- Why I did it
There is a hardware bug that PSU voltage threshold sysfs returns incorrect value. The workaround is to call "sensor -s" to refresh it.
- How I did it
Call "sensor -s" when the threshold value is not incorrect and PSU is "DELTA 1100"
- How to verify it
Unit test and Manual test
- Why I did it
Update NVIDIA Copyright header to "mellanox" files which were changed since 1.1.2022
- How I did it
Update the copyright header
- How to verify it
Sanity tests and PR checkers.
Update device-specific files for new platform SN2201, including:
device/mellanox/x86_64-nvidia_sn2201-r0/ACS-SN2201/buffers_defaults_objects.j2
device/mellanox/x86_64-nvidia_sn2201-r0/ACS-SN2201/hwsku.json
device/mellanox/x86_64-nvidia_sn2201-r0/default_sku
device/mellanox/x86_64-nvidia_sn2201-r0/pcie.yaml
device/mellanox/x86_64-nvidia_sn2201-r0/platform.json
device/mellanox/x86_64-nvidia_sn2201-r0/platform_components.json
device/mellanox/x86_64-nvidia_sn2201-r0/sensors.conf
Signed-off-by: Kebo Liu <kebol@nvidia.com>
Co-authored-by: Stephen Sun <stephens@nvidia.com>
- Why I did it
The chassis name in MSN4410 platform_components.json is not correct
- How I did it
Fix the chassis name
- How to verify it
Run relevant platform API test
Signed-off-by: Kebo Liu <kebol@nvidia.com>
- Why I did it
Need to remove old static configs from sai.profile files.
New implementation: Azure/sonic-swss#1959
New configuration: #9658
- How I did it
Remove SAI_VXLAN_SRCPORT_RANGE_ENABLE=1 lines from files per HWSKU
- How to verify it
When static config is removed following test will fail (src port will be in range 0-255)
py.test vxlan/test_vnet_vxlan.py --inventory "../ansible/inventory, ../ansible/veos" --host-pattern (testbed)-t0 --module-path ../ansible/library/ --testbed (testbed)-t0 --testbed_file ../ansible/testbed.csv --allow_recover --assert plain --log-cli-level info --show-capture=no -ra --showlocals --disable_loganalyzer --skip_sanity --upper_bound_udp_port 65535 --lower_bound_udp_port 64128
- Why I did it
platform.json of 4600C only has 2 CPU core thermal sensors, but there are 4 actually
- How I did it
Added thermal sensors for CPU core 2 and core 3.
- How to verify it
Build.
- Why I did it
There was a missing file of platform.json on SN4800 SIMx platform
- How I did it
Add symbolic link to platform.json file from the real SN4800 platform
- How to verify it
Run SN4800 SIMx and verify that platfrom.json file exist at the following folder:
/usr/share/sonic/device/x86_64-nvidia_sn4800_simx-r0
- Why I did it
Remove obsolete parameter that enables static VXLAN src port range
provide functionality no generate json config file according to appropriate parameter in config_db
Done for
SN3800:
• Mellanox-SN3800-D28C50
• Mellanox-SN3800-C64
• Mellanox-SN3800-D28C49S1 (New 10G SKU)
SN2700:
• Mellanox-SN2700-D48C8
- How I did it
Remove SAI_VXLAN_SRCPORT_RANGE_ENABLE=1 from appropriate sai.profile files
Created vxlan.json file and added few params that depends on DEVICE_METADATA.localhost.vxlan_port_range
- How to verify it
File /etc/swss/config.d/vxlan.json should be generated inside swss docker when it restart
[
{
"SWITCH_TABLE:switch": {
"vxlan_src": "0xFF00",
"vxlan_mask": "8"
},
"OP": "SET"
}
]
Signed-off-by: Andriy Yurkiv <ayurkiv@nvidia.com>
Why I did it
Requirements from Microsoft for fwutil update all state that all firmwares which support this upgrade flow must support upgrade within a single boot cycle. This conflicted with a number of Mellanox upgrade flows which have been revised to safely meet this requirement.
How I did it
Added --no-power-cycle flags to SSD and ONIE firmware scripts
Modified Platform API to call firmware upgrade flows with this new flag during fwutil update all
Added a script to our reboot plugin to handle installing firmwares in the correct order with prior to reboot
How to verify it
Populate platform_components.json with firmware for CPLD / BIOS / ONIE / SSD
Execute fwutil update all fw --boot cold
CPLD will burn / ONIE and BIOS images will stage / SSD will schedule for reboot
Reboot the switch
SSD will install / CPLD will refresh / switch will power cycle into ONIE
ONIE installer will upgrade ONIE and BIOS / switch will reboot back into SONiC
In SONiC run fwutil show status to check that all firmware upgrades were successful
- Why I did it
For MSN4410/MSN4600/MSN4700 now they can support fetching PSU voltage threshold, no need to skip the psu voltage check in system health monitoring, so update the system health monitoring configuration file for these platforms.
- How I did it
remove skip PSU change config from the system_health_monitoring_config.json file
- How to verify it
Build image run on these platforms, system health monitoring will not report error against PSU voltage
Signed-off-by: Kebo Liu <kebol@nvidia.com>
- Why I did it
MSN4700 platform has 8 lanes per port and thus can support 2x40G with each lane running at 10G
- How I did it
Added 40G to 2x200G breakout mode in platform.json
- How to verify it
Run config int break Ethernet0 2x40G[200G,100G,50G,25G,10G,1G]
And verify the command runs successfully and the port speed was set to 40G with a 2x breakout.
- Why I did it
Add sensor conf for MSN4600C A1 platform
- How I did it
Add a new sensor conf file and relevant scripts to support two different versions of the platform
- How to verify it
Run "sensors" cmd to check the output on the A1 platform to see whether it's as expected.
Signed-off-by: Kebo Liu <kebol@nvidia.com>
- Why I did it
Added missing functionality for dynamic buffer calculation in Spectrum-4.
- How I did it
Added a section of code in asic_table.j2 for Spectrum-4, and added the simx version of SN5600 to the supported list.
- How to verify it
Manually: buffershow -l should show all ingress/egress lossy/lossless pools, and all fields of profiles should show values.
Automatically: https://github.com/Azure/sonic-mgmt/blob/master/tests/qos/test_buffer.py
Signed-off-by: Raphael Tryster <raphaelt@nvidia.com>
Why I did it
Fix typo and missing files in SN3800 and SN4600C's buffer templates
How I did it
ingress_lossless_xoff_size => ingress_lossless_pool_xoff add missing files for SN4600C-D100C12S2
How to verify it
Deploy the fix and verify whether the device can be up.
Signed-off-by: Stephen Sun <stephens@nvidia.com>
- Why I did it
The capability files were incorrect in comparison to the marketing spec of the SN4410 platform.
- How I did it
Aligned the capability files according to the marketing spec.
- How to verify it
Basic manual sanity checks:
1. Check if critical docker containers were UP
2. Check if interfaces were created and were UP
3. Check if interfaces created in the syncd docker container by executing – sx_api_ports_dump.py script
4. Check the logs from the start of the switch – everything was OK
5. Verified the port breakout
Signed-off-by: Vadym Hlushko <vadymh@nvidia.com>
- Why I did it
Rename platform x86_64-mlnx_msn4800 to x86_64-nvidia_msn4800
- How I did it
Rename platform folder as well as all code that reference the platform name
- How to verify it
Manual test
- Why I did it
Add new Spectrum-4 system support SN5600 on top of Nvidia ASIC simulator.
- How I did it
Add all relevant system and simulator SKU.
Updated syseeprom.hex and related directories to reflect Nvidia SN5600 brand name.
- How to verify it
Tested init flow, basic show commands, up interfaces, traffic test.
Signed-off-by: Raphael Tryster <raphaelt@nvidia.com>
- Why I did it
Also recalculated all parameters with the latest algorithm with per-speed peer response time taken into account
- How I did it
Detailed information of each SKU:
C64:
t0: 32 100G downlinks and 32 100G uplinks
t1: 56 100G downlinks and 8 100G uplinks with 2km-cable supported
D112C8: 112 50G downlinks and 8 100G uplinks.
D48C40: 48 50G downlinks, 32 100G downlinks, and 8 100G uplinks
D100C12S2: 4 100G downlinks, 2 10G downlinks, 100 50G downlinks, and 8 100G uplinks
2km cable is supported for C64 on t1 only
- How to verify it
Run regression test (QoS)
Signed-off-by: Stephen Sun <stephens@nvidia.com>
- Why I did it
Add support for SN2201 platform
- How I did it
Add required content for SN2201 platform
Note: still missing kernel driver support for this system. Once all is upstream will be updated as well.
- How to verify it
Install and basic sanity tests including traffic.
Signed-off-by: liora liora@nvidia.com
Signed-off-by: Stephen Sun stephens@nvidia.com
Why I did it
Support zero buffer profiles
Add buffer profiles and pool definition for zero buffer profiles
Support applying zero profiles on INACTIVE PORTS
Enable dynamic buffer manager to load zero pools and profiles from a JSON file
Dependency: It depends on Azure/sonic-swss#1910 and submodule advancing PR once the former merged.
How I did it
Add buffer profiles and pool definition for zero buffer profiles
If the buffer model is static:
Apply normal buffer profiles to admin-up ports
Apply zero buffer profiles to admin-down ports
If the buffer model is dynamic:
Apply normal buffer profiles to all ports
buffer manager will take care when a port is shut down
Update buffers_config.j2 to support INACTIVE PORTS by extending the existing macros to generate the various buffer objects, including PGs, queues, ingress/egress profile lists
Originally, all the macros to generate the above buffer objects took active ports only as an argument
Now that buffer items need to be generated on inactive ports as well, an extra argument representing the inactive ports need to be added
To be backward compatible, a new series of macros are introduced to take both active and inactive ports as arguments
The original version (with active ports only) will be checked first. If it is not defined, then the extended version will be called
Only vendors who support zero profiles need to change their buffer templates
Enable buffer manager to load zero pools and profiles from a JSON file:
The JSON file is provided on a per-platform basis
It is copied from platform/<vendor> folder to /usr/share/sonic/temlates folder in compiling time and rendered when the swss container is being created.
To make code clean and reduce redundant code, extract common macros from buffer_defaults_t{0,1}.j2 of all SKUs to two common files:
One in Mellanox-SN2700-D48C8 for single ingress pool mode
The other in ACS-MSN2700 for double ingress pool mode
Those files of all other SKUs will be symbol link to the above files
Update sonic-cfggen test accordingly:
Adjust example output file of JSON template for unit test
Add unit test in for Mellanox's new buffer templates.
How to verify it
Regression test.
Unit test in sonic-cfggen
Run regression test and manually test.
- Why I did it
Wrong SKU configuration will lead to longer init flow.
This will affect fast-reboot feature by increasing the traffic downtime.
Since MLNX met the required downtime period with this SKU this bug found with a delay.
- How I did it
Add the required split labels for ports.
- How to verify it
Run fast-reboot with this platform using SN3800-D112C8 SKU.
Why I did it
"chassis_db_init" task of PMON should be skipped on Mellanox simx platform, since the hardware info which this task is trying to access is not available on simx platforms, It will introduce some error log.
How I did it
Add the capability for "chassis_db_init" in the template for it can be skipped by adding configuration in "pmon_daemon_control.json".
add "skip_chassis_db_init" configuration for simx platforms.
use symbol link for "pmon_daemon_control.json" since all the simx platforms share the same configuration
How to verify it
Build an image and install it on simx platform to check whether "chassis_db_init" task is skipped.
Signed-off-by: Kebo Liu <kebol@nvidia.com>
- Why I did it
Add NVIDIA Copyright header to "mellanox" files
- How I did it
Add NVIDIA Copyright header as a comment for Mellanox files
- How to verify it
Sanity tests and PR checkers.
#### Why I did it
Fixing https://github.com/Azure/sonic-buildimage/issues/8938
Fixing 1x10G DPB mode in Mellanox-SN2700-D40C8S8 SKU as it was causing sonic-cfggen to fail.
#### How I did it
Added correct mode format in hwksu.json in Mellanox-SN2700-D40C8S8 and updated platform.json for the new mode.
#### How to verify it
Using sonic-cfggen verify it works fine
#### Why I did it
Add platform_asic file to each platform folder in sonic-device-data package. The file content will be used as the ground truth of mapping from PLATFORM_STRING to switch ASIC family.
One use case of the mapping is to prevent installing a wrong image, which targets for other ASIC platforms. For example, currently we have several ONIE images naming as sonic-*.bin, it's easy to mistakenly install the wrong image. With this mapping built into image, we could fetch the ONIE platform string, and figure out which ASIC it is using, and check we are installing the correct image.
After this PR merged, each platform vendor has to add one mandatory text file `device/PLATFORM_VENDOR/PLATFORM_STRING/platform_asic`, with the content of the platform's switch ASIC family.
I will update https://github.com/Azure/SONiC/wiki/Porting-Guide after this PR is merged.
You can get a list of the ASIC platforms by `ls -b platform | cat`. Currently the options are
```
barefoot
broadcom
cavium
centec
centec-arm64
generic
innovium
marvell
marvell-arm64
marvell-armhf
mellanox
nephos
p4
vs
```
Also support
```
broadcom-dnx
```
#### How I did it
#### How to verify it
Test one image on DUT. And check the folders under `/usr/share/sonic/device`
Depends on Azure/sonic-utilities#1626
Depends on Azure/sonic-swss#1754
QOS tables in config db used ABNF format i.e "[TABLE_NAME|name] to refer fieldvalue to other qos tables.
Example:
Config DB:
"Ethernet92|3": {
"scheduler": "[SCHEDULER|scheduler.1]",
"wred_profile": "[WRED_PROFILE|AZURE_LOSSLESS]"
},
"Ethernet0|0": {
"profile": "[BUFFER_PROFILE|ingress_lossy_profile]"
},
"Ethernet0": {
"dscp_to_tc_map": "[DSCP_TO_TC_MAP|AZURE]",
"pfc_enable": "3,4",
"pfc_to_queue_map": "[MAP_PFC_PRIORITY_TO_QUEUE|AZURE]",
"tc_to_pg_map": "[TC_TO_PRIORITY_GROUP_MAP|AZURE]",
"tc_to_queue_map": "[TC_TO_QUEUE_MAP|AZURE]"
},
This format is not consistent with other DB schema followed in sonic.
And also this reference in DB is not required, This is taken care by YANG "leafref".
Removed this format from all platform files to consistent with other sonic db schema.
Example:
"Ethernet92|3": {
"scheduler": "scheduler.1",
"wred_profile": "AZURE_LOSSLESS"
},
Dependent pull requests:
#7752 - To modify platfrom files
#7281 - Yang model
Azure/sonic-utilities#1626 - DB migration
Azure/sonic-swss#1754 - swss change to remove ABNF format
- Why I did it
Removed 2x40G for SN3800. This mode is not supported by hardware.
- How I did it
Removing it from hwsku.json and platform.json
- How to verify it
Load it in the device and check supported modes
- Why I did it
SN4600 A0 platform was EOL, so there is no need to support it, sensor conf can be removed and we don't need to maintain 2 sensor conf files, only A1 platform is needed.
- How I did it
Remove get_sensors_conf_path which intends to load correct sensor conf for different(A0/A1) platforms.
Remove the sensor conf for A0 platform, rename previous sensor.conf.a1 to sensor.conf
- How to verify it
Run sensor test on the SN4600 platform.
- Why I did it
Update platform data files for SN4800 to support chassis management
- How I did it
Update pcie.yml
Update sensors.conf
Update platform.json
- How to verify it
Run platform test suite in sonic-mgmt
- Why I did it
The MSN4410 platform was missing 2x100G and 4x50G supported breakout modes in platform.json
- How I did it
Added the aforementioned breakout modes to platform.json
- How to verify it
Run show interface breakout on a MSN4410 and verify that 2x100G and 4x50G are listed in the supported breakout modes for ports 1-24.
#### Why I did it
The values of the syseeprom were not valid
#### How I did it
I took the correct hexdump values from a real switch and created this hex file again
#### How to verify it
decode-syseeprom will display the new values
#### Why I did it
New SN410 A1 system has a different sensor layout with A0 system, needs a new sensor conf file to support it.
#### How I did it
Since the SN4410 A1 system use exactly the same sensor layout as the SN4700 A1 system, so add a symbol link linking to the SN4700 A1 sensor conf file to reuse.
#### How to verify it
Run sensor test against the SN4410 A1 system;
Run platform related regression test against the SN4410 A1 system
*Edited platform.json for 4600 & 4600C
*Edited hwsku.json and port_config.ini files for all the SKU's present under these platforms
Signed-off-by: Vivek Reddy Karri <vkarri@nvidia.com>
- Why I did it
To create SDK dump on Mellanox devices when SDK event has occurred.
- How I did it
Set the SKUs keys needed to initialize the feature in SAI.
- How to verify it
Simulate SDK event and check that dump is created in the expected path.
- Why I did it
The default breakout mode according to hwsku.json for the MSN4410 is 1x400G and this is not a supported breakout mode according to its platform.json
This causes a conflict on boot of this platform and no containers on the switch will init successfully.
- How I did it
Referenced the platform specification files and updated platform.json
- How to verify it
Install master version of SONiC on MSN4410
Boot switch and verify swss is successfully running using docker ps
- Why I did it
Enhance the Python3 support for platform API. Originally, some platform APIs call SDK API which didn't support Python 3. Now the Python 3 APIs have been supported in SDK 4.4.3XXX, Python3 is completely supported by platform API
- How I did it
Start all platform daemons from python3
1. Remove #/usr/bin/env python at the beginning of each platform API file as the platform API won't be started as daemons but be imported from other daemons.
2. Adjust SDK API calls accordingly
- How to verify it
Manually test and run regression platform test
Signed-off-by: Stephen Sun <stephens@nvidia.com>
#### Why I did it
Support 2km cables for Microsoft SKUs
#### How I did it
1. Update pg_profile_lookup.ini with 2000m cable supported
2. Update buffer configuration for t1 with uplink cable 2000m
- For SN3800 platform:
- C64:
- t0: 32 100G down links and 32 100G up links.
- t1: 56 100G down links and 8 100G up links with 2 km cable.
- D112C8: 112 50G down links and 8 100G up links.
- D24C52: 24 50G down links, 20 100G down links, and 32 100G up links.
- D28C50: 28 50G down links, 18 100G down links, and 32 100G up links.
- For SN2700 platform:
- D48C8: 48 50G down links and 8 100G up links.
- C32:
- t0: 16 100G down links and 16 100G up links.
- t1: 24 100G down links and 8 100G up links with 2 km cable.
- For SN4600C platform:
- D112C8: 112 50G down links and 8 100G up links.
#### How to verify it
Run regression test
#### Why I did it
The label for PSU related sensors on the Spectrum-2 platform is not aligned with the physical location of the PSU.
#### How I did it
Update the label in the sensor conf file for those relevant platforms
Signed-off-by: Kebo Liu <kebol@nvidia.com>