**- What I did**
#### wheel package Makefiles
- wheel package Makefiles for sonic-yang-mgmt package.
#### libyang Python APIs:
- python APIs based on libyang
- functions to load/merge yang models and Yang data files
- function to validate data trees based on Yang models
- functions to merge yang data files/trees
- add/set/delete node in schema and data trees
- find data/schema nodes from xpath from the Yang data/schema tree in memory
- find dependencies
- dump the data tree in json/xml
#### Extension of libyang Python APIs:
-- Cropping input config based on Yang Model.
-- Translate input config based on Yang Model.
-- rev Translate input config based on Yang Model.
-- Find xpath of port, portleaf and a yang list.
-- Find if node is key of a list while deletion if yes, then delete the parent.
Signed-off-by: Praveen Chaudhary pchaudhary@linkedin.com
Signed-off-by: Ping Mao pmao@linkedin.com
- bug fix : Fixed an issue which the nps ko file was not loaded due to the wrong service file name
- Optimize the code to reduce changes due to the kernel upgrade
- Remove nephos ko file loaded in swss.service.j2 because it has loaded at syncd.service.j2
* Changes to support config-setup service for multi-npu
platforms. For Multi-npu we are not supporting as of
now config initializtion and ZTP. It will support creating
config db from minigraph or using config db from previous
file system
Signed-off-by: Abhishek Dosi <abdosi@microsoft.com>
* Address Review Comments.
* Address Review comments
* Address Review Comments of using pyhton based config load_minigraph/
config save/config reload from shell scripts so that we don't duplicate
code. Also while running from shell we will skip stop/start services
done by those commands.
* Updated to use python command so no code duplication.
* [ntp] enable/disable NTP long jump according to reboot type
- Enable NTP long jump after cold reboot.
- Disable NTP long jump after warrm/fast reboot.
Signed-off-by: Ying Xie <ying.xie@microsoft.com>
* fix typo
* further refactoring
* use sonic-db-cli instead
Since the introduction of VRF, interface-related tables in ConfigDB will have multiple entries, one of which only contains the interface name and no IP prefix. Thus, when iterating over the keys in the tables, we need to ignore the entries which do not contain IP prefixes.
and then we load image and reboot even if there was existing
config_db.json we will look for DHCP Service. we should disbale
update_graph in such cases. This behaviour is silimar to what we have in
201811 image.
Modified caclmgrd behavior to enhance control plane security as follows:
Upon starting or receiving notification of ACL table/rule changes in Config DB:
1. Add iptables/ip6tables commands to allow all incoming packets from established TCP sessions or new TCP sessions which are related to established TCP sessions
2. Add iptables/ip6tables commands to allow bidirectional ICMPv4 ping and traceroute
3. Add iptables/ip6tables commands to allow bidirectional ICMPv6 ping and traceroute
4. Add iptables/ip6tables commands to allow all incoming Neighbor Discovery Protocol (NDP) NS/NA/RS/RA messages
5. Add iptables/ip6tables commands to allow all incoming IPv4 DHCP packets
6. Add iptables/ip6tables commands to allow all incoming IPv6 DHCP packets
7. Add iptables/ip6tables commands to allow all incoming BGP traffic
8. Add iptables/ip6tables commands for all ACL rules for recognized services (currently SSH, SNMP, NTP)
9. For all services which we did not find configured ACL rules, add iptables/ip6tables commands to allow all incoming packets for those services (allows the device to accept SSH connections before the device is configured)
10. Add iptables rules to drop all packets destined for loopback interface IP addresses
11. Add iptables rules to drop all packets destined for management interface IP addresses
12. Add iptables rules to drop all packets destined for point-to-point interface IP addresses
13. Add iptables rules to drop all packets destined for our VLAN interface gateway IP addresses
14. Add iptables/ip6tables commands to allow all incoming packets with TTL of 0 or 1 (This allows the device to respond to tools like tcptraceroute)
15. If we found control plane ACLs in the configuration and applied them, we lastly add iptables/ip6tables commands to drop all other incoming packets
* Changes for LLDP for Multi NPU Platoforms:-
a) Enable LLDP for Host namespace for Management Port
b) Make sure Management IP is avaliable in per asic namespace
needed for LLDP Chassis configuration
c) Make sure chassis mac-address is correct in per asic namespace
d) Do not run lldp on eth0 of per asic namespace and avoid chassis
configuration for same
e) Use Linux hostname instead from Device Metadata for lldp chassis
configuration since in multi-npu platforms device metadata hostname
will be differnt
Signed-off-by: Abhishek Dosi <abdosi@microsoft.com>
* Address Review Comment with following changes:
a) Use Device Metadata hostname even in per namespace conatiner.
updated minigraph parsing for same to have hostname as system
hostname and add new key for asic name
b) Minigraph changes to have MGMT_INTERFACE Key in per asic/namespace
config also as needed for LLDP for setting chassis management IP.
Signed-off-by: Abhishek Dosi <abdosi@microsoft.com>
* Address Review Comments
Dynamic threshold setting changed to 0 and WRED profile green min threshold set to 250000 for Tomahawk devices
Changed the dynamic threshold settings in pg_profile_lookup.ini
Added a macro for WRED profiles in qos.json.j2 for Tomahawk devices
Necessary changes made in qos.config.j2 to use the macro if present
Signed-off-by: Neetha John <nejo@microsoft.com>
* Multi DB with namespace support, Introducing the database_global.json file
for supporting accessing DB's in other namespaces for service running in
linux host
* Updates based on comments
* Adding the j2 templates for database_config and database_global files.
* Updating to retrieve the redis DIR's to be mounted from database_global.json file.
* Additional check to see if asic.conf file exists before sourcing it.
* Updates based on PR comments discussion.
* Review comments update
* Updates to the argument "-n" for namespace used in both context of parsing minigraph and multi DB access.
* Update with the attribute "persistence_for_warm_boot" that was added to database_config.json file earlier.
* Removing the database_config.json file to avioid confusion in future.
We use the database_config.json.j2 file to generate database_config.json files dynamically.
* Update the comments for sudo usage in docker_image_ctrl.j2
* Update with the new logic in PING PONG tests using sonic-db-cli. With this we wait till the
PONG response is received when redis server is up.
* Similar changes in swss and syncd scripts for the PING tests with sonic-db-cli
* Updated with a missing , in the database_config.json.j2 file, Do pip install of j2cli in docker-base-buster.
1. ebtables -t filter -A FORWARD -p 802_1Q --vlan-encap 0806 -j DROP
The ARP packet with vlan tag can't match the default rule.
Signed-off-by: wangshengjun <wangshengjun@asterfusion.com>
currently, vs docker always create 32 front panel ports.
when vs docker starts, it first detects the peer links
in the namespace and then setup equal number of front panel
interfaces as the peer links.
Signed-off-by: Guohan Lu <lguohan@gmail.com>
* Run fsck filesystem check support prior mounting filesystem
If the filesystem become non clean ("dirty"), SONiC does not run fsck to
repair and mark it as clean again.
This patch adds the functionality to run fsck on each boot, prior to the
filesystem being mounted. This allows the filesystem to be repaired if
needed.
Note that if the filesystem is maked as clean, fsck does nothing and simply
return so this is perfectly fine to call fsck every time prior to mount the
filesystem.
How to verify this patch (using bash):
Using an image without this patch:
Make the filesystem "dirty" (not clean)
[we are making the assumption that filesystem is stored in /dev/sda3 - Please adjust depending of the platform]
[do this only on a test platform!]
dd if=/dev/sda3 of=superblock bs=1 count=2048
printf "$(printf '\\x%02X' 2)" | dd of="superblock" bs=1 seek=1082 count=1 conv=notrunc &> /dev/null
dd of=/dev/sda3 if=superblock bs=1 count=2048
Verify that filesystem is not clean
tune2fs -l /dev/sda3 | grep "Filesystem state:"
reboot and verify that the filesystem is still not clean
Redo the same test with an image with this patch, and verify that at next reboot the filesystem is repaired and becomes clean.
fsck log is stored on syslog, using the string FSCK as markup.
The one big bgp configuration template was splitted into chunks.
Currently we have three types of bgp neighbor peers:
general bgp peers. They are represented by CONFIG_DB::BGP_NEIGHBOR table entries
dynamic bgp peers. They are represented by CONFIG_DB::BGP_PEER_RANGE table entries
monitors bgp peers. They are represented by CONFIG_DB::BGP_MONITORS table entries
This PR introduces three templates for each peer type:
bgp policies: represent policieas that will be applied to the bgp peer-group (ip prefix-lists, route-maps, etc)
bgp peer-group: represent bgp peer group which has common configuration for the bgp peer type and uses bgp routing policy from the previous item
bgp peer-group instance: represent bgp configuration, which will be used to instatiate a bgp peer-group for the bgp peer-type. Usually this one is simple, consist of the referral to the bgp peer-group, bgp peer description and bgp peer ip address.
This PR redefined constant.yml file. Now this file has a setting for to use or don't use bgp_neighbor metadata. This file has more parameters for now, which are not used. They will be used in the next iteration of bgpcfgd.
Currently all tests have been disabled. I'm going to create next PR with the tests right after this PR is merged.
I'm going to introduce better bgpcfgd in a short time. It will include support of dynamic changes for the templates.
FIX:: #4231
- create a file in files/image_config/ntp/ntp-systemd-wrapper to add mgmt vrf related start cmd for ntp service. So that the default /usr/lib/ntp/ntp-systemd-wrapper can be overriden during build time.
- modify build_debian.sh to cp files/image_config/ntp/ntp-systemd-wrapper to /usr/lib/ntp/ntp-systemd-wrapper during build time.
Co-authored-by: Bing Sun <Bing_Sun@dell.com>
do mount/umount in the chroot environment
install cron explicitly
install rasdaemon as a replacement for mcelog
switch python package docker-py to docker
- build SONIC_STRETCH_DOCKERS in sonic-slave-stretch docker
- build image related module in sonic-slave-buster docker.
This includes all kernels modules and some packages
Signed-off-by: Guohan Lu <lguohan@gmail.com>
[sonic-yang-models]: First version of yang models for Port, VLan, Interface, PortChannel, loopback and ACL.
YANG models as per Guidelines.
Guideline doc: https://github.com/Azure/SONiC/blob/master/doc/mgmt/SONiC_YANG_Model_Guidelines.md
[sonic-yang-models/tests]: YANG model test code and JSON input for testing.
[sonic-yang-models/setup.py]: Build infra for yang models.
**- What I did**
Created Yang model for Sonic.
Tables: PORT, VLAN, VLAN_INTERFACE, VLAN_MEMBER, ACL_RULE, ACL_TABLE, INTERFACE.
Created build infra files using which a new package (sonic-yang-models) can be build and can be deployed on sonic switches. Yang models will be part of this new package.
**- How I did it**
Wrote yang models based on Guideline doc:
https://github.com/Azure/SONiC/blob/master/doc/mgmt/SONiC_YANG_Model_Guidelines.md
and
https://github.com/Azure/SONiC/wiki/Configuration.
Wrote python wheel Package infra which runs test for these Yang models using a json files which consists configuration as per yang models. These configs are for negative tests, which means we want to test that most must condition, pattern and when condition works as expected.
**- How to verify it**
Build Logs and testing:
———————————————————————————————————
```
/sonic/src/sonic-yang-models /sonic
running test
running egg_info
writing top-level names to sonic_yang_models.egg-info/top_level.txt
writing dependency_links to sonic_yang_models.egg-info/dependency_links.txt
writing sonic_yang_models.egg-info/PKG-INFO
reading manifest file 'sonic_yang_models.egg-info/SOURCES.txt'
writing manifest file 'sonic_yang_models.egg-info/SOURCES.txt'
running build_ext
----------------------------------------------------------------------
Ran 0 tests in 0.000s
OK
running bdist_wheel
running build
running build_py
(Reading database ... 155852 files and directories currently installed.)
Preparing to unpack .../libyang_1.0.73_amd64.deb ...
Unpacking libyang (1.0.73) over (1.0.73) ...
Setting up libyang (1.0.73) ...
Processing triggers for libc-bin (2.24-11+deb9u4) ...
Processing triggers for man-db (2.7.6.1-2) ...
(Reading database ... 155852 files and directories currently installed.)
Preparing to unpack .../libyang-cpp_1.0.73_amd64.deb ...
Unpacking libyang-cpp (1.0.73) over (1.0.73) ...
Setting up libyang-cpp (1.0.73) ...
Processing triggers for libc-bin (2.24-11+deb9u4) ...
(Reading database ... 155852 files and directories currently installed.)
Preparing to unpack .../python3-yang_1.0.73_amd64.deb ...
Unpacking python3-yang (1.0.73) over (1.0.73) ...
Setting up python3-yang (1.0.73) ...
INFO:YANG-TEST:module: sonic-vlan is loaded successfully
ERROR:YANG-TEST:Could not get module: sonic-head
INFO:YANG-TEST:module: sonic-portchannel is loaded successfully
INFO:YANG-TEST:module: sonic-acl is loaded successfully
INFO:YANG-TEST:module: sonic-loopback-interface is loaded successfully
ERROR:YANG-TEST:Could not get module: sonic-port
INFO:YANG-TEST:module: sonic-interface is loaded successfully
INFO:YANG-TEST:
------------------- Test 1: Configure a member port in VLAN_MEMBER table which does not exist.---------------------
libyang[0]: Leafref "/sonic-port:sonic-port/sonic-port:PORT/sonic-port:PORT_LIST/sonic-port:port_name" of value "Ethernet156" points to a non
-existing leaf. (path: /sonic-vlan:sonic-vlan/VLAN_MEMBER/VLAN_MEMBER_LIST[vlan_name='Vlan100'][port='Ethernet156']/port)
INFO:YANG-TEST:Configure a member port in VLAN_MEMBER table which does not exist. Passed
INFO:YANG-TEST:
------------------- Test 2: Configure non-existing ACL_TABLE in ACL_RULE.---------------------
libyang[0]: Leafref "/sonic-acl:sonic-acl/sonic-acl:ACL_TABLE/sonic-acl:ACL_TABLE_LIST/sonic-acl:ACL_TABLE_NAME" of value "NOT-EXIST" points
to a non-existing leaf. (path: /sonic-acl:sonic-acl/ACL_RULE/ACL_RULE_LIST[ACL_TABLE_NAME='NOT-EXIST'][RULE_NAME='Rule_20']/ACL_TABLE_NAME)
INFO:YANG-TEST:Configure non-existing ACL_TABLE in ACL_RULE. Passed
INFO:YANG-TEST:
------------------- Test 3: Configure IP_TYPE as ARP and ICMPV6_CODE in ACL_RULE.---------------------
libyang[0]: When condition "boolean(IP_TYPE[.='ANY' or .='IP' or .='IPV6' or .='IPv6ANY'])" not satisfied. (path: /sonic-acl:sonic-acl/ACL_RU
LE/ACL_RULE_LIST[ACL_TABLE_NAME='NO-NSW-PACL-V4'][RULE_NAME='Rule_40']/ICMPV6_CODE)
INFO:YANG-TEST:Configure IP_TYPE as ARP and ICMPV6_CODE in ACL_RULE. Passed
INFO:YANG-TEST:
INFO:YANG-TEST:
------------------- Test 4: Configure IP_TYPE as ipv4any and SRC_IPV6 in ACL_RULE.---------------------
libyang[0]: When condition "boolean(IP_TYPE[.='ANY' or .='IP' or .='IPV6' or .='IPv6ANY'])" not satisfied. (path: /sonic-acl:sonic-acl/ACL_RU
LE/ACL_RULE_LIST[ACL_TABLE_NAME='NO-NSW-PACL-V4'][RULE_NAME='Rule_20']/SRC_IPV6)
INFO:YANG-TEST:Configure IP_TYPE as ipv4any and SRC_IPV6 in ACL_RULE. Passed
------------------- Test 5: Configure l4_src_port_range as 99999-99999 in ACL_RULE---------------------
libyang[0]: Value "99999-99999" does not satisfy the constraint "([0-9]{1,4}|[0-5][0-9]{4}|[6][0-4][0-9]{3}|[6][5][0-2][0-9]{2}|[6][5][3][0-5]{2}|[6][5][3][6][0-5])-([0-9]{1,4}|[0-5][0-9]{4}|[6][0-4][0-9]{3}|[6][5][0-2][0-9]{2}|[6][5][3][0-5]{2}|[6][5][3][6][0-5])" (range, length, or pattern). (path: /sonic-acl:sonic-acl/ACL_RULE/ACL_RULE_LIST[ACL_TABLE_NAME='NO-NSW-PACL-V6'][RULE_NAME='Rule_20']/L4_SRC_PORT_RANGE)
INFO:YANG-TEST:Configure l4_src_port_range as 99999-99999 in ACL_RULE Passed
INFO:YANG-TEST:
------------------- Test 6: Configure empty string as ip-prefix in INTERFACE table.---------------------
libyang[0]: Invalid value "" in "ip-prefix" element. (path: /sonic-interface:sonic-interface/INTERFACE/INTERFACE_LIST[interface='Ethernet8'][ip-prefix='']/ip-prefix)
INFO:YANG-TEST:Configure empty string as ip-prefix in INTERFACE table. Passed
INFO:YANG-TEST:
------------------- Test 7: Configure Wrong family with ip-prefix for VLAN_Interface Table---------------------
libyang[0]: Must condition "(contains(../ip-prefix, ':') and current()='IPv6') or (contains(../ip-prefix, '.') and current()='IPv4')" not satisfied. (path: /sonic-vlan:sonic-vlan/VLAN_INTERFACE/VLAN_INTERFACE_LIST[vlanid='100'][ip-prefix='2a04:5555:66:7777::1/64']/family)
INFO:YANG-TEST:Configure Wrong family with ip-prefix for VLAN_Interface Table Passed
INFO:YANG-TEST:
------------------- Test 8: Configure IP_TYPE as ARP and DST_IPV6 in ACL_RULE.---------------------
libyang[0]: When condition "boolean(IP_TYPE[.='ANY' or .='IP' or .='IPV6' or .='IPV6ANY'])" not satisfied. (path: /sonic-acl:sonic-acl/ACL_RULE/ACL_RULE_LIST[ACL_TABLE_NAME='NO-NS
W-PACL-V6'][RULE_NAME='Rule_20']/DST_IPV6)
INFO:YANG-TEST:Configure IP_TYPE as ARP and DST_IPV6 in ACL_RULE. Passed
INFO:YANG-TEST:
------------------- Test 9: Configure INNER_ETHER_TYPE as 0x080C in ACL_RULE.---------------------
libyang[0]: Value "0x080C" does not satisfy the constraint "(0x88CC|0x8100|0x8915|0x0806|0x0800|0x86DD|0x8847)" (range, length, or pattern). (path: /sonic-acl:sonic-acl/ACL_RULE/ACL_RULE_LIST[ACL_TABLE_NAME='NO-NSW-PACL-V4'][RULE_NAME='Rule_40']/INNER_ETHER_TYPE)
INFO:YANG-TEST:Configure INNER_ETHER_TYPE as 0x080C in ACL_RULE. Passed
INFO:YANG-TEST:
------------------- Test 10: Add dhcp_server which is not in correct ip-prefix format.---------------------
libyang[0]: Invalid value "10.186.72.566" in "dhcp_servers" element. (path: /sonic-vlan:sonic-vlan/VLAN/VLAN_LIST/dhcp_servers[.='10.186.72.566'])
INFO:YANG-TEST:Add dhcp_server which is not in correct ip-prefix format. Passed
INFO:YANG-TEST:
------------------- Test 11: Configure undefined acl_table_type in ACL_TABLE table.---------------------
libyang[0]: Invalid value "LAYER3V4" in "type" element. (path: /sonic-acl:sonic-acl/ACL_TABLE/ACL_TABLE_LIST[ACL_TABLE_NAME='NO-NSW-PACL-V6']/type)
INFO:YANG-TEST:Configure undefined acl_table_type in ACL_TABLE table. Passed
INFO:YANG-TEST:
------------------- Test 12: Configure undefined packet_action in ACL_RULE table.---------------------
libyang[0]: Invalid value "SEND" in "PACKET_ACTION" element. (path: /sonic-acl:sonic-acl/ACL_RULE/ACL_RULE_LIST/PACKET_ACTION)
INFO:YANG-TEST:Configure undefined packet_action in ACL_RULE table. Passed
INFO:YANG-TEST:
------------------- Test 13: Configure wrong value for tagging_mode.---------------------
libyang[0]: Invalid value "non-tagged" in "tagging_mode" element. (path: /sonic-vlan:sonic-vlan/VLAN_MEMBER/VLAN_MEMBER_LIST/tagging_mode)
INFO:YANG-TEST:Configure wrong value for tagging_mode. Passed
INFO:YANG-TEST:
------------------- Test 14: Configure vlan-id in VLAN_MEMBER table which does not exist in VLAN table.---------------------
libyang[0]: Leafref "../../../VLAN/VLAN_LIST/vlanid" of value "200" points to a non-existing leaf. (path: /sonic-vlan:sonic-vlan/VLAN_MEMBER/VLAN_MEMBER_LIST[vlanid='200'][port='Ethernet0']/vlanid)
libyang[0]: Leafref "../../../VLAN/VLAN_LIST/vlanid" of value "200" points to a non-existing leaf. (path: /sonic-vlan:sonic-vlan/VLAN_MEMBER/VLAN_MEMBER_LIST[vlanid='200'][port='Ethernet0']/vlanid)
INFO:YANG-TEST:Configure vlan-id in VLAN_MEMBER table which does not exist in VLAN table. Passed
INFO:YANG-TEST:All Test Passed
../../target/debs/stretch/libyang0.16_0.16.105-1_amd64.deb installtion failed
../../target/debs/stretch/libyang-cpp0.16_0.16.105-1_amd64.deb installtion failed
../../target/debs/stretch/python2-yang_0.16.105-1_amd64.deb installtion failed
YANG Tests passed
Passed: pyang -f tree ./yang-models/*.yang > ./yang-models/sonic_yang_tree
copying tests/yangModelTesting.py -> build/lib/tests
copying tests/test_sonic_yang_models.py -> build/lib/tests
copying tests/__init__.py -> build/lib/tests
running egg_info
writing top-level names to sonic_yang_models.egg-info/top_level.txt
writing dependency_links to sonic_yang_models.egg-info/dependency_links.txt
writing sonic_yang_models.egg-info/PKG-INFO
reading manifest file 'sonic_yang_models.egg-info/SOURCES.txt'
writing manifest file 'sonic_yang_models.egg-info/SOURCES.txt'
installing to build/bdist.linux-x86_64/wheel
running install
running install_lib
creating build/bdist.linux-x86_64/wheel
creating build/bdist.linux-x86_64/wheel/tests
copying build/lib/tests/yangModelTesting.py -> build/bdist.linux-x86_64/wheel/tests
copying build/lib/tests/test_sonic_yang_models.py -> build/bdist.linux-x86_64/wheel/tests
copying build/lib/tests/__init__.py -> build/bdist.linux-x86_64/wheel/tests
running install_data
creating build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data
creating build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data
creating build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data/yang-models
copying ./yang-models/sonic-head.yang -> build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data/yang-models
copying ./yang-models/sonic-acl.yang -> build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data/yang-models
copying ./yang-models/sonic-interface.yang -> build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data/yang-models
copying ./yang-models/sonic-loopback-interface.yang -> build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data/yang-models
copying ./yang-models/sonic-port.yang -> build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data/yang-models
copying ./yang-models/sonic-portchannel.yang -> build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data/yang-models
copying ./yang-models/sonic-vlan.yang -> build/bdist.linux-x86_64/wheel/sonic_yang_models-1.0.data/data/yang-models
```
* Install kubernetes worker node packages, if enabled.
* Minor updates
* Added some comments
* Updates per review comments.
Built a private image to test to work fine.
* Remove the removed file.
* Update per comments
Make a fix, as kubeadm no demands a higher version of kubelet & kubectl.
As kubeadm auto install kubectl & kubelet, removing explicit install is an easier/robust fix.
* Changes per review comments.
* Updates per comments.
1) Dropped helper & pod scripts
2) Made install verbose
* Drop creation of pods subdir, as this PR does not use them.
* From comments to 'n' per review comments.
* 1) kubeadm.conf is created as part of kubeadm package install. Hence dropped explicit copy.
sonic-netns-exec fails to execute below command in swss.sh:
sonic-netns-exec "$NET_NS" sonic-db-cli $1 EVAL "
local tables = {$2}
for i = 1, table.getn(tables) do
local matches = redis.call('KEYS', tables[i])
for j,name in ipairs(matches) do
redis.call('DEL', name)
end
end" 0
This command fails with error " redis.exceptions.ResponseError: value is not an integer or out of range" .
Root cause:
When sonic-netns-exec executes the above function, argument passed to sonic-db-cli is NOT executed as a single script.
The argument is passed as separate keywords to sonic-db-cli, as below:
['EVAL', 'local', 'tables', '=', "{'PORT_TABLE*'}", 'for', 'i', '=', '1,', 'table.getn(tables)', 'do', 'local', 'matches', '=', "redis.call('KEYS',", 'tables[i])', 'for', 'j,name', 'in', 'ipairs(matches)', 'do', "redis.call('DEL',", 'name)', 'end', 'end', '0']
- How I did it
To make sure that the parameters are passed as they were set initially, fix sonic-netns-exec to use double quoted "$@", where "$@" is "$1" "$2" "$3" ... "${N}"
After fix, the argument passed to sonic-db-cli is as below:
Argument passed to sonic-db-cli:
['EVAL', "\n local tables = {'PORT_TABLE*'}\n for i = 1, table.getn(tables) do\n local matches = redis.call('KEYS', tables[i])\n for j,name in ipairs(matches) do\n redis.call('DEL', name)\n end\n end", '0']
Signed-off-by: SuvarnaMeenakshi <sumeenak@microsoft.com>
* Fix the CMD for the PROCESSSTATS entries so that
there is a space between the command name and the
arguments.
Signed-off-by: Garrick He <garrick_he@dell.com>
- What I did
Add configuration to avoid ntpd from panic and exit if the drift between new time and current system time is large.
- How I did it
Added "tinker panic 0" in ntp.conf file.
- How to verify it
[this assumes that there is a valid NTP server IP in config_db/ntp.conf]
Change the current system time to a bad time with a large drift from time in ntp server; drift should be greater than 1000s.
Reboot the device.
Before the fix:
3. upon reboot, ntp-config service comes up fine, ntp service goes to active(exited) state without any error message. This is because the offset between new time (from ntp server) and the current system time is very large, ntpd goes to panic mode and exits. The system continues to show the bad time.
After the fix:
3. Upon reboot, ntp-config comes up fine, ntp services comes up from and stays in active (running) state. The system clock gets synced with the ntp server time.