[v7] scsi: Add hwmon support for SMART temperature sensors

S.M.A.R.T. temperature sensors have been supported for
years by userspace tools such as smarttools and hddtemp.
This adds support to read it from the kernel using
the hwmon API and adds a temperature zone for the drive.

The idea came about when experimenting with NAS enclosures
that lack their own on-board sensors but instead piggy-back
the sensor found in the harddrive, if any, to decide on a
policy for driving the on-board fan.

The kernel thermal subsystem supports defining a thermal
policy for the enclosure using the device tree, see e.g.:
arch/arm/boot/dts/gemini-dlink-dns-313.dts
but this requires a proper hwmon sensor integrated with
the kernel.

With this driver, the hard disk temperatur can be read from
sysfs:

 > cd /sys/class/hwmon/hwmon0/

 > cat temp1_input

 38

If the harddrive supports one of the detected vendor
extensions for providing min/max temperatures (this is
usually since boot) we also provide attributes for
displaying that.

This means that they can also be handled by userspace
tools such as lm_sensors in a uniform way without need
for any special tools such as "hddtemp" (which seems
dormant).

This driver does not block any simultaneous use of
other SMART userspace tools, it's a both/and approach,
not either/or. SMART daemons are frequently ignoring
the temperature attribute because it changes too often
and fills up the logs, thus using it in the kernel
as a temperature zone may be a better fit for this.

The driver registers using
devm_hwmon_device_register_with_info() so hwmon sensors
will go away with their parent devices.

Reviewed-by: Guenter Roeck <linux@roeck-us.net> # HWMON

Signed-off-by: Linus Walleij <linus.walleij@linaro.org>

---
ChangeLog v6->v7:
- Updated the commit message.
- Partly bumping because SCSI maintainers seem to be
  ghosting the patch. I'm confused.
ChangeLog v5->v6:
- Add the hwmon sensor on the scsi_add_lun() synchronous
  or scsi_sysfs_add_devices() asynchronous path.
- Add a flag to drivers/usb/storage/scsiglue.c so that
  the ATA method will be tred with USB mass storage
  device. Works fine on my drives.
- Tested that this works fine with drives that come and
  go by adding/removing the USB cradle.
- Also tested the patch with some random USB flash drives
  so as to indicate they survive being sent some random
  ATA command. They are fine, they just bail out.
- This now illustrates more devices than just libata
  making use of the code in scsi_hwmon.c.
ChangeLog v4->v5:
- Move the whole thing over to drivers/scsi so it can
  be used with other devices using SCSI as transport
  more easily.
- Rename some functions and variables with scsi_*
  prefixes rather than ata_* where they are supposed to
  be generic for any SCSI device, and keep the naming for
  code that pertains specifically to the ATA slave access
  method.
- Add an enum to struct scsi_device telling what type of
  SMART interface the device is using, add SCSI_SMART_ATA
  for libata slave devices. (We can add more.)
- I am uncertain if this applies to SAS drives as well,
  it appears not (Christian Frankes answer) they
  require a different access method, and I can't test it,
  so I am currently only setting it up explicitly for
  ATA slave devices.
- Kept Guenter's ACK since the hwmon use didn't change.
- Now drive-by-coding in the SCSI subsystem instead of
  libata, enjoying the ride, let's see where it takes us!
ChangeLog v3->v4:
- Resend because of new libata maintainer.
ChangeLog v2->v3:
- Register a thermal zone for the harddrive.
- Remove unnecessary else after return.
- Collect Guenther's ACK.
ChangeLog v1->v2:
- Return the error code from scsci_execute() upwards.
- Use the .is_visible() callback on the hwmon device to
  decide whether to display min/max temperature properties
  or not.
- Split out an explicit format detection and reading
  function, and only detect the temperature format from
  probe()
- Name the hwmon sensor "sd" as per the pattern of other
  hwmon sensors, this is what userspace expects.
- Drop an unnecessary type check.
ChangeLog RFC->v1:
- Put includes in alphabetical order.
- Octal 00444 instead of S_IRUGO
- Avoid double negations in temperature range test
- Allocate a sector buffer in the state container
- Break out the SMART property parser to its own function
- Sink error codes into property parser
- Drop registration info print
- Use return PTR_ERR_OR_ZERO() in probe
- Make the hwmon device a local variable in probe()
- Use Guenthers Kconfig trick to avoid exporting the
  probe call
- Return temperatures in millicelsus
- Demote initial temperature to dev_dbg()
- Dynamically decide whether to display just temperature
  or also min/max temperatures depending on what the SMART
  sensor can provide
---
 drivers/ata/libata-scsi.c      |   2 +
 drivers/scsi/Kconfig           |  13 +
 drivers/scsi/Makefile          |   1 +
 drivers/scsi/scsi_hwmon.c      | 464 +++++++++++++++++++++++++++++++++
 drivers/scsi/scsi_hwmon.h      |  15 ++
 drivers/scsi/scsi_scan.c       |   5 +
 drivers/usb/storage/scsiglue.c |   3 +
 include/scsi/scsi_device.h     |   6 +
 8 files changed, 509 insertions(+)
 create mode 100644 drivers/scsi/scsi_hwmon.c
 create mode 100644 drivers/scsi/scsi_hwmon.h

-- 
2.19.1

Hi Linus!

> This driver does not block any simultaneous use of other SMART

> userspace tools, it's a both/and approach, not either/or.


The problem with all this is that the storage topology is largely
undiscoverable for monitoring purposes. We can use heuristics, but in
many cases there is no reliable way to find out that there is an ATA
device behind member #3 of a USB-attached RAID controller's virtual disk
#5.

So while I am sympathetic to providing this type of information inside
the kernel, the complexity of getting it right is mindboggling. Which is
why it currently lives in smartmontools in userland. And why even the
latter defers several of the topology decisions to the administrator.

You could then argue that the kernel should only provide sensors for a
trivial subset of configurations such as direct-attached ATA/SAS/USB
devices that provide sufficient heuristics to ensure we don't
accidentally send commands down that may wedge the device. I.e. repicate
smartmontools' heuristics inside the kernel. That's a valid position but
I remain unconvinced that it's worth it. Do you have specific user cases
other than this particular RAID box without enclosure sensors? (It's
also worth noting that HDD temperature sensors are notoriously
unreliable).

And finally, from an implementation perspective, both James and Doug
pointed you to SAT and the SCSI Temperature Log Page. libata is our
SAT. And thus the S.M.A.R.T. bits should be located in a libsmart
library that libata and USB can use to fill out the SCSI Temperature Log
Page. The hwmon-facing code would then use that log page instead of
dissecting S.M.A.R.T. information directly.

-- 
Martin K. Petersen	Oracle Linux Engineering

On Wed, Nov 21, 2018 at 6:28 PM Martin K. Petersen
<martin.petersen@oracle.com> wrote:

> The problem with all this is that the storage topology is largely

> undiscoverable for monitoring purposes. We can use heuristics, but in

> many cases there is no reliable way to find out that there is an ATA

> device behind member #3 of a USB-attached RAID controller's virtual disk

> #5.


OK I guess they just opt out of it?

> You could then argue that the kernel should only provide sensors for a

> trivial subset of configurations such as direct-attached ATA/SAS/USB

> devices that provide sufficient heuristics to ensure we don't

> accidentally send commands down that may wedge the device.


This is what the current patch does ... it's an opt-in per-subsystem.
I just opted in libata PATA devices (pretty obvious this will work)
and USB, and tested a bit with different devices there, nothing seems
to break, the ATA disks behind USB transport works fine and
report temperature just fine.

> I.e. repicate

> smartmontools' heuristics inside the kernel. That's a valid position but

> I remain unconvinced that it's worth it. Do you have specific user cases

> other than this particular RAID box without enclosure sensors?


It is not a RAID box at all. It is a simple NAS with a single disk.
I just slot in a 1 terabyte drive and use as home NAS.

> (It's

> also worth noting that HDD temperature sensors are notoriously

> unreliable).


I am sorry if you think that D-Link does bad engineering, what I
am trying to achieve is upstream support for this device, without
any out-of-tree patches. The D-Link DIR-685 uses the harddisk
sensor for this, whether we like it or not.

> And finally, from an implementation perspective, both James and Doug

> pointed you to SAT and the SCSI Temperature Log Page. libata is our

> SAT. And thus the S.M.A.R.T. bits should be located in a libsmart

> library that libata and USB can use to fill out the SCSI Temperature Log

> Page. The hwmon-facing code would then use that log page instead of

> dissecting S.M.A.R.T. information directly.


I hope this is possible without having to buy and implement
the same mechanism also for SCSI drives. I don't have any
SCSI devices...

Initially James asked me to move this from libata to
scsi with this argument:

James Bottomley wrote

> Given that you're using scsi_execute and this would work on most SAS

> drives as well as SATA ones, why not use the SAS mode pages and we'll

> translate it to SATA in the existing libata-scsi SAT?

>

> That way this can work on all SCSI devices that support SMART not just

> the SATA subset.

>

> If you can't figure out how to do this initially, then simply

> separating smart from libata is a good first start so we can build on

> it in SCSI as well.


So I *think* I went ahead and implemented according to
statement (3) since I have no idea of how to do SAS mode
pages

I did move it over and made subsystems opt into it.

But I can try harder of course!

Douglas Gilbert said:

> Fetch the SCSI Temperature Log page [0xd] with the

> LOG SENSE SCSI command.

> See sat5r01a.pdf chapter 10.3.8 for how that should be translated

> to ATA commands by libata and other SATLs.


Am I right in that the modepages for libata is the stuff inside
drivers/ata/libata-scsi.c, like the stuff on the very top with the
cache_mpage[] and def_control_mpage[]?

These are all generated in response to the
ata_scsiop_mode_sense() callback from
ata_scsi_simulate() in response to MODE_SENSE
and MODE_SENSE_10 commands.

As far as I understand, MODE_SENSE is what we
should be using, correct?

I guess I should:

- Add a case for LOG_SENSE (0x4d) in
  ata_scsi_simulate()

- Prepare a callback and provide a mode
  page 0x0d from there.

- Provide a modepage 0x0d in response to that
  command from SCSI.

- Implement some code to request and deal with that
  modepage in drivers/scsi to register the hwmon
  sensor

So what about I try to do that... without a SCSI
device to test it on, just a simulated one through
libata. This will be fun, but I BET the SCSI people
will help me testing it :)

Architecturally I see the upside of this, but I also see
a problem: the modepage simulation would be useful
not only for libata but also (as is proved by testing with
USB cradles) from USB storage as well. But I guess
I can figure that out, it's essentially just a piece of
libata that USB need to share. I can certainly start
with just ATA.

The thing/command I pass in now is ATA_16 (0x85)
16-byte pass-thru, I take it that a ATA_16 pass thru
is NOT a proper command or modepage but
something like an uglyhack?...

Yours,
Linus Walleij

[-cc]

Hi Linus,

On 11/22/18 5:49 AM, Linus Walleij wrote:
[ ... ]
>> (It's

>> also worth noting that HDD temperature sensors are notoriously

>> unreliable).

> 

> I am sorry if you think that D-Link does bad engineering, what I

> am trying to achieve is upstream support for this device, without

> any out-of-tree patches. The D-Link DIR-685 uses the harddisk

> sensor for this, whether we like it or not.

> 


Following the above argument (not yours, the one about accuracy),
I guess we should drop support for all CPU temperature sensors
from the Linux kernel. After all, they are known to be much more
inaccurate than a HDD temperature sensor could ever be.

Seriously, any argument about (lack of) sensor accuracy should be
silently ignored. I may be overly pessimistic nowadays, but whenever
I see such an argument, I read it as "we'll never accept your patch,
so better stop wasting your time and forget about it". I hope I am
wrong, but it seems to me that this is where things are going.

Can you possibly extract this as pure hwmon driver outside scsi control ?
I'll be happy to accept it as standalone hwmon driver.

Thanks,
Guenter

On Thu, Nov 22, 2018 at 9:00 PM Guenter Roeck <linux@roeck-us.net> wrote:

> Can you possibly extract this as pure hwmon driver outside scsi control ?

> I'll be happy to accept it as standalone hwmon driver.


That should be last resort, what the SCSI people want is noble,
and they did a tremendous (impressive) work by hiding all the ATA drives
behind SCSI emulation with libata, so they want me to keep up
that tradition by also making the temperature reading behave
"as if it was a SCSI drive" too so I'm on board with trying that out
even if I think the bar is a bit high for causal contributors.

Yours,
Linus Walleij

On 11/23/18 12:18 AM, Linus Walleij wrote:
> On Thu, Nov 22, 2018 at 9:00 PM Guenter Roeck <linux@roeck-us.net> wrote:

> 

>> Can you possibly extract this as pure hwmon driver outside scsi control ?

>> I'll be happy to accept it as standalone hwmon driver.

> 

> That should be last resort, what the SCSI people want is noble,

> and they did a tremendous (impressive) work by hiding all the ATA drives

> behind SCSI emulation with libata, so they want me to keep up

> that tradition by also making the temperature reading behave

> "as if it was a SCSI drive" too so I'm on board with trying that out

> even if I think the bar is a bit high for causal contributors.

> 


No problem, your call. I would just very much dislike your work
to get lost, that is all.

Thanks,
Guenter

Hi Linus,

>> The problem with all this is that the storage topology is largely

>> undiscoverable for monitoring purposes. We can use heuristics, but in

>> many cases there is no reliable way to find out that there is an ATA

>> device behind member #3 of a USB-attached RAID controller's virtual disk

>> #5.

>

> OK I guess they just opt out of it?


There is no way to discover the actual topology in a vendor-agnostic
way. See all the -d options to smartctl and how discovery is left as an
exercise to the user in many cases :(

>> You could then argue that the kernel should only provide sensors for a

>> trivial subset of configurations such as direct-attached ATA/SAS/USB

>> devices that provide sufficient heuristics to ensure we don't

>> accidentally send commands down that may wedge the device.

>

> This is what the current patch does ... it's an opt-in per-subsystem.


Yep, but I'm afraid that may not be a good enough granularity. There are
tons of USB devices out there that wedge when you send them a command
they didn't expect (temperature sensor on a USB stick?). So there needs
to be some sort of heuristic in place. In this case the right way to
signal "I'm an ATA device" would be to provide the ATA Information VPD
page. Unfortunately, almost no USB/UAS/FireWire devices fill that out.

To solve other, similar headaches I have been toying with the idea of
teaching usb-storage/uas to present an intermediary libata-like SAT for
the primary (non-I/O) commands instead of relying on the device
implementation doing the right thing. This would clean up some of the
extensive blacklist/whitelist hacks we currently carry in SCSI due to
misbehaving devices.

> I just opted in libata PATA devices (pretty obvious this will work)

> and USB, and tested a bit with different devices there, nothing seems

> to break, the ATA disks behind USB transport works fine and

> report temperature just fine.


libata should be reasonably safe, USB & UAS definitely carry some risk.

>> (It's also worth noting that HDD temperature sensors are notoriously

>> unreliable).

>

> I am sorry if you think that D-Link does bad engineering, what I

> am trying to achieve is upstream support for this device, without

> any out-of-tree patches. The D-Link DIR-685 uses the harddisk

> sensor for this, whether we like it or not.


Sad, but not surprising.

Meanwhile elsewhere we have had drive vendors begging us to ignore the
reported temperature. We have measured in excess of 25 degC difference
between the drive PCB temp sensor and the sensor in the drive bay. We
have also had cases where the drives reported "lp0 on fire" despite the
bay temperature being nominal.

So I think it is imperative that no action is taken in response to the
drive-reported values without explicit opt-in from the user (or in your
NAS case maybe some device tree platform enablement). There is a reason
that all this S.M.A.R.T. stuff is disabled by default and left for the
admin to configure. S.M.A.R.T. and its properly standardized successors
have improved, but so far we have had way too many false positives to
entertain turning it on by default. I would absolutely love for things
to Just Work but unfortunately it hasn't been feasible to go there.

Taking a step back: You are doing this so that you can feed drive
temperature sensor data to hwmon from inside the kernel. Thought about
feeding it temperature data from smartctl in userland instead?  Just
wondering if the path of least resistance is leveraging the 70Klines of
existing temperature sensor reading heuristics that is smartmontools
(admittedly some of that is non-Linux support).

> I hope this is possible without having to buy and implement the same

> mechanism also for SCSI drives. I don't have any SCSI devices...


# modprobe scsi_debug
# sg_logs /dev/sda
    Linux     scsi_debug        0184
Supported log pages  (spc-2) [0x0]:
    0x00        Supported log pages
    0x0d        Temperature
    0x2f        Informational exceptions (SMART)

> Am I right in that the modepages for libata is the stuff inside

> drivers/ata/libata-scsi.c, like the stuff on the very top with the

> cache_mpage[] and def_control_mpage[]?


Essentially, yes. Except the temperature is in a log page and not a mode
(device configuration) page. Pretty much the same thing.

> These are all generated in response to the ata_scsiop_mode_sense()

> callback from ata_scsi_simulate() in response to MODE_SENSE and

> MODE_SENSE_10 commands.


Yeah, so you'd have to mirror this to implement LOG SENSE.

> - Add a case for LOG_SENSE (0x4d) in ata_scsi_simulate()

>

> - Prepare a callback and provide a mode page 0x0d from there.

>

> - Provide a modepage 0x0d in response to that command from SCSI.


Log page, yes.

> - Implement some code to request and deal with that modepage in

> drivers/scsi to register the hwmon sensor


Correct.

> Architecturally I see the upside of this, but I also see a problem:

> the modepage simulation would be useful not only for libata but also

> (as is proved by testing with USB cradles) from USB storage as

> well. But I guess I can figure that out, it's essentially just a piece

> of libata that USB need to share.


Yep, that's why I suggested making it a "libsmart" so that the code
could be leveraged by usb-storage/uas.

> The thing/command I pass in now is ATA_16 (0x85) 16-byte pass-thru, I

> take it that a ATA_16 pass thru is NOT a proper command or modepage

> but something like an uglyhack?...


ATA_16 is a pass-thru command defined in the T10 SAT (SCSI-ATA
Translation) specification. It acts as a conduit for sending an
encapsulated ATA command through a SCSI device.

You also need to add the ability to stop sending these commands if they
fail. Sending unsupported commands to a device can be quite disruptive
and impact performance for other I/O. So if the passthrough fails, you
should permanently disable the feature for that device. That's how we
usually deal with these things since there often isn't a way to
determine up front if something is going to work or not.

-- 
Martin K. Petersen	Oracle Linux Engineering

Linus,

> That should be last resort, what the SCSI people want is noble,

> and they did a tremendous (impressive) work by hiding all the ATA drives

> behind SCSI emulation with libata, so they want me to keep up

> that tradition by also making the temperature reading behave

> "as if it was a SCSI drive" too so I'm on board with trying that out

> even if I think the bar is a bit high for causal contributors.


I definitely don't expect you to do all the work for every type of
device known to man. And I'm happy to help. But obviously the overall
approach needs to work for everything we can realistically support so it
becomes a generally useful interface and not something ad-hoc for a
small subset of configurations.

But more importantly: I need to make sure that no device is harmed in
the process of extracting temperature sensor data. My highest priority
is not breaking people's storage or causing data loss. So I have to
balance the benefits of your temperature stuff vs. all the devices we
risk messing up by sending commands we haven't attempted before.

We have lots of battle scars from devices that not only implement the
specs poorly, but can lock up completely when sent a command they didn't
expect. So there is quite a bit of risk involved. It's not just a matter
of devices politely declining the request. Often even a reset isn't
enough and the user will have to unplug/power cycle the device to bring
it back. No fun.

So as usual it's dealing with the failure scenarios that's the hard
part, not making the feature work for things that implement the protocol
correctly. And that's why I'm asking all these questions. The userland
tooling is entirely admin-configurable whereas inside the kernel we have
to resort to guesswork and heuristics during device discovery. That's
always a tricky game to play.

Hope that makes sense?

-- 
Martin K. Petersen	Oracle Linux Engineering

Dear Linus, Dear Martin,

About fifteen years ago, soon after I got interested in SMART and
starting working on smartmontools, I wrote some kernel code that  added
smart data into /sys. (Actually this was around the 2.4 transition so it
was under /proc along with lots of other stuff that had nothing to do
with processes and didn't really belong there.)

But it didn't go anywhere because people with more kernel experience and
knowledge than me convincingly argued that this was a bad approach.
Their reasoning was more-or-less along similar lines to what Martin has
written.  Kernel code which has to deal with vendor-specific
peculiarities and system configuration complexity should be avoided
unless there is no alternative.   And here there is an alternative.

So Linus, while I sympathise with your approach, I side with Martin that
kernel code is not the right interface to SMART data.

Cheers,
	Bruce





On 24.11.18 07:26, Martin K. Petersen wrote:
> 

> Hi Linus,

> 

>>> The problem with all this is that the storage topology is largely

>>> undiscoverable for monitoring purposes. We can use heuristics, but in

>>> many cases there is no reliable way to find out that there is an ATA

>>> device behind member #3 of a USB-attached RAID controller's virtual disk

>>> #5.

>>

>> OK I guess they just opt out of it?

> 

> There is no way to discover the actual topology in a vendor-agnostic

> way. See all the -d options to smartctl and how discovery is left as an

> exercise to the user in many cases :(

> 

>>> You could then argue that the kernel should only provide sensors for a

>>> trivial subset of configurations such as direct-attached ATA/SAS/USB

>>> devices that provide sufficient heuristics to ensure we don't

>>> accidentally send commands down that may wedge the device.

>>

>> This is what the current patch does ... it's an opt-in per-subsystem.

> 

> Yep, but I'm afraid that may not be a good enough granularity. There are

> tons of USB devices out there that wedge when you send them a command

> they didn't expect (temperature sensor on a USB stick?). So there needs

> to be some sort of heuristic in place. In this case the right way to

> signal "I'm an ATA device" would be to provide the ATA Information VPD

> page. Unfortunately, almost no USB/UAS/FireWire devices fill that out.

> 

> To solve other, similar headaches I have been toying with the idea of

> teaching usb-storage/uas to present an intermediary libata-like SAT for

> the primary (non-I/O) commands instead of relying on the device

> implementation doing the right thing. This would clean up some of the

> extensive blacklist/whitelist hacks we currently carry in SCSI due to

> misbehaving devices.

> 

>> I just opted in libata PATA devices (pretty obvious this will work)

>> and USB, and tested a bit with different devices there, nothing seems

>> to break, the ATA disks behind USB transport works fine and

>> report temperature just fine.

> 

> libata should be reasonably safe, USB & UAS definitely carry some risk.

> 

>>> (It's also worth noting that HDD temperature sensors are notoriously

>>> unreliable).

>>

>> I am sorry if you think that D-Link does bad engineering, what I

>> am trying to achieve is upstream support for this device, without

>> any out-of-tree patches. The D-Link DIR-685 uses the harddisk

>> sensor for this, whether we like it or not.

> 

> Sad, but not surprising.

> 

> Meanwhile elsewhere we have had drive vendors begging us to ignore the

> reported temperature. We have measured in excess of 25 degC difference

> between the drive PCB temp sensor and the sensor in the drive bay. We

> have also had cases where the drives reported "lp0 on fire" despite the

> bay temperature being nominal.

> 

> So I think it is imperative that no action is taken in response to the

> drive-reported values without explicit opt-in from the user (or in your

> NAS case maybe some device tree platform enablement). There is a reason

> that all this S.M.A.R.T. stuff is disabled by default and left for the

> admin to configure. S.M.A.R.T. and its properly standardized successors

> have improved, but so far we have had way too many false positives to

> entertain turning it on by default. I would absolutely love for things

> to Just Work but unfortunately it hasn't been feasible to go there.

> 

> Taking a step back: You are doing this so that you can feed drive

> temperature sensor data to hwmon from inside the kernel. Thought about

> feeding it temperature data from smartctl in userland instead?  Just

> wondering if the path of least resistance is leveraging the 70Klines of

> existing temperature sensor reading heuristics that is smartmontools

> (admittedly some of that is non-Linux support).

> 

>> I hope this is possible without having to buy and implement the same

>> mechanism also for SCSI drives. I don't have any SCSI devices...

> 

> # modprobe scsi_debug

> # sg_logs /dev/sda

>     Linux     scsi_debug        0184

> Supported log pages  (spc-2) [0x0]:

>     0x00        Supported log pages

>     0x0d        Temperature

>     0x2f        Informational exceptions (SMART)

> 

>> Am I right in that the modepages for libata is the stuff inside

>> drivers/ata/libata-scsi.c, like the stuff on the very top with the

>> cache_mpage[] and def_control_mpage[]?

> 

> Essentially, yes. Except the temperature is in a log page and not a mode

> (device configuration) page. Pretty much the same thing.

> 

>> These are all generated in response to the ata_scsiop_mode_sense()

>> callback from ata_scsi_simulate() in response to MODE_SENSE and

>> MODE_SENSE_10 commands.

> 

> Yeah, so you'd have to mirror this to implement LOG SENSE.

> 

>> - Add a case for LOG_SENSE (0x4d) in ata_scsi_simulate()

>>

>> - Prepare a callback and provide a mode page 0x0d from there.

>>

>> - Provide a modepage 0x0d in response to that command from SCSI.

> 

> Log page, yes.

> 

>> - Implement some code to request and deal with that modepage in

>> drivers/scsi to register the hwmon sensor

> 

> Correct.

> 

>> Architecturally I see the upside of this, but I also see a problem:

>> the modepage simulation would be useful not only for libata but also

>> (as is proved by testing with USB cradles) from USB storage as

>> well. But I guess I can figure that out, it's essentially just a piece

>> of libata that USB need to share.

> 

> Yep, that's why I suggested making it a "libsmart" so that the code

> could be leveraged by usb-storage/uas.

> 

>> The thing/command I pass in now is ATA_16 (0x85) 16-byte pass-thru, I

>> take it that a ATA_16 pass thru is NOT a proper command or modepage

>> but something like an uglyhack?...

> 

> ATA_16 is a pass-thru command defined in the T10 SAT (SCSI-ATA

> Translation) specification. It acts as a conduit for sending an

> encapsulated ATA command through a SCSI device.

> 

> You also need to add the ability to stop sending these commands if they

> fail. Sending unsupported commands to a device can be quite disruptive

> and impact performance for other I/O. So if the passthrough fails, you

> should permanently disable the feature for that device. That's how we

> usually deal with these things since there often isn't a way to

> determine up front if something is going to work or not.

> 


-- 
--------------------------------------------------------------------------
Prof. Dr. Bruce Allen, Director
Max Planck Institute for Gravitational Physics (Albert Einstein Institute)
Callinstrasse 38
D-30167 Hannover,  Germany
Tel +49-511-762-17145
Fax +49-511-762-17182
Email: bruce.allen@aei.mpg.de