It seems I missed that most ethnl_parse_header_dev_get() callers
declare an on-stack struct ethnl_req_info, and that they simply call
dev_put(req_info.dev) when about to return.
Add ethnl_parse_header_dev_put() helper to properly untrack
reference taken by ethnl_parse_header_dev_get().
Fixes: e4b8954074 ("netlink: add net device refcount tracker to struct ethnl_req_info")
Signed-off-by: Eric Dumazet <edumazet@google.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
Add a pair of new ethtool messages, 'ETHTOOL_MSG_MODULE_SET' and
'ETHTOOL_MSG_MODULE_GET', that can be used to control transceiver
modules parameters and retrieve their status.
The first parameter to control is the power mode of the module. It is
only relevant for paged memory modules, as flat memory modules always
operate in low power mode.
When a paged memory module is in low power mode, its power consumption
is reduced to the minimum, the management interface towards the host is
available and the data path is deactivated.
User space can choose to put modules that are not currently in use in
low power mode and transition them to high power mode before putting the
associated ports administratively up. This is useful for user space that
favors reduced power consumption and lower temperatures over reduced
link up times. In QSFP-DD modules the transition from low power mode to
high power mode can take a few seconds and this transition is only
expected to get longer with future / more complex modules.
User space can control the power mode of the module via the power mode
policy attribute ('ETHTOOL_A_MODULE_POWER_MODE_POLICY'). Possible
values:
* high: Module is always in high power mode.
* auto: Module is transitioned by the host to high power mode when the
first port using it is put administratively up and to low power mode
when the last port using it is put administratively down.
The operational power mode of the module is available to user space via
the 'ETHTOOL_A_MODULE_POWER_MODE' attribute. The attribute is not
reported to user space when a module is not plugged-in.
The user API is designed to be generic enough so that it could be used
for modules with different memory maps (e.g., SFF-8636, CMIS).
The only implementation of the device driver API in this series is for a
MAC driver (mlxsw) where the module is controlled by the device's
firmware, but it is designed to be generic enough so that it could also
be used by implementations where the module is controlled by the CPU.
CMIS testing
============
# ethtool -m swp11
Identifier : 0x18 (QSFP-DD Double Density 8X Pluggable Transceiver (INF-8628))
...
Module State : 0x03 (ModuleReady)
LowPwrAllowRequestHW : Off
LowPwrRequestSW : Off
The module is not in low power mode, as it is not forced by hardware
(LowPwrAllowRequestHW is off) or by software (LowPwrRequestSW is off).
The power mode can be queried from the kernel. In case
LowPwrAllowRequestHW was on, the kernel would need to take into account
the state of the LowPwrRequestHW signal, which is not visible to user
space.
$ ethtool --show-module swp11
Module parameters for swp11:
power-mode-policy high
power-mode high
Change the power mode policy to 'auto':
# ethtool --set-module swp11 power-mode-policy auto
Query the power mode again:
$ ethtool --show-module swp11
Module parameters for swp11:
power-mode-policy auto
power-mode low
Verify with the data read from the EEPROM:
# ethtool -m swp11
Identifier : 0x18 (QSFP-DD Double Density 8X Pluggable Transceiver (INF-8628))
...
Module State : 0x01 (ModuleLowPwr)
LowPwrAllowRequestHW : Off
LowPwrRequestSW : On
Put the associated port administratively up which will instruct the host
to transition the module to high power mode:
# ip link set dev swp11 up
Query the power mode again:
$ ethtool --show-module swp11
Module parameters for swp11:
power-mode-policy auto
power-mode high
Verify with the data read from the EEPROM:
# ethtool -m swp11
Identifier : 0x18 (QSFP-DD Double Density 8X Pluggable Transceiver (INF-8628))
...
Module State : 0x03 (ModuleReady)
LowPwrAllowRequestHW : Off
LowPwrRequestSW : Off
Put the associated port administratively down which will instruct the
host to transition the module to low power mode:
# ip link set dev swp11 down
Query the power mode again:
$ ethtool --show-module swp11
Module parameters for swp11:
power-mode-policy auto
power-mode low
Verify with the data read from the EEPROM:
# ethtool -m swp11
Identifier : 0x18 (QSFP-DD Double Density 8X Pluggable Transceiver (INF-8628))
...
Module State : 0x01 (ModuleLowPwr)
LowPwrAllowRequestHW : Off
LowPwrRequestSW : On
SFF-8636 testing
================
# ethtool -m swp13
Identifier : 0x11 (QSFP28)
...
Extended identifier description : 5.0W max. Power consumption, High Power Class (> 3.5 W) enabled
Power set : Off
Power override : On
...
Transmit avg optical power (Channel 1) : 0.7733 mW / -1.12 dBm
Transmit avg optical power (Channel 2) : 0.7649 mW / -1.16 dBm
Transmit avg optical power (Channel 3) : 0.7790 mW / -1.08 dBm
Transmit avg optical power (Channel 4) : 0.7837 mW / -1.06 dBm
Rcvr signal avg optical power(Channel 1) : 0.9302 mW / -0.31 dBm
Rcvr signal avg optical power(Channel 2) : 0.9079 mW / -0.42 dBm
Rcvr signal avg optical power(Channel 3) : 0.8993 mW / -0.46 dBm
Rcvr signal avg optical power(Channel 4) : 0.8778 mW / -0.57 dBm
The module is not in low power mode, as it is not forced by hardware
(Power override is on) or by software (Power set is off).
The power mode can be queried from the kernel. In case Power override
was off, the kernel would need to take into account the state of the
LPMode signal, which is not visible to user space.
$ ethtool --show-module swp13
Module parameters for swp13:
power-mode-policy high
power-mode high
Change the power mode policy to 'auto':
# ethtool --set-module swp13 power-mode-policy auto
Query the power mode again:
$ ethtool --show-module swp13
Module parameters for swp13:
power-mode-policy auto
power-mode low
Verify with the data read from the EEPROM:
# ethtool -m swp13
Identifier : 0x11 (QSFP28)
Extended identifier description : 5.0W max. Power consumption, High Power Class (> 3.5 W) not enabled
Power set : On
Power override : On
...
Transmit avg optical power (Channel 1) : 0.0000 mW / -inf dBm
Transmit avg optical power (Channel 2) : 0.0000 mW / -inf dBm
Transmit avg optical power (Channel 3) : 0.0000 mW / -inf dBm
Transmit avg optical power (Channel 4) : 0.0000 mW / -inf dBm
Rcvr signal avg optical power(Channel 1) : 0.0000 mW / -inf dBm
Rcvr signal avg optical power(Channel 2) : 0.0000 mW / -inf dBm
Rcvr signal avg optical power(Channel 3) : 0.0000 mW / -inf dBm
Rcvr signal avg optical power(Channel 4) : 0.0000 mW / -inf dBm
Put the associated port administratively up which will instruct the host
to transition the module to high power mode:
# ip link set dev swp13 up
Query the power mode again:
$ ethtool --show-module swp13
Module parameters for swp13:
power-mode-policy auto
power-mode high
Verify with the data read from the EEPROM:
# ethtool -m swp13
Identifier : 0x11 (QSFP28)
...
Extended identifier description : 5.0W max. Power consumption, High Power Class (> 3.5 W) enabled
Power set : Off
Power override : On
...
Transmit avg optical power (Channel 1) : 0.7934 mW / -1.01 dBm
Transmit avg optical power (Channel 2) : 0.7859 mW / -1.05 dBm
Transmit avg optical power (Channel 3) : 0.7885 mW / -1.03 dBm
Transmit avg optical power (Channel 4) : 0.7985 mW / -0.98 dBm
Rcvr signal avg optical power(Channel 1) : 0.9325 mW / -0.30 dBm
Rcvr signal avg optical power(Channel 2) : 0.9034 mW / -0.44 dBm
Rcvr signal avg optical power(Channel 3) : 0.9086 mW / -0.42 dBm
Rcvr signal avg optical power(Channel 4) : 0.8885 mW / -0.51 dBm
Put the associated port administratively down which will instruct the
host to transition the module to low power mode:
# ip link set dev swp13 down
Query the power mode again:
$ ethtool --show-module swp13
Module parameters for swp13:
power-mode-policy auto
power-mode low
Verify with the data read from the EEPROM:
# ethtool -m swp13
Identifier : 0x11 (QSFP28)
...
Extended identifier description : 5.0W max. Power consumption, High Power Class (> 3.5 W) not enabled
Power set : On
Power override : On
...
Transmit avg optical power (Channel 1) : 0.0000 mW / -inf dBm
Transmit avg optical power (Channel 2) : 0.0000 mW / -inf dBm
Transmit avg optical power (Channel 3) : 0.0000 mW / -inf dBm
Transmit avg optical power (Channel 4) : 0.0000 mW / -inf dBm
Rcvr signal avg optical power(Channel 1) : 0.0000 mW / -inf dBm
Rcvr signal avg optical power(Channel 2) : 0.0000 mW / -inf dBm
Rcvr signal avg optical power(Channel 3) : 0.0000 mW / -inf dBm
Rcvr signal avg optical power(Channel 4) : 0.0000 mW / -inf dBm
Signed-off-by: Ido Schimmel <idosch@nvidia.com>
Signed-off-by: Jakub Kicinski <kuba@kernel.org>
Eric Dumazet