| .. SPDX-License-Identifier: GPL-2.0 |
| |
| ============================================================ |
| Linux kernel driver for Elastic Network Adapter (ENA) family |
| ============================================================ |
| |
| Overview |
| ======== |
| |
| ENA is a networking interface designed to make good use of modern CPU |
| features and system architectures. |
| |
| The ENA device exposes a lightweight management interface with a |
| minimal set of memory mapped registers and extendible command set |
| through an Admin Queue. |
| |
| The driver supports a range of ENA devices, is link-speed independent |
| (i.e., the same driver is used for 10GbE, 25GbE, 40GbE, etc), and has |
| a negotiated and extendible feature set. |
| |
| Some ENA devices support SR-IOV. This driver is used for both the |
| SR-IOV Physical Function (PF) and Virtual Function (VF) devices. |
| |
| ENA devices enable high speed and low overhead network traffic |
| processing by providing multiple Tx/Rx queue pairs (the maximum number |
| is advertised by the device via the Admin Queue), a dedicated MSI-X |
| interrupt vector per Tx/Rx queue pair, adaptive interrupt moderation, |
| and CPU cacheline optimized data placement. |
| |
| The ENA driver supports industry standard TCP/IP offload features such as |
| checksum offload. Receive-side scaling (RSS) is supported for multi-core |
| scaling. |
| |
| The ENA driver and its corresponding devices implement health |
| monitoring mechanisms such as watchdog, enabling the device and driver |
| to recover in a manner transparent to the application, as well as |
| debug logs. |
| |
| Some of the ENA devices support a working mode called Low-latency |
| Queue (LLQ), which saves several more microseconds. |
| ENA Source Code Directory Structure |
| =================================== |
| |
| ================= ====================================================== |
| ena_com.[ch] Management communication layer. This layer is |
| responsible for the handling all the management |
| (admin) communication between the device and the |
| driver. |
| ena_eth_com.[ch] Tx/Rx data path. |
| ena_admin_defs.h Definition of ENA management interface. |
| ena_eth_io_defs.h Definition of ENA data path interface. |
| ena_common_defs.h Common definitions for ena_com layer. |
| ena_regs_defs.h Definition of ENA PCI memory-mapped (MMIO) registers. |
| ena_netdev.[ch] Main Linux kernel driver. |
| ena_ethtool.c ethtool callbacks. |
| ena_pci_id_tbl.h Supported device IDs. |
| ================= ====================================================== |
| |
| Management Interface: |
| ===================== |
| |
| ENA management interface is exposed by means of: |
| |
| - PCIe Configuration Space |
| - Device Registers |
| - Admin Queue (AQ) and Admin Completion Queue (ACQ) |
| - Asynchronous Event Notification Queue (AENQ) |
| |
| ENA device MMIO Registers are accessed only during driver |
| initialization and are not used during further normal device |
| operation. |
| |
| AQ is used for submitting management commands, and the |
| results/responses are reported asynchronously through ACQ. |
| |
| ENA introduces a small set of management commands with room for |
| vendor-specific extensions. Most of the management operations are |
| framed in a generic Get/Set feature command. |
| |
| The following admin queue commands are supported: |
| |
| - Create I/O submission queue |
| - Create I/O completion queue |
| - Destroy I/O submission queue |
| - Destroy I/O completion queue |
| - Get feature |
| - Set feature |
| - Configure AENQ |
| - Get statistics |
| |
| Refer to ena_admin_defs.h for the list of supported Get/Set Feature |
| properties. |
| |
| The Asynchronous Event Notification Queue (AENQ) is a uni-directional |
| queue used by the ENA device to send to the driver events that cannot |
| be reported using ACQ. AENQ events are subdivided into groups. Each |
| group may have multiple syndromes, as shown below |
| |
| The events are: |
| |
| ==================== =============== |
| Group Syndrome |
| ==================== =============== |
| Link state change **X** |
| Fatal error **X** |
| Notification Suspend traffic |
| Notification Resume traffic |
| Keep-Alive **X** |
| ==================== =============== |
| |
| ACQ and AENQ share the same MSI-X vector. |
| |
| Keep-Alive is a special mechanism that allows monitoring the device's health. |
| A Keep-Alive event is delivered by the device every second. |
| The driver maintains a watchdog (WD) handler which logs the current state and |
| statistics. If the keep-alive events aren't delivered as expected the WD resets |
| the device and the driver. |
| |
| Data Path Interface |
| =================== |
| |
| I/O operations are based on Tx and Rx Submission Queues (Tx SQ and Rx |
| SQ correspondingly). Each SQ has a completion queue (CQ) associated |
| with it. |
| |
| The SQs and CQs are implemented as descriptor rings in contiguous |
| physical memory. |
| |
| The ENA driver supports two Queue Operation modes for Tx SQs: |
| |
| - **Regular mode:** |
| In this mode the Tx SQs reside in the host's memory. The ENA |
| device fetches the ENA Tx descriptors and packet data from host |
| memory. |
| |
| - **Low Latency Queue (LLQ) mode or "push-mode":** |
| In this mode the driver pushes the transmit descriptors and the |
| first 96 bytes of the packet directly to the ENA device memory |
| space. The rest of the packet payload is fetched by the |
| device. For this operation mode, the driver uses a dedicated PCI |
| device memory BAR, which is mapped with write-combine capability. |
| |
| **Note that** not all ENA devices support LLQ, and this feature is negotiated |
| with the device upon initialization. If the ENA device does not |
| support LLQ mode, the driver falls back to the regular mode. |
| |
| The Rx SQs support only the regular mode. |
| |
| The driver supports multi-queue for both Tx and Rx. This has various |
| benefits: |
| |
| - Reduced CPU/thread/process contention on a given Ethernet interface. |
| - Cache miss rate on completion is reduced, particularly for data |
| cache lines that hold the sk_buff structures. |
| - Increased process-level parallelism when handling received packets. |
| - Increased data cache hit rate, by steering kernel processing of |
| packets to the CPU, where the application thread consuming the |
| packet is running. |
| - In hardware interrupt re-direction. |
| |
| Interrupt Modes |
| =============== |
| |
| The driver assigns a single MSI-X vector per queue pair (for both Tx |
| and Rx directions). The driver assigns an additional dedicated MSI-X vector |
| for management (for ACQ and AENQ). |
| |
| Management interrupt registration is performed when the Linux kernel |
| probes the adapter, and it is de-registered when the adapter is |
| removed. I/O queue interrupt registration is performed when the Linux |
| interface of the adapter is opened, and it is de-registered when the |
| interface is closed. |
| |
| The management interrupt is named:: |
| |
| ena-mgmnt@pci:<PCI domain:bus:slot.function> |
| |
| and for each queue pair, an interrupt is named:: |
| |
| <interface name>-Tx-Rx-<queue index> |
| |
| The ENA device operates in auto-mask and auto-clear interrupt |
| modes. That is, once MSI-X is delivered to the host, its Cause bit is |
| automatically cleared and the interrupt is masked. The interrupt is |
| unmasked by the driver after NAPI processing is complete. |
| |
| Interrupt Moderation |
| ==================== |
| |
| ENA driver and device can operate in conventional or adaptive interrupt |
| moderation mode. |
| |
| **In conventional mode** the driver instructs device to postpone interrupt |
| posting according to static interrupt delay value. The interrupt delay |
| value can be configured through `ethtool(8)`. The following `ethtool` |
| parameters are supported by the driver: ``tx-usecs``, ``rx-usecs`` |
| |
| **In adaptive interrupt** moderation mode the interrupt delay value is |
| updated by the driver dynamically and adjusted every NAPI cycle |
| according to the traffic nature. |
| |
| Adaptive coalescing can be switched on/off through `ethtool(8)`'s |
| :code:`adaptive_rx on|off` parameter. |
| |
| More information about Adaptive Interrupt Moderation (DIM) can be found in |
| Documentation/networking/net_dim.rst |
| |
| RX copybreak |
| ============ |
| The rx_copybreak is initialized by default to ENA_DEFAULT_RX_COPYBREAK |
| and can be configured by the ETHTOOL_STUNABLE command of the |
| SIOCETHTOOL ioctl. |
| |
| Statistics |
| ========== |
| |
| The user can obtain ENA device and driver statistics using `ethtool`. |
| The driver can collect regular or extended statistics (including |
| per-queue stats) from the device. |
| |
| In addition the driver logs the stats to syslog upon device reset. |
| |
| MTU |
| === |
| |
| The driver supports an arbitrarily large MTU with a maximum that is |
| negotiated with the device. The driver configures MTU using the |
| SetFeature command (ENA_ADMIN_MTU property). The user can change MTU |
| via `ip(8)` and similar legacy tools. |
| |
| Stateless Offloads |
| ================== |
| |
| The ENA driver supports: |
| |
| - IPv4 header checksum offload |
| - TCP/UDP over IPv4/IPv6 checksum offloads |
| |
| RSS |
| === |
| |
| - The ENA device supports RSS that allows flexible Rx traffic |
| steering. |
| - Toeplitz and CRC32 hash functions are supported. |
| - Different combinations of L2/L3/L4 fields can be configured as |
| inputs for hash functions. |
| - The driver configures RSS settings using the AQ SetFeature command |
| (ENA_ADMIN_RSS_HASH_FUNCTION, ENA_ADMIN_RSS_HASH_INPUT and |
| ENA_ADMIN_RSS_INDIRECTION_TABLE_CONFIG properties). |
| - If the NETIF_F_RXHASH flag is set, the 32-bit result of the hash |
| function delivered in the Rx CQ descriptor is set in the received |
| SKB. |
| - The user can provide a hash key, hash function, and configure the |
| indirection table through `ethtool(8)`. |
| |
| DATA PATH |
| ========= |
| |
| Tx |
| -- |
| |
| :code:`ena_start_xmit()` is called by the stack. This function does the following: |
| |
| - Maps data buffers (``skb->data`` and frags). |
| - Populates ``ena_buf`` for the push buffer (if the driver and device are |
| in push mode). |
| - Prepares ENA bufs for the remaining frags. |
| - Allocates a new request ID from the empty ``req_id`` ring. The request |
| ID is the index of the packet in the Tx info. This is used for |
| out-of-order Tx completions. |
| - Adds the packet to the proper place in the Tx ring. |
| - Calls :code:`ena_com_prepare_tx()`, an ENA communication layer that converts |
| the ``ena_bufs`` to ENA descriptors (and adds meta ENA descriptors as |
| needed). |
| |
| * This function also copies the ENA descriptors and the push buffer |
| to the Device memory space (if in push mode). |
| |
| - Writes a doorbell to the ENA device. |
| - When the ENA device finishes sending the packet, a completion |
| interrupt is raised. |
| - The interrupt handler schedules NAPI. |
| - The :code:`ena_clean_tx_irq()` function is called. This function handles the |
| completion descriptors generated by the ENA, with a single |
| completion descriptor per completed packet. |
| |
| * ``req_id`` is retrieved from the completion descriptor. The ``tx_info`` of |
| the packet is retrieved via the ``req_id``. The data buffers are |
| unmapped and ``req_id`` is returned to the empty ``req_id`` ring. |
| * The function stops when the completion descriptors are completed or |
| the budget is reached. |
| |
| Rx |
| -- |
| |
| - When a packet is received from the ENA device. |
| - The interrupt handler schedules NAPI. |
| - The :code:`ena_clean_rx_irq()` function is called. This function calls |
| :code:`ena_com_rx_pkt()`, an ENA communication layer function, which returns the |
| number of descriptors used for a new packet, and zero if |
| no new packet is found. |
| - :code:`ena_rx_skb()` checks packet length: |
| |
| * If the packet is small (len < rx_copybreak), the driver allocates |
| a SKB for the new packet, and copies the packet payload into the |
| SKB data buffer. |
| |
| - In this way the original data buffer is not passed to the stack |
| and is reused for future Rx packets. |
| |
| * Otherwise the function unmaps the Rx buffer, sets the first |
| descriptor as `skb`'s linear part and the other descriptors as the |
| `skb`'s frags. |
| |
| - The new SKB is updated with the necessary information (protocol, |
| checksum hw verify result, etc), and then passed to the network |
| stack, using the NAPI interface function :code:`napi_gro_receive()`. |