qemu/Makefile.objs

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#######################################################################
# QObject
qobject-obj-y = qint.o qstring.o qdict.o qlist.o qfloat.o qbool.o
qobject-obj-y += qjson.o json-lexer.o json-streamer.o json-parser.o
qobject-obj-y += qerror.o error.o qemu-error.o
#######################################################################
# oslib-obj-y is code depending on the OS (win32 vs posix)
oslib-obj-y = osdep.o
oslib-obj-$(CONFIG_WIN32) += oslib-win32.o qemu-thread-win32.o
oslib-obj-$(CONFIG_POSIX) += oslib-posix.o qemu-thread-posix.o
coroutine: introduce coroutines Asynchronous code is becoming very complex. At the same time synchronous code is growing because it is convenient to write. Sometimes duplicate code paths are even added, one synchronous and the other asynchronous. This patch introduces coroutines which allow code that looks synchronous but is asynchronous under the covers. A coroutine has its own stack and is therefore able to preserve state across blocking operations, which traditionally require callback functions and manual marshalling of parameters. Creating and starting a coroutine is easy: coroutine = qemu_coroutine_create(my_coroutine); qemu_coroutine_enter(coroutine, my_data); The coroutine then executes until it returns or yields: void coroutine_fn my_coroutine(void *opaque) { MyData *my_data = opaque; /* do some work */ qemu_coroutine_yield(); /* do some more work */ } Yielding switches control back to the caller of qemu_coroutine_enter(). This is typically used to switch back to the main thread's event loop after issuing an asynchronous I/O request. The request callback will then invoke qemu_coroutine_enter() once more to switch back to the coroutine. Note that if coroutines are used only from threads which hold the global mutex they will never execute concurrently. This makes programming with coroutines easier than with threads. Race conditions cannot occur since only one coroutine may be active at any time. Other coroutines can only run across yield. This coroutines implementation is based on the gtk-vnc implementation written by Anthony Liguori <anthony@codemonkey.ws> but it has been significantly rewritten by Kevin Wolf <kwolf@redhat.com> to use setjmp()/longjmp() instead of the more expensive swapcontext() and by Paolo Bonzini <pbonzini@redhat.com> for Windows Fibers support. Signed-off-by: Kevin Wolf <kwolf@redhat.com> Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
2011-01-17 19:08:14 +03:00
#######################################################################
# coroutines
coroutine-obj-y = qemu-coroutine.o qemu-coroutine-lock.o qemu-coroutine-io.o
ifeq ($(CONFIG_UCONTEXT_COROUTINE),y)
coroutine: introduce coroutines Asynchronous code is becoming very complex. At the same time synchronous code is growing because it is convenient to write. Sometimes duplicate code paths are even added, one synchronous and the other asynchronous. This patch introduces coroutines which allow code that looks synchronous but is asynchronous under the covers. A coroutine has its own stack and is therefore able to preserve state across blocking operations, which traditionally require callback functions and manual marshalling of parameters. Creating and starting a coroutine is easy: coroutine = qemu_coroutine_create(my_coroutine); qemu_coroutine_enter(coroutine, my_data); The coroutine then executes until it returns or yields: void coroutine_fn my_coroutine(void *opaque) { MyData *my_data = opaque; /* do some work */ qemu_coroutine_yield(); /* do some more work */ } Yielding switches control back to the caller of qemu_coroutine_enter(). This is typically used to switch back to the main thread's event loop after issuing an asynchronous I/O request. The request callback will then invoke qemu_coroutine_enter() once more to switch back to the coroutine. Note that if coroutines are used only from threads which hold the global mutex they will never execute concurrently. This makes programming with coroutines easier than with threads. Race conditions cannot occur since only one coroutine may be active at any time. Other coroutines can only run across yield. This coroutines implementation is based on the gtk-vnc implementation written by Anthony Liguori <anthony@codemonkey.ws> but it has been significantly rewritten by Kevin Wolf <kwolf@redhat.com> to use setjmp()/longjmp() instead of the more expensive swapcontext() and by Paolo Bonzini <pbonzini@redhat.com> for Windows Fibers support. Signed-off-by: Kevin Wolf <kwolf@redhat.com> Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
2011-01-17 19:08:14 +03:00
coroutine-obj-$(CONFIG_POSIX) += coroutine-ucontext.o
else
coroutine-obj-$(CONFIG_POSIX) += coroutine-gthread.o
endif
coroutine: introduce coroutines Asynchronous code is becoming very complex. At the same time synchronous code is growing because it is convenient to write. Sometimes duplicate code paths are even added, one synchronous and the other asynchronous. This patch introduces coroutines which allow code that looks synchronous but is asynchronous under the covers. A coroutine has its own stack and is therefore able to preserve state across blocking operations, which traditionally require callback functions and manual marshalling of parameters. Creating and starting a coroutine is easy: coroutine = qemu_coroutine_create(my_coroutine); qemu_coroutine_enter(coroutine, my_data); The coroutine then executes until it returns or yields: void coroutine_fn my_coroutine(void *opaque) { MyData *my_data = opaque; /* do some work */ qemu_coroutine_yield(); /* do some more work */ } Yielding switches control back to the caller of qemu_coroutine_enter(). This is typically used to switch back to the main thread's event loop after issuing an asynchronous I/O request. The request callback will then invoke qemu_coroutine_enter() once more to switch back to the coroutine. Note that if coroutines are used only from threads which hold the global mutex they will never execute concurrently. This makes programming with coroutines easier than with threads. Race conditions cannot occur since only one coroutine may be active at any time. Other coroutines can only run across yield. This coroutines implementation is based on the gtk-vnc implementation written by Anthony Liguori <anthony@codemonkey.ws> but it has been significantly rewritten by Kevin Wolf <kwolf@redhat.com> to use setjmp()/longjmp() instead of the more expensive swapcontext() and by Paolo Bonzini <pbonzini@redhat.com> for Windows Fibers support. Signed-off-by: Kevin Wolf <kwolf@redhat.com> Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
2011-01-17 19:08:14 +03:00
coroutine-obj-$(CONFIG_WIN32) += coroutine-win32.o
#######################################################################
# block-obj-y is code used by both qemu system emulation and qemu-img
block-obj-y = cutils.o cache-utils.o qemu-option.o module.o async.o
block-obj-y += nbd.o block.o aio.o aes.o qemu-config.o qemu-progress.o qemu-sockets.o
block-obj-y += $(coroutine-obj-y) $(qobject-obj-y) $(version-obj-y)
block-obj-$(CONFIG_POSIX) += posix-aio-compat.o
block-obj-$(CONFIG_LINUX_AIO) += linux-aio.o
block: separate raw images from the file protocol We're running into various problems because the "raw" file access, which is used internally by the various image formats is entangled with the "raw" image format, which maps the VM view 1:1 to a file system. This patch renames the raw file backends to the file protocol which is treated like other protocols (e.g. nbd and http) and adds a new "raw" image format which is just a wrapper around calls to the underlying protocol. The patch is surprisingly simple, besides changing the probing logical in block.c to only look for image formats when using bdrv_open and renaming of the old raw protocols to file there's almost nothing in there. For creating images, a new bdrv_create_file is introduced which guesses the protocol to use. This allows using qemu-img create -f raw (or just using the default) for both files and host devices. Converting the other format drivers to use this function to create their images is left for later patches. The only issues still open are in the handling of the host devices. Firstly in current qemu we can specifiy the host* format names on various command line acceping images, but the new code can't do that without adding some translation. Second the layering breaks the no_zero_init flag in the BlockDriver used by qemu-img. I'm not happy how this is done per-driver instead of per-state so I'll prepare a separate patch to clean this up. There's some more cleanup opportunity after this patch, e.g. using separate lists and registration functions for image formats vs protocols and maybe even host drivers, but this can be done at a later stage. Also there's a check for protocol in bdrv_open for the BDRV_O_SNAPSHOT case that I don't quite understand, but which I fear won't work as expected - possibly even before this patch. Note that this patch requires various recent block patches from Kevin and me, which should all be in his block queue. Signed-off-by: Christoph Hellwig <hch@lst.de> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
2010-04-08 00:30:24 +04:00
block-nested-y += raw.o cow.o qcow.o vdi.o vmdk.o cloop.o dmg.o bochs.o vpc.o vvfat.o
block-nested-y += qcow2.o qcow2-refcount.o qcow2-cluster.o qcow2-snapshot.o qcow2-cache.o
block-nested-y += qed.o qed-gencb.o qed-l2-cache.o qed-table.o qed-cluster.o
block-nested-y += qed-check.o
block-nested-y += parallels.o nbd.o blkdebug.o sheepdog.o blkverify.o
block-nested-$(CONFIG_WIN32) += raw-win32.o
block-nested-$(CONFIG_POSIX) += raw-posix.o
iSCSI block driver This provides built-in support for iSCSI to QEMU. This has the advantage that the iSCSI devices need not be made visible to the host, which is useful if you have very many virtual machines and very many iscsi devices. It also has the benefit that non-root users of QEMU can access iSCSI devices across the network without requiring root privilege on the host. This driver interfaces with the multiplatform posix library for iscsi initiator/client access to iscsi devices hosted at git://github.com/sahlberg/libiscsi.git The patch adds the driver to interface with the iscsi library. It also updated the configure script to * by default, probe is libiscsi is available and if so, build qemu against libiscsi. * --enable-libiscsi Force a build against libiscsi. If libiscsi is not available the build will fail. * --disable-libiscsi Do not link against libiscsi, even if it is available. When linked with libiscsi, qemu gains support to access iscsi resources such as disks and cdrom directly, without having to make the devices visible to the host. You can specify devices using a iscsi url of the form : iscsi://[<username>[:<password>@]]<host>[:<port]/<target-iqn-name>/<lun> When using authentication, the password can optionally be set with LIBISCSI_CHAP_PASSWORD="password" to avoid it showing up in the process list Signed-off-by: Ronnie Sahlberg <ronniesahlberg@gmail.com> Reviewed-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
2011-10-25 12:24:24 +04:00
block-nested-$(CONFIG_LIBISCSI) += iscsi.o
block-nested-$(CONFIG_CURL) += curl.o
block-nested-$(CONFIG_RBD) += rbd.o
block-obj-y += $(addprefix block/, $(block-nested-y))
net-obj-y = net.o
net-nested-y = queue.o checksum.o util.o
net-nested-y += socket.o
net-nested-y += dump.o
net-nested-$(CONFIG_POSIX) += tap.o
net-nested-$(CONFIG_LINUX) += tap-linux.o
net-nested-$(CONFIG_WIN32) += tap-win32.o
net-nested-$(CONFIG_BSD) += tap-bsd.o
net-nested-$(CONFIG_SOLARIS) += tap-solaris.o
net-nested-$(CONFIG_AIX) += tap-aix.o
net-nested-$(CONFIG_HAIKU) += tap-haiku.o
net-nested-$(CONFIG_SLIRP) += slirp.o
net-nested-$(CONFIG_VDE) += vde.o
net-obj-y += $(addprefix net/, $(net-nested-y))
ifeq ($(CONFIG_VIRTIO)$(CONFIG_VIRTFS)$(CONFIG_PCI),yyy)
# Lots of the fsdev/9pcode is pulled in by vl.c via qemu_fsdev_add.
# only pull in the actual virtio-9p device if we also enabled virtio.
CONFIG_REALLY_VIRTFS=y
fsdev-nested-y = qemu-fsdev.o virtio-9p-marshal.o
else
fsdev-nested-y = qemu-fsdev-dummy.o
endif
fsdev-obj-$(CONFIG_VIRTFS) += $(addprefix fsdev/, $(fsdev-nested-y))
######################################################################
# Target independent part of system emulation. The long term path is to
# suppress *all* target specific code in case of system emulation, i.e. a
# single QEMU executable should support all CPUs and machines.
common-obj-y = $(block-obj-y) blockdev.o
common-obj-y += $(net-obj-y)
common-obj-y += $(qobject-obj-y)
common-obj-$(CONFIG_LINUX) += $(fsdev-obj-$(CONFIG_LINUX))
common-obj-y += readline.o console.o cursor.o
common-obj-y += $(oslib-obj-y)
common-obj-$(CONFIG_WIN32) += os-win32.o
common-obj-$(CONFIG_POSIX) += os-posix.o
common-obj-y += tcg-runtime.o host-utils.o main-loop.o
common-obj-y += irq.o input.o
common-obj-$(CONFIG_PTIMER) += ptimer.o
common-obj-$(CONFIG_MAX7310) += max7310.o
common-obj-$(CONFIG_WM8750) += wm8750.o
common-obj-$(CONFIG_TWL92230) += twl92230.o
common-obj-$(CONFIG_TSC2005) += tsc2005.o
common-obj-$(CONFIG_LM832X) += lm832x.o
common-obj-$(CONFIG_TMP105) += tmp105.o
common-obj-$(CONFIG_STELLARIS_INPUT) += stellaris_input.o
common-obj-$(CONFIG_SSD0303) += ssd0303.o
common-obj-$(CONFIG_SSD0323) += ssd0323.o
common-obj-$(CONFIG_ADS7846) += ads7846.o
common-obj-$(CONFIG_MAX111X) += max111x.o
common-obj-$(CONFIG_DS1338) += ds1338.o
common-obj-y += i2c.o smbus.o smbus_eeprom.o
common-obj-y += eeprom93xx.o
common-obj-y += scsi-disk.o cdrom.o
common-obj-y += scsi-generic.o scsi-bus.o
common-obj-y += hid.o
common-obj-y += usb.o usb-hub.o usb-$(HOST_USB).o usb-hid.o usb-msd.o usb-wacom.o
common-obj-y += usb-serial.o usb-net.o usb-bus.o usb-desc.o usb-audio.o
common-obj-$(CONFIG_SSI) += ssi.o
common-obj-$(CONFIG_SSI_SD) += ssi-sd.o
common-obj-$(CONFIG_SD) += sd.o
common-obj-y += bt.o bt-host.o bt-vhci.o bt-l2cap.o bt-sdp.o bt-hci.o bt-hid.o usb-bt.o
common-obj-y += bt-hci-csr.o
common-obj-y += buffered_file.o migration.o migration-tcp.o
common-obj-y += qemu-char.o #aio.o
common-obj-y += msmouse.o ps2.o
common-obj-y += qdev.o qdev-properties.o
common-obj-y += block-migration.o iohandler.o
common-obj-y += pflib.o
common-obj-y += bitmap.o bitops.o
common-obj-$(CONFIG_BRLAPI) += baum.o
common-obj-$(CONFIG_POSIX) += migration-exec.o migration-unix.o migration-fd.o
common-obj-$(CONFIG_WIN32) += version.o
common-obj-$(CONFIG_SPICE) += ui/spice-core.o ui/spice-input.o ui/spice-display.o spice-qemu-char.o
audio-obj-y = audio.o noaudio.o wavaudio.o mixeng.o
audio-obj-$(CONFIG_SDL) += sdlaudio.o
audio-obj-$(CONFIG_OSS) += ossaudio.o
audio-obj-$(CONFIG_SPICE) += spiceaudio.o
audio-obj-$(CONFIG_COREAUDIO) += coreaudio.o
audio-obj-$(CONFIG_ALSA) += alsaaudio.o
audio-obj-$(CONFIG_DSOUND) += dsoundaudio.o
audio-obj-$(CONFIG_FMOD) += fmodaudio.o
audio-obj-$(CONFIG_ESD) += esdaudio.o
audio-obj-$(CONFIG_PA) += paaudio.o
audio-obj-$(CONFIG_WINWAVE) += winwaveaudio.o
audio-obj-$(CONFIG_AUDIO_PT_INT) += audio_pt_int.o
audio-obj-$(CONFIG_AUDIO_WIN_INT) += audio_win_int.o
audio-obj-y += wavcapture.o
common-obj-y += $(addprefix audio/, $(audio-obj-y))
ui-obj-y += keymaps.o
ui-obj-$(CONFIG_SDL) += sdl.o sdl_zoom.o x_keymap.o
ui-obj-$(CONFIG_COCOA) += cocoa.o
ui-obj-$(CONFIG_CURSES) += curses.o
vnc-obj-y += vnc.o d3des.o
vnc-obj-y += vnc-enc-zlib.o vnc-enc-hextile.o
vnc-obj-y += vnc-enc-tight.o vnc-palette.o
vnc-obj-y += vnc-enc-zrle.o
vnc-obj-$(CONFIG_VNC_TLS) += vnc-tls.o vnc-auth-vencrypt.o
vnc-obj-$(CONFIG_VNC_SASL) += vnc-auth-sasl.o
ifdef CONFIG_VNC_THREAD
vnc-obj-y += vnc-jobs-async.o
else
vnc-obj-y += vnc-jobs-sync.o
endif
common-obj-y += $(addprefix ui/, $(ui-obj-y))
common-obj-$(CONFIG_VNC) += $(addprefix ui/, $(vnc-obj-y))
common-obj-y += iov.o acl.o
common-obj-$(CONFIG_POSIX) += compatfd.o
common-obj-y += notify.o event_notifier.o
common-obj-y += qemu-timer.o qemu-timer-common.o
slirp-obj-y = cksum.o if.o ip_icmp.o ip_input.o ip_output.o
slirp-obj-y += slirp.o mbuf.o misc.o sbuf.o socket.o tcp_input.o tcp_output.o
slirp-obj-y += tcp_subr.o tcp_timer.o udp.o bootp.o tftp.o arp_table.o
common-obj-$(CONFIG_SLIRP) += $(addprefix slirp/, $(slirp-obj-y))
# xen backend driver support
common-obj-$(CONFIG_XEN_BACKEND) += xen_backend.o xen_devconfig.o
common-obj-$(CONFIG_XEN_BACKEND) += xen_console.o xenfb.o xen_disk.o xen_nic.o
######################################################################
# libuser
user-obj-y =
user-obj-y += envlist.o path.o
user-obj-y += tcg-runtime.o host-utils.o
user-obj-y += cutils.o cache-utils.o
user-obj-y += $(trace-obj-y)
######################################################################
# libhw
hw-obj-y =
hw-obj-y += vl.o loader.o
hw-obj-$(CONFIG_VIRTIO) += virtio-console.o
hw-obj-y += usb-libhw.o
hw-obj-$(CONFIG_VIRTIO_PCI) += virtio-pci.o
hw-obj-y += fw_cfg.o
hw-obj-$(CONFIG_PCI) += pci.o pci_bridge.o
hw-obj-$(CONFIG_PCI) += msix.o msi.o
hw-obj-$(CONFIG_PCI) += pci_host.o pcie_host.o
hw-obj-$(CONFIG_PCI) += ioh3420.o xio3130_upstream.o xio3130_downstream.o
hw-obj-y += watchdog.o
hw-obj-$(CONFIG_ISA_MMIO) += isa_mmio.o
hw-obj-$(CONFIG_ECC) += ecc.o
hw-obj-$(CONFIG_NAND) += nand.o
hw-obj-$(CONFIG_PFLASH_CFI01) += pflash_cfi01.o
hw-obj-$(CONFIG_PFLASH_CFI02) += pflash_cfi02.o
hw-obj-$(CONFIG_M48T59) += m48t59.o
hw-obj-$(CONFIG_ESCC) += escc.o
hw-obj-$(CONFIG_EMPTY_SLOT) += empty_slot.o
hw-obj-$(CONFIG_SERIAL) += serial.o
hw-obj-$(CONFIG_PARALLEL) += parallel.o
hw-obj-$(CONFIG_I8254) += i8254.o
hw-obj-$(CONFIG_PCSPK) += pcspk.o
hw-obj-$(CONFIG_PCKBD) += pckbd.o
hw-obj-$(CONFIG_USB_UHCI) += usb-uhci.o
hw-obj-$(CONFIG_USB_OHCI) += usb-ohci.o
hw-obj-$(CONFIG_USB_EHCI) += usb-ehci.o
hw-obj-$(CONFIG_USB_XHCI) += usb-xhci.o
hw-obj-$(CONFIG_FDC) += fdc.o
hw-obj-$(CONFIG_ACPI) += acpi.o acpi_piix4.o
hw-obj-$(CONFIG_APM) += pm_smbus.o apm.o
hw-obj-$(CONFIG_DMA) += dma.o
hw-obj-$(CONFIG_I82374) += i82374.o
hw-obj-$(CONFIG_HPET) += hpet.o
hw-obj-$(CONFIG_APPLESMC) += applesmc.o
ccid: add passthru card device The passthru ccid card is a device sitting on the usb-ccid bus and using a chardevice to communicate with a remote device using the VSCard protocol defined in libcacard/vscard_common.h Usage docs available in following patch in docs/ccid.txt Signed-off-by: Alon Levy <alevy@redhat.com> --- Changes from v23->v24: * fixed double license line in header. Changes from v20->v21: (Jes Sorensen review) * add reference to COPYING in header * long comment reformatting Changes from v19->v20: * checkpatch.pl Changes from v18->v19: * add qdev.desc * remove .qdev.unplug (no hot unplug support for ccid bus) Changes from v16->v17: * fix wrong cast when receiving VSC_Error * ccid-card-passthru: force chardev user wakeup by sending Init see lengthy comment below. Changes from v15->v16: Behavioral changes: * return correct size * return error instead of assert if client sent too large ATR * don't assert if client sent too large a size, but add asserts for indices to buffer * reset vscard_in indices on chardev disconnect * handle init from client * error if no chardev supplied * use ntoh, hton * eradicate reader_id_t * remove Reconnect usage (removed from VSCARD protocol) * send VSC_SUCCESS on card insert/remove and reader add/remove Style fixes: * width of line fix * update copyright * remove old TODO's * update file header comment * use macros for debug levels * c++ style comment replacement * update copyright license * fix ATR size comment * fix whitespace in struct def * fix DPRINTF prefix * line width fix ccid-card-passthru: force chardev user wakeup by sending Init The problem: how to wakeup the user of the smartcard when the smartcard device is initialized? Long term solution: have a callback interface. This was done via the deprecated so called chardev ioctl interface. Short term solution: do a write. Specifically we write an Init message. And we change the client to send it's own Init message regardless of receiving this one. Additional Init messages will be regarded as acceptable, the first one received after connection establishment is the determining one wrt capabilities.
2010-10-17 15:10:32 +04:00
hw-obj-$(CONFIG_SMARTCARD) += usb-ccid.o ccid-card-passthru.o
hw-obj-$(CONFIG_SMARTCARD_NSS) += ccid-card-emulated.o
hw-obj-$(CONFIG_USB_REDIR) += usb-redir.o
hw-obj-$(CONFIG_I8259) += i8259_common.o i8259.o
# PPC devices
hw-obj-$(CONFIG_PREP_PCI) += prep_pci.o
hw-obj-$(CONFIG_I82378) += i82378.o
# Mac shared devices
hw-obj-$(CONFIG_MACIO) += macio.o
hw-obj-$(CONFIG_CUDA) += cuda.o
hw-obj-$(CONFIG_ADB) += adb.o
hw-obj-$(CONFIG_MAC_NVRAM) += mac_nvram.o
hw-obj-$(CONFIG_MAC_DBDMA) += mac_dbdma.o
# OldWorld PowerMac
hw-obj-$(CONFIG_HEATHROW_PIC) += heathrow_pic.o
hw-obj-$(CONFIG_GRACKLE_PCI) += grackle_pci.o
# NewWorld PowerMac
hw-obj-$(CONFIG_UNIN_PCI) += unin_pci.o
hw-obj-$(CONFIG_DEC_PCI) += dec_pci.o
# PowerPC E500 boards
hw-obj-$(CONFIG_PPCE500_PCI) += ppce500_pci.o
# MIPS devices
hw-obj-$(CONFIG_PIIX4) += piix4.o
hw-obj-$(CONFIG_G364FB) += g364fb.o
# PCI watchdog devices
hw-obj-$(CONFIG_PCI) += wdt_i6300esb.o
hw-obj-$(CONFIG_PCI) += pcie.o pcie_aer.o pcie_port.o
# PCI network cards
hw-obj-$(CONFIG_NE2000_PCI) += ne2000.o
hw-obj-$(CONFIG_EEPRO100_PCI) += eepro100.o
hw-obj-$(CONFIG_PCNET_PCI) += pcnet-pci.o
hw-obj-$(CONFIG_PCNET_COMMON) += pcnet.o
hw-obj-$(CONFIG_E1000_PCI) += e1000.o
hw-obj-$(CONFIG_RTL8139_PCI) += rtl8139.o
hw-obj-$(CONFIG_SMC91C111) += smc91c111.o
hw-obj-$(CONFIG_LAN9118) += lan9118.o
hw-obj-$(CONFIG_NE2000_ISA) += ne2000-isa.o
hw-obj-$(CONFIG_OPENCORES_ETH) += opencores_eth.o
# IDE
hw-obj-$(CONFIG_IDE_CORE) += ide/core.o ide/atapi.o
hw-obj-$(CONFIG_IDE_QDEV) += ide/qdev.o
hw-obj-$(CONFIG_IDE_PCI) += ide/pci.o
hw-obj-$(CONFIG_IDE_ISA) += ide/isa.o
hw-obj-$(CONFIG_IDE_PIIX) += ide/piix.o
hw-obj-$(CONFIG_IDE_CMD646) += ide/cmd646.o
hw-obj-$(CONFIG_IDE_MACIO) += ide/macio.o
hw-obj-$(CONFIG_IDE_VIA) += ide/via.o
hw-obj-$(CONFIG_AHCI) += ide/ahci.o
hw-obj-$(CONFIG_AHCI) += ide/ich.o
# SCSI layer
hw-obj-$(CONFIG_LSI_SCSI_PCI) += lsi53c895a.o
hw-obj-$(CONFIG_ESP) += esp.o
hw-obj-y += dma-helpers.o sysbus.o isa-bus.o
hw-obj-y += qdev-addr.o container.o
# VGA
hw-obj-$(CONFIG_VGA_PCI) += vga-pci.o
hw-obj-$(CONFIG_VGA_ISA) += vga-isa.o
hw-obj-$(CONFIG_VGA_ISA_MM) += vga-isa-mm.o
hw-obj-$(CONFIG_VMWARE_VGA) += vmware_vga.o
hw-obj-$(CONFIG_VMMOUSE) += vmmouse.o
hw-obj-$(CONFIG_VGA_CIRRUS) += cirrus_vga.o
hw-obj-$(CONFIG_RC4030) += rc4030.o
hw-obj-$(CONFIG_DP8393X) += dp8393x.o
hw-obj-$(CONFIG_DS1225Y) += ds1225y.o
hw-obj-$(CONFIG_MIPSNET) += mipsnet.o
# Sound
sound-obj-y =
sound-obj-$(CONFIG_SB16) += sb16.o
sound-obj-$(CONFIG_ES1370) += es1370.o
sound-obj-$(CONFIG_AC97) += ac97.o
sound-obj-$(CONFIG_ADLIB) += fmopl.o adlib.o
sound-obj-$(CONFIG_GUS) += gus.o gusemu_hal.o gusemu_mixer.o
sound-obj-$(CONFIG_CS4231A) += cs4231a.o
sound-obj-$(CONFIG_HDA) += intel-hda.o hda-audio.o
adlib.o fmopl.o: QEMU_CFLAGS += -DBUILD_Y8950=0
hw-obj-$(CONFIG_SOUND) += $(sound-obj-y)
9pfs-nested-$(CONFIG_VIRTFS) = virtio-9p.o
9pfs-nested-$(CONFIG_VIRTFS) += virtio-9p-local.o virtio-9p-xattr.o
9pfs-nested-$(CONFIG_VIRTFS) += virtio-9p-xattr-user.o virtio-9p-posix-acl.o
9pfs-nested-$(CONFIG_VIRTFS) += virtio-9p-coth.o cofs.o codir.o cofile.o
9pfs-nested-$(CONFIG_VIRTFS) += coxattr.o virtio-9p-synth.o
9pfs-nested-$(CONFIG_OPEN_BY_HANDLE) += virtio-9p-handle.o
9pfs-nested-$(CONFIG_VIRTFS) += virtio-9p-proxy.o
hw-obj-$(CONFIG_REALLY_VIRTFS) += $(addprefix 9pfs/, $(9pfs-nested-y))
$(addprefix 9pfs/, $(9pfs-nested-y)): QEMU_CFLAGS+=$(GLIB_CFLAGS)
######################################################################
# libdis
# NOTE: the disassembler code is only needed for debugging
libdis-y =
libdis-$(CONFIG_ALPHA_DIS) += alpha-dis.o
libdis-$(CONFIG_ARM_DIS) += arm-dis.o
libdis-$(CONFIG_CRIS_DIS) += cris-dis.o
libdis-$(CONFIG_HPPA_DIS) += hppa-dis.o
libdis-$(CONFIG_I386_DIS) += i386-dis.o
libdis-$(CONFIG_IA64_DIS) += ia64-dis.o
libdis-$(CONFIG_M68K_DIS) += m68k-dis.o
libdis-$(CONFIG_MICROBLAZE_DIS) += microblaze-dis.o
libdis-$(CONFIG_MIPS_DIS) += mips-dis.o
libdis-$(CONFIG_PPC_DIS) += ppc-dis.o
libdis-$(CONFIG_S390_DIS) += s390-dis.o
libdis-$(CONFIG_SH4_DIS) += sh4-dis.o
libdis-$(CONFIG_SPARC_DIS) += sparc-dis.o
######################################################################
# trace
ifeq ($(TRACE_BACKEND),dtrace)
trace.h: trace.h-timestamp trace-dtrace.h
else
trace.h: trace.h-timestamp
endif
trace.h-timestamp: $(SRC_PATH)/trace-events $(BUILD_DIR)/config-host.mak
$(call quiet-command,sh $(SRC_PATH)/scripts/tracetool --$(TRACE_BACKEND) -h < $< > $@," GEN trace.h")
@cmp -s $@ trace.h || cp $@ trace.h
trace.c: trace.c-timestamp
trace.c-timestamp: $(SRC_PATH)/trace-events $(BUILD_DIR)/config-host.mak
$(call quiet-command,sh $(SRC_PATH)/scripts/tracetool --$(TRACE_BACKEND) -c < $< > $@," GEN trace.c")
@cmp -s $@ trace.c || cp $@ trace.c
trace.o: trace.c $(GENERATED_HEADERS)
trace-dtrace.h: trace-dtrace.dtrace
$(call quiet-command,dtrace -o $@ -h -s $<, " GEN trace-dtrace.h")
# Normal practice is to name DTrace probe file with a '.d' extension
# but that gets picked up by QEMU's Makefile as an external dependency
# rule file. So we use '.dtrace' instead
trace-dtrace.dtrace: trace-dtrace.dtrace-timestamp
trace-dtrace.dtrace-timestamp: $(SRC_PATH)/trace-events $(BUILD_DIR)/config-host.mak
$(call quiet-command,sh $(SRC_PATH)/scripts/tracetool --$(TRACE_BACKEND) -d < $< > $@," GEN trace-dtrace.dtrace")
@cmp -s $@ trace-dtrace.dtrace || cp $@ trace-dtrace.dtrace
trace-dtrace.o: trace-dtrace.dtrace $(GENERATED_HEADERS)
$(call quiet-command,dtrace -o $@ -G -s $<, " GEN trace-dtrace.o")
ifeq ($(LIBTOOL),)
trace-dtrace.lo: trace-dtrace.dtrace
@echo "missing libtool. please install and rerun configure."; exit 1
else
trace-dtrace.lo: trace-dtrace.dtrace
$(call quiet-command,$(LIBTOOL) --mode=compile --tag=CC dtrace -o $@ -G -s $<, " lt GEN trace-dtrace.o")
endif
trace/simple.o: trace/simple.c $(GENERATED_HEADERS)
trace-obj-$(CONFIG_TRACE_DTRACE) += trace-dtrace.o
ifneq ($(TRACE_BACKEND),dtrace)
trace-obj-y = trace.o
Add a DTrace tracing backend targetted for SystemTAP compatability This introduces a new tracing backend that targets the SystemTAP implementation of DTrace userspace tracing. The core functionality should be applicable and standard across any DTrace implementation on Solaris, OS-X, *BSD, but the Makefile rules will likely need some small additional changes to cope with OS specific build requirements. This backend builds a little differently from the other tracing backends. Specifically there is no 'trace.c' file, because the 'dtrace' command line tool generates a '.o' file directly from the dtrace probe definition file. The probe definition is usually named with a '.d' extension but QEMU uses '.d' files for its external makefile dependancy tracking, so this uses '.dtrace' as the extension for the probe definition file. The 'tracetool' program gains the ability to generate a trace.h file for DTrace, and also to generate the trace.d file containing the dtrace probe definition. Example usage of a dtrace probe in systemtap looks like: probe process("qemu").mark("qemu_malloc") { printf("Malloc %d %p\n", $arg1, $arg2); } * .gitignore: Ignore trace-dtrace.* * Makefile: Extra rules for generating DTrace files * Makefile.obj: Don't build trace.o for DTrace, use trace-dtrace.o generated by 'dtrace' instead * tracetool: Support for generating DTrace data files Reviewed-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com> Signed-off-by: Daniel P. Berrange <berrange@redhat.com> Signed-off-by: Anthony Liguori <aliguori@us.ibm.com>
2010-11-12 16:20:24 +03:00
endif
trace-nested-$(CONFIG_TRACE_DEFAULT) += default.o
trace-nested-$(CONFIG_TRACE_SIMPLE) += simple.o
trace-obj-$(CONFIG_TRACE_SIMPLE) += qemu-timer-common.o
trace-nested-$(CONFIG_TRACE_STDERR) += stderr.o
trace-nested-y += control.o
trace-obj-y += $(addprefix trace/, $(trace-nested-y))
$(trace-obj-y): $(GENERATED_HEADERS)
libcacard: initial commit libcacard emulates a Common Access Card (CAC) which is a standard for smartcards. It is used by the emulated ccid card introduced in a following patch. Docs are available in docs/libcacard.txt Signed-off-by: Alon Levy <alevy@redhat.com> --- changes from v24->v25: * Fix out of tree builds. * Fix build with linux-user targets. changes from v23->v24: (Jes Sorensen review 2) * Makefile.target: use obj-$(CONFIG_*) += * remove unrequired includes, include qemu-common before qemu-thread * required adding #define NO_NSPR_10_SUPPORT (harmless) changes from v22->v23: * configure fixes: (reported by Stefan Hajnoczi) * test a = b, not a == b (second isn't portable) * quote $source_path in case it contains spaces - this doesn't really help since there are many other places that need similar fixes, not introduced by this patch. changes from v21->v22: * fix configure to not link libcacard if nss not found (reported by Stefan Hajnoczi) * fix vscclient linkage with simpletrace backend (reported by Stefan Hajnoczi) * card_7816.c: add missing break in ERROR_DATA_NOT_FOUND (reported by William van de Velde) changes from v20->v21: (Jes Sorensen review) * use qemu infrastructure: qemu-thread, qemu-common (qemu_malloc and qemu_free), error_report * assert instead of ASSERT * cosmetic fixes * use strpbrk and isspace * add --disable-nss --enable-nss here, instead of in the final patch. * split vscclient, passthru and docs to following patches. changes from v19->v20: * checkpatch.pl changes from v15->v16: Build: * don't erase self with distclean * fix make clean after make distclean * Makefile: make vscclient link quiet Behavioral: * vcard_emul_nss: load coolkey in more situations * vscclient: * use hton,ntoh * send init on connect, only start vevent thread on response * read payload after header check, before type switch * remove Reconnect * update for vscard_common changes, empty Flush implementation Style/Whitespace: * fix wrong variable usage * remove unused variable * use only C style comments * add copyright header * fix tabulation Signed-off-by: Alon Levy <alevy@redhat.com> libcacard: fix out of tree builds
2010-11-28 17:36:38 +03:00
######################################################################
# smartcard
libcacard-y = cac.o event.o vcard.o vreader.o vcard_emul_nss.o vcard_emul_type.o card_7816.o
######################################################################
# qapi
qapi-nested-y = qapi-visit-core.o qmp-input-visitor.o qmp-output-visitor.o qapi-dealloc-visitor.o
qapi-nested-y += qmp-registry.o qmp-dispatch.o
qapi-obj-y = $(addprefix qapi/, $(qapi-nested-y))
common-obj-y += qmp-marshal.o qapi-visit.o qapi-types.o $(qapi-obj-y)
common-obj-y += qmp.o hmp.o
######################################################################
# guest agent
qga-nested-y = guest-agent-commands.o guest-agent-command-state.o
qga-obj-y = $(addprefix qga/, $(qga-nested-y))
qga-obj-y += qemu-ga.o qemu-sockets.o module.o qemu-option.o
qga-obj-$(CONFIG_WIN32) += oslib-win32.o
qga-obj-$(CONFIG_POSIX) += oslib-posix.o
vl.o: QEMU_CFLAGS+=$(GPROF_CFLAGS)
vl.o: QEMU_CFLAGS+=$(SDL_CFLAGS)
QEMU_CFLAGS+=$(GLIB_CFLAGS)