[v2,1/2] wcn36xx: Fix Antenna Diversity Switching

We have been tracking a strange bug with Antenna Diversity Switching (ADS)
on wcn3680b for a while.

ADS is configured like this:
   A. Via a firmware configuration table baked into the NV area.
       1. Defines if ADS is enabled.
       2. Defines which GPIOs are connected to which antenna enable pin.
       3. Defines which antenna/GPIO is primary and which is secondary.

   B. WCN36XX_CFG_VAL(ANTENNA_DIVERSITY, N)
      N is a bitmask of available antenna.

      Setting N to 3 indicates a bitmask of enabled antenna (1 | 2).

      Obviously then we can set N to 1 or N to 2 to fix to a particular
      antenna and disable antenna diversity.

   C. WCN36XX_CFG_VAL(ASD_PROBE_INTERVAL, XX)
      XX is the number of beacons between each antenna RSSI check.
      Setting this value to 50 means, every 50 received beacons, run the
      ADS algorithm.

   D. WCN36XX_CFG_VAL(ASD_TRIGGER_THRESHOLD, YY)
      YY is a two's complement integer which specifies the RSSI decibel
      threshold below which ADS will run.
      We default to -60db here, meaning a measured RSSI <= -60db will
      trigger an ADS probe.

   E. WCN36XX_CFG_VAL(ASD_RTT_RSSI_HYST_THRESHOLD, Z)
      Z is a hysteresis value, indicating a delta which the RSSI must
      exceed for the antenna switch to be valid.

      For example if HYST_THRESHOLD == 3 AntennaId1-RSSI == -60db and
      AntennaId-2-RSSI == -58db then firmware will not switch antenna.
      The threshold needs to be -57db or better to satisfy the criteria.

   F. A firmware feature bit also exists ANTENNA_DIVERSITY_SELECTION.
      This feature bit is used by the firmware to report if
      ANTENNA_DIVERSITY_SELECTION is supported. The host is not required to
      toggle this bit to enable or disable ADS.

ADS works like this:

    A. Every XX beacons the firmware switches to or remains on the primary
       antenna.

    B. The firmware then sends a Request-To-Send (RTS) packet to the AP.

    C. The firmware waits for a Clear-To-Send (CTS) response from the AP.

    D. The firmware then notes the received RSSI on the CTS packet.

    E. The firmware then repeats steps A-D on the secondary antenna.

    F. Subsequently if the RSSI on the measured antenna is better than
       ASD_TRIGGER_THRESHOLD + the active antenna's RSSI then the
       measured antenna becomes the active antenna.

    G. If RSSI rises past ASD_TRIGGER_THRESHOLD then ADS doesn't run at
       all even if there is a substantially better RSSI on the alternative
       antenna.

What we have been observing is that the RTS packet is being sent but the
MAC address is a byte-swapped version of the target MAC. The ADS/RTS MAC is
corrupted only when the link is encrypted, if the AP is open the RTS MAC is
correct. Similarly if we configure the firmware to an RTS/CTS sequence for
regular data - the transmitted RTS MAC is correctly formatted.

Internally the wcn36xx firmware uses the indexes in the SMD commands to
populate and extract data from specific entries in an STA lookup table. The
AP's MAC appears a number of times in different indexes within this lookup
table, so the MAC address extracted for the data-transmit RTS and the MAC
address extracted for the ADS/RTS packet are not the same STA table index.

Our analysis indicates the relevant firmware STA table index is
"bssSelfStaIdx".

There is an STA populate function responsible for formatting the MAC
address of the bssSelfStaIdx including byte-swapping the MAC address.

Its clear then that the required STA populate command did not run for
bssSelfStaIdx.

So taking a look at the sequence of SMD commands sent to the firmware we
see the following downstream when moving from an unencrypted to encrypted
BSS setup.

- WLAN_HAL_CONFIG_BSS_REQ
- WLAN_HAL_CONFIG_STA_REQ
- WLAN_HAL_SET_STAKEY_REQ

Upstream in wcn36xx we have

- WLAN_HAL_CONFIG_BSS_REQ
- WLAN_HAL_SET_STAKEY_REQ

The solution then is to add the missing WLAN_HAL_CONFIG_STA_REQ between
WLAN_HAL_CONFIG_BSS_REQ and WLAN_HAL_SET_STAKEY_REQ.

No surprise WLAN_HAL_CONFIG_STA_REQ is the routine responsible for
populating the STA lookup table in the firmware and once done the MAC sent
by the ADS routine is in the correct byte-order.

This bug is apparent with ADS but it is also the case that any other
firmware routine that depends on the "bssSelfStaIdx" would retrieve
malformed data on an encrypted link.

Fixes: 3e977c5c523d ("wcn36xx: Define wcn3680 specific firmware parameters")
Signed-off-by: Bryan O'Donoghue <bryan.odonoghue@linaro.org>

Tested-by: Benjamin Li <benl@squareup.com>

---
 drivers/net/wireless/ath/wcn36xx/main.c | 4 +++-
 1 file changed, 3 insertions(+), 1 deletion(-)

-- 
2.33.0


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On Thu, 9 Sept 2021 at 16:42, Bryan O'Donoghue
<bryan.odonoghue@linaro.org> wrote:
>

> We have been tracking a strange bug with Antenna Diversity Switching (ADS)

> on wcn3680b for a while.

>

> ADS is configured like this:

>    A. Via a firmware configuration table baked into the NV area.

>        1. Defines if ADS is enabled.

>        2. Defines which GPIOs are connected to which antenna enable pin.

>        3. Defines which antenna/GPIO is primary and which is secondary.

>

>    B. WCN36XX_CFG_VAL(ANTENNA_DIVERSITY, N)

>       N is a bitmask of available antenna.

>

>       Setting N to 3 indicates a bitmask of enabled antenna (1 | 2).

>

>       Obviously then we can set N to 1 or N to 2 to fix to a particular

>       antenna and disable antenna diversity.

>

>    C. WCN36XX_CFG_VAL(ASD_PROBE_INTERVAL, XX)

>       XX is the number of beacons between each antenna RSSI check.

>       Setting this value to 50 means, every 50 received beacons, run the

>       ADS algorithm.

>

>    D. WCN36XX_CFG_VAL(ASD_TRIGGER_THRESHOLD, YY)

>       YY is a two's complement integer which specifies the RSSI decibel

>       threshold below which ADS will run.

>       We default to -60db here, meaning a measured RSSI <= -60db will

>       trigger an ADS probe.

>

>    E. WCN36XX_CFG_VAL(ASD_RTT_RSSI_HYST_THRESHOLD, Z)

>       Z is a hysteresis value, indicating a delta which the RSSI must

>       exceed for the antenna switch to be valid.

>

>       For example if HYST_THRESHOLD == 3 AntennaId1-RSSI == -60db and

>       AntennaId-2-RSSI == -58db then firmware will not switch antenna.

>       The threshold needs to be -57db or better to satisfy the criteria.

>

>    F. A firmware feature bit also exists ANTENNA_DIVERSITY_SELECTION.

>       This feature bit is used by the firmware to report if

>       ANTENNA_DIVERSITY_SELECTION is supported. The host is not required to

>       toggle this bit to enable or disable ADS.

>

> ADS works like this:

>

>     A. Every XX beacons the firmware switches to or remains on the primary

>        antenna.

>

>     B. The firmware then sends a Request-To-Send (RTS) packet to the AP.

>

>     C. The firmware waits for a Clear-To-Send (CTS) response from the AP.

>

>     D. The firmware then notes the received RSSI on the CTS packet.

>

>     E. The firmware then repeats steps A-D on the secondary antenna.

>

>     F. Subsequently if the RSSI on the measured antenna is better than

>        ASD_TRIGGER_THRESHOLD + the active antenna's RSSI then the

>        measured antenna becomes the active antenna.

>

>     G. If RSSI rises past ASD_TRIGGER_THRESHOLD then ADS doesn't run at

>        all even if there is a substantially better RSSI on the alternative

>        antenna.

>

> What we have been observing is that the RTS packet is being sent but the

> MAC address is a byte-swapped version of the target MAC. The ADS/RTS MAC is

> corrupted only when the link is encrypted, if the AP is open the RTS MAC is

> correct. Similarly if we configure the firmware to an RTS/CTS sequence for

> regular data - the transmitted RTS MAC is correctly formatted.

>

> Internally the wcn36xx firmware uses the indexes in the SMD commands to

> populate and extract data from specific entries in an STA lookup table. The

> AP's MAC appears a number of times in different indexes within this lookup

> table, so the MAC address extracted for the data-transmit RTS and the MAC

> address extracted for the ADS/RTS packet are not the same STA table index.

>

> Our analysis indicates the relevant firmware STA table index is

> "bssSelfStaIdx".

>

> There is an STA populate function responsible for formatting the MAC

> address of the bssSelfStaIdx including byte-swapping the MAC address.

>

> Its clear then that the required STA populate command did not run for

> bssSelfStaIdx.

>

> So taking a look at the sequence of SMD commands sent to the firmware we

> see the following downstream when moving from an unencrypted to encrypted

> BSS setup.

>

> - WLAN_HAL_CONFIG_BSS_REQ

> - WLAN_HAL_CONFIG_STA_REQ

> - WLAN_HAL_SET_STAKEY_REQ

>

> Upstream in wcn36xx we have

>

> - WLAN_HAL_CONFIG_BSS_REQ

> - WLAN_HAL_SET_STAKEY_REQ

>

> The solution then is to add the missing WLAN_HAL_CONFIG_STA_REQ between

> WLAN_HAL_CONFIG_BSS_REQ and WLAN_HAL_SET_STAKEY_REQ.

>

> No surprise WLAN_HAL_CONFIG_STA_REQ is the routine responsible for

> populating the STA lookup table in the firmware and once done the MAC sent

> by the ADS routine is in the correct byte-order.

>

> This bug is apparent with ADS but it is also the case that any other

> firmware routine that depends on the "bssSelfStaIdx" would retrieve

> malformed data on an encrypted link.

>

> Fixes: 3e977c5c523d ("wcn36xx: Define wcn3680 specific firmware parameters")

> Signed-off-by: Bryan O'Donoghue <bryan.odonoghue@linaro.org>

> Tested-by: Benjamin Li <benl@squareup.com>


Reviewed-by: Loic Poulain <loic.poulain@linaro.org>

Bryan O'Donoghue <bryan.odonoghue@linaro.org> wrote:

> We have been tracking a strange bug with Antenna Diversity Switching (ADS)

> on wcn3680b for a while.

> 

> ADS is configured like this:

>    A. Via a firmware configuration table baked into the NV area.

>        1. Defines if ADS is enabled.

>        2. Defines which GPIOs are connected to which antenna enable pin.

>        3. Defines which antenna/GPIO is primary and which is secondary.

> 

>    B. WCN36XX_CFG_VAL(ANTENNA_DIVERSITY, N)

>       N is a bitmask of available antenna.

> 

>       Setting N to 3 indicates a bitmask of enabled antenna (1 | 2).

> 

>       Obviously then we can set N to 1 or N to 2 to fix to a particular

>       antenna and disable antenna diversity.

> 

>    C. WCN36XX_CFG_VAL(ASD_PROBE_INTERVAL, XX)

>       XX is the number of beacons between each antenna RSSI check.

>       Setting this value to 50 means, every 50 received beacons, run the

>       ADS algorithm.

> 

>    D. WCN36XX_CFG_VAL(ASD_TRIGGER_THRESHOLD, YY)

>       YY is a two's complement integer which specifies the RSSI decibel

>       threshold below which ADS will run.

>       We default to -60db here, meaning a measured RSSI <= -60db will

>       trigger an ADS probe.

> 

>    E. WCN36XX_CFG_VAL(ASD_RTT_RSSI_HYST_THRESHOLD, Z)

>       Z is a hysteresis value, indicating a delta which the RSSI must

>       exceed for the antenna switch to be valid.

> 

>       For example if HYST_THRESHOLD == 3 AntennaId1-RSSI == -60db and

>       AntennaId-2-RSSI == -58db then firmware will not switch antenna.

>       The threshold needs to be -57db or better to satisfy the criteria.

> 

>    F. A firmware feature bit also exists ANTENNA_DIVERSITY_SELECTION.

>       This feature bit is used by the firmware to report if

>       ANTENNA_DIVERSITY_SELECTION is supported. The host is not required to

>       toggle this bit to enable or disable ADS.

> 

> ADS works like this:

> 

>     A. Every XX beacons the firmware switches to or remains on the primary

>        antenna.

> 

>     B. The firmware then sends a Request-To-Send (RTS) packet to the AP.

> 

>     C. The firmware waits for a Clear-To-Send (CTS) response from the AP.

> 

>     D. The firmware then notes the received RSSI on the CTS packet.

> 

>     E. The firmware then repeats steps A-D on the secondary antenna.

> 

>     F. Subsequently if the RSSI on the measured antenna is better than

>        ASD_TRIGGER_THRESHOLD + the active antenna's RSSI then the

>        measured antenna becomes the active antenna.

> 

>     G. If RSSI rises past ASD_TRIGGER_THRESHOLD then ADS doesn't run at

>        all even if there is a substantially better RSSI on the alternative

>        antenna.

> 

> What we have been observing is that the RTS packet is being sent but the

> MAC address is a byte-swapped version of the target MAC. The ADS/RTS MAC is

> corrupted only when the link is encrypted, if the AP is open the RTS MAC is

> correct. Similarly if we configure the firmware to an RTS/CTS sequence for

> regular data - the transmitted RTS MAC is correctly formatted.

> 

> Internally the wcn36xx firmware uses the indexes in the SMD commands to

> populate and extract data from specific entries in an STA lookup table. The

> AP's MAC appears a number of times in different indexes within this lookup

> table, so the MAC address extracted for the data-transmit RTS and the MAC

> address extracted for the ADS/RTS packet are not the same STA table index.

> 

> Our analysis indicates the relevant firmware STA table index is

> "bssSelfStaIdx".

> 

> There is an STA populate function responsible for formatting the MAC

> address of the bssSelfStaIdx including byte-swapping the MAC address.

> 

> Its clear then that the required STA populate command did not run for

> bssSelfStaIdx.

> 

> So taking a look at the sequence of SMD commands sent to the firmware we

> see the following downstream when moving from an unencrypted to encrypted

> BSS setup.

> 

> - WLAN_HAL_CONFIG_BSS_REQ

> - WLAN_HAL_CONFIG_STA_REQ

> - WLAN_HAL_SET_STAKEY_REQ

> 

> Upstream in wcn36xx we have

> 

> - WLAN_HAL_CONFIG_BSS_REQ

> - WLAN_HAL_SET_STAKEY_REQ

> 

> The solution then is to add the missing WLAN_HAL_CONFIG_STA_REQ between

> WLAN_HAL_CONFIG_BSS_REQ and WLAN_HAL_SET_STAKEY_REQ.

> 

> No surprise WLAN_HAL_CONFIG_STA_REQ is the routine responsible for

> populating the STA lookup table in the firmware and once done the MAC sent

> by the ADS routine is in the correct byte-order.

> 

> This bug is apparent with ADS but it is also the case that any other

> firmware routine that depends on the "bssSelfStaIdx" would retrieve

> malformed data on an encrypted link.

> 

> Fixes: 3e977c5c523d ("wcn36xx: Define wcn3680 specific firmware parameters")

> Signed-off-by: Bryan O'Donoghue <bryan.odonoghue@linaro.org>

> Tested-by: Benjamin Li <benl@squareup.com>

> Reviewed-by: Loic Poulain <loic.poulain@linaro.org>

> Signed-off-by: Kalle Valo <kvalo@codeaurora.org>


2 patches applied to ath-next branch of ath.git, thanks.

701668d3bfa0 wcn36xx: Fix Antenna Diversity Switching
c0c2eb20c79e wcn36xx: Add ability for wcn36xx_smd_dump_cmd_req to pass two's complement

-- 
https://patchwork.kernel.org/project/linux-wireless/patch/20210909144428.2564650-2-bryan.odonoghue@linaro.org/

https://wireless.wiki.kernel.org/en/developers/documentation/submittingpatches

Bryan O'Donoghue <bryan.odonoghue@linaro.org> wrote:

> We have been tracking a strange bug with Antenna Diversity Switching (ADS)

> on wcn3680b for a while.

> 

> ADS is configured like this:

>    A. Via a firmware configuration table baked into the NV area.

>        1. Defines if ADS is enabled.

>        2. Defines which GPIOs are connected to which antenna enable pin.

>        3. Defines which antenna/GPIO is primary and which is secondary.

> 

>    B. WCN36XX_CFG_VAL(ANTENNA_DIVERSITY, N)

>       N is a bitmask of available antenna.

> 

>       Setting N to 3 indicates a bitmask of enabled antenna (1 | 2).

> 

>       Obviously then we can set N to 1 or N to 2 to fix to a particular

>       antenna and disable antenna diversity.

> 

>    C. WCN36XX_CFG_VAL(ASD_PROBE_INTERVAL, XX)

>       XX is the number of beacons between each antenna RSSI check.

>       Setting this value to 50 means, every 50 received beacons, run the

>       ADS algorithm.

> 

>    D. WCN36XX_CFG_VAL(ASD_TRIGGER_THRESHOLD, YY)

>       YY is a two's complement integer which specifies the RSSI decibel

>       threshold below which ADS will run.

>       We default to -60db here, meaning a measured RSSI <= -60db will

>       trigger an ADS probe.

> 

>    E. WCN36XX_CFG_VAL(ASD_RTT_RSSI_HYST_THRESHOLD, Z)

>       Z is a hysteresis value, indicating a delta which the RSSI must

>       exceed for the antenna switch to be valid.

> 

>       For example if HYST_THRESHOLD == 3 AntennaId1-RSSI == -60db and

>       AntennaId-2-RSSI == -58db then firmware will not switch antenna.

>       The threshold needs to be -57db or better to satisfy the criteria.

> 

>    F. A firmware feature bit also exists ANTENNA_DIVERSITY_SELECTION.

>       This feature bit is used by the firmware to report if

>       ANTENNA_DIVERSITY_SELECTION is supported. The host is not required to

>       toggle this bit to enable or disable ADS.

> 

> ADS works like this:

> 

>     A. Every XX beacons the firmware switches to or remains on the primary

>        antenna.

> 

>     B. The firmware then sends a Request-To-Send (RTS) packet to the AP.

> 

>     C. The firmware waits for a Clear-To-Send (CTS) response from the AP.

> 

>     D. The firmware then notes the received RSSI on the CTS packet.

> 

>     E. The firmware then repeats steps A-D on the secondary antenna.

> 

>     F. Subsequently if the RSSI on the measured antenna is better than

>        ASD_TRIGGER_THRESHOLD + the active antenna's RSSI then the

>        measured antenna becomes the active antenna.

> 

>     G. If RSSI rises past ASD_TRIGGER_THRESHOLD then ADS doesn't run at

>        all even if there is a substantially better RSSI on the alternative

>        antenna.

> 

> What we have been observing is that the RTS packet is being sent but the

> MAC address is a byte-swapped version of the target MAC. The ADS/RTS MAC is

> corrupted only when the link is encrypted, if the AP is open the RTS MAC is

> correct. Similarly if we configure the firmware to an RTS/CTS sequence for

> regular data - the transmitted RTS MAC is correctly formatted.

> 

> Internally the wcn36xx firmware uses the indexes in the SMD commands to

> populate and extract data from specific entries in an STA lookup table. The

> AP's MAC appears a number of times in different indexes within this lookup

> table, so the MAC address extracted for the data-transmit RTS and the MAC

> address extracted for the ADS/RTS packet are not the same STA table index.

> 

> Our analysis indicates the relevant firmware STA table index is

> "bssSelfStaIdx".

> 

> There is an STA populate function responsible for formatting the MAC

> address of the bssSelfStaIdx including byte-swapping the MAC address.

> 

> Its clear then that the required STA populate command did not run for

> bssSelfStaIdx.

> 

> So taking a look at the sequence of SMD commands sent to the firmware we

> see the following downstream when moving from an unencrypted to encrypted

> BSS setup.

> 

> - WLAN_HAL_CONFIG_BSS_REQ

> - WLAN_HAL_CONFIG_STA_REQ

> - WLAN_HAL_SET_STAKEY_REQ

> 

> Upstream in wcn36xx we have

> 

> - WLAN_HAL_CONFIG_BSS_REQ

> - WLAN_HAL_SET_STAKEY_REQ

> 

> The solution then is to add the missing WLAN_HAL_CONFIG_STA_REQ between

> WLAN_HAL_CONFIG_BSS_REQ and WLAN_HAL_SET_STAKEY_REQ.

> 

> No surprise WLAN_HAL_CONFIG_STA_REQ is the routine responsible for

> populating the STA lookup table in the firmware and once done the MAC sent

> by the ADS routine is in the correct byte-order.

> 

> This bug is apparent with ADS but it is also the case that any other

> firmware routine that depends on the "bssSelfStaIdx" would retrieve

> malformed data on an encrypted link.

> 

> Fixes: 3e977c5c523d ("wcn36xx: Define wcn3680 specific firmware parameters")

> Signed-off-by: Bryan O'Donoghue <bryan.odonoghue@linaro.org>

> Tested-by: Benjamin Li <benl@squareup.com>

> Reviewed-by: Loic Poulain <loic.poulain@linaro.org>

> Signed-off-by: Kalle Valo <kvalo@codeaurora.org>


2 patches applied to ath-next branch of ath.git, thanks.

701668d3bfa0 wcn36xx: Fix Antenna Diversity Switching
c0c2eb20c79e wcn36xx: Add ability for wcn36xx_smd_dump_cmd_req to pass two's complement

-- 
https://patchwork.kernel.org/project/linux-wireless/patch/20210909144428.2564650-2-bryan.odonoghue@linaro.org/

https://wireless.wiki.kernel.org/en/developers/documentation/submittingpatches


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