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Message-ID: <4FB6D47C.4010003@redhat.com>
Date: Fri, 18 May 2012 19:00:12 -0400
From: Don Dutile <ddutile@...hat.com>
To: Alex Williamson <alex.williamson@...hat.com>
CC: Bjorn Helgaas <bhelgaas@...gle.com>, kvm@...r.kernel.org,
B07421@...escale.com, aik@...abs.ru, benh@...nel.crashing.org,
linux-pci@...r.kernel.org, agraf@...e.de, qemu-devel@...gnu.org,
chrisw@...s-sol.org, B08248@...escale.com,
iommu@...ts.linux-foundation.org, gregkh@...uxfoundation.org,
avi@...hat.com, benve@...co.com, dwmw2@...radead.org,
linux-kernel@...r.kernel.org, david@...son.dropbear.id.au
Subject: Re: RESEND3: Re: [PATCH 05/13] pci: New pci_acs_enabled()
On 05/18/2012 06:02 PM, Alex Williamson wrote:
> On Wed, 2012-05-16 at 09:29 -0400, Don Dutile wrote:
>> On 05/15/2012 05:09 PM, Alex Williamson wrote:
>>> On Tue, 2012-05-15 at 13:56 -0600, Bjorn Helgaas wrote:
>>>> On Mon, May 14, 2012 at 4:49 PM, Alex Williamson
>>>> <alex.williamson@...hat.com> wrote:
>>>>> On Mon, 2012-05-14 at 16:02 -0600, Bjorn Helgaas wrote:
>>>>>> On Fri, May 11, 2012 at 4:56 PM, Alex Williamson
>>>>>> <alex.williamson@...hat.com> wrote:
>>>>>>> In a PCIe environment, transactions aren't always required to
>>>>>>> reach the root bus before being re-routed. Peer-to-peer DMA
>>>>>>> may actually not be seen by the IOMMU in these cases. For
>>>>>>> IOMMU groups, we want to provide IOMMU drivers a way to detect
>>>>>>> these restrictions. Provided with a PCI device, pci_acs_enabled
>>>>>>> returns the furthest downstream device with a complete PCI ACS
>>>>>>> chain. This information can then be used in grouping to create
>>>>>>> fully isolated groups. ACS chain logic extracted from libvirt.
>>>>>>
>>>>>> The name "pci_acs_enabled()" sounds like it returns a boolean, but it doesn't.
>>>>>
>>>>> Right, maybe this should be:
>>>>>
>>>>> struct pci_dev *pci_find_upstream_acs(struct pci_dev *pdev);
>>>>>
>> +1; there is a global in the PCI code, pci_acs_enable,
>> and a function pci_enable_acs(), which the above name certainly
>> confuses. I recommend pci_find_top_acs_bridge()
>> would be most descriptive.
Finally, with my email filters fixed, I can see this email... :)
>
> Yep, the new API I'm working with is:
>
> bool pci_acs_enabled(struct pci_dev *pdev, u16 acs_flags);
> bool pci_acs_path_enabled(struct pci_dev *start,
> struct pci_dev *end, u16 acs_flags);
>
ok.
>>>>>> I'm not sure what "a complete PCI ACS chain" means.
>>>>>>
>>>>>> The function starts from "dev" and searches *upstream*, so I'm
>>>>>> guessing it returns the root of a subtree that must be contained in a
>>>>>> group.
>>>>>
>>>>> Any intermediate switch between an endpoint and the root bus can
>>>>> redirect a dma access without iommu translation,
>>>>
>>>> Is this "redirection" just the normal PCI bridge forwarding that
>>>> allows peer-to-peer transactions, i.e., the rule (from P2P bridge
>>>> spec, rev 1.2, sec 4.1) that the bridge apertures define address
>>>> ranges that are forwarded from primary to secondary interface, and the
>>>> inverse ranges are forwarded from secondary to primary? For example,
>>>> here:
>>>>
>>>> ^
>>>> |
>>>> +--------+-------+
>>>> | |
>>>> +------+-----+ +-----++-----+
>>>> | Downstream | | Downstream |
>>>> | Port | | Port |
>>>> | 06:05.0 | | 06:06.0 |
>>>> +------+-----+ +------+-----+
>>>> | |
>>>> +----v----+ +----v----+
>>>> | Endpoint| | Endpoint|
>>>> | 07:00.0 | | 08:00.0 |
>>>> +---------+ +---------+
>>>>
>>>> that rule is all that's needed for a transaction from 07:00.0 to be
>>>> forwarded from upstream to the internal switch bus 06, then claimed by
>>>> 06:06.0 and forwarded downstream to 08:00.0. This is plain old PCI,
>>>> nothing specific to PCIe.
>>>
>>> Right, I think the main PCI difference is the point-to-point nature of
>>> PCIe vs legacy PCI bus. On a legacy PCI bus there's no way to prevent
>>> devices talking to each other, but on PCIe the transaction makes a
>>> U-turn at some point and heads out another downstream port. ACS allows
>>> us to prevent that from happening.
>>>
>> detail: PCIe up/downstream routing is really done by an internal switch;
>> ACS forces the legacy, PCI base-limit address routing and *forces*
>> the switch to always route the transaction from a downstream port
>> to the upstream port.
>>
>>>> I don't understand ACS very well, but it looks like it basically
>>>> provides ways to prevent that peer-to-peer forwarding, so transactions
>>>> would be sent upstream toward the root (and specifically, the IOMMU)
>>>> instead of being directly claimed by 06:06.0.
>>>
>>> Yep, that's my meager understanding as well.
>>>
>> +1
>>
>>>>> so we're looking for
>>>>> the furthest upstream device for which acs is enabled all the way up to
>>>>> the root bus.
>>>>
>>>> Correct me if this is wrong: To force device A's DMAs to be processed
>>>> by an IOMMU, ACS must be enabled on the root port and every downstream
>>>> port along the path to A.
>>>
>>> Yes, modulo this comment in libvirt source:
>>>
>>> /* if we have no parent, and this is the root bus, ACS doesn't come
>>> * into play since devices on the root bus can't P2P without going
>>> * through the root IOMMU.
>>> */
>>>
>> Correct. PCIe spec says roots must support ACS. I believe all the
>> root bridges that have an IOMMU have ACS wired in/on.
>
> Would you mind looking for the paragraph that says this? I'd rather
> code this into the iommu driver callers than core PCI code if this is
> just a platform standard.
>
In section 6.12.1.1 of PCIe Base spec, rev 3.0, it states:
ACS upstream fwding: Must be implemented by Root Ports if the RC supports
Redirected Request Validation;
-- which means, if a Root port allows a peer-to-peer transaction to another
one of its ports, then it has to support ACS.
So, this means that:
(a) if a Root complex with multiple ports can't do peer-to-peer to another port,
ACS isn't needed
(b) if a Root complex w/multiple ports can do peer-to-peer to another port,
it must have ACS capability if it does...
and since the linux code turns on ACS for all ports with an ACS cap,
it degenerates (in Linux) that all Root ports are implementing the
end functionality of ACS==on, all traffic goes up to IOMMU in RC.
>>> So we assume that a redirect at the point of the iommu will factor in
>>> iommu translation.
>>>
>>>> If so, I think you're trying to find out the closest upstream device X
>>>> such that everything leading to X has ACS enabled. Every device below
>>>> X can DMA freely to other devices below X, so they would all have to
>>>> be in the same isolated group.
>>>
>>> Yes
>>>
>>>> I tried to work through some examples to develop some intuition about this:
>>>
>>> (inserting fixed url)
>>>> http://www.asciiflow.com/#3736558963405980039
>>>
>>>> pci_acs_enabled(00:00.0) = 00:00.0 (on root bus (but doesn't it matter
>>>> if 00:00.0 is PCIe or if RP has ACS?))
>>>
>>> Hmm, the latter is the assumption above. For the former, I think
>>> libvirt was probably assuming that PCI devices must have a PCIe device
>>> upstream from them because x86 doesn't have assignment friendly IOMMUs
>>> except on PCIe. I'll need to work on making that more generic.
>>>
>>>> pci_acs_enabled(00:01.0) = 00:01.0 (on root bus)
>>>> pci_acs_enabled(01:00.0) = 01:00.0 (acs_dev = 00:01.0, 01:00.0 is not
>>>> PCIe; seems wrong)
>>>
>>> Oops, I'm calling pci_find_upstream_pcie_bridge() first on any of my
>>> input devices, so this was passing for me. I'll need to incorporate
>>> that generically.
>>>
>>>> pci_acs_enabled(00:02.0) = 00:02.0 (on root bus; seems wrong if RP
>>>> doesn't have ACS)
>>>
>>> Yeah, let me validate the libvirt assumption. I see ACS on my root
>>> port, so maybe they're just assuming it's always enabled or that the
>>> precedence favors IOMMU translation. I'm also starting to think that we
>>> might want "from" and "to" struct pci_dev parameters to make it more
>>> flexible where the iommu lives in the system.
>>>
>> see comment above wrt root ports that have IOMMUs in them.
>
> Except it really seems to be platform convention where the IOMMU lives.
> The DMAR for VT-d describes which devices and hierarchies a DRHD is used
> for and from that we can make assumptions about where it physically
> lives. AMD-Vi exposes a PCI device as the IOMMU, but it's just a peer
> function on the root bus. For now I'm just allowing
> pci_acs_path_enabled to take NULL for and end, which means "up to the
> root bus".
>
ATM, VT-d IOMMUs are only in the RCs, so, ACS at each downstream port
in a tree would/should return 'true' to the acs_enabled check when it gets to a Root port.
For AMD-Vi, I thought the same held true, ATM, but I have to dig through
yet-another spec (or ask Joerg to check-in to this thread & provide the details).
>>
>>>> pci_acs_enabled(02:00.0) = 00:02.0 (acs_dev = 00:02.0, 02:00.0 has no ACS cap)
>>>> pci_acs_enabled(03:00.0) = 00:02.0 (acs_dev = 00:02.0)
>>>> pci_acs_enabled(02:01.0) = 02:01.0 (acs_dev = 00:02.0, 02:01.0 has ACS enabled)
>>>> pci_acs_enabled(04:00.0) = 04:00.0 (acs_dev = 02:01.0, 04:00.0 is not
>>>> a bridge; seems wrong if 04:00 is a multi-function device)
>>>
>>> AIUI, ACS is not an endpoint property, so this is what should happen. I
>>> don't think multifunction plays a role other than how much do we trust
>>> the implementation to not allow back channels between functions (the
>>> answer should probably be not at all).
>>>
>> correct. ACS is a *bridge* property.
>> The unknown wrt multifunction devices is that such devices *could* be implemented
>> by a hidden (not responding to PCI cfg accesses from downstream port) PCI bridge
>> btwn the functions within a device.
>> Such a bridge could allow peer-to-peer xactions and there is no way for OS's to
>> force ACS. So, one has to ask the hw vendors if such a hidden device exists
>> in the implementation, and whether peer-to-peer is enabled/allowed -- a hidden PCI
>> bridge/PCIe-switch could just be hardwired to push all IO to upstream port,
>> and allow parent bridge re-route it back down if peer-to-peer is desired.
>> Debate exists whether multifunction devices are 'secure' b/c of this unknown.
>> Maybe a PCIe (min., SRIOV) spec change is needed in this area to
>> determine this status about a device (via pci cfg/cap space).
>
> Well, there is actually a section of the ACS part of the spec
> identifying valid flags for multifunction devices. Secretly I'd like to
> use this as justification for blacklisting all multifunction devices
> that don't explicitly support ACS, but that makes for pretty course
> granularity. For instance, all these devices end up in a group:
>
> +-14.0 ATI Technologies Inc SBx00 SMBus Controller
> +-14.2 ATI Technologies Inc SBx00 Azalia (Intel HDA)
> +-14.3 ATI Technologies Inc SB7x0/SB8x0/SB9x0 LPC host controller
> +-14.4-[05]----0e.0 VIA Technologies, Inc. VT6306/7/8 [Fire II(M)] IEEE 1394 OHCI Controller
>
> 00:14.4 PCI bridge: ATI Technologies Inc SBx00 PCI to PCI Bridge (rev 40)
>
> And these in another:
>
> +-15.0-[06]----00.0 Realtek Semiconductor Co., Ltd. RTL8111/8168B PCI Express Gigabit Ethernet controller
> +-15.1-[07]----00.0 Etron Technology, Inc. EJ168 USB 3.0 Host Controller
> +-15.2-[08]--
> +-15.3-[09]--
>
> 00:15.0 PCI bridge: ATI Technologies Inc SB700/SB800/SB900 PCI to PCI bridge (PCIE port 0)
> 00:15.1 PCI bridge: ATI Technologies Inc SB700/SB800/SB900 PCI to PCI bridge (PCIE port 1)
> 00:15.2 PCI bridge: ATI Technologies Inc SB900 PCI to PCI bridge (PCIE port 2)
> 00:15.3 PCI bridge: ATI Technologies Inc SB900 PCI to PCI bridge (PCIE port 3)
>
> Am I misinterpreting the spec or is this the correct, if strict,
> interpretation?
>
> Alex
>
Well, in digging into the ACS-support in Root port question above,
I just found out about this ACS support status for multifunctions too.
I need more time to read/digest, but a quick read says MFDs should have
an ACS cap with relevant RO-status & control bits to direct/control
peer-to-peer and ACS-upstream. Lack of an ACS struct implies(?)
peer-to-peer can happen, and thus, the above have to be in the same iommu group.
Unfortunately, I think a large lot of MFDs don't have ACS caps,
and don't/can't do peer-to-peer, so the above is heavy-handed,
albeit to spec.
Maybe we need a (large?) pci-quirk for the list of existing
MFDs that don't have ACS caps that would enable the above devices
to be in separate groups.
On the flip side, it solves some of the quirks for MFDs that
use the wrong BDF in their src-id dma packets! :) -- they default
to the same group now...
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