Age | Commit message (Collapse) | Author | Files | Lines |
|
JIRA: FUEL-274
Change-Id: I2c8161b24cb18a0d1f9dc6fd509ce18af7ea8cf5
Signed-off-by: Michael Polenchuk <mpolenchuk@mirantis.com>
|
|
Previously, we hardcoded the fabric name for our 3rd interface
(which serves PXE/DHCP for the target nodes) to "fabric-2",
relying on predictable index numbers to be provided by MaaS based
on the interfaces defined in /etc/network/interfaces.
However, the fabric IDs/names generated by MaaS are not predictable,
and therefore cannot be hardcoded in our reclass model / scripts.
Work around this by:
- adding support for fabric ID deduction based on CIDR matching
during subnet create/update operation in MaaS py module;
- adding support for VLAN DHCP enablement to MaaS py module,
which was previously handled via shell MaaS API operations
from maas/region.sls;
While at it, revert previous commit that disabled network discovery
("MaaS: Disable network discovery"), since it turns out that network
discovery was not the culprit for subnet creation failure, but wrong
fabric numbering.
This reverts commit 8cdf22d1a1bae4694a373873cab4feb6251069b7.
Change-Id: I15fa059004356cb4aaabb38999ea378dd3c0e0bb
Signed-off-by: Alexandru Avadanii <Alexandru.Avadanii@enea.com>
|
|
- ci/deploy.sh: fail if default scenario file is missing;
- start by copying reclass/classes/cluster/virtual-mcp-ocata-ovs as
classes/cluster/baremetal-mcp-ocata-ovs;
- add new state (maas) that will handle MaaS configuration;
- Split PXE network in two for baremetal:
* rename old "pxe" virtual network to "mcpcontrol", make it
non-configurable and identical for baremetal/virtual deploys;
* new "pxebr" bridge is dedicated for MaaS fabric network, which
comes with its own DHCP, TFTP etc.;
- Drop hardcoded PXE gateway & static IP for MaaS node, since
"mcpcontrol" remains a NAT-ed virtual network, with its own DHCP;
- Keep internet access available on first interfaces for cfg01/mas01;
- Align MaaS IP addrs (all x.y.z.3), add public IP for easy debug
via MaaS dashboard;
- Add static IP in new network segment (192.168.11.3/24) on MaaS
node's PXE interface;
- Set MaaS PXE interface MTU 1500 (weird network errors with jumbo);
- MaaS node: Add NAT iptables traffic forward from "mcpcontrol" to
"pxebr" interfaces;
- MaaS: Add harcoded lf-pod2 machine info (fixed identation in v6);
- Switch our targeted scenario to HA;
* scenario: s/os-nosdn-nofeature-noha/os-nosdn-nofeature-ha/
- maas region: Use mcp.rsa.pub from ~ubuntu/.ssh/authorized_keys;
- add route for 192.168.11.0/24 via mas01 on cfg01;
- fix race condition on kvm nodes network setup:
* add "noifupdown" support in salt formula for linux.network;
* keep primary eth/br-mgmt unconfigured till reboot;
TODO:
- Read all this info from PDF (Pod Descriptor File) later;
- investigate leftover references to eno2, eth3;
- add public network interfaces config, IPs;
- improve wait conditions for MaaS commision/deploy;
- report upstream breakage in system.single;
Change-Id: Ie8dd584b140991d2bd992acdfe47f5644bf51409
Signed-off-by: Michael Polenchuk <mpolenchuk@mirantis.com>
Signed-off-by: Guillermo Herrero <Guillermo.Herrero@enea.com>
Signed-off-by: Charalampos Kominos <Charalampos.Kominos@enea.com>
Signed-off-by: Alexandru Avadanii <Alexandru.Avadanii@enea.com>
|
|
Workaround the issues described in [1], stating that salt-formula-maas
package cannot set an autogenerated PostgreSQL password, respectively
the known error thrown during initial setup.
FIXME: These should be reverted later, after fixing the MaaS password
update and initial artifact sync in the salt formula / scripts.
[1] https://docs.mirantis.com/mcp/1.0/mcp-deployment-guide/\
install-base-infra/set-up-bare-metal-provisioner/configure-maas-vm.html
Change-Id: I8b37f55d3caa4119c64f9549578850dd4eb9e3ad
Signed-off-by: Alexandru Avadanii <Alexandru.Avadanii@enea.com>
|
|
salt.sh currently clones the full Fuel@OPNFV git repo from upstream
public mirror, preventing us from testing locally edited or new
patches.
Instead, bring back git submodule handling from old f_repos, clone
and patch each submodule locally, then copy the whole parent repo
over to cfg01.
This is also a first step towards implementing offline deploy support.
NOTE: This adds new deploy prerequisite packages:
- git (for submodule clone/update);
- make (for submodule patching);
- rsync (for parent repo replication to cfg01);
NOTE: Parent repository is expected to be a git repo, in order to
work with git submodules.
While at it, perform some minor related changes:
- add deploy artifacts (ISOs, qcow2 files) to .gitignore, also used
to filter-out such files during rsync to cfg01;
- remove obsolete Fuel patches (old f_repos mechanism);
- rename "reclass-system-salt-model" submodule;
Change-Id: I6210d80d41010b2802e4f1b31acf249a18db7963
Signed-off-by: Alexandru Avadanii <Alexandru.Avadanii@enea.com>
|
|
Change-Id: I7bb984880e98b7bdec9aa0b3895a3be9fd75cac0
Signed-off-by: Michael Polenchuk <mpolenchuk@mirantis.com>
|
|
For opendaylight support:
* neutron formula
* reclass system model
Plus missing apply of haproxy state.
Change-Id: Ic9e3672b51d5331656d636c44c3f891e49437e23
Signed-off-by: Michael Polenchuk <mpolenchuk@mirantis.com>
|