On Wed, 17 Jun 2020 at 02:20, Jarkko Sakkinen jarkko.sakkinen@linux.intel.com wrote:

On Thu, Jun 04, 2020 at 08:58:49PM +0300, Maxim Uvarov wrote:

...

With the evolving use-cases for TEE bus, now it's required to support multi-stage enumeration process. But using a simple index doesn't suffice this requirement and instead leads to duplicate sysfs entries. So instead switch to use more informative device UUID for sysfs entry like: /sys/bus/tee/devices/optee-ta-<uuid>

Signed-off-by: Maxim Uvarov maxim.uvarov@linaro.org Reviewed-by: Sumit Garg sumit.garg@linaro.org

Reviewed-by: Jarkko Sakkinen jarkko.sakkinen@linux.intel.com

Sumit, are you able to test these easily?

Yes, I could give them a try.

Maxim,

Could you share fTPM TA tree which I should use for testing?

-Sumit

/Jarkko

On Thu, 2020-06-18 at 10:42 +0530, Sumit Garg wrote:

On Thu, 18 Jun 2020 at 10:29, Sumit Garg sumit.garg@linaro.org wrote:

[...]

...

...

typedef struct { uint32_t timeLow; uint16_t timeMid; uint16_t timeHiAndVersion; uint8_t clockSeqAndNode[8]; } TEE_UUID;

(GlobalPlatform TEE Internal Core API spec v1.2.1 section 3.2.4)

• The spec does not mandate any particular endianness and simply

warnsabout possible issues if secure and non-secure worlds differ in endianness.

• OP-TEE uses %pUl assuming that host order is little endian

(that is true for the Arm platforms that run OP-TEE currently). By the same logic %pUl should be fine in the kernel.

I think Linux adheres to this RFC [1] for UUID byte order. See below snippet from section: "Layout and Byte Order":

The fields are encoded as 16 octets, with the sizes and order of the fields defined above, and with each field encoded with the Most Significant Byte first (known as network byte order). Note that the field names, particularly for multiplexed fields, follow historical practice.

Actually, that's not quite true. We used to support both little and big endian uuids until we realised it was basically microsoft vs everyone else (as codified by RFC 4122). Now we support UUIDs which are big endian and GUIDs which are little endian. This was the commit that sorted out the confusion:

commit f9727a17db9bab71ddae91f74f11a8a2f9a0ece6 Author: Christoph Hellwig hch@lst.de Date: Wed May 17 10:02:48 2017 +0200

uuid: rename uuid types

so if you're using a little endian uuid, you should probably be using GUID for TEE_UUID.

James

On Fri, 2020-06-19 at 13:42 +0530, Sumit Garg wrote:

On Fri, 19 Jun 2020 at 00:49, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Thu, 2020-06-18 at 10:42 +0530, Sumit Garg wrote:

...

On Thu, 18 Jun 2020 at 10:29, Sumit Garg sumit.garg@linaro.org wrote:

[...]

...

...

...

typedef struct { uint32_t timeLow; uint16_t timeMid; uint16_t timeHiAndVersion; uint8_t clockSeqAndNode[8]; } TEE_UUID;

(GlobalPlatform TEE Internal Core API spec v1.2.1 section 3.2.4)

• The spec does not mandate any particular endianness and

simply warnsabout possible issues if secure and non-secure worlds differ in endianness.

• OP-TEE uses %pUl assuming that host order is little endian

(that is true for the Arm platforms that run OP-TEE currently). By the same logic %pUl should be fine in the kernel.

I think Linux adheres to this RFC [1] for UUID byte order. See below snippet from section: "Layout and Byte Order":

The fields are encoded as 16 octets, with the sizes and order of the fields defined above, and with each field encoded with the Most Significant Byte first (known as network byte order). Note that the field names, particularly for multiplexed fields, follow historical practice.

Actually, that's not quite true. We used to support both little and big endian uuids until we realised it was basically microsoft vs everyone else (as codified by RFC 4122). Now we support UUIDs which are big endian and GUIDs which are little endian. This was the commit that sorted out the confusion:

commit f9727a17db9bab71ddae91f74f11a8a2f9a0ece6 Author: Christoph Hellwig hch@lst.de Date: Wed May 17 10:02:48 2017 +0200

uuid: rename uuid types

Thanks for providing the background here.

...

so if you're using a little endian uuid, you should probably be using GUID for TEE_UUID.

IMO, using GUID in kernel for TEE_UUID in OP-TEE OS will lead to deviation from GlobalPlatform TEE client spec [1] as the spec only references it as UUID and we would like to keep kernel TEE client interface to be compatible with GP specs.

[1] https://globalplatform.org/specs-library/tee-client-api-specifica tion/

So having read the above, you know uuid_t is for big endian and guid_t for little endian. However in your patch:

-static int optee_register_device(const uuid_t *device_uuid, u32 device_id) +static int optee_register_device(const uuid_t *device_uuid)

You're using uuid_t for little endian, you should be using guid_t. It's not about consistency with the OP-TEE docs (although I'm pretty sure they don't mandate what kernel type to use), it's about consistency with what the kernel types mean. When some checker detects your using little endian operations on a big endian structure (like in the prink for instance) they're going to keep emailing you about it.

James

Apologies for delay in my reply as I was busy with some other stuff.

On Fri, 19 Jun 2020 at 20:30, James Bottomley James.Bottomley@hansenpartnership.com wrote:

On Fri, 2020-06-19 at 13:42 +0530, Sumit Garg wrote:

...

On Fri, 19 Jun 2020 at 00:49, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Thu, 2020-06-18 at 10:42 +0530, Sumit Garg wrote:

...

On Thu, 18 Jun 2020 at 10:29, Sumit Garg sumit.garg@linaro.org wrote:

[...]

...

...

...

typedef struct { uint32_t timeLow; uint16_t timeMid; uint16_t timeHiAndVersion; uint8_t clockSeqAndNode[8]; } TEE_UUID;

(GlobalPlatform TEE Internal Core API spec v1.2.1 section 3.2.4)

• The spec does not mandate any particular endianness and

simply warnsabout possible issues if secure and non-secure worlds differ in endianness.

• OP-TEE uses %pUl assuming that host order is little endian

(that is true for the Arm platforms that run OP-TEE currently). By the same logic %pUl should be fine in the kernel.

I think Linux adheres to this RFC [1] for UUID byte order. See below snippet from section: "Layout and Byte Order":

The fields are encoded as 16 octets, with the sizes and order of the fields defined above, and with each field encoded with the Most Significant Byte first (known as network byte order). Note that the field names, particularly for multiplexed fields, follow historical practice.

Actually, that's not quite true. We used to support both little and big endian uuids until we realised it was basically microsoft vs everyone else (as codified by RFC 4122). Now we support UUIDs which are big endian and GUIDs which are little endian. This was the commit that sorted out the confusion:

commit f9727a17db9bab71ddae91f74f11a8a2f9a0ece6 Author: Christoph Hellwig hch@lst.de Date: Wed May 17 10:02:48 2017 +0200

uuid: rename uuid types

Thanks for providing the background here.

...

so if you're using a little endian uuid, you should probably be using GUID for TEE_UUID.

IMO, using GUID in kernel for TEE_UUID in OP-TEE OS will lead to deviation from GlobalPlatform TEE client spec [1] as the spec only references it as UUID and we would like to keep kernel TEE client interface to be compatible with GP specs.

[1] https://globalplatform.org/specs-library/tee-client-api-specifica tion/

So having read the above, you know uuid_t is for big endian and guid_t for little endian. However in your patch:

...

-static int optee_register_device(const uuid_t *device_uuid, u32 device_id) +static int optee_register_device(const uuid_t *device_uuid)

You're using uuid_t for little endian, you should be using guid_t.

It's not just about implementation differences but about terminology as well. AFAIK about GUID, it's been typically used in Microsoft centric softwares as compared to UUID which is generically defined by RFC 4122.

AFAIU about the differences [1] among UUID and GUID, it seems like UUID is a subset of GUID. IOW, we can't say that every GUID can be represented as UUID as per RFC 4122.

So by using different terminology in the kernel with respect to a TEE implementation is meant to cause more confusion among users than difference in implementation details (like endianness).

[1] https://stackoverflow.com/questions/246930/is-there-any-difference-between-a...

It's not about consistency with the OP-TEE docs (although I'm pretty sure they don't mandate what kernel type to use),

The document which I shared wasn't OP-TEE specific but a generic TEE specification defined by GlobalPlatform. And that spec doesn't put any restrictions on UUID endianness. So it is very much possible that another TEE implementation could implement UUID in big endian format as the kernel does.

it's about consistency with what the kernel types mean. When some checker detects your using little endian operations on a big endian structure (like in the prink for instance) they're going to keep emailing you about it.

As mentioned above, using different terminology is meant to cause more confusion than just difference in endianness which is manageable inside TEE.

And I think it's safe to say that the kernel implements UUID in big endian format and thus uses %pUb whereas OP-TEE implements UUID in little endian format and thus uses %pUl.

-Sumit

James

On 6/24/20 5:21 PM, James Bottomley wrote:

On Wed, 2020-06-24 at 16:17 +0530, Sumit Garg wrote:

...

Apologies for delay in my reply as I was busy with some other stuff.

On Fri, 19 Jun 2020 at 20:30, James Bottomley James.Bottomley@hansenpartnership.com wrote:

[...]

...

...

it's about consistency with what the kernel types mean. When some checker detects your using little endian operations on a big endian structure (like in the prink for instance) they're going to keep emailing you about it.

As mentioned above, using different terminology is meant to cause more confusion than just difference in endianness which is manageable inside TEE.

And I think it's safe to say that the kernel implements UUID in big endian format and thus uses %pUb whereas OP-TEE implements UUID in little endian format and thus uses %pUl.

So what I think you're saying is that if we still had uuid_be and uuid_le you'd use uuid_le, because that's exactly the structure described in the docs. But because we renamed

uuid_be -> uuid_t uuid_le -> guid_t

You can't use guid_t as a kernel type because it has the wrong name?

Let me try to clear the confusion that I introduce myself I believe :-/ IMO:

- optee_register_device(const uuid_t *device_uuid) *is* the correct prototype. - device_uuid is *guaranteed* to be BE because OP-TEE makes this guarantee (it converts from its internal LE representation to BE when enumerating the devices, but it doesn't matter to the kernel). - Therefore %pUb is the correct format.

I'm sorry for doubting the BE order initially. I am so used to OP-TEE using LE internally, that I missed the fact that we have an explicit conversion...

Does this sound good?

Thanks,

On Thu, 25 Jun 2020 at 18:22, Maxim Uvarov maxim.uvarov@linaro.org wrote:

On Wed, 24 Jun 2020 at 18:44, Jerome Forissier jerome@forissier.org wrote:

...

On 6/24/20 5:21 PM, James Bottomley wrote:

...

On Wed, 2020-06-24 at 16:17 +0530, Sumit Garg wrote:

...

Apologies for delay in my reply as I was busy with some other stuff.

On Fri, 19 Jun 2020 at 20:30, James Bottomley James.Bottomley@hansenpartnership.com wrote:

[...]

...

...

it's about consistency with what the kernel types mean. When some checker detects your using little endian operations on a big endian structure (like in the prink for instance) they're going to keep emailing you about it.

As mentioned above, using different terminology is meant to cause more confusion than just difference in endianness which is manageable inside TEE.

And I think it's safe to say that the kernel implements UUID in big endian format and thus uses %pUb whereas OP-TEE implements UUID in little endian format and thus uses %pUl.

So what I think you're saying is that if we still had uuid_be and uuid_le you'd use uuid_le, because that's exactly the structure described in the docs. But because we renamed

uuid_be -> uuid_t uuid_le -> guid_t

You can't use guid_t as a kernel type because it has the wrong name?

Let me try to clear the confusion that I introduce myself I believe :-/ IMO:

• optee_register_device(const uuid_t *device_uuid) *is* the correct

prototype.

• device_uuid is *guaranteed* to be BE because OP-TEE makes this

guarantee (it converts from its internal LE representation to BE when enumerating the devices, but it doesn't matter to the kernel).

• Therefore %pUb is the correct format.

I'm sorry for doubting the BE order initially. I am so used to OP-TEE using LE internally, that I missed the fact that we have an explicit conversion...

Does this sound good?

Thanks,

Jerome

I think your description is correct. But I think this problem would be solved outside of the current patchset. All places should use one single format (LE):

I guess you missed the point that uuid_t is implemented in BE format in the kernel which is compliant as per RFC 4122.

• internal optee representation;
• device enumeration pta;
• this kernel driver which creates sysfs entry and sets

uid_copy(&optee_device->id.uuid, device_uuid);

• matching function;
• drivers use UUID_INIT();

See carefully the implementation of UUID_INIT() which is in BE format.

-Sumit

In that way everything will be consistent. But it will require changing other pieces, not just the kernel. While these patches add functionality to support current device enumeration in optee os. So I think this version is ok to be applied.

Regards, Maxim.

On Thu, 25 Jun 2020 at 18:22, Maxim Uvarov maxim.uvarov@linaro.org wrote:

On Wed, 24 Jun 2020 at 18:44, Jerome Forissier jerome@forissier.org wrote:

...

On 6/24/20 5:21 PM, James Bottomley wrote:

...

On Wed, 2020-06-24 at 16:17 +0530, Sumit Garg wrote:

...

Apologies for delay in my reply as I was busy with some other stuff.

On Fri, 19 Jun 2020 at 20:30, James Bottomley James.Bottomley@hansenpartnership.com wrote:

[...]

...

...

it's about consistency with what the kernel types mean. When some checker detects your using little endian operations on a big endian structure (like in the prink for instance) they're going to keep emailing you about it.

As mentioned above, using different terminology is meant to cause more confusion than just difference in endianness which is manageable inside TEE.

And I think it's safe to say that the kernel implements UUID in big endian format and thus uses %pUb whereas OP-TEE implements UUID in little endian format and thus uses %pUl.

So what I think you're saying is that if we still had uuid_be and uuid_le you'd use uuid_le, because that's exactly the structure described in the docs. But because we renamed

uuid_be -> uuid_t uuid_le -> guid_t

You can't use guid_t as a kernel type because it has the wrong name?

Let me try to clear the confusion that I introduce myself I believe :-/ IMO:

• optee_register_device(const uuid_t *device_uuid) *is* the correct

prototype.

• device_uuid is *guaranteed* to be BE because OP-TEE makes this

guarantee (it converts from its internal LE representation to BE when enumerating the devices, but it doesn't matter to the kernel).

• Therefore %pUb is the correct format.

I'm sorry for doubting the BE order initially. I am so used to OP-TEE using LE internally, that I missed the fact that we have an explicit conversion...

Does this sound good?

Thanks,

Jerome

I think your description is correct. But I think this problem would be solved outside of the current patchset. All places should use one single format (LE):

• internal optee representation;
• device enumeration pta;
• this kernel driver which creates sysfs entry and sets

uid_copy(&optee_device->id.uuid, device_uuid);

• matching function;
• drivers use UUID_INIT();

In that way everything will be consistent. But it will require changing other pieces, not just the kernel. While these patches add functionality to support current device enumeration in optee os. So I think this version is ok to be applied.

I guess here you meant v9 patch-set. If yes then it's fine with me as well.

-Sumit

Regards, Maxim.

On Thu, 2020-06-25 at 19:54 +0530, Sumit Garg wrote:

On Wed, 24 Jun 2020 at 20:51, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Wed, 2020-06-24 at 16:17 +0530, Sumit Garg wrote:

...

Apologies for delay in my reply as I was busy with some other stuff.

On Fri, 19 Jun 2020 at 20:30, James Bottomley James.Bottomley@hansenpartnership.com wrote:

[...]

...

...

it's about consistency with what the kernel types mean. When some checker detects your using little endian operations on a big endian structure (like in the prink for instance) they're going to keep emailing you about it.

As mentioned above, using different terminology is meant to cause more confusion than just difference in endianness which is manageable inside TEE.

And I think it's safe to say that the kernel implements UUID in big endian format and thus uses %pUb whereas OP-TEE implements UUID in little endian format and thus uses %pUl.

So what I think you're saying is that if we still had uuid_be and uuid_le you'd use uuid_le, because that's exactly the structure described in the docs. But because we renamed

uuid_be -> uuid_t uuid_le -> guid_t

You can't use guid_t as a kernel type because it has the wrong name?

Isn't the rename commit description [1] pretty clear about which is the true UUID type from Linux point of view?

I don't think the kernel code takes a position on eternal verity, just on logical or arithmetic truth. We just have to deal with both LE and BE UUIDs so we have appropriate types for them and the LE type is now named guid_t. They're both equally correct to use provided the use case matches the designed one. So does the name really matter? If we did

#define uuid_le_t guid_t

would you be happy? (not that the kernel cares about karmic emotional states either ...)

James

On Fri, 26 Jun 2020 at 10:40, Sumit Garg sumit.garg@linaro.org wrote:

On Fri, 26 Jun 2020 at 05:01, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Thu, 2020-06-25 at 19:54 +0530, Sumit Garg wrote:

...

On Wed, 24 Jun 2020 at 20:51, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Wed, 2020-06-24 at 16:17 +0530, Sumit Garg wrote:

...

Apologies for delay in my reply as I was busy with some other stuff.

On Fri, 19 Jun 2020 at 20:30, James Bottomley James.Bottomley@hansenpartnership.com wrote:

[...]

...

...

it's about consistency with what the kernel types mean. When some checker detects your using little endian operations on a big endian structure (like in the prink for instance) they're going to keep emailing you about it.

As mentioned above, using different terminology is meant to cause more confusion than just difference in endianness which is manageable inside TEE.

And I think it's safe to say that the kernel implements UUID in big endian format and thus uses %pUb whereas OP-TEE implements UUID in little endian format and thus uses %pUl.

So what I think you're saying is that if we still had uuid_be and uuid_le you'd use uuid_le, because that's exactly the structure described in the docs. But because we renamed

uuid_be -> uuid_t uuid_le -> guid_t

You can't use guid_t as a kernel type because it has the wrong name?

Isn't the rename commit description [1] pretty clear about which is the true UUID type from Linux point of view?

I don't think the kernel code takes a position on eternal verity, just on logical or arithmetic truth. We just have to deal with both LE and BE UUIDs so we have appropriate types for them and the LE type is now named guid_t. They're both equally correct to use provided the use case matches the designed one. So does the name really matter?

Yes it does. I guess I have provided enough reasoning for that. Also, the rename commit itself illustrates its importance and clarifies the use case for which they are meant to be used.

...

If we did

#define uuid_le_t guid_t

would you be happy? (not that the kernel cares about karmic emotional states either ...)

It's not about me being happy but more about confusion and inconsistency it will bring.

IMO, either kernel should be opinionated about UUID endianness like currently it is:

uuid_t and its corresponding helpers (eg. UUID_INIT) follows BE format.

or support both endianness for UUID (no common type: uuid_t) like we had earlier prior to rename commit:

uuid_be_t and its corresponding helpers (eg. UUID_BE_INIT) follow BE format. uuid_le_t and its corresponding helpers (eg. UUID_LE_INIT) follow LE format.

But even if we consider later case as well, I am still not sure if we can switch to uuid_le_t as it's been part of TEE core ABI (open_session) where UUID is passed in BE format (see LE to BE conversion in TEE client [1] and vice-versa in OP-TEE OS [2]) and won't be a backwards compatible change.

[1] https://github.com/OP-TEE/optee_client/blob/master/libteec/src/tee_client_ap... [2] https://github.com/OP-TEE/optee_os/blob/master/core/arch/arm/kernel/ree_fs_t...

Sorry, the second reference is incorrect, correct one is:

[2] https://github.com/OP-TEE/optee_os/blob/master/core/arch/arm/tee/entry_std.c...

-Sumit

-Sumit

...

James

On Fri, 2020-06-26 at 12:29 +0100, Daniel Thompson wrote:

On Fri, Jun 26, 2020 at 10:40:41AM +0530, Sumit Garg wrote:

...

On Fri, 26 Jun 2020 at 05:01, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Thu, 2020-06-25 at 19:54 +0530, Sumit Garg wrote:

...

On Wed, 24 Jun 2020 at 20:51, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Wed, 2020-06-24 at 16:17 +0530, Sumit Garg wrote:

...

Apologies for delay in my reply as I was busy with some other stuff.

On Fri, 19 Jun 2020 at 20:30, James Bottomley James.Bottomley@hansenpartnership.com wrote:

[...]

...

> it's about consistency with what the kernel types > mean. When some checker detects your using little endian > operations on a big endian structure (like in the prink > for instance) they're going to keep emailing you about > it.

As mentioned above, using different terminology is meant to cause more confusion than just difference in endianness which is manageable inside TEE.

And I think it's safe to say that the kernel implements UUID in big endian format and thus uses %pUb whereas OP-TEE implements UUID in little endian format and thus uses %pUl.

So what I think you're saying is that if we still had uuid_be and uuid_le you'd use uuid_le, because that's exactly the structure described in the docs. But because we renamed

uuid_be -> uuid_t uuid_le -> guid_t

You can't use guid_t as a kernel type because it has the wrong name?

Isn't the rename commit description [1] pretty clear about which is the true UUID type from Linux point of view?

I don't think the kernel code takes a position on eternal verity, just on logical or arithmetic truth. We just have to deal with both LE and BE UUIDs so we have appropriate types for them and the LE type is now named guid_t. They're both equally correct to use provided the use case matches the designed one. So does the name really matter?

Yes it does. I guess I have provided enough reasoning for that. Also, the rename commit itself illustrates its importance and clarifies the use case for which they are meant to be used.

...

If we did

#define uuid_le_t guid_t

would you be happy? (not that the kernel cares about karmic emotional states either ...)

It's not about me being happy but more about confusion and inconsistency it will bring.

IMO, either kernel should be opinionated about UUID endianness like currently it is:

uuid_t and its corresponding helpers (eg. UUID_INIT) follows BE format.

or support both endianness for UUID (no common type: uuid_t) like we had earlier prior to rename commit:

uuid_be_t and its corresponding helpers (eg. UUID_BE_INIT) follow BE format. uuid_le_t and its corresponding helpers (eg. UUID_LE_INIT) follow LE format.

But even if we consider later case as well, I am still not sure if we can switch to uuid_le_t as it's been part of TEE core ABI (open_session) where UUID is passed in BE format (see LE to BE conversion in TEE client [1] and vice-versa in OP-TEE OS [2]) and won't be a backwards compatible change.

[1] https://github.com/OP-TEE/optee_client/blob/master/libteec/src/ tee_client_api.c#L595 [2] https://github.com/OP-TEE/optee_os/blob/master/core/arch/arm/ke rnel/ree_fs_ta.c#L92

I'm struck that all references here are to code that does not run in kernel space. Frankly on LKML I don't know if we should even *care* what format UUIDs are stored in other address spaces.

We care about is the endianness of the UUID on the interface boundaries into and out of the kernel[1] and we care that we use the correct kernel type to describe it.

I understood from Jerome's post that the UUID that the kernel manipulates are, in fact, big endian and that they should be called uuid_t.

Is there more going on here or is that it?

As you say, a UUID to the kernel is a binary blob except for input, which to the kernel is INIT_UUID or INIT_GUID and output, which is either printk %Ub for uuid_t or %Ul for guid_t.

The bit I objected to was doing a %Ul on a uuid_t because it's going to trip the static checkers. That shows me there's a confusion in the code between little and big endian UUID types, but I haven't looked further than that.

James

On Fri, Jun 26, 2020 at 08:11:21AM -0700, James Bottomley wrote:

On Fri, 2020-06-26 at 12:29 +0100, Daniel Thompson wrote:

...

On Fri, Jun 26, 2020 at 10:40:41AM +0530, Sumit Garg wrote:

...

On Fri, 26 Jun 2020 at 05:01, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Thu, 2020-06-25 at 19:54 +0530, Sumit Garg wrote:

...

On Wed, 24 Jun 2020 at 20:51, James Bottomley James.Bottomley@hansenpartnership.com wrote:

...

On Wed, 2020-06-24 at 16:17 +0530, Sumit Garg wrote: > Apologies for delay in my reply as I was busy with some > other stuff. > > On Fri, 19 Jun 2020 at 20:30, James Bottomley > James.Bottomley@hansenpartnership.com wrote:

[...] > > it's about consistency with what the kernel types > > mean. When some checker detects your using little endian > > operations on a big endian structure (like in the prink > > for instance) they're going to keep emailing you about > > it. > > As mentioned above, using different terminology is meant to > cause more confusion than just difference in endianness > which is manageable inside TEE. > > And I think it's safe to say that the kernel implements > UUID in big endian format and thus uses %pUb whereas OP-TEE > implements UUID in little endian format and thus uses %pUl.

So what I think you're saying is that if we still had uuid_be and uuid_le you'd use uuid_le, because that's exactly the structure described in the docs. But because we renamed

uuid_be -> uuid_t uuid_le -> guid_t

You can't use guid_t as a kernel type because it has the wrong name?

Isn't the rename commit description [1] pretty clear about which is the true UUID type from Linux point of view?

I don't think the kernel code takes a position on eternal verity, just on logical or arithmetic truth. We just have to deal with both LE and BE UUIDs so we have appropriate types for them and the LE type is now named guid_t. They're both equally correct to use provided the use case matches the designed one. So does the name really matter?

Yes it does. I guess I have provided enough reasoning for that. Also, the rename commit itself illustrates its importance and clarifies the use case for which they are meant to be used.

...

If we did

#define uuid_le_t guid_t

would you be happy? (not that the kernel cares about karmic emotional states either ...)

It's not about me being happy but more about confusion and inconsistency it will bring.

IMO, either kernel should be opinionated about UUID endianness like currently it is:

uuid_t and its corresponding helpers (eg. UUID_INIT) follows BE format.

or support both endianness for UUID (no common type: uuid_t) like we had earlier prior to rename commit:

uuid_be_t and its corresponding helpers (eg. UUID_BE_INIT) follow BE format. uuid_le_t and its corresponding helpers (eg. UUID_LE_INIT) follow LE format.

But even if we consider later case as well, I am still not sure if we can switch to uuid_le_t as it's been part of TEE core ABI (open_session) where UUID is passed in BE format (see LE to BE conversion in TEE client [1] and vice-versa in OP-TEE OS [2]) and won't be a backwards compatible change.

[1] https://github.com/OP-TEE/optee_client/blob/master/libteec/src/ tee_client_api.c#L595 [2] https://github.com/OP-TEE/optee_os/blob/master/core/arch/arm/ke rnel/ree_fs_ta.c#L92

I'm struck that all references here are to code that does not run in kernel space. Frankly on LKML I don't know if we should even *care* what format UUIDs are stored in other address spaces.

We care about is the endianness of the UUID on the interface boundaries into and out of the kernel[1] and we care that we use the correct kernel type to describe it.

I understood from Jerome's post that the UUID that the kernel manipulates are, in fact, big endian and that they should be called uuid_t.

Is there more going on here or is that it?

As you say, a UUID to the kernel is a binary blob except for input, which to the kernel is INIT_UUID or INIT_GUID and output, which is either printk %Ub for uuid_t or %Ul for guid_t.

The bit I objected to was doing a %Ul on a uuid_t because it's going to trip the static checkers. That shows me there's a confusion in the code between little and big endian UUID types, but I haven't looked further than that.

Thanks for bringing our attention to this, it was educating for me at least. It seems the only problem was just the %Ul that should have been a %Ub. The OP-TEE driver is only dealing with BE UUIDs internallay and in the ABIs to user space and secure world.

I agree with Daniel, what happens in user space and in secure world isn't of interest here as long as the ABIs are OK.

Cheers, Jens

On Thu, Jun 04, 2020 at 08:58:50PM +0300, Maxim Uvarov wrote:

Some drivers (like ftpm) can operate only after tee-supplicant runs because of tee-supplicant provides things like storage services (rpmb, shm).  This patch splits probe of non tee-supplicant dependable drivers to the early stage, and after tee-supplicant run probe other drivers.

Signed-off-by: Maxim Uvarov maxim.uvarov@linaro.org Suggested-by: Sumit Garg sumit.garg@linaro.org Suggested-by: Arnd Bergmann arnd@linaro.org Reviewed-by: Sumit Garg sumit.garg@linaro.org

Acked-by: Jarkko Sakkinen jarkko.sakkinen@linux.intel.com

Looks good to me but Jens should really go this through in detail. I'm not the decision maker on this one.

/Jarkko

On Thu, Jun 04, 2020 at 08:58:51PM +0300, Maxim Uvarov wrote:

OP-TEE based fTPM Trusted Application depends on tee-supplicant to provide NV RAM implementation based on RPMB secure storage. So this dependency can be resolved via TEE bus where we only invoke fTPM driver probe once fTPM device is registered on the bus which is only true after the tee-supplicant is up and running. Additionally, TEE bus provides auto device enumeration.

Signed-off-by: Maxim Uvarov maxim.uvarov@linaro.org Suggested-by: Sumit Garg sumit.garg@linaro.org Suggested-by: Arnd Bergmann arnd@linaro.org Reviewed-by: Sumit Garg sumit.garg@linaro.org

Reviewed-by: Jarkko Sakkinen jarkko.sakkinen@linux.intel.com

/Jarkko

Hi Maxim and Jarkko,

On Mon, Jun 15, 2020 at 05:32:40PM +0300, Maxim Uvarov wrote:

ping. Patchset was reviewed and all comments are codeverd. Optee-os patches were merged. These kernel patches look like they are hanging somewhere...

I'm almost OK with this patchset, except that Documentation/ABI/testing/sysfs-bus-optee-devices needs to be updated for the new kernel version and TEE mailing list which we're changing right now.

The last patch touches files I'm not maintainer of. That patch depends on the previous patches so it makes sense to keep them together. If a TPM device driver maintainer would ack that patch I can take it via my tree. Or we can do it the other way around (with a v9 patchset), whichever is preferred.

Cheers, Jens

Thanks, Maxim.

On Thu, 4 Jun 2020 at 20:58, Maxim Uvarov maxim.uvarov@linaro.org wrote:

...

v8: - fix v7 check. v7: - check return value of dev_set_name() (Jarkko Sakkinen) v6: - description, comments, patches reorder and destroy workqueue (Sumit Garg) v5: - removed pr_err and fix typos in description (Jarkko Sakkinen) - added missed kfree in optee_open() v4: - sysfs entry is optee-ta-uuid (Jerome Forissier, Sumit Garg) - added Documentation/ABI/testing/sysfs-bus-optee-devices (Greg Kroah-Hartman) v3: - support tee-suppicant restart (Jens Wiklander) - description and comments (Jarkko Sakkinen) - do not name optee drivers by index in sysfs (Sumit Garg) v2: - write TEE with capital letters. - declare __optee_enumerate_device() as static.

Maxim Uvarov (3): optee: use uuid for sysfs driver entry optee: enable support for multi-stage bus enumeration tpm_ftpm_tee: register driver on TEE bus

.../ABI/testing/sysfs-bus-optee-devices | 8 +++ MAINTAINERS | 1 + drivers/char/tpm/tpm_ftpm_tee.c | 70 ++++++++++++++++--- drivers/tee/optee/core.c | 27 ++++++- drivers/tee/optee/device.c | 38 +++++----- drivers/tee/optee/optee_private.h | 10 ++- 6 files changed, 119 insertions(+), 35 deletions(-) create mode 100644 Documentation/ABI/testing/sysfs-bus-optee-devices

-- 2.17.1

On Wed, Jun 17, 2020 at 05:26:42PM +0300, Maxim Uvarov wrote:

On Tue, 16 Jun 2020 at 11:29, Jens Wiklander jens.wiklander@linaro.org wrote:

...

Hi Maxim and Jarkko,

On Mon, Jun 15, 2020 at 05:32:40PM +0300, Maxim Uvarov wrote:

...

ping. Patchset was reviewed and all comments are codeverd. Optee-os patches were merged. These kernel patches look like they are hanging somewhere...

I'm almost OK with this patchset, except that Documentation/ABI/testing/sysfs-bus-optee-devices needs to be updated for the new kernel version and TEE mailing list which we're changing right now.

What is the new mailing list address? I did git pull the latest master and get_maintainer.pl still points to tee-dev@lists.linaro.org.

I'm sorry, I should have mentioned that. I just sent a pull request to update it so it will have changed by the time these patches gets merged. The new address is op-tee@lists.trustedfirmware.org

Cheers, Jens

Maxim.

...

The last patch touches files I'm not maintainer of. That patch depends on the previous patches so it makes sense to keep them together. If a TPM device driver maintainer would ack that patch I can take it via my tree. Or we can do it the other way around (with a v9 patchset), whichever is preferred.

Cheers, Jens

...

Thanks, Maxim.

On Thu, 4 Jun 2020 at 20:58, Maxim Uvarov maxim.uvarov@linaro.org wrote:

...

v8: - fix v7 check. v7: - check return value of dev_set_name() (Jarkko Sakkinen) v6: - description, comments, patches reorder and destroy workqueue (Sumit Garg) v5: - removed pr_err and fix typos in description (Jarkko Sakkinen) - added missed kfree in optee_open() v4: - sysfs entry is optee-ta-uuid (Jerome Forissier, Sumit Garg) - added Documentation/ABI/testing/sysfs-bus-optee-devices (Greg Kroah-Hartman) v3: - support tee-suppicant restart (Jens Wiklander) - description and comments (Jarkko Sakkinen) - do not name optee drivers by index in sysfs (Sumit Garg) v2: - write TEE with capital letters. - declare __optee_enumerate_device() as static.

Maxim Uvarov (3): optee: use uuid for sysfs driver entry optee: enable support for multi-stage bus enumeration tpm_ftpm_tee: register driver on TEE bus

.../ABI/testing/sysfs-bus-optee-devices | 8 +++ MAINTAINERS | 1 + drivers/char/tpm/tpm_ftpm_tee.c | 70 ++++++++++++++++--- drivers/tee/optee/core.c | 27 ++++++- drivers/tee/optee/device.c | 38 +++++----- drivers/tee/optee/optee_private.h | 10 ++- 6 files changed, 119 insertions(+), 35 deletions(-) create mode 100644 Documentation/ABI/testing/sysfs-bus-optee-devices

-- 2.17.1

On Thu, Jun 18, 2020 at 02:37:55AM +0300, Jarkko Sakkinen wrote:

On Tue, Jun 16, 2020 at 10:29:07AM +0200, Jens Wiklander wrote:

...

Hi Maxim and Jarkko,

On Mon, Jun 15, 2020 at 05:32:40PM +0300, Maxim Uvarov wrote:

...

ping. Patchset was reviewed and all comments are codeverd. Optee-os patches were merged. These kernel patches look like they are hanging somewhere...

I'm almost OK with this patchset, except that Documentation/ABI/testing/sysfs-bus-optee-devices needs to be updated for the new kernel version and TEE mailing list which we're changing right now.

The last patch touches files I'm not maintainer of. That patch depends on the previous patches so it makes sense to keep them together. If a TPM device driver maintainer would ack that patch I can take it via my tree. Or we can do it the other way around (with a v9 patchset), whichever is preferred.

Cheers, Jens

Probably easier if you pick all three and I ack the one touching TPM.

Makes sense, let's do that.

Cheers, Jens

On Mon, Jun 15, 2020 at 05:32:40PM +0300, Maxim Uvarov wrote:

ping. Patchset was reviewed and all comments are codeverd. Optee-os patches were merged. These kernel patches look like they are hanging somewhere...

Thanks, Maxim.

I'm checking them atm.

/Jarkko