh3420-test$(EXESUF)
gcov-files-i386-y += hw/pci-bridge/ioh3420.c
check-qtest-i386-y += tests/usb-hcd-ohci-test$(EXESUF)
gcov-files-i386-y += hw/usb/hcd-ohci.c
check-qtest-i386-y += tests/usb-hcd-uhci-test$(EXESUF)
gcov-files-i386-y += hw/usb/hcd-uhci.c
check-qtest-i386-y += tests/usb-hcd-ehci-test$(EXESUF)
gcov-files-i386-y += hw/usb/hcd-ehci.c
gcov-files-i386-y += hw/usb/dev-hid.c
gcov-files-i386-y += hw/usb/dev-storage.c
check-qtest-i386-y += tests/usb-hcd-xhci-test$(EXESUF)
gcov-files-i386-y += hw/usb/hcd-xhci.c
check-qtest-i386-y += tests/pc-cpu-test$(EXESUF)
check-qtest-i386-y += tests/q35-test$(EXESUF)
gcov-files-i386-y += hw/pci-host/q35.c
check-qtest-i386-$(CONFIG_VHOST_NET_TEST_i386) += tests/vhost-user-test$(EXESUF)
ifeq ($(CONFIG_VHOST_NET_TEST_i386),)
check-qtest-x86_64-$(CONFIG_VHOST_NET_TEST_x86_64) += tests/vhost-user-test$(EXESUF)
endif
check-qtest-i386-y += tests/test-netfilter$(EXESUF)
check-qtest-i386-y += tests/test-filter-mirror$(EXESUF)
tests/test-filter-redirector: Add unit test for filter-redirector In this unit test,we will test the filter redirector function. Case 1, tx traffic flow: qemu side | test side | +---------+ | +-------+ | backend <---------------+ sock0 | +----+----+ | +-------+ | | +----v----+ +-------+ | | rd0 +->+chardev| | +---------+ +---+---+ | | | +---------+ | | | rd1 <------+ | +----+----+ | | | +----v----+ | +-------+ | rd2 +--------------->sock1 | +---------+ | +-------+ + a. we(sock0) inject packet to qemu socket backend b. backend pass packet to filter redirector0(rd0) c. rd0 redirect packet to out_dev(chardev) which is connected with filter redirector1's(rd1) in_dev d. rd1 read this packet from in_dev, and pass to next filter redirector2(rd2) e. rd2 redirect packet to rd2's out_dev which is connected with an opened socketed(sock1) f. we read packet from sock1 and compare to what we inject Start qemu with: "-netdev socket,id=qtest-bn0,fd=%d " "-device rtl8139,netdev=qtest-bn0,id=qtest-e0 " "-chardev socket,id=redirector0,path=%s,server,nowait " "-chardev socket,id=redirector1,path=%s,server,nowait " "-chardev socket,id=redirector2,path=%s,nowait " "-object filter-redirector,id=qtest-f0,netdev=qtest-bn0," "queue=tx,outdev=redirector0 " "-object filter-redirector,id=qtest-f1,netdev=qtest-bn0," "queue=tx,indev=redirector2 " "-object filter-redirector,id=qtest-f2,netdev=qtest-bn0," "queue=tx,outdev=redirector1 " -------------------------------------- Case 2, rx traffic flow qemu side | test side | +---------+ | +-------+ | backend +---------------> sock1 | +----^----+ | +-------+ | | +----+----+ +-------+ | | rd0 +<-+chardev| | +---------+ +---+---+ | ^ | +---------+ | | | rd1 +------+ | +----^----+ | | | +----+----+ | +-------+ | rd2 <---------------+sock0 | +---------+ | +-------+ a. we(sock0) insert packet to filter redirector2(rd2) b. rd2 pass packet to filter redirector1(rd1) c. rd1 redirect packet to out_dev(chardev) which is connected with filter redirector0's(rd0) in_dev d. rd0 read this packet from in_dev, and pass ti to qemu backend which is connected with an opened socketed(sock1) e. we read packet from sock1 and compare to what we inject Start qemu with: "-netdev socket,id=qtest-bn0,fd=%d " "-device rtl8139,netdev=qtest-bn0,id=qtest-e0 " "-chardev socket,id=redirector0,path=%s,server,nowait " "-chardev socket,id=redirector1,path=%s,server,nowait " "-chardev socket,id=redirector2,path=%s,nowait " "-object filter-redirector,id=qtest-f0,netdev=qtest-bn0," "queue=rx,outdev=redirector0 " "-object filter-redirector,id=qtest-f1,netdev=qtest-bn0," "queue=rx,indev=redirector2 " "-object filter-redirector,id=qtest-f2,netdev=qtest-bn0," "queue=rx,outdev=redirector1 " Signed-off-by: Zhang Chen <zhangchen.fnst@cn.fujitsu.com> Signed-off-by: Wen Congyang <wency@cn.fujitsu.com> Signed-off-by: Li Zhijian <lizhijian@cn.fujitsu.com> Signed-off-by: Jason Wang <jasowang@redhat.com>
2016-03-17 11:16:27 +03:00
check-qtest-i386-y += tests/test-filter-redirector$(EXESUF)
test: Postcopy This is a postcopy test (x86 only) that actually runs the guest and checks the memory contents. The test runs from an x86 boot block with the hex embedded in the test; the source for this is: ........... .code16 .org 0x7c00 .file "fill.s" .text .globl start .type start, @function start: # at 0x7c00 ? cli lgdt gdtdesc mov $1,%eax mov %eax,%cr0 # Protected mode enable data32 ljmp $8,$0x7c20 .org 0x7c20 .code32 # A20 enable - not sure I actually need this inb $0x92,%al or $2,%al outb %al, $0x92 # set up DS for the whole of RAM (needed on KVM) mov $16,%eax mov %eax,%ds mov $65,%ax mov $0x3f8,%dx outb %al,%dx # bl keeps a counter so we limit the output speed mov $0, %bl mainloop: # Start from 1MB mov $(1024*1024),%eax innerloop: incb (%eax) add $4096,%eax cmp $(100*1024*1024),%eax jl innerloop inc %bl jnz mainloop mov $66,%ax mov $0x3f8,%dx outb %al,%dx jmp mainloop # GDT magic from old (GPLv2) Grub startup.S .p2align 2 /* force 4-byte alignment */ gdt: .word 0, 0 .byte 0, 0, 0, 0 /* -- code segment -- * base = 0x00000000, limit = 0xFFFFF (4 KiB Granularity), present * type = 32bit code execute/read, DPL = 0 */ .word 0xFFFF, 0 .byte 0, 0x9A, 0xCF, 0 /* -- data segment -- * base = 0x00000000, limit 0xFFFFF (4 KiB Granularity), present * type = 32 bit data read/write, DPL = 0 */ .word 0xFFFF, 0 .byte 0, 0x92, 0xCF, 0 gdtdesc: .word 0x27 /* limit */ .long gdt /* addr */ /* I'm a bootable disk */ .org 0x7dfe .byte 0x55 .byte 0xAA ........... and that can be assembled by the following magic: as --32 -march=i486 fill.s -o fill.o objcopy -O binary fill.o fill.boot dd if=fill.boot of=bootsect bs=256 count=2 skip=124 xxd -i bootsect Signed-off-by: Dr. David Alan Gilbert <dgilbert@redhat.com> Reviewed-by: Marcel Apfelbaum <marcel@redhat.com> Message-id: 1465816605-29488-5-git-send-email-dgilbert@redhat.com Message-Id: <1465816605-29488-5-git-send-email-dgilbert@redhat.com> Signed-off-by: Amit Shah <amit.shah@redhat.com>
2016-06-13 14:16:43 +03:00
check-qtest-i386-y += tests/postcopy-test$(EXESUF)
check-qtest-x86_64-y += $(check-qtest-i386-y)
gcov-files-i386-y += i386-softmmu/hw/timer/mc146818rtc.c
gcov-files-x86_64-y = $(subst i386-softmmu/,x86_64-softmmu/,$(gcov-files-i386-y))
check-qtest-alpha-y = tests/boot-serial-test$(EXESUF)
check-qtest-mips-y = tests/endianness-test$(EXESUF)
check-qtest-mips64-y = tests/endianness-test$(EXESUF)
check-qtest-mips64el-y = tests/endianness-test$(EXESUF)
check-qtest-ppc-y = tests/endianness-test$(EXESUF)
check-qtest-ppc-y += tests/boot-order-test$(EXESUF)
check-qtest-ppc-y += tests/prom-env-test$(EXESUF)
check-qtest-ppc-y += tests/drive_del-test$(EXESUF)
check-qtest-ppc-y += tests/boot-serial-test$(EXESUF)
check-qtest-ppc64-y = tests/spapr-phb-test$(EXESUF)
gcov-files-ppc64-y = ppc64-softmmu/hw/ppc/spapr_pci.c
check-qtest-ppc64-y += tests/endianness-test$(EXESUF)
check-qtest-ppc64-y += tests/boot-order-test$(EXESUF)
check-qtest-ppc64-y += tests/prom-env-test$(EXESUF)
check-qtest-ppc64-y += tests/drive_del-test$(EXESUF)
check-qtest-ppc64-y += tests/postcopy-test$(EXESUF)
check-qtest-ppc64-y += tests/boot-serial-test$(EXESUF)
check-qtest-sh4-y = tests/endianness-test$(EXESUF)
check-qtest-sh4eb-y = tests/endianness-test$(EXESUF)
check-qtest-sparc-y = tests/prom-env-test$(EXESUF)
#check-qtest-sparc-y += tests/m48t59-test$(EXESUF)
#gcov-files-sparc-y = hw/timer/m48t59.c
check-qtest-sparc64-y = tests/endianness-test$(EXESUF)
#check-qtest-sparc64-y += tests/m48t59-test$(EXESUF)
#gcov-files-sparc64-y += hw/timer/m48t59.c
#Disabled for now, triggers a TCG bug on 32-bit hosts
#check-qtest-sparc64-y += tests/prom-env-test$(EXESUF)
check-qtest-arm-y = tests/tmp105-test$(EXESUF)
check-qtest-arm-y += tests/ds1338-test$(EXESUF)
gcov-files-arm-y += hw/misc/tmp105.c
check-qtest-arm-y += tests/virtio-blk-test$(EXESUF)
gcov-files-arm-y += arm-softmmu/hw/block/virtio-blk.c
check-qtest-microblazeel-y = $(check-qtest-microblaze-y)
check-qtest-xtensaeb-y = $(check-qtest-xtensa-y)
check-qtest-s390x-y = tests/boot-serial-test$(EXESUF)
tests: Fix how qom-test is run We want to run qom-test for every architecture, without having to manually add it to every architecture's list of tests. Commit 3687d53 accomplished this by adding it to every architecture's list automatically. However, some architectures inherit their tests from others, like this: check-qtest-x86_64-y = $(check-qtest-i386-y) check-qtest-microblazeel-y = $(check-qtest-microblaze-y) check-qtest-xtensaeb-y = $(check-qtest-xtensa-y) For such architectures, we ended up running the (slow!) test twice. Commit 2b8419c attempted to avoid this by adding the test only when it's not already present. Works only as long as we consider adding the test to the architectures on the left hand side *after* the ones on the right hand side: x86_64 after i386, microblazeel after microblaze, xtensaeb after xtensa. Turns out we consider them in $(SYSEMU_TARGET_LIST) order. Defined as SYSEMU_TARGET_LIST := $(subst -softmmu.mak,,$(notdir \ $(wildcard $(SRC_PATH)/default-configs/*-softmmu.mak))) On my machine, this results in the oder xtensa, x86_64, microblazeel, microblaze, i386. Consequently, qom-test runs twice for microblazeel and x86_64. Replace this complex and flawed machinery with a much simpler one: add generic tests (currently just qom-test) to check-qtest-generic-y instead of check-qtest-$(target)-y for every target, then run $(check-qtest-generic-y) for every target. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Andreas Färber <afaerber@suse.de> Message-Id: <1443689999-12182-5-git-send-email-armbru@redhat.com>
2015-10-01 11:59:53 +03:00
check-qtest-generic-y += tests/qom-test$(EXESUF)
qapi-schema += alternate-any.json
qapi-schema += alternate-array.json
qapi-schema += alternate-base.json
qapi-schema += alternate-clash.json
qapi-schema += alternate-conflict-dict.json
qapi-schema += alternate-conflict-string.json
qapi-schema += alternate-empty.json
qapi-schema += alternate-nested.json
qapi-schema += alternate-unknown.json
qapi-schema += args-alternate.json
qapi-schema += args-any.json
qapi-schema += args-array-empty.json
qapi-schema += args-array-unknown.json
qapi: Implement boxed types for commands/events Turn on the ability to pass command and event arguments in a single boxed parameter, which must name a non-empty type (although the type can be a struct with all optional members). For structs, it makes it possible to pass a single qapi type instead of a breakout of all struct members (useful if the arguments are already in a struct or if the number of members is large); for other complex types, it is now possible to use a union or alternate as the data for a command or event. The empty type may be technically feasible if needed down the road, but it's easier to forbid it now and relax things to allow it later, than it is to allow it now and have to special case how the generated 'q_empty' type is handled (see commit 7ce106a9 for reasons why nothing is generated for the empty type). An alternate type is never considered empty, but now that a boxed type can be either an object or an alternate, we have to provide a trivial QAPISchemaAlternateType.is_empty(). The new call to arg_type.is_empty() during QAPISchemaCommand.check() requires that we first check the type in question; but there is no chance of introducing a cycle since objects do not refer back to commands. We still have a split in syntax checking between ad-hoc parsing up front (merely validates that 'boxed' has a sane value) and during .check() methods (if 'boxed' is set, then 'data' must name a non-empty user-defined type). Generated code is unchanged, as long as no client uses the new feature. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1468468228-27827-10-git-send-email-eblake@redhat.com> Reviewed-by: Markus Armbruster <armbru@redhat.com> [Test files renamed to *-boxed-*] Signed-off-by: Markus Armbruster <armbru@redhat.com>
2016-07-14 06:50:20 +03:00
qapi-schema += args-bad-boxed.json
qapi-schema += args-boxed-anon.json
qapi-schema += args-boxed-empty.json
qapi-schema += args-boxed-string.json
qapi-schema += args-int.json
qapi-schema += args-invalid.json
qapi-schema += args-member-array-bad.json
qapi-schema += args-member-case.json
qapi-schema += args-member-unknown.json
qapi: Test for various name collisions Expose some weaknesses in the generator: we don't always forbid the generation of structs that contain multiple members that map to the same C or QMP name. This has already been marked FIXME in qapi.py in commit d90675f, but having more tests will make sure future patches produce desired behavior; and updating existing patches to better document things doesn't hurt, either. Some of these collisions are already caught in the old-style parser checks, but ultimately we want all collisions to be caught in the new-style QAPISchema*.check() methods. This patch focuses on C struct members, and does not consider collisions between commands and events (affecting C function names), or even collisions between generated C type names with user type names (for things like automatic FOOList struct representing array types or FOOKind for an implicit enum). There are two types of struct collisions we want to catch: 1) Collision between two keys in a JSON object. qapi.py prevents that within a single struct (see test duplicate-key), but it is possible to have collisions between a type's members and its base type's members (existing tests struct-base-clash, struct-base-clash-deep), and its flat union variant members (renamed test flat-union-clash-member). 2) Collision between two members of the C struct that is generated for a given QAPI type: a) Multiple QAPI names map to the same C name (new test args-name-clash) b) A QAPI name maps to a C name that is used for another purpose (new tests flat-union-clash-branch, struct-base-clash-base, union-clash-data). We already fixed some such cases in commit 0f61af3e and 1e6c1616, but more remain. c) Two C names generated for other purposes clash (updated test alternate-clash, new test union-clash-branches, union-clash-type, flat-union-clash-type) Ultimately, if we need to have a flat union where a tag value clashes with a base member name, we could change the generator to name the union (using 'foo.u.value' rather than 'foo.value') or otherwise munge the C name corresponding to tag values. But unless such a need arises, it will probably be easier to just forbid these collisions. Some of these negative tests will be deleted later, and positive tests added to qapi-schema-test.json in their place, when the generator code is reworked to avoid particular code generation collisions in class 2). [Note that viewing this patch with git rename detection enabled may see some confusion due to renaming some tests while adding others, but where the content is similar enough that git picks the wrong pre- and post-patch files to associate] Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1443565276-4535-6-git-send-email-eblake@redhat.com> [Improve commit message and comments a bit, drop an unrelated test] Signed-off-by: Markus Armbruster <armbru@redhat.com>
2015-09-30 01:21:03 +03:00
qapi-schema += args-name-clash.json
qapi-schema += args-union.json
qapi-schema += args-unknown.json
qapi-schema += bad-base.json
qapi-schema += bad-data.json
qapi-schema += bad-ident.json
qapi-schema += bad-type-bool.json
qapi-schema += bad-type-dict.json
qapi-schema += bad-type-int.json
qapi: Detect base class loops It should be fairly obvious that qapi base classes need to form an acyclic graph, since QMP cannot specify the same key more than once, while base classes are included as flat members alongside other members added by the child. But the old check_member_clash() parser function was not prepared to check for this, and entered an infinite recursion (at least until Python gives up, complaining about nesting too deep). Now that check_member_clash() has been recently removed, attempts at self-inheritance trigger an assertion failure introduced by commit ac88219a. The obvious fix is to turn the assertion into a conditional. This patch includes both the tests (base-cycle-direct and base-cycle-indirect) and the fix, since the .err file output for the unfixed case is not useful (particularly when it was warning about unbounded recursion, as that limit may be platform-specific). We don't need to worry about cycles in flat unions (neither the base type nor the type of a variant can be a union) nor in alternates (alternate branches cannot themselves be an alternate). But if we later allow a union type as a variant, we will still be okay, as QAPISchemaObjectTypeVariants.check() triggers the same QAPISchemaObjectType.check() that will detect any loops. Likewise, we need not worry about the case of diamond inheritance where the same class is used for a flat union base class and one of its variants; either both uses will introduce a collision in trying to insert the same member name twice, or the shared type is empty and changes nothing. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1449033659-25497-16-git-send-email-eblake@redhat.com> Signed-off-by: Markus Armbruster <armbru@redhat.com>
2015-12-02 08:20:59 +03:00
qapi-schema += base-cycle-direct.json
qapi-schema += base-cycle-indirect.json
qapi-schema += command-int.json
qapi-schema += comments.json
qapi-schema += double-data.json
qapi-schema += double-type.json
qapi-schema += duplicate-key.json
qapi-schema += empty.json
qapi-schema += enum-bad-name.json
qapi-schema += enum-bad-prefix.json
qapi-schema += enum-clash-member.json
qapi-schema += enum-dict-member.json
qapi-schema += enum-int-member.json
qapi-schema += enum-member-case.json
qapi-schema += enum-missing-data.json
qapi-schema += enum-wrong-data.json
qapi-schema += escape-outside-string.json
qapi-schema += escape-too-big.json
qapi-schema += escape-too-short.json
qapi: Implement boxed types for commands/events Turn on the ability to pass command and event arguments in a single boxed parameter, which must name a non-empty type (although the type can be a struct with all optional members). For structs, it makes it possible to pass a single qapi type instead of a breakout of all struct members (useful if the arguments are already in a struct or if the number of members is large); for other complex types, it is now possible to use a union or alternate as the data for a command or event. The empty type may be technically feasible if needed down the road, but it's easier to forbid it now and relax things to allow it later, than it is to allow it now and have to special case how the generated 'q_empty' type is handled (see commit 7ce106a9 for reasons why nothing is generated for the empty type). An alternate type is never considered empty, but now that a boxed type can be either an object or an alternate, we have to provide a trivial QAPISchemaAlternateType.is_empty(). The new call to arg_type.is_empty() during QAPISchemaCommand.check() requires that we first check the type in question; but there is no chance of introducing a cycle since objects do not refer back to commands. We still have a split in syntax checking between ad-hoc parsing up front (merely validates that 'boxed' has a sane value) and during .check() methods (if 'boxed' is set, then 'data' must name a non-empty user-defined type). Generated code is unchanged, as long as no client uses the new feature. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1468468228-27827-10-git-send-email-eblake@redhat.com> Reviewed-by: Markus Armbruster <armbru@redhat.com> [Test files renamed to *-boxed-*] Signed-off-by: Markus Armbruster <armbru@redhat.com>
2016-07-14 06:50:20 +03:00
qapi-schema += event-boxed-empty.json
qapi-schema += event-case.json
qapi-schema += event-nest-struct.json
qapi-schema += flat-union-array-branch.json
qapi-schema += flat-union-bad-base.json
qapi-schema += flat-union-bad-discriminator.json
qapi-schema += flat-union-base-any.json
qapi-schema += flat-union-base-union.json
qapi: Test for various name collisions Expose some weaknesses in the generator: we don't always forbid the generation of structs that contain multiple members that map to the same C or QMP name. This has already been marked FIXME in qapi.py in commit d90675f, but having more tests will make sure future patches produce desired behavior; and updating existing patches to better document things doesn't hurt, either. Some of these collisions are already caught in the old-style parser checks, but ultimately we want all collisions to be caught in the new-style QAPISchema*.check() methods. This patch focuses on C struct members, and does not consider collisions between commands and events (affecting C function names), or even collisions between generated C type names with user type names (for things like automatic FOOList struct representing array types or FOOKind for an implicit enum). There are two types of struct collisions we want to catch: 1) Collision between two keys in a JSON object. qapi.py prevents that within a single struct (see test duplicate-key), but it is possible to have collisions between a type's members and its base type's members (existing tests struct-base-clash, struct-base-clash-deep), and its flat union variant members (renamed test flat-union-clash-member). 2) Collision between two members of the C struct that is generated for a given QAPI type: a) Multiple QAPI names map to the same C name (new test args-name-clash) b) A QAPI name maps to a C name that is used for another purpose (new tests flat-union-clash-branch, struct-base-clash-base, union-clash-data). We already fixed some such cases in commit 0f61af3e and 1e6c1616, but more remain. c) Two C names generated for other purposes clash (updated test alternate-clash, new test union-clash-branches, union-clash-type, flat-union-clash-type) Ultimately, if we need to have a flat union where a tag value clashes with a base member name, we could change the generator to name the union (using 'foo.u.value' rather than 'foo.value') or otherwise munge the C name corresponding to tag values. But unless such a need arises, it will probably be easier to just forbid these collisions. Some of these negative tests will be deleted later, and positive tests added to qapi-schema-test.json in their place, when the generator code is reworked to avoid particular code generation collisions in class 2). [Note that viewing this patch with git rename detection enabled may see some confusion due to renaming some tests while adding others, but where the content is similar enough that git picks the wrong pre- and post-patch files to associate] Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1443565276-4535-6-git-send-email-eblake@redhat.com> [Improve commit message and comments a bit, drop an unrelated test] Signed-off-by: Markus Armbruster <armbru@redhat.com>
2015-09-30 01:21:03 +03:00
qapi-schema += flat-union-clash-member.json
qapi-schema += flat-union-empty.json
qapi-schema += flat-union-incomplete-branch.json
qapi-schema += flat-union-inline.json
qapi-schema += flat-union-int-branch.json
qapi-schema += flat-union-invalid-branch-key.json
qapi-schema += flat-union-invalid-discriminator.json
qapi-schema += flat-union-no-base.json
qapi-schema += flat-union-optional-discriminator.json
qapi-schema += flat-union-string-discriminator.json
qapi-schema += funny-char.json
qapi-schema += ident-with-escape.json
qapi-schema += include-before-err.json
qapi-schema += include-cycle.json
qapi-schema += include-format-err.json
qapi-schema += include-nested-err.json
qapi-schema += include-no-file.json
qapi-schema += include-non-file.json
qapi-schema += include-relpath.json
qapi-schema += include-repetition.json
qapi-schema += include-self-cycle.json
qapi-schema += include-simple.json
qapi-schema += indented-expr.json
qapi-schema += leading-comma-list.json
qapi-schema += leading-comma-object.json
qapi-schema += missing-colon.json
qapi-schema += missing-comma-list.json
qapi-schema += missing-comma-object.json
qapi-schema += missing-type.json
qapi-schema += nested-struct-data.json
qapi-schema += non-objects.json
qapi-schema += qapi-schema-test.json
qapi-schema += quoted-structural-chars.json
qapi-schema += redefined-builtin.json
qapi-schema += redefined-command.json
qapi-schema += redefined-event.json
qapi-schema += redefined-type.json
tests/qapi-schema: Test for reserved names, empty struct Add some testsuite coverage to ensure future patches are on the right track: Our current C representation of qapi arrays is done by appending 'List' to the element name; but we are not preventing the creation of an object type with the same name. Add reserved-type-list.json to test this. Then rename enum-union-clash.json to reserved-type-kind.json to cover the reservation that we DO detect, and shorten it to match the fact that the name is reserved even if there is no clash. We are failing to detect a collision between a dictionary member and the implicit 'has_*' flag for another optional member. The easiest fix would be for a future patch to reserve the entire "has[-_]" namespace for member names (the collision is also possible for branch names within flat unions, but only as long as branch names can collide with (non-variant) members; however, since future patches are about to remove that, it is not worth testing here). Add reserved-member-has.json to test this. A similar collision exists between a dictionary member where c_name() munges what might otherwise be a reserved name to start with 'q_', and another member explicitly starts with "q[-_]". Again, the easiest solution for a future patch will be reserving the entire namespace, but here for commands as well as members. Add reserved-member-q.json and reserved-command-q.json to test this; separate tests since arguably our munging of command 'unix' to 'qmp_q_unix()' could be done without a q_, which is different than the munging of a member 'unix' to 'foo.q_unix'. Finally, our testsuite does not have any compilation coverage of struct inheritance with empty qapi structs. Update qapi-schema-test.json to test this. Note that there is currently no technical reason to forbid type name patterns from member names, or member name patterns from types, since the two are not in the same namespace in C and won't collide; but it's not worth adding positive tests of these corner cases at this time, especially while there is other churn pending in patches that rearrange which collisions actually happen. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1445898903-12082-2-git-send-email-eblake@redhat.com> [Commit message tweaked slightly] Signed-off-by: Markus Armbruster <armbru@redhat.com>
2015-10-27 01:34:40 +03:00
qapi-schema += reserved-command-q.json
qapi-schema += reserved-enum-q.json
tests/qapi-schema: Test for reserved names, empty struct Add some testsuite coverage to ensure future patches are on the right track: Our current C representation of qapi arrays is done by appending 'List' to the element name; but we are not preventing the creation of an object type with the same name. Add reserved-type-list.json to test this. Then rename enum-union-clash.json to reserved-type-kind.json to cover the reservation that we DO detect, and shorten it to match the fact that the name is reserved even if there is no clash. We are failing to detect a collision between a dictionary member and the implicit 'has_*' flag for another optional member. The easiest fix would be for a future patch to reserve the entire "has[-_]" namespace for member names (the collision is also possible for branch names within flat unions, but only as long as branch names can collide with (non-variant) members; however, since future patches are about to remove that, it is not worth testing here). Add reserved-member-has.json to test this. A similar collision exists between a dictionary member where c_name() munges what might otherwise be a reserved name to start with 'q_', and another member explicitly starts with "q[-_]". Again, the easiest solution for a future patch will be reserving the entire namespace, but here for commands as well as members. Add reserved-member-q.json and reserved-command-q.json to test this; separate tests since arguably our munging of command 'unix' to 'qmp_q_unix()' could be done without a q_, which is different than the munging of a member 'unix' to 'foo.q_unix'. Finally, our testsuite does not have any compilation coverage of struct inheritance with empty qapi structs. Update qapi-schema-test.json to test this. Note that there is currently no technical reason to forbid type name patterns from member names, or member name patterns from types, since the two are not in the same namespace in C and won't collide; but it's not worth adding positive tests of these corner cases at this time, especially while there is other churn pending in patches that rearrange which collisions actually happen. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1445898903-12082-2-git-send-email-eblake@redhat.com> [Commit message tweaked slightly] Signed-off-by: Markus Armbruster <armbru@redhat.com>
2015-10-27 01:34:40 +03:00
qapi-schema += reserved-member-has.json
qapi-schema += reserved-member-q.json
qapi-schema += reserved-member-u.json
qapi-schema += reserved-member-underscore.json
tests/qapi-schema: Test for reserved names, empty struct Add some testsuite coverage to ensure future patches are on the right track: Our current C representation of qapi arrays is done by appending 'List' to the element name; but we are not preventing the creation of an object type with the same name. Add reserved-type-list.json to test this. Then rename enum-union-clash.json to reserved-type-kind.json to cover the reservation that we DO detect, and shorten it to match the fact that the name is reserved even if there is no clash. We are failing to detect a collision between a dictionary member and the implicit 'has_*' flag for another optional member. The easiest fix would be for a future patch to reserve the entire "has[-_]" namespace for member names (the collision is also possible for branch names within flat unions, but only as long as branch names can collide with (non-variant) members; however, since future patches are about to remove that, it is not worth testing here). Add reserved-member-has.json to test this. A similar collision exists between a dictionary member where c_name() munges what might otherwise be a reserved name to start with 'q_', and another member explicitly starts with "q[-_]". Again, the easiest solution for a future patch will be reserving the entire namespace, but here for commands as well as members. Add reserved-member-q.json and reserved-command-q.json to test this; separate tests since arguably our munging of command 'unix' to 'qmp_q_unix()' could be done without a q_, which is different than the munging of a member 'unix' to 'foo.q_unix'. Finally, our testsuite does not have any compilation coverage of struct inheritance with empty qapi structs. Update qapi-schema-test.json to test this. Note that there is currently no technical reason to forbid type name patterns from member names, or member name patterns from types, since the two are not in the same namespace in C and won't collide; but it's not worth adding positive tests of these corner cases at this time, especially while there is other churn pending in patches that rearrange which collisions actually happen. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1445898903-12082-2-git-send-email-eblake@redhat.com> [Commit message tweaked slightly] Signed-off-by: Markus Armbruster <armbru@redhat.com>
2015-10-27 01:34:40 +03:00
qapi-schema += reserved-type-kind.json
qapi-schema += reserved-type-list.json
qapi-schema += returns-alternate.json
qapi-schema += returns-array-bad.json
qapi-schema += returns-dict.json
qapi-schema += returns-unknown.json
qapi-schema += returns-whitelist.json
qapi-schema += struct-base-clash-deep.json
qapi-schema += struct-base-clash.json
qapi-schema += struct-data-invalid.json
qapi-schema += struct-member-invalid.json
qapi-schema += trailing-comma-list.json
qapi-schema += trailing-comma-object.json
qapi-schema += type-bypass-bad-gen.json
qapi-schema += unclosed-list.json
qapi-schema += unclosed-object.json
qapi-schema += unclosed-string.json
qapi-schema += unicode-str.json
qapi-schema += union-base-no-discriminator.json
qapi-schema += union-branch-case.json
qapi: Test for various name collisions Expose some weaknesses in the generator: we don't always forbid the generation of structs that contain multiple members that map to the same C or QMP name. This has already been marked FIXME in qapi.py in commit d90675f, but having more tests will make sure future patches produce desired behavior; and updating existing patches to better document things doesn't hurt, either. Some of these collisions are already caught in the old-style parser checks, but ultimately we want all collisions to be caught in the new-style QAPISchema*.check() methods. This patch focuses on C struct members, and does not consider collisions between commands and events (affecting C function names), or even collisions between generated C type names with user type names (for things like automatic FOOList struct representing array types or FOOKind for an implicit enum). There are two types of struct collisions we want to catch: 1) Collision between two keys in a JSON object. qapi.py prevents that within a single struct (see test duplicate-key), but it is possible to have collisions between a type's members and its base type's members (existing tests struct-base-clash, struct-base-clash-deep), and its flat union variant members (renamed test flat-union-clash-member). 2) Collision between two members of the C struct that is generated for a given QAPI type: a) Multiple QAPI names map to the same C name (new test args-name-clash) b) A QAPI name maps to a C name that is used for another purpose (new tests flat-union-clash-branch, struct-base-clash-base, union-clash-data). We already fixed some such cases in commit 0f61af3e and 1e6c1616, but more remain. c) Two C names generated for other purposes clash (updated test alternate-clash, new test union-clash-branches, union-clash-type, flat-union-clash-type) Ultimately, if we need to have a flat union where a tag value clashes with a base member name, we could change the generator to name the union (using 'foo.u.value' rather than 'foo.value') or otherwise munge the C name corresponding to tag values. But unless such a need arises, it will probably be easier to just forbid these collisions. Some of these negative tests will be deleted later, and positive tests added to qapi-schema-test.json in their place, when the generator code is reworked to avoid particular code generation collisions in class 2). [Note that viewing this patch with git rename detection enabled may see some confusion due to renaming some tests while adding others, but where the content is similar enough that git picks the wrong pre- and post-patch files to associate] Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1443565276-4535-6-git-send-email-eblake@redhat.com> [Improve commit message and comments a bit, drop an unrelated test] Signed-off-by: Markus Armbruster <armbru@redhat.com>
2015-09-30 01:21:03 +03:00
qapi-schema += union-clash-branches.json
qapi-schema += union-empty.json
qapi-schema += union-invalid-base.json
qapi-schema += union-optional-branch.json
qapi-schema += union-unknown.json
qapi-schema += unknown-escape.json
qapi-schema += unknown-expr-key.json
check-qapi-schema-y := $(addprefix tests/qapi-schema/, $(qapi-schema))
GENERATED_HEADERS += tests/test-qapi-types.h tests/test-qapi-visit.h \
qapi: New QMP command query-qmp-schema for QMP introspection qapi/introspect.json defines the introspection schema. It's designed for QMP introspection, but should do for similar uses, such as QGA. The introspection schema does not reflect all the rules and restrictions that apply to QAPI schemata. A valid QAPI schema has an introspection value conforming to the introspection schema, but the converse is not true. Introspection lowers away a number of schema details, and makes implicit things explicit: * The built-in types are declared with their JSON type. All integer types are mapped to 'int', because how many bits we use internally is an implementation detail. It could be pressed into external interface service as very approximate range information, but that's a bad idea. If we need range information, we better do it properly. * Implicit type definitions are made explicit, and given auto-generated names: - Array types, named by appending "List" to the name of their element type, like in generated C. - The enumeration types implicitly defined by simple union types, named by appending "Kind" to the name of their simple union type, like in generated C. - Types that don't occur in generated C. Their names start with ':' so they don't clash with the user's names. * All type references are by name. * The struct and union types are generalized into an object type. * Base types are flattened. * Commands take a single argument and return a single result. Dictionary argument or list result is an implicit type definition. The empty object type is used when a command takes no arguments or produces no results. The argument is always of object type, but the introspection schema doesn't reflect that. The 'gen': false directive is omitted as implementation detail. The 'success-response' directive is omitted as well for now, even though it's not an implementation detail, because it's not used by QMP. * Events carry a single data value. Implicit type definition and empty object type use, just like for commands. The value is of object type, but the introspection schema doesn't reflect that. * Types not used by commands or events are omitted. Indirect use counts as use. * Optional members have a default, which can only be null right now Instead of a mandatory "optional" flag, we have an optional default. No default means mandatory, default null means optional without default value. Non-null is available for optional with default (possible future extension). * Clients should *not* look up types by name, because type names are not ABI. Look up the command or event you're interested in, then follow the references. TODO Should we hide the type names to eliminate the temptation? New generator scripts/qapi-introspect.py computes an introspection value for its input, and generates a C variable holding it. It can generate awfully long lines. Marked TODO. A new test-qmp-input-visitor test case feeds its result for both tests/qapi-schema/qapi-schema-test.json and qapi-schema.json to a QmpInputVisitor to verify it actually conforms to the schema. New QMP command query-qmp-schema takes its return value from that variable. Its reply is some 85KiBytes for me right now. If this turns out to be too much, we have a couple of options: * We can use shorter names in the JSON. Not the QMP style. * Optionally return the sub-schema for commands and events given as arguments. Right now qmp_query_schema() sends the string literal computed by qmp-introspect.py. To compute sub-schema at run time, we'd have to duplicate parts of qapi-introspect.py in C. Unattractive. * Let clients cache the output of query-qmp-schema. It changes only on QEMU upgrades, i.e. rarely. Provide a command query-qmp-schema-hash. Clients can have a cache indexed by hash, and re-query the schema only when they don't have it cached. Even simpler: put the hash in the QMP greeting. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com>
2015-09-16 14:06:28 +03:00
tests/test-qmp-commands.h tests/test-qapi-event.h \
tests/test-qmp-introspect.h
test-obj-y = tests/check-qint.o tests/check-qstring.o tests/check-qdict.o \
tests/check-qlist.o tests/check-qfloat.o tests/check-qnull.o \
tests/check-qjson.o \
tests/test-coroutine.o tests/test-string-output-visitor.o \
tests/test-string-input-visitor.o tests/test-qmp-output-visitor.o \
qapi: Add new clone visitor We have a couple places in the code base that want to deep-clone one QAPI object into another, and they were resorting to serializing the struct out to QObject then reparsing it. A much more efficient version can be done by adding a new clone visitor. Since cloning is still relatively uncommon, expose the use of the new visitor via a QAPI_CLONE() macro that takes care of type-punning the underlying function pointer, rather than generating lots of unused functions for types that won't be cloned. And yes, we're relying on the compiler treating all pointers equally, even though a strict C program cannot portably do so - but we're not the first one in the qemu code base to expect it to work (hello, glib!). The choice of adding a fourth visitor type deserves some explanation. On the surface, the clone visitor is mostly an input visitor (it takes arbitrary input - in this case, another QAPI object - and creates a new QAPI object during the course of the visit). But ever since commit da72ab0 consolidated enum visits based on the visitor type, using VISITOR_INPUT would cause us to run visit_type_str(), even though for cloning there is nothing to do (we just copy the enum value across, without regards to its mapping to strings). Also, since our input happens to be a QAPI object, we can also satisfy the internal checks for VISITOR_OUTPUT. So in the end, I settled with a new VISITOR_CLONE, and chose its value such that many internal checks can use 'v->type & mask', sticking to 'v->type == value' where the difference matters. Note that we can only clone objects (including alternates) and lists, not built-ins or enums. The visitor core hides integer width from the actual visitor (since commit 04e070d), and as long as that's the case, we can't clone top-level integers. Then again, those can always be cloned by direct copy, since they are not objects with deep pointers, so it's no real loss. And restricting cloning to just objects and lists is cleaner than restricting it to non-integers. As such, I documented that the clone visitor is for direct use only by code internal to QAPI, and should not be used on incomplete objects (other than a hack to work around the fact that we allow NULL in place of "" in visit_type_str() in other output visitors). Note that as written, the clone visitor will never fail on a complete object. Scalars (including enums) not at the root of the clone copy just fine with no additional effort while visiting the scalar, by virtue of a g_memdup() each time we push another struct onto the stack. Cloning a string requires deduplication of a pointer, which means it can also provide the guarantee of an input visitor of never producing NULL even when still accepting NULL in place of "" the way the QMP output visitor does. Cloning an 'any' type could be possible by incrementing the QObject refcnt, but it's not obvious whether that is better than implementing a QObject deep clone. So for now, we document it as unsupported, and intentionally omit the .type_any() callback to let a developer know their usage needs implementation. Add testsuite coverage for several different clone situations, to ensure that the code is working. I also tested that valgrind was happy with the test. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1465490926-28625-14-git-send-email-eblake@redhat.com> Reviewed-by: Markus Armbruster <armbru@redhat.com> Signed-off-by: Markus Armbruster <armbru@redhat.com>
2016-06-09 19:48:44 +03:00
tests/test-clone-visitor.o \
tests/test-qmp-input-visitor.o tests/test-qmp-input-strict.o \
tests/test-qmp-commands.o tests/test-visitor-serialization.o \
tests/test-x86-cpuid.o tests/test-mul64.o tests/test-int128.o \
tests/test-opts-visitor.o tests/test-qmp-event.o \
tests/rcutorture.o tests/test-rcu-list.o \
tests/test-qdist.o \
tests/test-qht.o tests/qht-bench.o tests/test-qht-par.o
$(test-obj-y): QEMU_INCLUDES += -Itests
QEMU_CFLAGS += -I$(SRC_PATH)/tests
# Deps that are common to various different sets of tests below
test-util-obj-y = libqemuutil.a libqemustub.a
test-qom-obj-y = $(qom-obj-y) $(test-util-obj-y)
test-qapi-obj-y = tests/test-qapi-visit.o tests/test-qapi-types.o \
qapi: New QMP command query-qmp-schema for QMP introspection qapi/introspect.json defines the introspection schema. It's designed for QMP introspection, but should do for similar uses, such as QGA. The introspection schema does not reflect all the rules and restrictions that apply to QAPI schemata. A valid QAPI schema has an introspection value conforming to the introspection schema, but the converse is not true. Introspection lowers away a number of schema details, and makes implicit things explicit: * The built-in types are declared with their JSON type. All integer types are mapped to 'int', because how many bits we use internally is an implementation detail. It could be pressed into external interface service as very approximate range information, but that's a bad idea. If we need range information, we better do it properly. * Implicit type definitions are made explicit, and given auto-generated names: - Array types, named by appending "List" to the name of their element type, like in generated C. - The enumeration types implicitly defined by simple union types, named by appending "Kind" to the name of their simple union type, like in generated C. - Types that don't occur in generated C. Their names start with ':' so they don't clash with the user's names. * All type references are by name. * The struct and union types are generalized into an object type. * Base types are flattened. * Commands take a single argument and return a single result. Dictionary argument or list result is an implicit type definition. The empty object type is used when a command takes no arguments or produces no results. The argument is always of object type, but the introspection schema doesn't reflect that. The 'gen': false directive is omitted as implementation detail. The 'success-response' directive is omitted as well for now, even though it's not an implementation detail, because it's not used by QMP. * Events carry a single data value. Implicit type definition and empty object type use, just like for commands. The value is of object type, but the introspection schema doesn't reflect that. * Types not used by commands or events are omitted. Indirect use counts as use. * Optional members have a default, which can only be null right now Instead of a mandatory "optional" flag, we have an optional default. No default means mandatory, default null means optional without default value. Non-null is available for optional with default (possible future extension). * Clients should *not* look up types by name, because type names are not ABI. Look up the command or event you're interested in, then follow the references. TODO Should we hide the type names to eliminate the temptation? New generator scripts/qapi-introspect.py computes an introspection value for its input, and generates a C variable holding it. It can generate awfully long lines. Marked TODO. A new test-qmp-input-visitor test case feeds its result for both tests/qapi-schema/qapi-schema-test.json and qapi-schema.json to a QmpInputVisitor to verify it actually conforms to the schema. New QMP command query-qmp-schema takes its return value from that variable. Its reply is some 85KiBytes for me right now. If this turns out to be too much, we have a couple of options: * We can use shorter names in the JSON. Not the QMP style. * Optionally return the sub-schema for commands and events given as arguments. Right now qmp_query_schema() sends the string literal computed by qmp-introspect.py. To compute sub-schema at run time, we'd have to duplicate parts of qapi-introspect.py in C. Unattractive. * Let clients cache the output of query-qmp-schema. It changes only on QEMU upgrades, i.e. rarely. Provide a command query-qmp-schema-hash. Clients can have a cache indexed by hash, and re-query the schema only when they don't have it cached. Even simpler: put the hash in the QMP greeting. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com>
2015-09-16 14:06:28 +03:00
tests/test-qapi-event.o tests/test-qmp-introspect.o \
$(test-qom-obj-y)
test-crypto-obj-y = $(crypto-obj-y) $(test-qom-obj-y)
test-io-obj-y = $(io-obj-y) $(test-crypto-obj-y)
test-block-obj-y = $(block-obj-y) $(test-io-obj-y)
tests/check-qint$(EXESUF): tests/check-qint.o $(test-util-obj-y)
tests/check-qstring$(EXESUF): tests/check-qstring.o $(test-util-obj-y)
tests/check-qdict$(EXESUF): tests/check-qdict.o $(test-util-obj-y)
tests/check-qlist$(EXESUF): tests/check-qlist.o $(test-util-obj-y)
tests/check-qfloat$(EXESUF): tests/check-qfloat.o $(test-util-obj-y)
tests/check-qnull$(EXESUF): tests/check-qnull.o $(test-util-obj-y)
tests/check-qjson$(EXESUF): tests/check-qjson.o $(test-util-obj-y)
tests/check-qom-interface$(EXESUF): tests/check-qom-interface.o $(test-qom-obj-y)
tests/check-qom-proplist$(EXESUF): tests/check-qom-proplist.o $(test-qom-obj-y)
tests/test-coroutine$(EXESUF): tests/test-coroutine.o $(test-block-obj-y)
tests/test-aio$(EXESUF): tests/test-aio.o $(test-block-obj-y)
tests/test-rfifolock$(EXESUF): tests/test-rfifolock.o $(test-util-obj-y)
tests/test-throttle$(EXESUF): tests/test-throttle.o $(test-block-obj-y)
tests/test-blockjob$(EXESUF): tests/test-blockjob.o $(test-block-obj-y) $(test-util-obj-y)
tests/test-blockjob-txn$(EXESUF): tests/test-blockjob-txn.o $(test-block-obj-y) $(test-util-obj-y)
tests/test-thread-pool$(EXESUF): tests/test-thread-pool.o $(test-block-obj-y)
tests/test-iov$(EXESUF): tests/test-iov.o $(test-util-obj-y)
tests/test-hbitmap$(EXESUF): tests/test-hbitmap.o $(test-util-obj-y)
tests/test-x86-cpuid$(EXESUF): tests/test-x86-cpuid.o
tests/test-xbzrle$(EXESUF): tests/test-xbzrle.o migration/xbzrle.o page_cache.o $(test-util-obj-y)
tests/test-cutils$(EXESUF): tests/test-cutils.o util/cutils.o
tests/test-int128$(EXESUF): tests/test-int128.o
tests/rcutorture$(EXESUF): tests/rcutorture.o $(test-util-obj-y)
tests/test-rcu-list$(EXESUF): tests/test-rcu-list.o $(test-util-obj-y)
tests/test-qdist$(EXESUF): tests/test-qdist.o $(test-util-obj-y)
tests/test-qht$(EXESUF): tests/test-qht.o $(test-util-obj-y)
tests/test-qht-par$(EXESUF): tests/test-qht-par.o tests/qht-bench$(EXESUF) $(test-util-obj-y)
qht: add qht-bench, a performance benchmark This serves as a performance benchmark as well as a stress test for QHT. We can tweak quite a number of things, including the number of resize threads and how frequently resizes are triggered. A performance comparison of QHT vs CLHT[1] and ck_hs[2] using this same benchmark program can be found here: http://imgur.com/a/0Bms4 The tests are run on a 64-core AMD Opteron 6376, pinning threads to cores favoring same-socket cores. For each run, qht-bench is invoked with: $ tests/qht-bench -d $duration -n $n -u $u -g $range , where $duration is in seconds, $n is the number of threads, $u is the update rate (0.0 to 100.0), and $range is the number of keys. Note that ck_hs's performance drops significantly as writes go up, since it requires an external lock (I used a ck_spinlock) around every write. Also, note that CLHT instead of using a seqlock, relies on an allocator that does not ever return the same address during the same read-critical section. This gives it a slight performance advantage over QHT on read-heavy workloads, since the seqlock writes aren't there. [1] CLHT: https://github.com/LPD-EPFL/CLHT https://infoscience.epfl.ch/record/207109/files/ascy_asplos15.pdf [2] ck_hs: http://concurrencykit.org/ http://backtrace.io/blog/blog/2015/03/13/workload-specialization/ A few of those plots are shown in text here, since that site might not be online forever. Throughput is on Mops/s on the Y axis. 200K keys, 0 % updates 450 ++--+------+------+-------+-------+-------+-------+------+-------+--++ | + + + + + + + + +N+ | 400 ++ ---+E+ ++ | +++---- | 350 ++ 9 ++------+------++ --+E+ -+H+ ++ | | +H+- | -+N+---- ---- +++ | 300 ++ 8 ++ +E+ ++ -----+E+ --+H+ ++ | | +++ | -+N+-----+H+-- | 250 ++ 7 ++------+------++ +++-----+E+---- ++ 200 ++ 1 -+E+-----+H+ ++ | ---- qht +-E--+ | 150 ++ -+E+ clht +-H--+ ++ | ---- ck +-N--+ | 100 ++ +E+ ++ | ---- | 50 ++ -+E+ ++ | +E+E+ + + + + + + + + | 0 ++--E------+------+-------+-------+-------+-------+------+-------+--++ 1 8 16 24 32 40 48 56 64 Number of threads 200K keys, 1 % updates 350 ++--+------+------+-------+-------+-------+-------+------+-------+--++ | + + + + + + + + -+E+ | 300 ++ -----+H+ ++ | +E+-- | | 9 ++------+------++ +++---- | 250 ++ | +E+ -- | -+E+ ++ | 8 ++ -- ++ ---- | 200 ++ | +++- | +++ ---+E+ ++ | 7 ++------N------++ -+E+-- qht +-E--+ | | 1 +++---- clht +-H--+ | 150 ++ -+E+ ck +-N--+ ++ | ---- | 100 ++ +E+ ++ | ---- | | -+E+ | 50 ++ +H+-+N+----+N+-----+N+------ ++ | +E+E+ + + + +N+-----+N+-----+N+----+N+-----+N+ | 0 ++--E------+------+-------+-------+-------+-------+------+-------+--++ 1 8 16 24 32 40 48 56 64 Number of threads 200K keys, 20 % updates 300 ++--+------+------+-------+-------+-------+-------+------+-------+--++ | + + + + + + + + + | | -+H+ | 250 ++ ---- ++ | 9 ++------+------++ --+H+ ---+E+ | | 8 ++ +H+-- ++ -+H+----+E+-- | 200 ++ | +E+ --| -----+E+-- +++ ++ | 7 ++ + ---- ++ ---+H+---- +++ qht +-E--+ | 150 ++ 6 ++------N------++ -+H+-----+E+ clht +-H--+ ++ | 1 -----+E+-- ck +-N--+ | | -+H+---- | 100 ++ -----+E+ ++ | +E+-- | | ----+++ | 50 ++ -+E+ ++ | +E+ +++ | | +E+N+-+N+-----+ + + + + + + | 0 ++--E------+------N-------N-------N-------N-------N------N-------N--++ 1 8 16 24 32 40 48 56 64 Number of threads 200K keys, 100 % updates qht +-E--+ clht +-H--+ 160 ++--+------+------+-------+-------+-------+-------+---ck-+-N-----+--++ | + + + + + + + + ----H | 140 ++ +H+-- -+E+ ++ | +++---- ---- | 120 ++ 8 ++------+------++ -+H+ +E+ ++ | 7 ++ +H+---- ++ ---- +++---- | 100 ++ | +E+ | +++ ---+H+ -+E+ ++ | 6 ++ +++ ++ -+H+-- +++---- | 80 ++ 5 ++------N----------+E+-----+E+ ++ | 1 -+H+---- +++ | | -----+E+ | 60 ++ +H+---- +++ ++ | ----+E+ | 40 ++ +H+---- ++ | --+E+ | 20 ++ +E+ ++ | +EE+ + + + + + + + + | 0 ++--+N-N---N------N-------N-------N-------N-------N------N-------N--++ 1 8 16 24 32 40 48 56 64 Number of threads Signed-off-by: Emilio G. Cota <cota@braap.org> Message-Id: <1465412133-3029-13-git-send-email-cota@braap.org> Signed-off-by: Richard Henderson <rth@twiddle.net>
2016-06-08 21:55:30 +03:00
tests/qht-bench$(EXESUF): tests/qht-bench.o $(test-util-obj-y)
tests/test-bufferiszero$(EXESUF): tests/test-bufferiszero.o $(test-util-obj-y)
tests/test-qdev-global-props$(EXESUF): tests/test-qdev-global-props.o \
hw/core/qdev.o hw/core/qdev-properties.o hw/core/hotplug.o\
hw/core/bus.o \
hw/core/irq.o \
hw/core/fw-path-provider.o \
$(test-qapi-obj-y)
tests/test-vmstate$(EXESUF): tests/test-vmstate.o \
migration/vmstate.o migration/qemu-file.o \
migration/qemu-file-channel.o migration/qjson.o \
$(test-io-obj-y)
tests/test-timed-average$(EXESUF): tests/test-timed-average.o qemu-timer.o \
$(test-util-obj-y)
tests/test-base64$(EXESUF): tests/test-base64.o \
libqemuutil.a libqemustub.a
tests/test-logging$(EXESUF): tests/test-logging.o $(test-util-obj-y)
tests/test-replication$(EXESUF): tests/test-replication.o $(test-util-obj-y) \
$(test-block-obj-y)
tests/test-qapi-types.c tests/test-qapi-types.h :\
$(SRC_PATH)/tests/qapi-schema/qapi-schema-test.json $(SRC_PATH)/scripts/qapi-types.py $(qapi-py)
$(call quiet-command,$(PYTHON) $(SRC_PATH)/scripts/qapi-types.py \
$(gen-out-type) -o tests -p "test-" $<, \
" GEN $@")
tests/test-qapi-visit.c tests/test-qapi-visit.h :\
$(SRC_PATH)/tests/qapi-schema/qapi-schema-test.json $(SRC_PATH)/scripts/qapi-visit.py $(qapi-py)
$(call quiet-command,$(PYTHON) $(SRC_PATH)/scripts/qapi-visit.py \
$(gen-out-type) -o tests -p "test-" $<, \
" GEN $@")
tests/test-qmp-commands.h tests/test-qmp-marshal.c :\
$(SRC_PATH)/tests/qapi-schema/qapi-schema-test.json $(SRC_PATH)/scripts/qapi-commands.py $(qapi-py)
$(call quiet-command,$(PYTHON) $(SRC_PATH)/scripts/qapi-commands.py \
$(gen-out-type) -o tests -p "test-" $<, \
" GEN $@")
tests/test-qapi-event.c tests/test-qapi-event.h :\
$(SRC_PATH)/tests/qapi-schema/qapi-schema-test.json $(SRC_PATH)/scripts/qapi-event.py $(qapi-py)
$(call quiet-command,$(PYTHON) $(SRC_PATH)/scripts/qapi-event.py \
$(gen-out-type) -o tests -p "test-" $<, \
" GEN $@")
qapi: New QMP command query-qmp-schema for QMP introspection qapi/introspect.json defines the introspection schema. It's designed for QMP introspection, but should do for similar uses, such as QGA. The introspection schema does not reflect all the rules and restrictions that apply to QAPI schemata. A valid QAPI schema has an introspection value conforming to the introspection schema, but the converse is not true. Introspection lowers away a number of schema details, and makes implicit things explicit: * The built-in types are declared with their JSON type. All integer types are mapped to 'int', because how many bits we use internally is an implementation detail. It could be pressed into external interface service as very approximate range information, but that's a bad idea. If we need range information, we better do it properly. * Implicit type definitions are made explicit, and given auto-generated names: - Array types, named by appending "List" to the name of their element type, like in generated C. - The enumeration types implicitly defined by simple union types, named by appending "Kind" to the name of their simple union type, like in generated C. - Types that don't occur in generated C. Their names start with ':' so they don't clash with the user's names. * All type references are by name. * The struct and union types are generalized into an object type. * Base types are flattened. * Commands take a single argument and return a single result. Dictionary argument or list result is an implicit type definition. The empty object type is used when a command takes no arguments or produces no results. The argument is always of object type, but the introspection schema doesn't reflect that. The 'gen': false directive is omitted as implementation detail. The 'success-response' directive is omitted as well for now, even though it's not an implementation detail, because it's not used by QMP. * Events carry a single data value. Implicit type definition and empty object type use, just like for commands. The value is of object type, but the introspection schema doesn't reflect that. * Types not used by commands or events are omitted. Indirect use counts as use. * Optional members have a default, which can only be null right now Instead of a mandatory "optional" flag, we have an optional default. No default means mandatory, default null means optional without default value. Non-null is available for optional with default (possible future extension). * Clients should *not* look up types by name, because type names are not ABI. Look up the command or event you're interested in, then follow the references. TODO Should we hide the type names to eliminate the temptation? New generator scripts/qapi-introspect.py computes an introspection value for its input, and generates a C variable holding it. It can generate awfully long lines. Marked TODO. A new test-qmp-input-visitor test case feeds its result for both tests/qapi-schema/qapi-schema-test.json and qapi-schema.json to a QmpInputVisitor to verify it actually conforms to the schema. New QMP command query-qmp-schema takes its return value from that variable. Its reply is some 85KiBytes for me right now. If this turns out to be too much, we have a couple of options: * We can use shorter names in the JSON. Not the QMP style. * Optionally return the sub-schema for commands and events given as arguments. Right now qmp_query_schema() sends the string literal computed by qmp-introspect.py. To compute sub-schema at run time, we'd have to duplicate parts of qapi-introspect.py in C. Unattractive. * Let clients cache the output of query-qmp-schema. It changes only on QEMU upgrades, i.e. rarely. Provide a command query-qmp-schema-hash. Clients can have a cache indexed by hash, and re-query the schema only when they don't have it cached. Even simpler: put the hash in the QMP greeting. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com>
2015-09-16 14:06:28 +03:00
tests/test-qmp-introspect.c tests/test-qmp-introspect.h :\
$(SRC_PATH)/tests/qapi-schema/qapi-schema-test.json $(SRC_PATH)/scripts/qapi-introspect.py $(qapi-py)
$(call quiet-command,$(PYTHON) $(SRC_PATH)/scripts/qapi-introspect.py \
$(gen-out-type) -o tests -p "test-" $<, \
" GEN $@")
tests/test-string-output-visitor$(EXESUF): tests/test-string-output-visitor.o $(test-qapi-obj-y)
tests/test-string-input-visitor$(EXESUF): tests/test-string-input-visitor.o $(test-qapi-obj-y)
tests/test-qmp-event$(EXESUF): tests/test-qmp-event.o $(test-qapi-obj-y)
tests/test-qmp-output-visitor$(EXESUF): tests/test-qmp-output-visitor.o $(test-qapi-obj-y)
qapi: Add new clone visitor We have a couple places in the code base that want to deep-clone one QAPI object into another, and they were resorting to serializing the struct out to QObject then reparsing it. A much more efficient version can be done by adding a new clone visitor. Since cloning is still relatively uncommon, expose the use of the new visitor via a QAPI_CLONE() macro that takes care of type-punning the underlying function pointer, rather than generating lots of unused functions for types that won't be cloned. And yes, we're relying on the compiler treating all pointers equally, even though a strict C program cannot portably do so - but we're not the first one in the qemu code base to expect it to work (hello, glib!). The choice of adding a fourth visitor type deserves some explanation. On the surface, the clone visitor is mostly an input visitor (it takes arbitrary input - in this case, another QAPI object - and creates a new QAPI object during the course of the visit). But ever since commit da72ab0 consolidated enum visits based on the visitor type, using VISITOR_INPUT would cause us to run visit_type_str(), even though for cloning there is nothing to do (we just copy the enum value across, without regards to its mapping to strings). Also, since our input happens to be a QAPI object, we can also satisfy the internal checks for VISITOR_OUTPUT. So in the end, I settled with a new VISITOR_CLONE, and chose its value such that many internal checks can use 'v->type & mask', sticking to 'v->type == value' where the difference matters. Note that we can only clone objects (including alternates) and lists, not built-ins or enums. The visitor core hides integer width from the actual visitor (since commit 04e070d), and as long as that's the case, we can't clone top-level integers. Then again, those can always be cloned by direct copy, since they are not objects with deep pointers, so it's no real loss. And restricting cloning to just objects and lists is cleaner than restricting it to non-integers. As such, I documented that the clone visitor is for direct use only by code internal to QAPI, and should not be used on incomplete objects (other than a hack to work around the fact that we allow NULL in place of "" in visit_type_str() in other output visitors). Note that as written, the clone visitor will never fail on a complete object. Scalars (including enums) not at the root of the clone copy just fine with no additional effort while visiting the scalar, by virtue of a g_memdup() each time we push another struct onto the stack. Cloning a string requires deduplication of a pointer, which means it can also provide the guarantee of an input visitor of never producing NULL even when still accepting NULL in place of "" the way the QMP output visitor does. Cloning an 'any' type could be possible by incrementing the QObject refcnt, but it's not obvious whether that is better than implementing a QObject deep clone. So for now, we document it as unsupported, and intentionally omit the .type_any() callback to let a developer know their usage needs implementation. Add testsuite coverage for several different clone situations, to ensure that the code is working. I also tested that valgrind was happy with the test. Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <1465490926-28625-14-git-send-email-eblake@redhat.com> Reviewed-by: Markus Armbruster <armbru@redhat.com> Signed-off-by: Markus Armbruster <armbru@redhat.com>
2016-06-09 19:48:44 +03:00
tests/test-clone-visitor$(EXESUF): tests/test-clone-visitor.o $(test-qapi-obj-y)
tests/test-qmp-input-visitor$(EXESUF): tests/test-qmp-input-visitor.o $(test-qapi-obj-y)
tests/test-qmp-input-strict$(EXESUF): tests/test-qmp-input-strict.o $(test-qapi-obj-y)
tests/test-qmp-commands$(EXESUF): tests/test-qmp-commands.o tests/test-qmp-marshal.o $(test-qapi-obj-y)
tests/test-visitor-serialization$(EXESUF): tests/test-visitor-serialization.o $(test-qapi-obj-y)
tests/test-opts-visitor$(EXESUF): tests/test-opts-visitor.o $(test-qapi-obj-y)
tests/test-mul64$(EXESUF): tests/test-mul64.o $(test-util-obj-y)
tests/test-bitops$(EXESUF): tests/test-bitops.o $(test-util-obj-y)
tests/test-crypto-hash$(EXESUF): tests/test-crypto-hash.o $(test-crypto-obj-y)
tests/test-crypto-cipher$(EXESUF): tests/test-crypto-cipher.o $(test-crypto-obj-y)
crypto: add QCryptoSecret object class for password/key handling Introduce a new QCryptoSecret object class which will be used for providing passwords and keys to other objects which need sensitive credentials. The new object can provide secret values directly as properties, or indirectly via a file. The latter includes support for file descriptor passing syntax on UNIX platforms. Ordinarily passing secret values directly as properties is insecure, since they are visible in process listings, or in log files showing the CLI args / QMP commands. It is possible to use AES-256-CBC to encrypt the secret values though, in which case all that is visible is the ciphertext. For ad hoc developer testing though, it is fine to provide the secrets directly without encryption so this is not explicitly forbidden. The anticipated scenario is that libvirtd will create a random master key per QEMU instance (eg /var/run/libvirt/qemu/$VMNAME.key) and will use that key to encrypt all passwords it provides to QEMU via '-object secret,....'. This avoids the need for libvirt (or other mgmt apps) to worry about file descriptor passing. It also makes life easier for people who are scripting the management of QEMU, for whom FD passing is significantly more complex. Providing data inline (insecure, only for ad hoc dev testing) $QEMU -object secret,id=sec0,data=letmein Providing data indirectly in raw format printf "letmein" > mypasswd.txt $QEMU -object secret,id=sec0,file=mypasswd.txt Providing data indirectly in base64 format $QEMU -object secret,id=sec0,file=mykey.b64,format=base64 Providing data with encryption $QEMU -object secret,id=master0,file=mykey.b64,format=base64 \ -object secret,id=sec0,data=[base64 ciphertext],\ keyid=master0,iv=[base64 IV],format=base64 Note that 'format' here refers to the format of the ciphertext data. The decrypted data must always be in raw byte format. More examples are shown in the updated docs. Reviewed-by: Eric Blake <eblake@redhat.com> Signed-off-by: Daniel P. Berrange <berrange@redhat.com>
2015-10-14 11:58:38 +03:00
tests/test-crypto-secret$(EXESUF): tests/test-crypto-secret.o $(test-crypto-obj-y)
tests/test-crypto-xts$(EXESUF): tests/test-crypto-xts.o $(test-crypto-obj-y)
tests/crypto-tls-x509-helpers.o-cflags := $(TASN1_CFLAGS)
tests/crypto-tls-x509-helpers.o-libs := $(TASN1_LIBS)
tests/pkix_asn1_tab.o-cflags := $(TASN1_CFLAGS)
tests/test-crypto-tlscredsx509.o-cflags := $(TASN1_CFLAGS)
tests/test-crypto-tlscredsx509$(EXESUF): tests/test-crypto-tlscredsx509.o \
tests/crypto-tls-x509-helpers.o tests/pkix_asn1_tab.o $(test-crypto-obj-y)
tests/test-crypto-tlssession.o-cflags := $(TASN1_CFLAGS)
tests/test-crypto-tlssession$(EXESUF): tests/test-crypto-tlssession.o \
tests/crypto-tls-x509-helpers.o tests/pkix_asn1_tab.o $(test-crypto-obj-y)
tests/test-io-task$(EXESUF): tests/test-io-task.o $(test-io-obj-y)
tests/test-io-channel-socket$(EXESUF): tests/test-io-channel-socket.o \
tests/io-channel-helpers.o $(test-io-obj-y)
tests/test-io-channel-file$(EXESUF): tests/test-io-channel-file.o \
tests/io-channel-helpers.o $(test-io-obj-y)
tests/test-io-channel-tls$(EXESUF): tests/test-io-channel-tls.o \
tests/crypto-tls-x509-helpers.o tests/pkix_asn1_tab.o \
tests/io-channel-helpers.o $(test-io-obj-y)
tests/test-io-channel-command$(EXESUF): tests/test-io-channel-command.o \
tests/io-channel-helpers.o $(test-io-obj-y)
tests/test-io-channel-buffer$(EXESUF): tests/test-io-channel-buffer.o \
tests/io-channel-helpers.o $(test-io-obj-y)
tests/test-crypto-pbkdf$(EXESUF): tests/test-crypto-pbkdf.o $(test-crypto-obj-y)
tests/test-crypto-ivgen$(EXESUF): tests/test-crypto-ivgen.o $(test-crypto-obj-y)
tests/test-crypto-afsplit$(EXESUF): tests/test-crypto-afsplit.o $(test-crypto-obj-y)
tests/test-crypto-block$(EXESUF): tests/test-crypto-block.o $(test-crypto-obj-y)
libqos-obj-y = tests/libqos/pci.o tests/libqos/fw_cfg.o tests/libqos/malloc.o
libqos-obj-y += tests/libqos/i2c.o tests/libqos/libqos.o
libqos-pc-obj-y = $(libqos-obj-y) tests/libqos/pci-pc.o
libqos-pc-obj-y += tests/libqos/malloc-pc.o tests/libqos/libqos-pc.o
libqos-pc-obj-y += tests/libqos/ahci.o
libqos-omap-obj-y = $(libqos-obj-y) tests/libqos/i2c-omap.o
libqos-imx-obj-y = $(libqos-obj-y) tests/libqos/i2c-imx.o
libqos-usb-obj-y = $(libqos-pc-obj-y) tests/libqos/usb.o
libqos-virtio-obj-y = $(libqos-pc-obj-y) tests/libqos/virtio.o tests/libqos/virtio-pci.o tests/libqos/virtio-mmio.o tests/libqos/malloc-generic.o
tests/device-introspect-test$(EXESUF): tests/device-introspect-test.o
tests/rtc-test$(EXESUF): tests/rtc-test.o
tests/m48t59-test$(EXESUF): tests/m48t59-test.o
tests/endianness-test$(EXESUF): tests/endianness-test.o
tests/spapr-phb-test$(EXESUF): tests/spapr-phb-test.o $(libqos-obj-y)
tests/prom-env-test$(EXESUF): tests/prom-env-test.o $(libqos-obj-y)
tests/fdc-test$(EXESUF): tests/fdc-test.o
tests/ide-test$(EXESUF): tests/ide-test.o $(libqos-pc-obj-y)
tests/ahci-test$(EXESUF): tests/ahci-test.o $(libqos-pc-obj-y)
tests/ipmi-kcs-test$(EXESUF): tests/ipmi-kcs-test.o
tests/ipmi-bt-test$(EXESUF): tests/ipmi-bt-test.o
tests/hd-geo-test$(EXESUF): tests/hd-geo-test.o
tests/boot-order-test$(EXESUF): tests/boot-order-test.o $(libqos-obj-y)
tests/boot-serial-test$(EXESUF): tests/boot-serial-test.o $(libqos-obj-y)
tests/bios-tables-test$(EXESUF): tests/bios-tables-test.o \
tests/boot-sector.o $(libqos-obj-y)
tests/pxe-test$(EXESUF): tests/pxe-test.o tests/boot-sector.o $(libqos-obj-y)
tests/tmp105-test$(EXESUF): tests/tmp105-test.o $(libqos-omap-obj-y)
tests/ds1338-test$(EXESUF): tests/ds1338-test.o $(libqos-imx-obj-y)
tests/i440fx-test$(EXESUF): tests/i440fx-test.o $(libqos-pc-obj-y)
tests/q35-test$(EXESUF): tests/q35-test.o $(libqos-pc-obj-y)
tests/fw_cfg-test$(EXESUF): tests/fw_cfg-test.o $(libqos-pc-obj-y)
tests/e1000-test$(EXESUF): tests/e1000-test.o
tests/e1000e-test$(EXESUF): tests/e1000e-test.o $(libqos-pc-obj-y)
tests/rtl8139-test$(EXESUF): tests/rtl8139-test.o $(libqos-pc-obj-y)
tests/pcnet-test$(EXESUF): tests/pcnet-test.o
tests/eepro100-test$(EXESUF): tests/eepro100-test.o
tests/vmxnet3-test$(EXESUF): tests/vmxnet3-test.o
tests/ne2000-test$(EXESUF): tests/ne2000-test.o
tests/wdt_ib700-test$(EXESUF): tests/wdt_ib700-test.o
tests/tco-test$(EXESUF): tests/tco-test.o $(libqos-pc-obj-y)
tests/virtio-balloon-test$(EXESUF): tests/virtio-balloon-test.o
tests/virtio-blk-test$(EXESUF): tests/virtio-blk-test.o $(libqos-virtio-obj-y)
tests/virtio-net-test$(EXESUF): tests/virtio-net-test.o $(libqos-pc-obj-y) $(libqos-virtio-obj-y)
tests/virtio-rng-test$(EXESUF): tests/virtio-rng-test.o $(libqos-pc-obj-y)
tests/virtio-scsi-test$(EXESUF): tests/virtio-scsi-test.o $(libqos-virtio-obj-y)
tests/virtio-9p-test$(EXESUF): tests/virtio-9p-test.o $(libqos-virtio-obj-y)
tests/virtio-serial-test$(EXESUF): tests/virtio-serial-test.o
tests/virtio-console-test$(EXESUF): tests/virtio-console-test.o
tests/tpci200-test$(EXESUF): tests/tpci200-test.o
tests/display-vga-test$(EXESUF): tests/display-vga-test.o
tests/ipoctal232-test$(EXESUF): tests/ipoctal232-test.o
tests/qom-test$(EXESUF): tests/qom-test.o
tests/drive_del-test$(EXESUF): tests/drive_del-test.o $(libqos-pc-obj-y)
tests/qdev-monitor-test$(EXESUF): tests/qdev-monitor-test.o $(libqos-pc-obj-y)
tests/nvme-test$(EXESUF): tests/nvme-test.o
tests/pvpanic-test$(EXESUF): tests/pvpanic-test.o
tests/i82801b11-test$(EXESUF): tests/i82801b11-test.o
tests/ac97-test$(EXESUF): tests/ac97-test.o
tests/es1370-test$(EXESUF): tests/es1370-test.o
tests/intel-hda-test$(EXESUF): tests/intel-hda-test.o
tests/ioh3420-test$(EXESUF): tests/ioh3420-test.o
tests/usb-hcd-ohci-test$(EXESUF): tests/usb-hcd-ohci-test.o $(libqos-usb-obj-y)
tests/usb-hcd-uhci-test$(EXESUF): tests/usb-hcd-uhci-test.o $(libqos-usb-obj-y)
tests/usb-hcd-ehci-test$(EXESUF): tests/usb-hcd-ehci-test.o $(libqos-usb-obj-y)
tests/usb-hcd-xhci-test$(EXESUF): tests/usb-hcd-xhci-test.o $(libqos-usb-obj-y)
tests/pc-cpu-test$(EXESUF): tests/pc-cpu-test.o
test: Postcopy This is a postcopy test (x86 only) that actually runs the guest and checks the memory contents. The test runs from an x86 boot block with the hex embedded in the test; the source for this is: ........... .code16 .org 0x7c00 .file "fill.s" .text .globl start .type start, @function start: # at 0x7c00 ? cli lgdt gdtdesc mov $1,%eax mov %eax,%cr0 # Protected mode enable data32 ljmp $8,$0x7c20 .org 0x7c20 .code32 # A20 enable - not sure I actually need this inb $0x92,%al or $2,%al outb %al, $0x92 # set up DS for the whole of RAM (needed on KVM) mov $16,%eax mov %eax,%ds mov $65,%ax mov $0x3f8,%dx outb %al,%dx # bl keeps a counter so we limit the output speed mov $0, %bl mainloop: # Start from 1MB mov $(1024*1024),%eax innerloop: incb (%eax) add $4096,%eax cmp $(100*1024*1024),%eax jl innerloop inc %bl jnz mainloop mov $66,%ax mov $0x3f8,%dx outb %al,%dx jmp mainloop # GDT magic from old (GPLv2) Grub startup.S .p2align 2 /* force 4-byte alignment */ gdt: .word 0, 0 .byte 0, 0, 0, 0 /* -- code segment -- * base = 0x00000000, limit = 0xFFFFF (4 KiB Granularity), present * type = 32bit code execute/read, DPL = 0 */ .word 0xFFFF, 0 .byte 0, 0x9A, 0xCF, 0 /* -- data segment -- * base = 0x00000000, limit 0xFFFFF (4 KiB Granularity), present * type = 32 bit data read/write, DPL = 0 */ .word 0xFFFF, 0 .byte 0, 0x92, 0xCF, 0 gdtdesc: .word 0x27 /* limit */ .long gdt /* addr */ /* I'm a bootable disk */ .org 0x7dfe .byte 0x55 .byte 0xAA ........... and that can be assembled by the following magic: as --32 -march=i486 fill.s -o fill.o objcopy -O binary fill.o fill.boot dd if=fill.boot of=bootsect bs=256 count=2 skip=124 xxd -i bootsect Signed-off-by: Dr. David Alan Gilbert <dgilbert@redhat.com> Reviewed-by: Marcel Apfelbaum <marcel@redhat.com> Message-id: 1465816605-29488-5-git-send-email-dgilbert@redhat.com Message-Id: <1465816605-29488-5-git-send-email-dgilbert@redhat.com> Signed-off-by: Amit Shah <amit.shah@redhat.com>
2016-06-13 14:16:43 +03:00
tests/postcopy-test$(EXESUF): tests/postcopy-test.o
tests/vhost-user-test$(EXESUF): tests/vhost-user-test.o qemu-char.o qemu-timer.o $(qtest-obj-y) $(test-io-obj-y) $(libqos-virtio-obj-y)
tests/qemu-iotests/socket_scm_helper$(EXESUF): tests/qemu-iotests/socket_scm_helper.o
tests/test-qemu-opts$(EXESUF): tests/test-qemu-opts.o $(test-util-obj-y)
tests/test-write-threshold$(EXESUF): tests/test-write-threshold.o $(test-block-obj-y)
tests/test-netfilter$(EXESUF): tests/test-netfilter.o $(qtest-obj-y)
tests/test-filter-mirror$(EXESUF): tests/test-filter-mirror.o $(qtest-obj-y)
tests/test-filter-redirector: Add unit test for filter-redirector In this unit test,we will test the filter redirector function. Case 1, tx traffic flow: qemu side | test side | +---------+ | +-------+ | backend <---------------+ sock0 | +----+----+ | +-------+ | | +----v----+ +-------+ | | rd0 +->+chardev| | +---------+ +---+---+ | | | +---------+ | | | rd1 <------+ | +----+----+ | | | +----v----+ | +-------+ | rd2 +--------------->sock1 | +---------+ | +-------+ + a. we(sock0) inject packet to qemu socket backend b. backend pass packet to filter redirector0(rd0) c. rd0 redirect packet to out_dev(chardev) which is connected with filter redirector1's(rd1) in_dev d. rd1 read this packet from in_dev, and pass to next filter redirector2(rd2) e. rd2 redirect packet to rd2's out_dev which is connected with an opened socketed(sock1) f. we read packet from sock1 and compare to what we inject Start qemu with: "-netdev socket,id=qtest-bn0,fd=%d " "-device rtl8139,netdev=qtest-bn0,id=qtest-e0 " "-chardev socket,id=redirector0,path=%s,server,nowait " "-chardev socket,id=redirector1,path=%s,server,nowait " "-chardev socket,id=redirector2,path=%s,nowait " "-object filter-redirector,id=qtest-f0,netdev=qtest-bn0," "queue=tx,outdev=redirector0 " "-object filter-redirector,id=qtest-f1,netdev=qtest-bn0," "queue=tx,indev=redirector2 " "-object filter-redirector,id=qtest-f2,netdev=qtest-bn0," "queue=tx,outdev=redirector1 " -------------------------------------- Case 2, rx traffic flow qemu side | test side | +---------+ | +-------+ | backend +---------------> sock1 | +----^----+ | +-------+ | | +----+----+ +-------+ | | rd0 +<-+chardev| | +---------+ +---+---+ | ^ | +---------+ | | | rd1 +------+ | +----^----+ | | | +----+----+ | +-------+ | rd2 <---------------+sock0 | +---------+ | +-------+ a. we(sock0) insert packet to filter redirector2(rd2) b. rd2 pass packet to filter redirector1(rd1) c. rd1 redirect packet to out_dev(chardev) which is connected with filter redirector0's(rd0) in_dev d. rd0 read this packet from in_dev, and pass ti to qemu backend which is connected with an opened socketed(sock1) e. we read packet from sock1 and compare to what we inject Start qemu with: "-netdev socket,id=qtest-bn0,fd=%d " "-device rtl8139,netdev=qtest-bn0,id=qtest-e0 " "-chardev socket,id=redirector0,path=%s,server,nowait " "-chardev socket,id=redirector1,path=%s,server,nowait " "-chardev socket,id=redirector2,path=%s,nowait " "-object filter-redirector,id=qtest-f0,netdev=qtest-bn0," "queue=rx,outdev=redirector0 " "-object filter-redirector,id=qtest-f1,netdev=qtest-bn0," "queue=rx,indev=redirector2 " "-object filter-redirector,id=qtest-f2,netdev=qtest-bn0," "queue=rx,outdev=redirector1 " Signed-off-by: Zhang Chen <zhangchen.fnst@cn.fujitsu.com> Signed-off-by: Wen Congyang <wency@cn.fujitsu.com> Signed-off-by: Li Zhijian <lizhijian@cn.fujitsu.com> Signed-off-by: Jason Wang <jasowang@redhat.com>
2016-03-17 11:16:27 +03:00
tests/test-filter-redirector$(EXESUF): tests/test-filter-redirector.o $(qtest-obj-y)
tests/ivshmem-test$(EXESUF): tests/ivshmem-test.o contrib/ivshmem-server/ivshmem-server.o $(libqos-pc-obj-y)
tests/vhost-user-bridge: add vhost-user bridge application The test existing in QEMU for vhost-user feature is good for testing the management protocol, but does not allow actual traffic. This patch proposes Vhost-User Bridge application, which can serve the QEMU community as a comprehensive test by running real internet traffic by means of vhost-user interface. Essentially the Vhost-User Bridge is a very basic vhost-user backend for QEMU. It runs as a standalone user-level process. For packet processing Vhost-User Bridge uses an additional QEMU instance with a backend configured by "-net socket" as a shared VLAN. This way another QEMU virtual machine can effectively serve as a shared bus by means of UDP communication. For a more simple setup, the another QEMU instance running the SLiRP backend can be the same QEMU instance running vhost-user client. This Vhost-User Bridge implementation is very preliminary. It is missing many features. I has been studying vhost-user protocol internals, so I've written vhost-user-bridge bit by bit as I progressed through the protocol. Most probably its internal architecture will change significantly. To run Vhost-User Bridge application: 1. Build vhost-user-bridge with a regular procedure. This will create a vhost-user-bridge executable under tests directory: $ configure; make tests/vhost-user-bridge 2. Ensure the machine has hugepages enabled in kernel with command line like: default_hugepagesz=2M hugepagesz=2M hugepages=2048 3. Run Vhost-User Bridge with: $ tests/vhost-user-bridge The above will run vhost-user server listening for connections on UNIX domain socket /tmp/vubr.sock, and will try to connect by UDP to VLAN bridge to localhost:5555, while listening on localhost:4444 Run qemu with a virtio-net backed by vhost-user: $ qemu \ -enable-kvm -m 512 -smp 2 \ -object memory-backend-file,id=mem,size=512M,mem-path=/dev/hugepages,share=on \ -numa node,memdev=mem -mem-prealloc \ -chardev socket,id=char0,path=/tmp/vubr.sock \ -netdev type=vhost-user,id=mynet1,chardev=char0,vhostforce \ -device virtio-net-pci,netdev=mynet1 \ -net none \ -net socket,vlan=0,udp=localhost:4444,localaddr=localhost:5555 \ -net user,vlan=0 \ disk.img vhost-user-bridge was tested very lightly: it's able to bringup a linux on client VM with the virtio-net driver, and execute transmits and receives to the internet. I tested with "wget redhat.com", "dig redhat.com". PS. I've consulted DPDK's code for vhost-user during Vhost-User Bridge implementation. Signed-off-by: Victor Kaplansky <victork@redhat.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Michael S. Tsirkin <mst@redhat.com>
2015-10-28 15:53:07 +03:00
tests/vhost-user-bridge$(EXESUF): tests/vhost-user-bridge.o
tests: introduce a framework for testing migration performance This introduces a moderately general purpose framework for testing performance of migration. The initial guest workload is provided by the included 'stress' program, which is configured to spawn one thread per guest CPU and run a maximally memory intensive workload. It will loop over GB of memory, xor'ing each byte with data from a 4k array of random bytes. This ensures heavy read and write load across all of guest memory to stress the migration performance. While running the 'stress' program will record how long it takes to xor each GB of memory and print this data for later reporting. The test engine will spawn a pair of QEMU processes, either on the same host, or with the target on a remote host via ssh, using the host kernel and a custom initrd built with 'stress' as the /init binary. Kernel command line args are set to ensure a fast kernel boot time (< 1 second) between launching QEMU and the stress program starting execution. None the less, the test engine will initially wait N seconds for the guest workload to stablize, before starting the migration operation. When migration is running, the engine will use pause, post-copy, autoconverge, xbzrle compression and multithread compression features, as well as downtime & bandwidth tuning to encourage completion. If migration completes, the test engine will wait N seconds again for the guest workooad to stablize on the target host. If migration does not complete after a preset number of iterations, it will be aborted. While the QEMU process is running on the source host, the test engine will sample the host CPU usage of QEMU as a whole, and each vCPU thread. While migration is running, it will record all the stats reported by 'query-migration'. Finally, it will capture the output of the stress program running in the guest. All the data produced from a single test execution is recorded in a structured JSON file. A separate program is then able to create interactive charts using the "plotly" python + javascript libraries, showing the characteristics of the migration. The data output provides visualization of the effect on guest vCPU workloads from the migration process, the corresponding vCPU utilization on the host, and the overall CPU hit from QEMU on the host. This is correlated from statistics from the migration process, such as downtime, vCPU throttling and iteration number. While the tests can be run individually with arbitrary parameters, there is also a facility for producing batch reports for a number of pre-defined scenarios / comparisons, in order to be able to get standardized results across different hardware configurations (eg TCP vs RDMA, or comparing different VCPU counts / memory sizes, etc). To use this, first you must build the initrd image $ make tests/migration/initrd-stress.img To run a a one-shot test with all default parameters $ ./tests/migration/guestperf.py > result.json This has many command line args for varying its behaviour. For example, to increase the RAM size and CPU count and bind it to specific host NUMA nodes $ ./tests/migration/guestperf.py \ --mem 4 --cpus 2 \ --src-mem-bind 0 --src-cpu-bind 0,1 \ --dst-mem-bind 1 --dst-cpu-bind 2,3 \ > result.json Using mem + cpu binding is strongly recommended on NUMA machines, otherwise the guest performance results will vary wildly between runs of the test due to lucky/unlucky NUMA placement, making sensible data analysis impossible. To make it run across separate hosts: $ ./tests/migration/guestperf.py \ --dst-host somehostname > result.json To request that post-copy is enabled, with switchover after 5 iterations $ ./tests/migration/guestperf.py \ --post-copy --post-copy-iters 5 > result.json Once a result.json file is created, a graph of the data can be generated, showing guest workload performance per thread and the migration iteration points: $ ./tests/migration/guestperf-plot.py --output result.html \ --migration-iters --split-guest-cpu result.json To further include host vCPU utilization and overall QEMU utilization $ ./tests/migration/guestperf-plot.py --output result.html \ --migration-iters --split-guest-cpu \ --qemu-cpu --vcpu-cpu result.json NB, the 'guestperf-plot.py' command requires that you have the plotly python library installed. eg you must do $ pip install --user plotly Viewing the result.html file requires that you have the plotly.min.js file in the same directory as the HTML output. This js file is installed as part of the plotly python library, so can be found in $HOME/.local/lib/python2.7/site-packages/plotly/offline/plotly.min.js The guestperf-plot.py program can accept multiple json files to plot, enabling results from different configurations to be compared. Finally, to run the entire standardized set of comparisons $ ./tests/migration/guestperf-batch.py \ --dst-host somehost \ --mem 4 --cpus 2 \ --src-mem-bind 0 --src-cpu-bind 0,1 \ --dst-mem-bind 1 --dst-cpu-bind 2,3 --output tcp-somehost-4gb-2cpu will store JSON files from all scenarios in the directory named tcp-somehost-4gb-2cpu Signed-off-by: Daniel P. Berrange <berrange@redhat.com> Message-Id: <1469020993-29426-7-git-send-email-berrange@redhat.com> Signed-off-by: Amit Shah <amit.shah@redhat.com>
2016-07-20 16:23:13 +03:00
tests/migration/stress$(EXESUF): tests/migration/stress.o
$(call quiet-command, $(LINKPROG) -static -O3 $(PTHREAD_LIB) -o $@ $< ," LINK $(TARGET_DIR)$@")
INITRD_WORK_DIR=tests/migration/initrd
tests/migration/initrd-stress.img: tests/migration/stress$(EXESUF)
mkdir -p $(INITRD_WORK_DIR)
cp $< $(INITRD_WORK_DIR)/init
(cd $(INITRD_WORK_DIR) && (find | cpio --quiet -o -H newc | gzip -9)) > $@
rm $(INITRD_WORK_DIR)/init
rmdir $(INITRD_WORK_DIR)
ifeq ($(CONFIG_POSIX),y)
LIBS += -lutil
endif
# QTest rules
TARGETS=$(patsubst %-softmmu,%, $(filter %-softmmu,$(TARGET_DIRS)))
ifeq ($(CONFIG_POSIX),y)
tests: Fix how qom-test is run We want to run qom-test for every architecture, without having to manually add it to every architecture's list of tests. Commit 3687d53 accomplished this by adding it to every architecture's list automatically. However, some architectures inherit their tests from others, like this: check-qtest-x86_64-y = $(check-qtest-i386-y) check-qtest-microblazeel-y = $(check-qtest-microblaze-y) check-qtest-xtensaeb-y = $(check-qtest-xtensa-y) For such architectures, we ended up running the (slow!) test twice. Commit 2b8419c attempted to avoid this by adding the test only when it's not already present. Works only as long as we consider adding the test to the architectures on the left hand side *after* the ones on the right hand side: x86_64 after i386, microblazeel after microblaze, xtensaeb after xtensa. Turns out we consider them in $(SYSEMU_TARGET_LIST) order. Defined as SYSEMU_TARGET_LIST := $(subst -softmmu.mak,,$(notdir \ $(wildcard $(SRC_PATH)/default-configs/*-softmmu.mak))) On my machine, this results in the oder xtensa, x86_64, microblazeel, microblaze, i386. Consequently, qom-test runs twice for microblazeel and x86_64. Replace this complex and flawed machinery with a much simpler one: add generic tests (currently just qom-test) to check-qtest-generic-y instead of check-qtest-$(target)-y for every target, then run $(check-qtest-generic-y) for every target. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Andreas Färber <afaerber@suse.de> Message-Id: <1443689999-12182-5-git-send-email-armbru@redhat.com>
2015-10-01 11:59:53 +03:00
QTEST_TARGETS = $(TARGETS)
check-qtest-y=$(foreach TARGET,$(TARGETS), $(check-qtest-$(TARGET)-y))
tests: Fix how qom-test is run We want to run qom-test for every architecture, without having to manually add it to every architecture's list of tests. Commit 3687d53 accomplished this by adding it to every architecture's list automatically. However, some architectures inherit their tests from others, like this: check-qtest-x86_64-y = $(check-qtest-i386-y) check-qtest-microblazeel-y = $(check-qtest-microblaze-y) check-qtest-xtensaeb-y = $(check-qtest-xtensa-y) For such architectures, we ended up running the (slow!) test twice. Commit 2b8419c attempted to avoid this by adding the test only when it's not already present. Works only as long as we consider adding the test to the architectures on the left hand side *after* the ones on the right hand side: x86_64 after i386, microblazeel after microblaze, xtensaeb after xtensa. Turns out we consider them in $(SYSEMU_TARGET_LIST) order. Defined as SYSEMU_TARGET_LIST := $(subst -softmmu.mak,,$(notdir \ $(wildcard $(SRC_PATH)/default-configs/*-softmmu.mak))) On my machine, this results in the oder xtensa, x86_64, microblazeel, microblaze, i386. Consequently, qom-test runs twice for microblazeel and x86_64. Replace this complex and flawed machinery with a much simpler one: add generic tests (currently just qom-test) to check-qtest-generic-y instead of check-qtest-$(target)-y for every target, then run $(check-qtest-generic-y) for every target. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Andreas Färber <afaerber@suse.de> Message-Id: <1443689999-12182-5-git-send-email-armbru@redhat.com>
2015-10-01 11:59:53 +03:00
check-qtest-y += $(check-qtest-generic-y)
else
QTEST_TARGETS =
endif
qtest-obj-y = tests/libqtest.o $(test-util-obj-y)
$(check-qtest-y): $(qtest-obj-y)
tests/test-qga: tests/test-qga.o $(qtest-obj-y)
.PHONY: check-help
check-help:
@echo "Regression testing targets:"
@echo
@echo " make check Run all tests"
@echo " make check-qtest-TARGET Run qtest tests for given target"
@echo " make check-qtest Run qtest tests"
@echo " make check-unit Run qobject tests"
@echo " make check-qapi-schema Run QAPI schema tests"
@echo " make check-block Run block tests"
@echo " make check-report.html Generates an HTML test report"
@echo " make check-clean Clean the tests"
@echo
@echo "Please note that HTML reports do not regenerate if the unit tests"
@echo "has not changed."
@echo
@echo "The variable SPEED can be set to control the gtester speed setting."
@echo "Default options are -k and (for make V=1) --verbose; they can be"
@echo "changed with variable GTESTER_OPTIONS."
SPEED = quick
GTESTER_OPTIONS = -k $(if $(V),--verbose,-q)
GCOV_OPTIONS = -n $(if $(V),-f,)
# gtester tests, possibly with verbose output
.PHONY: $(patsubst %, check-qtest-%, $(QTEST_TARGETS))
$(patsubst %, check-qtest-%, $(QTEST_TARGETS)): check-qtest-%: $(check-qtest-y)
$(if $(CONFIG_GCOV),@rm -f *.gcda */*.gcda */*/*.gcda */*/*/*.gcda,)
$(call quiet-command,QTEST_QEMU_BINARY=$*-softmmu/qemu-system-$* \
QTEST_QEMU_IMG=qemu-img$(EXESUF) \
MALLOC_PERTURB_=$${MALLOC_PERTURB_:-$$((RANDOM % 255 + 1))} \
tests: Fix how qom-test is run We want to run qom-test for every architecture, without having to manually add it to every architecture's list of tests. Commit 3687d53 accomplished this by adding it to every architecture's list automatically. However, some architectures inherit their tests from others, like this: check-qtest-x86_64-y = $(check-qtest-i386-y) check-qtest-microblazeel-y = $(check-qtest-microblaze-y) check-qtest-xtensaeb-y = $(check-qtest-xtensa-y) For such architectures, we ended up running the (slow!) test twice. Commit 2b8419c attempted to avoid this by adding the test only when it's not already present. Works only as long as we consider adding the test to the architectures on the left hand side *after* the ones on the right hand side: x86_64 after i386, microblazeel after microblaze, xtensaeb after xtensa. Turns out we consider them in $(SYSEMU_TARGET_LIST) order. Defined as SYSEMU_TARGET_LIST := $(subst -softmmu.mak,,$(notdir \ $(wildcard $(SRC_PATH)/default-configs/*-softmmu.mak))) On my machine, this results in the oder xtensa, x86_64, microblazeel, microblaze, i386. Consequently, qom-test runs twice for microblazeel and x86_64. Replace this complex and flawed machinery with a much simpler one: add generic tests (currently just qom-test) to check-qtest-generic-y instead of check-qtest-$(target)-y for every target, then run $(check-qtest-generic-y) for every target. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Andreas Färber <afaerber@suse.de> Message-Id: <1443689999-12182-5-git-send-email-armbru@redhat.com>
2015-10-01 11:59:53 +03:00
gtester $(GTESTER_OPTIONS) -m=$(SPEED) $(check-qtest-$*-y) $(check-qtest-generic-y),"GTESTER $@")
$(if $(CONFIG_GCOV),@for f in $(gcov-files-$*-y) $(gcov-files-generic-y); do \
echo Gcov report for $$f:;\
$(GCOV) $(GCOV_OPTIONS) $$f -o `dirname $$f`; \
done,)
.PHONY: $(patsubst %, check-%, $(check-unit-y))
$(patsubst %, check-%, $(check-unit-y)): check-%: %
$(if $(CONFIG_GCOV),@rm -f *.gcda */*.gcda */*/*.gcda */*/*/*.gcda,)
$(call quiet-command, \
MALLOC_PERTURB_=$${MALLOC_PERTURB_:-$$((RANDOM % 255 + 1))} \
gtester $(GTESTER_OPTIONS) -m=$(SPEED) $*,"GTESTER $*")
$(if $(CONFIG_GCOV),@for f in $(gcov-files-$(subst tests/,,$*)-y) $(gcov-files-generic-y); do \
echo Gcov report for $$f:;\
$(GCOV) $(GCOV_OPTIONS) $$f -o `dirname $$f`; \
done,)
# gtester tests with XML output
$(patsubst %, check-report-qtest-%.xml, $(QTEST_TARGETS)): check-report-qtest-%.xml: $(check-qtest-y)
$(call quiet-command,QTEST_QEMU_BINARY=$*-softmmu/qemu-system-$* \
QTEST_QEMU_IMG=qemu-img$(EXESUF) \
gtester -q $(GTESTER_OPTIONS) -o $@ -m=$(SPEED) $(check-qtest-$*-y) $(check-qtest-generic-y),"GTESTER $@")
check-report-unit.xml: $(check-unit-y)
$(call quiet-command,gtester -q $(GTESTER_OPTIONS) -o $@ -m=$(SPEED) $^, "GTESTER $@")
# Reports and overall runs
check-report.xml: $(patsubst %,check-report-qtest-%.xml, $(QTEST_TARGETS)) check-report-unit.xml
$(call quiet-command,$(SRC_PATH)/scripts/gtester-cat $^ > $@, " GEN $@")
check-report.html: check-report.xml
$(call quiet-command,gtester-report $< > $@, " GEN $@")
# Other tests
QEMU_IOTESTS_HELPERS-$(CONFIG_LINUX) = tests/qemu-iotests/socket_scm_helper$(EXESUF)
.PHONY: check-tests/qemu-iotests-quick.sh
check-tests/qemu-iotests-quick.sh: tests/qemu-iotests-quick.sh qemu-img$(EXESUF) qemu-io$(EXESUF) $(QEMU_IOTESTS_HELPERS-y)
$<
.PHONY: check-tests/test-qapi.py
check-tests/test-qapi.py: tests/test-qapi.py
.PHONY: $(patsubst %, check-%, $(check-qapi-schema-y))
$(patsubst %, check-%, $(check-qapi-schema-y)): check-%.json: $(SRC_PATH)/%.json
$(call quiet-command, PYTHONPATH=$(SRC_PATH)/scripts \
$(PYTHON) $(SRC_PATH)/tests/qapi-schema/test-qapi.py \
$^ >$*.test.out 2>$*.test.err; \
echo $$? >$*.test.exit, \
" TEST $*.out")
@diff -q $(SRC_PATH)/$*.out $*.test.out
@# Sanitize error messages (make them independent of build directory)
@perl -p -e 's|\Q$(SRC_PATH)\E/||g' $*.test.err | diff -q $(SRC_PATH)/$*.err -
@diff -q $(SRC_PATH)/$*.exit $*.test.exit
# Consolidated targets
.PHONY: check-qapi-schema check-qtest check-unit check check-clean
check-qapi-schema: $(patsubst %,check-%, $(check-qapi-schema-y))
check-qtest: $(patsubst %,check-qtest-%, $(QTEST_TARGETS))
check-unit: $(patsubst %,check-%, $(check-unit-y))
check-block: $(patsubst %,check-%, $(check-block-y))
check: check-qapi-schema check-unit check-qtest
check-clean:
$(MAKE) -C tests/tcg clean
rm -rf $(check-unit-y) tests/*.o $(QEMU_IOTESTS_HELPERS-y)
rm -rf $(sort $(foreach target,$(SYSEMU_TARGET_LIST), $(check-qtest-$(target)-y)) $(check-qtest-generic-y))
clean: check-clean
# Build the help program automatically
all: $(QEMU_IOTESTS_HELPERS-y)
-include $(wildcard tests/*.d)
-include $(wildcard tests/libqos/*.d)