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Message-ID: <716e8136-7c80-baef-4769-82867af57ef3@linux.intel.com>
Date:   Tue, 19 Feb 2019 10:49:25 +0800
From:   Lu Baolu <baolu.lu@...ux.intel.com>
To:     Alex Williamson <alex.williamson@...hat.com>,
        Kirti Wankhede <kwankhede@...dia.com>
Cc:     baolu.lu@...ux.intel.com, Joerg Roedel <joro@...tes.org>,
        David Woodhouse <dwmw2@...radead.org>, ashok.raj@...el.com,
        sanjay.k.kumar@...el.com, jacob.jun.pan@...el.com,
        kevin.tian@...el.com,
        Jean-Philippe Brucker <jean-philippe.brucker@....com>,
        yi.l.liu@...el.com, yi.y.sun@...el.com, peterx@...hat.com,
        tiwei.bie@...el.com, xin.zeng@...el.com,
        iommu@...ts.linux-foundation.org, kvm@...r.kernel.org,
        linux-kernel@...r.kernel.org
Subject: Re: [PATCH v6 0/9] vfio/mdev: IOMMU aware mediated device

Hi Kirti,

On 2/15/19 4:14 AM, Alex Williamson wrote:
> On Wed, 13 Feb 2019 12:02:52 +0800
> Lu Baolu <baolu.lu@...ux.intel.com> wrote:
> 
>> Hi,
>>
>> The Mediate Device is a framework for fine-grained physical device
>> sharing across the isolated domains. Currently the mdev framework
>> is designed to be independent of the platform IOMMU support. As the
>> result, the DMA isolation relies on the mdev parent device in a
>> vendor specific way.
>>
>> There are several cases where a mediated device could be protected
>> and isolated by the platform IOMMU. For example, Intel vt-d rev3.0
>> [1] introduces a new translation mode called 'scalable mode', which
>> enables PASID-granular translations. The vt-d scalable mode is the
>> key ingredient for Scalable I/O Virtualization [2] [3] which allows
>> sharing a device in minimal possible granularity (ADI - Assignable
>> Device Interface).
>>
>> A mediated device backed by an ADI could be protected and isolated
>> by the IOMMU since 1) the parent device supports tagging an unique
>> PASID to all DMA traffic out of the mediated device; and 2) the DMA
>> translation unit (IOMMU) supports the PASID granular translation.
>> We can apply IOMMU protection and isolation to this kind of devices
>> just as what we are doing with an assignable PCI device.
>>
>> In order to distinguish the IOMMU-capable mediated devices from those
>> which still need to rely on parent devices, this patch set adds one
>> new member in struct mdev_device.
>>
>> * iommu_device
>>    - This, if set, indicates that the mediated device could
>>      be fully isolated and protected by IOMMU via attaching
>>      an iommu domain to this device. If empty, it indicates
>>      using vendor defined isolation.
>>
>> Below helpers are added to set and get above iommu device in mdev core
>> implementation.
>>
>> * mdev_set/get_iommu_device(dev, iommu_device)
>>    - Set or get the iommu device which represents this mdev
>>      in IOMMU's device scope. Drivers don't need to set the
>>      iommu device if it uses vendor defined isolation.
>>
>> The mdev parent device driver could opt-in that the mdev could be
>> fully isolated and protected by the IOMMU when the mdev is being
>> created by invoking mdev_set_iommu_device() in its @create().
>>
>> In the vfio_iommu_type1_attach_group(), a domain allocated through
>> iommu_domain_alloc() will be attached to the mdev iommu device if
>> an iommu device has been set. Otherwise, the dummy external domain
>> will be used and all the DMA isolation and protection are routed to
>> parent driver as the result.
>>
>> On IOMMU side, a basic requirement is allowing to attach multiple
>> domains to a PCI device if the device advertises the capability
>> and the IOMMU hardware supports finer granularity translations than
>> the normal PCI Source ID based translation.
>>
>> As the result, a PCI device could work in two modes: normal mode
>> and auxiliary mode. In the normal mode, a pci device could be
>> isolated in the Source ID granularity; the pci device itself could
>> be assigned to a user application by attaching a single domain
>> to it. In the auxiliary mode, a pci device could be isolated in
>> finer granularity, hence subsets of the device could be assigned
>> to different user level application by attaching a different domain
>> to each subset.
>>
>> Below APIs are introduced in iommu generic layer for aux-domain
>> purpose:
>>
>> * iommu_dev_has_feature(dev, IOMMU_DEV_FEAT_AUX)
>>    - Check whether both IOMMU and device support IOMMU aux
>>      domain feature. Below aux-domain specific interfaces
>>      are available only after this returns true.
>>
>> * iommu_dev_enable/disable_feature(dev, IOMMU_DEV_FEAT_AUX)
>>    - Enable/disable device specific aux-domain feature.
>>
>> * iommu_dev_feature_enabled(dev, IOMMU_DEV_FEAT_AUX)
>>    - Check whether the aux domain specific feature enabled or
>>      not.
>>
>> * iommu_aux_attach_device(domain, dev)
>>    - Attaches @domain to @dev in the auxiliary mode. Multiple
>>      domains could be attached to a single device in the
>>      auxiliary mode with each domain representing an isolated
>>      address space for an assignable subset of the device.
>>
>> * iommu_aux_detach_device(domain, dev)
>>    - Detach @domain which has been attached to @dev in the
>>      auxiliary mode.
>>
>> * iommu_aux_get_pasid(domain, dev)
>>    - Return ID used for finer-granularity DMA translation.
>>      For the Intel Scalable IOV usage model, this will be
>>      a PASID. The device which supports Scalable IOV needs
>>      to write this ID to the device register so that DMA
>>      requests could be tagged with a right PASID prefix.
>>
>> In order for the ease of discussion, sometimes we call "a domain in
>> auxiliary mode' or simply 'an auxiliary domain' when a domain is
>> attached to a device for finer granularity translations. But we need
>> to keep in mind that this doesn't mean there is a differnt domain
>> type. A same domain could be bound to a device for Source ID based
>> translation, and bound to another device for finer granularity
>> translation at the same time.
>>
>> This patch series extends both IOMMU and vfio components to support
>> mdev device passing through when it could be isolated and protected
>> by the IOMMU units. The first part of this series (PATCH 1/09~6/09)
>> adds the interfaces and implementation of the multiple domains per
>> device. The second part (PATCH 7/09~9/09) adds the iommu device
>> attribute to each mdev, determines isolation type according to the
>> existence of an iommu device when attaching group in vfio type1 iommu
>> module, and attaches the domain to iommu aware mediated devices.
>>
>> References:
>> [1] https://software.intel.com/en-us/download/intel-virtualization-technology-for-directed-io-architecture-specification
>> [2] https://software.intel.com/en-us/download/intel-scalable-io-virtualization-technical-specification
>> [3] https://schd.ws/hosted_files/lc32018/00/LC3-SIOV-final.pdf
>>
>> Best regards,
>> Lu Baolu
>>
>> Change log:
>>    v5->v6:
> 
> This looks pretty reasonable with Jean-Philippe's nit fixups.  Where do
> we go from here?  I think we need an ack from Kirti since they have an
> interest here.  Presumably this looks ok to the ARM folks.  Do we have

Any comments?

Best regards,
Lu Baolu

> any consumers of this code yet?  Theoretically I think a vfio-pci-like
> meta driver could be written as an mdev vendor driver with this support
> (restricted to type1 iommu use cases).  Thanks,
> 
> Alex
> 

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