From patchwork Fri Apr 5 22:30:57 2024 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Jacob Pan X-Patchwork-Id: 13619548 Received: from mgamail.intel.com (mgamail.intel.com [192.198.163.10]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by smtp.subspace.kernel.org (Postfix) with ESMTPS id 8ECFD1E4BE; Fri, 5 Apr 2024 22:26:45 +0000 (UTC) Authentication-Results: smtp.subspace.kernel.org; arc=none smtp.client-ip=192.198.163.10 ARC-Seal: i=1; a=rsa-sha256; d=subspace.kernel.org; s=arc-20240116; t=1712356009; cv=none; b=u15WzgdL0GERbo7lkyl81HsbFXCt3WJH6ZJTWIDtFfu7rIfKEIOjkYllRuf3KXunlFVzVsXZzVAIsgVGbcShool8LOXxTvDmNMzWAKAxIVRBOYumxfouxEN3wBZcI10MotHWxU8F10VX8hyByqbR2hUgIkCHCxPt+ANWISongIU= ARC-Message-Signature: i=1; a=rsa-sha256; d=subspace.kernel.org; s=arc-20240116; t=1712356009; c=relaxed/simple; bh=HBMA8Ear6PZ/X9UeO8E/idiaY+79on5xxLQZ5AwjeI4=; h=From:To:Cc:Subject:Date:Message-Id:MIME-Version; b=adGrWAF+byFZndqS2SmNi/p91LS8tqfpZWKyg3VUsif9ez6vB4qxR3QVo5s0Izc0guU06eWOckh7+DpZxUhncp5FTLFvBReNZ7t5hnzaqj6OAaRjUGRUGEVJ/k6nBn23NJMRGHCbDV/SHvchhMC041WbCYQ84HLiG7kLFsX16Kg= ARC-Authentication-Results: i=1; smtp.subspace.kernel.org; dmarc=pass (p=none dis=none) header.from=linux.intel.com; spf=none smtp.mailfrom=linux.intel.com; dkim=pass (2048-bit key) header.d=intel.com header.i=@intel.com header.b=KpAMN+af; arc=none smtp.client-ip=192.198.163.10 Authentication-Results: smtp.subspace.kernel.org; dmarc=pass (p=none dis=none) header.from=linux.intel.com Authentication-Results: smtp.subspace.kernel.org; spf=none smtp.mailfrom=linux.intel.com Authentication-Results: smtp.subspace.kernel.org; dkim=pass (2048-bit key) header.d=intel.com header.i=@intel.com header.b="KpAMN+af" DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/simple; d=intel.com; i=@intel.com; q=dns/txt; s=Intel; t=1712356007; x=1743892007; h=from:to:cc:subject:date:message-id:mime-version: content-transfer-encoding; bh=HBMA8Ear6PZ/X9UeO8E/idiaY+79on5xxLQZ5AwjeI4=; b=KpAMN+afQ/Z15+9S5lzjg2KdW0IYGF1OX7EaY1FkcnVwUA1YpRJyPKZ8 Z2Q4w94pwDQLL0G/Kemvxr6RQUMOhQWAlXudcpUr82+V8se21ROwQ9/6y /gSsEAIct8+tg1gsTSd6BiRiwMP8XttlqF5jecMahhCAJDQEkaM1mjDXN OdIrn700YoBb6eA+3XbpB60l4dCNSefxWgS2OPl+WhWJlDxQRnSIQ3m8G k0bDNaMTDhOICkKEzGScnVl+Tzzdl5DadBsmS496GjUmGY5mOK/9jv1Wb +5zct1NAH8GpFUx9oKd720UKR7ppsNXzYoGE6C1l7FBMhcPJVeRfVuvEg g==; X-CSE-ConnectionGUID: jrXuPbEpQvyuQxTQp7dQag== X-CSE-MsgGUID: 8m8mz9jiTuqTknwYkjEL4A== X-IronPort-AV: E=McAfee;i="6600,9927,11035"; a="19062653" X-IronPort-AV: E=Sophos;i="6.07,182,1708416000"; d="scan'208";a="19062653" Received: from fmviesa004.fm.intel.com ([10.60.135.144]) by fmvoesa104.fm.intel.com with ESMTP/TLS/ECDHE-RSA-AES256-GCM-SHA384; 05 Apr 2024 15:26:45 -0700 X-CSE-ConnectionGUID: ojjwhLfhT3KQKTsFe+aWQw== X-CSE-MsgGUID: mCQy61CLRCeCqf+6maXeaA== X-ExtLoop1: 1 X-IronPort-AV: E=Sophos;i="6.07,182,1708416000"; d="scan'208";a="23928305" Received: from jacob-builder.jf.intel.com ([10.54.39.125]) by fmviesa004.fm.intel.com with ESMTP; 05 Apr 2024 15:26:44 -0700 From: Jacob Pan To: LKML , X86 Kernel , Peter Zijlstra , iommu@lists.linux.dev, Thomas Gleixner , "Lu Baolu" , kvm@vger.kernel.org, Dave Hansen , Joerg Roedel , "H. Peter Anvin" , "Borislav Petkov" , "Ingo Molnar" Cc: Paul Luse , Dan Williams , Jens Axboe , Raj Ashok , "Tian, Kevin" , maz@kernel.org, seanjc@google.com, "Robin Murphy" , jim.harris@samsung.com, a.manzanares@samsung.com, "Bjorn Helgaas" , guang.zeng@intel.com, robert.hoo.linux@gmail.com, Jacob Pan Subject: [PATCH v2 00/13] Coalesced Interrupt Delivery with posted MSI Date: Fri, 5 Apr 2024 15:30:57 -0700 Message-Id: <20240405223110.1609888-1-jacob.jun.pan@linux.intel.com> X-Mailer: git-send-email 2.25.1 Precedence: bulk X-Mailing-List: kvm@vger.kernel.org List-Id: List-Subscribe: List-Unsubscribe: MIME-Version: 1.0 Hi Thomas and all, This patch set is aimed to improve IRQ throughput on Intel Xeon by making use of posted interrupts. There is a session at LPC2023 IOMMU/VFIO/PCI MC where I have presented this topic. https://lpc.events/event/17/sessions/172/#20231115 Background ========== On modern x86 server SoCs, interrupt remapping (IR) is required and turned on by default to support X2APIC. Two interrupt remapping modes can be supported by IOMMU/VT-d: - Remappable (host) - Posted (guest only so far) With remappable mode, the device MSI to CPU process is a HW flow without system software touch points, it roughly goes as follows: 1. Devices issue interrupt requests with writes to 0xFEEx_xxxx 2. The system agent accepts and remaps/translates the IRQ 3. Upon receiving the translation response, the system agent notifies the destination CPU with the translated MSI 4. CPU's local APIC accepts interrupts into its IRR/ISR registers 5. Interrupt delivered through IDT (MSI vector) The above process can be inefficient under high IRQ rates. The notifications in step #3 are often unnecessary when the destination CPU is already overwhelmed with handling bursts of IRQs. On some architectures, such as Intel Xeon, step #3 is also expensive and requires strong ordering w.r.t DMA. As a result, slower IRQ rates can become a limiting factor for DMA I/O performance. For example, on Intel Xeon Sapphire Rapids SoC, as more NVMe disks are attached to the same socket, FIO (libaio engine) 4K block random read performance per-disk drops quickly. # of disks 2 4 8 ------------------------------------- IOPS(million) 1.991 1.136 0.834 (NVMe Gen 5 Samsung PM174x) With posted mode enabled in interrupt remapping, the interrupt flow is divided into two parts: posting (storing pending IRQ vector information in memory) and CPU notification. The above remappable IRQ flow becomes the following (1 and 2 unchanged): 3. Notifies the destination CPU with a notification vector - IOMMU suppresses CPU notification - IOMMU atomic swap/store IRQ status to memory-resident posted interrupt descriptor (PID) 4. CPU's local APIC accepts the notification interrupt into its IRR/ISR registers 5. Interrupt delivered through IDT (notification vector handler) System SW allows new notifications by clearing outstanding notification (ON) bit in PID. (The above flow is not in Linux today since we only use posted mode for VM) Note that the system software can now suppress CPU notifications at runtime as needed. This allows the system software to coalesce the expensive CPU notifications and in turn, improve IRQ throughput and DMA performance. Consider the following scenario when MSIs arrive at a CPU in high-frequency bursts: Time -----------------------------------------------------------------------> ^ ^ ^ ^ ^ ^ ^ ^ ^ MSIs A B C D E F G H I RI N N' N' N N' N' N' N N PI N N N N RI: remappable interrupt; PI: posted interrupt; N: interrupt notification, N': superfluous interrupt notification With remappable interrupt (row titled RI), every MSI generates a notification event to the CPU. With posted interrupts enabled in this patch set (row titled PI), CPU notifications are coalesced during IRQ bursts. N's are eliminated in the flow above. We refer to this mechanism Coalesced Interrupt Delivery (CID). Post interrupts have existed for a long time, they have been used for virtualization where MSIs from directly assigned devices can be delivered to the guest kernel without VMM intervention. On x86 Intel platforms, posted interrupts can be used on the host as well. Only host physical address of Posted interrupt descriptor (PID) is used. This patch set enables a new usage of posted interrupts on existing (and new hardware) for host kernel device MSIs. It is referred to as Posted MSIs throughout this patch set. Performance (with this patch set): ================================== Test #1. NVMe FIO FIO libaio (million IOPS/sec/disk) Gen 5 NVMe Samsung PM174x disks on a single socket, Intel Xeon Sapphire Rapids. Random read with 4k block size. NVMe IRQ affinity is managed by the kernel with one vector per CPU. #disks Before After %Gain --------------------------------------------- 8 0.834 1.943 132% 4 1.136 2.023 78% Other observations: - Increased block sizes shows diminishing benefits, e.g. with 4 NVME disks on one x16 PCIe slot, the combined IOPS looks like: Block Size Baseline PostedMSI ------------------------------------- 4K 6475 8778 8K 5727 5896 16k 2864 2900 32k 1546 1520 128k 397 398 - Submission/Completion latency (usec) also improved at 4K block size only FIO report SLAT --------------------------------------- Block Size Baseline postedMSI 4k 2177 2282 8k 4416 3967 16k 2950 3053 32k 3453 3505 128k 5911 5801 FIO report CLAT --------------------------------------- Block Size Baseline postedMSI 4k 313 230 8k 352 343 16k 711 702 32k 1320 1343 128k 5146 5137 Test #2. Intel Data Streaming Accelerator Two dedicated workqueues from two PCI root complex integrated endpoint (RCIEP) devices, pin IRQ affinity of the two interrupts to a single CPU. Before After %Gain ------------------------------------- DSA memfill (mil IRQs/sec) 5.157 8.987 74% DMA throughput has similar improvements. At lower IRQ rate (< 1 million/second), no performance benefits nor regression observed so far. No harm tests also performed to ensure no performance regression on workloads that do not have high interrupt rate. These tests include: - kernel compile time - file copy - FIO NVME random writes Implementation choices: ====================== - Transparent to the device drivers - System-wide option instead of per-device or per-IRQ opt-in, i.e. once enabled all device MSIs are posted. The benefit is that we only need to change IR irq_chip and domain layer. No change to PCI MSI. Exceptions are: IOAPIC, HPET, and VT-d's own IRQs - Limit the number of polling/demuxing loops per CPU notification event - Only change Intel-IR in IRQ domain hierarchy VECTOR->INTEL-IR->PCI-MSI, - X86 Intel only so far, can be extended to other architectures with posted interrupt support (ARM and AMD), RFC. - Bare metal only, no posted interrupt capable virtual IOMMU. Changes and implications (moving from remappable to posted mode) =============================== 1. All MSI vectors are multiplexed into a single notification vector for each CPU MSI vectors are then de-multiplexed by SW, no IDT delivery for MSIs 2. Losing the following features compared to the remappable mode (AFAIK, none of the below matters for device MSIs) - Control of delivery mode, e.g. NMI for MSIs - No logical destinations, posted interrupt destination is x2APIC physical APIC ID - No per vector stack, since all MSI vectors are multiplexed into one Runtime changes =============== The IRQ runtime behavior has changed with this patch, here is a pseudo trace comparison for 3 MSIs of different vectors arriving in a burst on the same CPU. A system vector interrupt (e.g. timer) arrives randomly. BEFORE: interrupt(MSI) irq_enter() handler() /* EOI */ irq_exit() process_softirq() interrupt(timer) interrupt(MSI) irq_enter() handler() /* EOI */ irq_exit() process_softirq() interrupt(MSI) irq_enter() handler() /* EOI */ irq_exit() process_softirq() AFTER: interrupt /* Posted MSI notification vector */ irq_enter() atomic_xchg(PIR) handler() handler() handler() pi_clear_on() apic_eoi() irq_exit() interrupt(timer) process_softirq() With posted MSI (as pointed out by Thomas Gleixner), both high-priority interrupts (system interrupt vectors) and softIRQs are blocked during MSI vector demux loop. Some can be timing sensitive. Here are the options I have attempted or still working on: 1. Use self-IPI to invoke MSI vector handler but that took away the majority of the performance benefits. 2. Limit the # of demuxing loops, this is implemented in this patch. Note that today, we already allow one low priority MSI to block system interrupts. System vector can preempt MSI vectors without waiting for EOI but we have IRQ disabled in the ISR. Performance data (on DSA with MEMFILL) also shows that coalescing more than 3 loops yields diminishing benefits. Therefore, the max loops for coalescing is set to 3 in this patch. MaxLoop IRQ/sec bandwidth Mbps ------------------------------------------------------------------------- 2 6157107 25219 3 6226611 25504 4 6557081 26857 5 6629683 27155 6 6662425 27289 3. limit the time that system interrupts can be blocked (WIP). In addition, posted MSI uses atomic xchg from both CPU and IOMMU. Compared to remappable mode, there may be additional cache line ownership contention over PID. However, we have not observed performance regression at lower IRQ rates. At high interrupt rate, posted mode always wins. Testing: ======== The following tests have been performed and continue to be evaluated. - IRQ affinity change, migration - CPU offlining - Multi vector coalescing - Low IRQ rate, general no-harm test - VM device assignment via VFIO - General no harm test, performance regressions have not been observed for low IRQ rate workload. With the patch, a new entry in /proc/interrupts is added. cat /proc/interrupts | grep PMN PMN: 13868907 Posted MSI notification event No change to the device MSI accounting. A new INTEL-IR-POST irq_chip is visible at IRQ debugfs, e.g. domain: IR-PCI-MSIX-0000:6f:01.0-12 hwirq: 0x8 chip: IR-PCI-MSIX-0000:6f:01.0 flags: 0x430 IRQCHIP_SKIP_SET_WAKE IRQCHIP_ONESHOT_SAFE parent: domain: INTEL-IR-12-13 hwirq: 0x90000 chip: INTEL-IR-POST /* For posted MSIs */ flags: 0x0 parent: domain: VECTOR hwirq: 0x65 chip: APIC Acknowledgment ============== - Rajesh Sankaran and Ashok Raj for the original idea - Thomas Gleixner for reviewing and guiding the upstream direction of PoC patches. Help correct my many misunderstandings of the IRQ subsystem. - Jie J Yan(Jeff), Sebastien Lemarie, and Dan Liang for performance evaluation with NVMe and network workload - Bernice Zhang and Scott Morris for functional validation - Michael Prinke helped me understand how VT-d HW works - Sanjay Kumar for providing the DSA IRQ test suite Changelogs: V2: - Code change logs are in individual patches. - Use "Originally-by" and "Suggested-by" tags to clarify credits/responsibilities. - More performance evaluation done on FIO 4K rand read test. Four Samsung PM174x NVMe drives on a single x16 PCIe gen5 lane. Fixed CPU frequency at 2.7GHz (p1, highest non-turbo). IOPS* CPU% sys% user% Ints/sec IOPS/CPU LAT** AIO (before) 6231 55.5 39.7 15.8 5714721 112.2702703 328 AIO (after) 8936 71.5 51.5 20 7397543 124.979021 229 IOURING(before) 6880 43.7 30.3 13.4 6512402 157.4370709 149 IOURING(after) 8688 58.3 41.3 17 7625158 149.0222985 118 IOURING POLLEDQ 13100 100 85.1 14.9 8000 131 156 * x1000 4 drives combined ** 95% usec. This patchset improves IOPS, IRQ throughput, and reduces latency for non-polled queues. V1 (since RFC) - Removed mentioning of wishful features, IRQ preemption, separate and full MSI vector space - Refined MSI handler de-multiplexing loop based on suggestions from Peter and Thomas. Reduced xchg() usage and code duplication - Assign the new posted IR irq_chip only to device MSI/x, avoid changing IO-APIC code - Extract and use common code for preventing lost interrupt during affinity change - Added more test results to the cover letter Thanks, Jacob Jacob Pan (13): x86/irq: Move posted interrupt descriptor out of vmx code x86/irq: Unionize PID.PIR for 64bit access w/o casting x86/irq: Remove bitfields in posted interrupt descriptor x86/irq: Add a Kconfig option for posted MSI x86/irq: Reserve a per CPU IDT vector for posted MSIs x86/irq: Set up per host CPU posted interrupt descriptors x86/irq: Factor out calling ISR from common_interrupt x86/irq: Install posted MSI notification handler x86/irq: Factor out common code for checking pending interrupts x86/irq: Extend checks for pending vectors to posted interrupts iommu/vt-d: Make posted MSI an opt-in cmdline option iommu/vt-d: Add an irq_chip for posted MSIs iommu/vt-d: Enable posted mode for device MSIs .../admin-guide/kernel-parameters.txt | 1 + arch/x86/Kconfig | 11 ++ arch/x86/include/asm/apic.h | 12 ++ arch/x86/include/asm/hardirq.h | 6 + arch/x86/include/asm/idtentry.h | 3 + arch/x86/include/asm/irq_remapping.h | 11 ++ arch/x86/include/asm/irq_vectors.h | 9 +- arch/x86/include/asm/posted_intr.h | 108 ++++++++++++ arch/x86/kernel/apic/vector.c | 5 +- arch/x86/kernel/cpu/common.c | 3 + arch/x86/kernel/idt.c | 3 + arch/x86/kernel/irq.c | 164 ++++++++++++++++-- arch/x86/kvm/vmx/posted_intr.c | 4 +- arch/x86/kvm/vmx/posted_intr.h | 93 +--------- arch/x86/kvm/vmx/vmx.c | 3 +- arch/x86/kvm/vmx/vmx.h | 2 +- drivers/iommu/intel/irq_remapping.c | 115 +++++++++++- drivers/iommu/irq_remapping.c | 13 +- tools/arch/x86/include/asm/irq_vectors.h | 9 +- 19 files changed, 457 insertions(+), 118 deletions(-) create mode 100644 arch/x86/include/asm/posted_intr.h