This patch fills in the first implementation for one of the
virNetworkUpdate sections. With this code, you can now add/delete/edit
<host> entries in a network's <ip> address <dhcp> element (by
specifying a section of VIR_NETWORK_SECTION_IP_DHCP_HOST).
If you pass in a parentIndex of -1, the code will automatically find
the one ip element that has a <dhcp> section and make the updates
there. Otherwise, you can specify an index >= 0, and libvirt will look
for that particular instance of <ip> in the network, and modify its
<dhcp> element. (This currently isn't very useful, because libvirt
only supports having dhcp information on a single IP address, but that
could change in the future).
When adding a new host entry
(VIR_NETWORK_UPDATE_COMMAND_ADD_(FIRST|LAST)), the existing entries
will be compared to the new entry, and if any non-empty attribute
matches, the add will fail. When updating an existing entry
(VIR_NETWORK_UPDATE_COMMAND_MODIFY), the mac address or name will be
used to find the existing entry, and other fields will only be updated
(note there is some potential for ambiguity here if you specify the
mac address from one entry and the name from another). When deleting
an existing entry (VIR_NETWORK_UPDATE_COMMAND_DELETE), all non-empty
attributes in the supplied xml arg will be compared - all of them must
match before libvirt will delete the host.
The xml should be a fully formed <host> element as it would appear in
a network definition, e.g. "<host mac=00:11:22:33:44:55 ip=10.1.23.22
name='testbox'/>" (when adding/updating, ip and one of mac|name is
required; when deleting, you can specify any one, two, or all
attributes, but they all must match the target element).
As with the update of any other section, you can choose to affect the
live config (with flag VIR_NETWORK_UPDATE_AFFECT_LIVE), the persistent
config (VIR_NETWORK_UPDATE_AFFECT_CONFIG), or both. If you've chosen
to affect the live config, those changes will take effect immediately,
with no need to destroy/restart the network.
An example of adding a host entry:
virNetworkUpdate(net, VIR_NETWORK_UPDATE_COMMAND_ADD_LAST,
VIR_NETWORK_SECTION_IP_DHCP_HOST, -1,
"<host mac='00:11:22:33:44:55' ip='192.168.122.5'/>",
VIR_NETWORK_UPDATE_AFFECT_LIVE
| VIR_NETWORK_UPDATE_AFFECT_CONFIG);
To delete that same entry:
virNetworkUpdate(net, VIR_NETWORK_UPDATE_COMMAND_DELETE,
VIR_NETWORK_SECTION_IP_DHCP_HOST, -1,
"<host mac='00:11:22:33:44:55'/>",
VIR_NETWORK_UPDATE_AFFECT_LIVE
| VIR_NETWORK_UPDATE_AFFECT_CONFIG);
(you could also delete it by replacing "mac='00:11:22:33:44:55'" with
"ip='192.168.122.5'".)
A user on IRC had accidentally killed all of his libvirt-started
dnsmasq instances (due to a buggy dnsmasq service script in Fedora
16), and had hoped that libvirtd would notice this on restart and
reload all the dnsmasq daemons (as it does with iptables
rules). Unfortunately this was not the case - as long as the network
object had a pid registered for dnsmasq and/or radvd, it assumed that
the processes were running.
This patch takes advantage of the new utility functions in
bridge_driver.c to do a "refresh" of all radvd and dnsmasq processes
started by libvirt each time libvirtd is restarted - this function
attempts to do a SIGHUP of each existing process, and if that fails,
it restarts the process, rebuilding all the associated config files
and commandline parameters in the process. This normally has no
effect, but will be useful in solving the occasional "odd situation"
without needing to take the drastic step of destroying/re-starting the
network.
The test driver does nothing outside of keeping track of each
network's config/state in the in-memory database maintained by
network_conf functions, so all we have to do is call the function that
updates the network's entry in the in-memory database.
Call the network_conf function that modifies the live/persistent/both
config, then refresh/restart dnsmasq/radvd if necessary, and finally
save the config in the proper place(s).
This patch also needed to uncomment a few utility functions that were
added inside #if 0 in the previous commit (to avoid compiler errors
due to unreferenced static functions).
This patch splits the starting of dnsmasq and radvd into multiple
files, and adds new networkRefreshXX() and networkRestartXX()
functions for each. These new functions are currently commented out
because they won't be used until the next commit, and the compile options
require all static functions to be used.
networkRefreshXX() - rewrites any file-based config for dnsmasq/radvd,
and sends SIGHUP to the process to make it reread its config. If the
program isn't already running, it's just started.
networkRestartXX() - kills the given program, waits for it to exit
(see the comments in the function networkKillDaemon()), then calls
networkStartXX().
This commit is here mostly as a checkpoint to verify no change in
functional behavior after refactoring networkStartXX() functions to
fit in with these new functions.
virNetworkObjUpdate takes care of all virNetworkUpdate-related changes
to the data stored in the in-memory virNetworkObj list. It should be
called by network drivers that use this in-memory list.
virNetworkObjUpdate *does not* take care of updating any disk-based
copies of the config, nor does it perform any other operations
necessary to have the new config data take effect (e.g. it won't
re-write dnsmasq host files, nor will it send a SIGHUP to dnsmasq) -
those things should all be taken care of in the network driver
function that calls virNetworkObjUpdate (assuming that it returns
success).
These new functions are highly inspired by those in domain_conf.c (but
not identical), and are intended to make it simpler to update the
various combinations of live/persistent network configs.
The network driver wasn't previously as careful about the separation
between the live "status" in network->def and the persistent "config"
in network->newDef (or sometimes in network->def). This series
attempts to remedy some of that, but probably doesn't go all the way
(enough to get these functions working and enable continued work on
virNetworkUpdate though).
bridge_driver.c and test_driver.c were updated in a few places to take
advantage of the new functions and/or account for changes in argument
lists.
This is very short, because almost everything is autogenerated. All
that's needed are:
* src/remote/remote_driver.c: add pointer to autogenerated
remoteNetworkUpdate to the function table for the remote
network driver.
* src/remote/remote_protocol.x: add the "args" struct and add one more
item to the remote_procedure enum for this function.
* src/remote_protocol-struct: update to match remote_protocol.x
This patch adds a new public API virNetworkUpdate that will permit
updating an existing network configuration without requiring that the
network be destroyed/restarted for the changes to take effect.
This series adds support to run QEMU with seccomp sandbox enabled. It can be
configured in qemu.conf to on, off, or the QEMU default, which is off in 1.2.
Default value is the QEMU default.
On agent EOF the qemuProcessHandleAgentEOF() callback is called
which locks virDomainObjPtr. Then qemuAgentClose() is called
(with domain object locked) which eventually calls qemuAgentDispose()
and qemuProcessHandleAgentDestroy(). This tries to lock the
domain object again. Hence the deadlock.
All of ide-drive, ide-hd, ide-cd, scsi-disk, scsi-hd, and scsi-cd
supports wwn property. (NB, scsi-block doesn't support to set wwn).
* src/qemu/qemu_command.c: Error out if underlying QEMU doesn't
support wwn property for the device; Set wwn for the device otherwise.
* tests/qemuxml2argvdata/qemuxml2argv-disk-ide-wwn.args: New test
* tests/qemuxml2argvdata/qemuxml2argv-disk-ide-wwn.xml: Likewise
* tests/qemuxml2argvdata/qemuxml2argv-disk-scsi-disk-wwn.args: Likewise
* tests/qemuxml2argvdata/qemuxml2argv-disk-scsi-disk-wwn.xml: Likewise
* tests/qemuxml2argvtest.c: Add the new tests.
This assumes ide-drive.wwn, ide-hd.wwn, ide-cd.wwn were supported
at the same time, similar for scsi-disk.wwn, scsi-hd.wwn, and
scsi-cd.wwn. So only two new caps (QEMU_CAPS_IDE_DRIVE_WWN,
and QEMU_CAPS_SCSI_DISK_WWN) are introduced.
Validates the wwn while parsing, error out if it's malformed.
* src/util/util.h: Declare virValidateWWN
* src/util/util.c: Implement virValidateWWN
* src/libvirt_private.syms: Export virValidateWWN.
* src/conf/domain_conf.h: New member 'wwn' for disk def.
* src/conf/domain_conf.c: Parse and format disk <wwn>
Relatively straightforward. Our decision to make block job
speed a long keeps haunting us on new API.
* src/remote/remote_protocol.x (remote_domain_block_commit_args):
New struct.
* src/remote/remote_driver.c (remote_driver): Enable it.
* src/remote_protocol-structs: Regenerate.
* src/rpc/gendispatch.pl (long_legacy): Exempt another bandwidth.
The new command 'virsh blockcommit $dom $disk' requests the start
of an asynchronous commit operation across the entire chain of
$disk. Further arguments can fine-tune which portion of the
chain is committed. Existing 'virsh blockjob' commands can then
track the status, change the bandwidth, or abort the commit job.
With a bit more on the command line, 'virsh blockcommit $dom $disk
--wait --verbose' can be used for blocking behavior, with visual
feedback on the overall status, and can be canceled with Ctrl-C.
The overall design, including the wait loop logic, borrows heavily
from the existing blockpull command.
* tools/virsh-domain.c (cmdBlockCommit): New function.
* tools/virsh.pod (blockcommit): Document it.
A block commit moves data in the opposite direction of block pull.
Block pull reduces the chain length by dropping backing files after
data has been pulled into the top overlay, and is always safe; block
commit reduces the chain length by dropping overlays after data has
been committed into the backing file, and any files that depended
on base but not on top are invalidated at any point where they have
unallocated data that is now pointing to changed contents in base.
Both directions are useful, however: a qcow2 layer that is more than
50% allocated will typically be faster with a pull operation, while
a qcow2 layer with less than 50% allocation will be faster as a
commit operation. Committing across multiple layers can be more
efficient than repeatedly committing one layer at a time, but
requires extra support from the hypervisor.
This API matches Jeff Cody's proposed qemu command 'block-commit':
https://lists.gnu.org/archive/html/qemu-devel/2012-09/msg02226.html
Jeff's command is still in the works for qemu 1.3, and may gain
further enhancements, such as the ability to control on-error
handling (it will be comparable to the error handling Paolo is
adding to 'drive-mirror', so a similar solution will be needed
when I finally propose virDomainBlockCopy with more functionality
than the basics supported by virDomainBlockRebase). However, even
without qemu support, this API will be useful for _offline_ block
commits, by wrapping qemu-img calls and turning them into a block
job, so this API is worth committing now.
For some examples of how this will be implemented, all starting
with the chain: base <- snap1 <- snap2 <- active
+ These are equivalent:
virDomainBlockCommit(dom, disk, NULL, NULL, 0, 0)
virDomainBlockCommit(dom, disk, NULL, "active", 0, 0)
virDomainBlockCommit(dom, disk, "base", NULL, 0, 0)
virDomainBlockCommit(dom, disk, "base", "active", 0, 0)
but cannot be implemented for online qemu with round 1 of
Jeff's patches; and for offline images, it would require
three back-to-back qemu-img invocations unless qemu-img
is patched to allow more efficient multi-layer commits;
the end result would be 'base' as the active disk with
contents from all three other files, where 'snap1' and
'snap2' are invalid right away, and 'active' is invalid
once any further changes to 'base' are made.
+ These are equivalent:
virDomainBlockCommit(dom, disk, "snap2", NULL, 0, 0)
virDomainBlockCommit(dom, disk, NULL, NULL, 0, _SHALLOW)
they cannot be implemented for online qemu, but for offline,
it is a matter of 'qemu-img commit active', so that 'snap2'
is now the active disk with contents formerly in 'active'.
+ Similarly:
virDomainBlockCommit(dom, disk, "snap2", NULL, 0, _DELETE)
for an offline domain will merge 'active' into 'snap2', then
delete 'active' to avoid leaving a potentially invalid file
around.
+ This version:
virDomainBlockCommit(dom, disk, NULL, "snap2", 0, _SHALLOW)
can be implemented online with 'block-commit' passing a base of
snap1 and a top of snap2; and can be implemented offline by
'qemu-img commit snap2' followed by 'qemu-img rebase -u
-b snap1 active'
* include/libvirt/libvirt.h.in (virDomainBlockCommit): New API.
* src/libvirt.c (virDomainBlockCommit): Implement it.
* src/libvirt_public.syms (LIBVIRT_0.10.2): Export it.
* src/driver.h (virDrvDomainBlockCommit): New driver callback.
* docs/apibuild.py (CParser.parseSignature): Add exception.
Upstream qemu has raised a concern about whether dumping guest
memory by reading guest paging tables is a security hole:
https://lists.gnu.org/archive/html/qemu-devel/2012-09/msg02607.html
While auditing libvirt to see if we would be impacted, I noticed
that we had some dead code. It is simpler to nuke the dead code
and limit our monitor code to just the subset we make use of.
* src/qemu/qemu_monitor.h (QEMU_MONITOR_DUMP): Drop poorly named
and mostly-unused enum.
* src/qemu/qemu_monitor.c (qemuMonitorDumpToFd): Drop arguments.
* src/qemu/qemu_monitor_json.h (qemuMonitorJSONDump): Likewise.
* src/qemu/qemu_monitor_json.c (qemuMonitorJSONDump): Likewise.
* src/qemu/qemu_driver.c (qemuDumpToFd): Update caller.
virNetworkAssignDef was allocating a new network object, initing and
grabbing its lock, then potentially freeing it without unlocking or
destroying the lock. In practice 1) this will probably never happen,
and 2) even if it did, the lock implementation used on most (all?)
platforms doesn't actually hold any resources for an initialized or
held lock, but it still bothered me, so I moved the realloc that could
lead to this bad situation earlier in the function, and now the mutex
isn't inited or locked until we are assured of complete success.
These two objects were previously always parsed as a part of an IpDef,
but we will now need to be able to parse them on their own for
virNetworkUpdate(). Split the parsing functions out, with no
functional changes.
The final patch in Hu Tao's series to enhance virBitmap actually
removes virDomainCpuSetParse and virDomainCpuSetFormat as "no longer
used", and the rest of the series hadn't taken care of two uses of
virDomainCpuSetParse in the xen code.
This patch replaces those with appropriate virBitmap functions. It
should be pushed prior to the patch removing virDomainCpuSetParse.
In many places we store bitmap info in a chunk of data
(pointed to by a char *), and have redundant codes to
set/unset bits. This patch extends virBitmap, and convert
those codes to use virBitmap in subsequent patches.
New command node-memory-tune to get/set the node memory parameters,
only two parameters are allowed to set (pages_to_scan, and sleep_millisecs,
see documents in this patch for more details).
Example of node-memory-tune's output:
Shared memory:
pages_to_scan 100
sleep_millisecs 20
pages_shared 0
pages_sharing 0
pages_unshared 0
pages_volatile 0
full_scans 0
Only implemented for linux platform.
* src/nodeinfo.h: (Declare node{Get,Set}MemoryParameters)
* src/nodeinfo.c: (Implement node{Get,Set}MemoryParameters)
* src/libvirt_private.syms: (Export those two new internal APIs to
private symbols)
* src/rpc/gendispatch.pl: (virNodeSetMemoryParameters is the
the special one which needs a connection object as the first
argument, improve the generator to support it).
* daemon/remote.c: (Implement the server side handler for
virDomainGetMemoryParameters)
* src/remote/remote_driver.c: (Implement the client side handler
for virDomainGetMemoryParameters)
* src/remote/remote_protocol.x: (New RPC procedures for the two
new APIs and structs to represent the args and ret for it)
* src/remote_protocol-structs: Likewise
* include/libvirt/libvirt.h.in: (Add macros for the param fields,
declare the APIs).
* src/driver.h: (New methods for the driver struct)
* src/libvirt.c: (Implement the public APIs)
* src/libvirt_public.syms: (Export the public symbols)
This introduces four new options for secret-list, to filter the
returned secrets by whether it's ephemeral or not, and/or by
whether it's private or not.
* tools/virsh-secret.c: (New helper vshSecretSorter,
vshSecretListFree, and vshCollectSecretList; Use the new
API for secret-list; error out if flags are specified,
because there is no way to filter the results when using
old APIs (no APIs to get the properties (ephemeral, private)
of a secret yet).
* tools/virsh.pod: Document the 4 new options.
The implementation is done manually as the generator does not support
wrapping lists of C pointers into Python objects.
python/libvirt-override-api.xml: Document
python/libvirt-override-virConnect.py: Implementation for listAllSecrets.
python/libvirt-override.c: Implementation for the wrapper.
Simply returns the object list. Supports to filter the secrets
by its storage location, and whether it's private or not.
src/secret/secret_driver.c: Implement listAllSecrets
The RPC generator doesn't support returning list of object yet, this patch
does the work manually.
* daemon/remote.c:
Implement the server side handler remoteDispatchConnectListAllSecrets.
* src/remote/remote_driver.c:
Add remote driver handler remoteConnectListAllSecrets.
* src/remote/remote_protocol.x:
New RPC procedure REMOTE_PROC_CONNECT_LIST_ALL_SECRETS and
structs to represent the args and ret for it.
* src/remote_protocol-structs: Likewise.
This is to list the secret objects. Supports to filter the secrets
by its storage location, and whether it's private or not.
include/libvirt/libvirt.h.in: Declare enum virConnectListAllSecretFlags
and virConnectListAllSecrets.
python/generator.py: Skip auto-generating
src/driver.h: (virDrvConnectListAllSecrets)
src/libvirt.c: Implement the public API
src/libvirt_public.syms: Export the symbol to public
tools/virsh-nwfilter.c:
* vshNWFilterSorter to sort network filters by name
* vshNWFilterListFree to free the network filter objects list.
* vshNWFilterListCollect to collect the network filter objects, trying
to use new API first, fall back to older APIs if it's not supported.