.. SPDX-License-Identifier: GPL-2.0 ================================== Netmem Support for Network Drivers ================================== This document outlines the requirements for network drivers to support netmem, an abstract memory type that enables features like device memory TCP. By supporting netmem, drivers can work with various underlying memory types with little to no modification. Benefits of Netmem : * Flexibility: Netmem can be backed by different memory types (e.g., struct page, DMA-buf), allowing drivers to support various use cases such as device memory TCP. * Future-proof: Drivers with netmem support are ready for upcoming features that rely on it. * Simplified Development: Drivers interact with a consistent API, regardless of the underlying memory implementation. Driver Requirements =================== 1. The driver must support page_pool. 2. The driver must support the tcp-data-split ethtool option. 3. The driver must use the page_pool netmem APIs for payload memory. The netmem APIs currently 1-to-1 correspond with page APIs. Conversion to netmem should be achievable by switching the page APIs to netmem APIs and tracking memory via netmem_refs in the driver rather than struct page * : - page_pool_alloc -> page_pool_alloc_netmem - page_pool_get_dma_addr -> page_pool_get_dma_addr_netmem - page_pool_put_page -> page_pool_put_netmem Not all page APIs have netmem equivalents at the moment. If your driver relies on a missing netmem API, feel free to add and propose to netdev@, or reach out to the maintainers and/or almasrymina@google.com for help adding the netmem API. 4. The driver must use the following PP_FLAGS: - PP_FLAG_DMA_MAP: netmem is not dma-mappable by the driver. The driver must delegate the dma mapping to the page_pool, which knows when dma-mapping is (or is not) appropriate. - PP_FLAG_DMA_SYNC_DEV: netmem dma addr is not necessarily dma-syncable by the driver. The driver must delegate the dma syncing to the page_pool, which knows when dma-syncing is (or is not) appropriate. - PP_FLAG_ALLOW_UNREADABLE_NETMEM. The driver must specify this flag iff tcp-data-split is enabled. 5. The driver must not assume the netmem is readable and/or backed by pages. The netmem returned by the page_pool may be unreadable, in which case netmem_address() will return NULL. The driver must correctly handle unreadable netmem, i.e. don't attempt to handle its contents when netmem_address() is NULL. Ideally, drivers should not have to check the underlying netmem type via helpers like netmem_is_net_iov() or convert the netmem to any of its underlying types via netmem_to_page() or netmem_to_net_iov(). In most cases, netmem or page_pool helpers that abstract this complexity are provided (and more can be added). 6. The driver must use page_pool_dma_sync_netmem_for_cpu() in lieu of dma_sync_single_range_for_cpu(). For some memory providers, dma_syncing for CPU will be done by the page_pool, for others (particularly dmabuf memory provider), dma syncing for CPU is the responsibility of the userspace using dmabuf APIs. The driver must delegate the entire dma-syncing operation to the page_pool which will do it correctly. 7. Avoid implementing driver-specific recycling on top of the page_pool. Drivers cannot hold onto a struct page to do their own recycling as the netmem may not be backed by a struct page. However, you may hold onto a page_pool reference with page_pool_fragment_netmem() or page_pool_ref_netmem() for that purpose, but be mindful that some netmem types might have longer circulation times, such as when userspace holds a reference in zerocopy scenarios.