From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received-SPF: Pass (sender SPF authorized) identity=mailfrom; client-ip=217.140.101.70; helo=foss.arm.com; envelope-from=jeremy.linton@arm.com; receiver=edk2-devel@lists.01.org Received: from foss.arm.com (foss.arm.com [217.140.101.70]) by ml01.01.org (Postfix) with ESMTP id 0FE7E2256862F for ; Thu, 8 Mar 2018 13:42:09 -0800 (PST) Received: from usa-sjc-imap-foss1.foss.arm.com (unknown [10.72.51.249]) by usa-sjc-mx-foss1.foss.arm.com (Postfix) with ESMTP id C422780D; Thu, 8 Mar 2018 13:48:25 -0800 (PST) Received: from [192.168.100.244] (usa-sjc-mx-foss1.foss.arm.com [217.140.101.70]) by usa-sjc-imap-foss1.foss.arm.com (Postfix) with ESMTPSA id 799B53F487; Thu, 8 Mar 2018 13:48:25 -0800 (PST) To: Ard Biesheuvel Cc: "edk2-devel@lists.01.org" , Leif Lindholm , Graeme Gregory References: <20180308131353.17389-1-ard.biesheuvel@linaro.org> From: Jeremy Linton Message-ID: <60cdf9e6-7c5e-37cc-997a-a740a30569d5@arm.com> Date: Thu, 8 Mar 2018 15:48:24 -0600 User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:52.0) Gecko/20100101 Thunderbird/52.5.2 MIME-Version: 1.0 In-Reply-To: Subject: Re: [PATCH edk2-platforms] Silicon/SynQuacer: add PPTT ACPI table to describe cache topology X-BeenThere: edk2-devel@lists.01.org X-Mailman-Version: 2.1.23 Precedence: list List-Id: EDK II Development List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Thu, 08 Mar 2018 21:42:10 -0000 Content-Type: text/plain; charset=utf-8; format=flowed Content-Language: en-US Content-Transfer-Encoding: 7bit Hi, On 03/08/2018 02:38 PM, Ard Biesheuvel wrote: > On 8 March 2018 at 17:59, Ard Biesheuvel wrote: >> On 8 March 2018 at 17:50, Jeremy Linton wrote: >>> Hi, >>> >>> >>> On 03/08/2018 11:27 AM, Ard Biesheuvel wrote: >>>> >>>> On 8 March 2018 at 17:24, Jeremy Linton wrote: >>>>> >>>>> Hi, >>>>> >>>>> >>>>> On 03/08/2018 07:13 AM, Ard Biesheuvel wrote: >>>>>> >>>>>> >>>>>> Add a ACPI Processor Properties Topology Table (PPTT) to the SynQuacer >>>>>> builds. This information is used by the OS to tune the scheduler. >>>>>> >>>>>> Contributed-under: TianoCore Contribution Agreement 1.1 >>>>>> Signed-off-by: Ard Biesheuvel >>>>>> --- >>>>>> This produces the following topology after applying Jeremy's patches: >>>>>> >>>>>> $ lstopo-no-graphics >>>>>> Machine (31GB) >>>>>> Package L#0 + L3 L#0 (4096KB) >>>>>> L2 L#0 (256KB) >>>>>> L1d L#0 (32KB) + L1i L#0 (32KB) + Core L#0 + PU L#0 (P#0) >>>>>> L1d L#1 (32KB) + L1i L#1 (32KB) + Core L#1 + PU L#1 (P#1) >>>>>> L2 L#1 (256KB) >>>>>> L1d L#2 (32KB) + L1i L#2 (32KB) + Core L#2 + PU L#2 (P#2) >>>>>> L1d L#3 (32KB) + L1i L#3 (32KB) + Core L#3 + PU L#3 (P#3) >>>>>> L2 L#2 (256KB) >>>>>> L1d L#4 (32KB) + L1i L#4 (32KB) + Core L#4 + PU L#4 (P#4) >>>>>> L1d L#5 (32KB) + L1i L#5 (32KB) + Core L#5 + PU L#5 (P#5) >>>>>> L2 L#3 (256KB) >>>>>> L1d L#6 (32KB) + L1i L#6 (32KB) + Core L#6 + PU L#6 (P#6) >>>>>> L1d L#7 (32KB) + L1i L#7 (32KB) + Core L#7 + PU L#7 (P#7) >>>>>> L2 L#4 (256KB) >>>>>> L1d L#8 (32KB) + L1i L#8 (32KB) + Core L#8 + PU L#8 (P#8) >>>>>> L1d L#9 (32KB) + L1i L#9 (32KB) + Core L#9 + PU L#9 (P#9) >>>>>> L2 L#5 (256KB) >>>>>> L1d L#10 (32KB) + L1i L#10 (32KB) + Core L#10 + PU L#10 (P#10) >>>>>> L1d L#11 (32KB) + L1i L#11 (32KB) + Core L#11 + PU L#11 (P#11) >>>>>> L2 L#6 (256KB) >>>>>> L1d L#12 (32KB) + L1i L#12 (32KB) + Core L#12 + PU L#12 (P#12) >>>>>> L1d L#13 (32KB) + L1i L#13 (32KB) + Core L#13 + PU L#13 (P#13) >>>>>> L2 L#7 (256KB) >>>>>> L1d L#14 (32KB) + L1i L#14 (32KB) + Core L#14 + PU L#14 (P#14) >>>>>> L1d L#15 (32KB) + L1i L#15 (32KB) + Core L#15 + PU L#15 (P#15) >>>>>> L2 L#8 (256KB) >>>>>> L1d L#16 (32KB) + L1i L#16 (32KB) + Core L#16 + PU L#16 (P#16) >>>>>> L1d L#17 (32KB) + L1i L#17 (32KB) + Core L#17 + PU L#17 (P#17) >>>>>> L2 L#9 (256KB) >>>>>> L1d L#18 (32KB) + L1i L#18 (32KB) + Core L#18 + PU L#18 (P#18) >>>>>> L1d L#19 (32KB) + L1i L#19 (32KB) + Core L#19 + PU L#19 (P#19) >>>>>> L2 L#10 (256KB) >>>>>> L1d L#20 (32KB) + L1i L#20 (32KB) + Core L#20 + PU L#20 (P#20) >>>>>> L1d L#21 (32KB) + L1i L#21 (32KB) + Core L#21 + PU L#21 (P#21) >>>>>> L2 L#11 (256KB) >>>>>> L1d L#22 (32KB) + L1i L#22 (32KB) + Core L#22 + PU L#22 (P#22) >>>>>> L1d L#23 (32KB) + L1i L#23 (32KB) + Core L#23 + PU L#23 (P#23) >>>>>> HostBridge L#0 >>>>>> PCIBridge >>>>>> PCIBridge >>>>>> PCI 1b21:0612 >>>>>> Block(Disk) L#0 "sda" >>>>>> HostBridge L#3 >>>>>> PCI 10de:128b >>>>>> GPU L#1 "renderD128" >>>>>> GPU L#2 "card0" >>>>>> GPU L#3 "controlD64" >>>>>> >>>>>> Silicon/Socionext/SynQuacer/AcpiTables/AcpiTables.inf | 1 + >>>>>> Silicon/Socionext/SynQuacer/AcpiTables/Pptt.aslc | 221 >>>>>> ++++++++++++++++++++ >>>>> >>>>> >>>>> >>>>> So, the above looks good. OTOH, this is yet another manually >>>>> created/hard-coded ACPI table, subject to change every-time another SOC >>>>> is >>>>> released. I have a couple similar ones, but haven't post them because I >>>>> believe the HiSi folks have done us a favor and created a table generator >>>>> which does 90% of this work by probing the hardware, and creating a >>>>> "compressed" representation of the table. Leaving the individual >>>>> platforms >>>>> to only fill out LLCs and such which can't be probed. >>>>> >>>>> It would be great if the remaining HiSi bits were removed and the whole >>>>> thing made generic enough to plug in to these individual platforms, so >>>>> that >>>>> they only need supply their nonstandard bits and the rest is taken care >>>>> of. >>>>> >>>> >>>> Yeah, I am aware of that. But to be honest, for a platform such as >>>> this one, where the information is 100% static, I'd much rather have a >>>> single .c file like this that never changes once you check it in. >>>> >>> >>> Maybe, but even if there is never an identical machine with a few cores >>> extra (or removed), you have to deal with the possibility that the standard >>> is going to be updated (say to add a leaf node flag). If/when that happens >>> you now have the technical debt of having to go manually touch the tables vs >>> updating the generator code and being done with it across all the platforms. >>> Particularly since other people are just going to take the same shortcut >>> next time of just copy-pasting this table and tweaking it, rather than >>> trying to create a library out of the HiSi code. >> >> I agree up to a point, and I think we are conflating two different >> things here. I am all for abstracting PPTT table generation, but only >> if it doesn't move processing of information known at compile time to >> runtime. > > BTW the architecture does not permit inferring cache geometry from the > CCSIDR field: > > """ > The parameters NumSets, Associativity, and LineSize in these registers > define the architecturally visible parameters > that are required for the cache maintenance by Set/Way instructions. > They are not guaranteed to represent the actual > microarchitectural features of a design. You cannot make any inference > about the actual sizes of caches based on > these parameters. > """ > > and we know that there are cores that describe their caches as having > a single set and a single way, because they don't implement > maintenance by set/way at all and can only be cleaned or invalidated > wholesale. > That is true in the architectural sense, but as we all know for many of these machines it can be inferred, and since the firmware blobs would be per machine it would be a question of overriding/correcting whatever is wrong per machine rather than having the entire table be per machine. Put another way, you can support a wide swath of machines with A5x & A7x's with a single piece of code which only hard-codes the L3 (if any) information.