/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2017 Intel Corporation */ #ifndef _RTE_GSO_H_ #define _RTE_GSO_H_ /** * @file * Interface to GSO library */ #ifdef __cplusplus extern "C" { #endif #include #include /* Minimum GSO segment size for TCP based packets. */ #define RTE_GSO_SEG_SIZE_MIN (sizeof(struct rte_ether_hdr) + \ sizeof(struct rte_ipv4_hdr) + sizeof(struct rte_tcp_hdr) + 1) /* Minimum GSO segment size for UDP based packets. */ #define RTE_GSO_UDP_SEG_SIZE_MIN (sizeof(struct rte_ether_hdr) + \ sizeof(struct rte_ipv4_hdr) + sizeof(struct rte_udp_hdr) + 1) /* GSO flags for rte_gso_ctx. */ #define RTE_GSO_FLAG_IPID_FIXED (1ULL << 0) /**< Use fixed IP ids for output GSO segments. Setting * 0 indicates using incremental IP ids. */ /** * GSO context structure. */ struct rte_gso_ctx { struct rte_mempool *direct_pool; /**< MBUF pool for allocating direct buffers, which are used * to store packet headers for GSO segments. */ struct rte_mempool *indirect_pool; /**< MBUF pool for allocating indirect buffers, which are used * to locate packet payloads for GSO segments. The indirect * buffer doesn't contain any data, but simply points to an * offset within the packet to segment. */ uint64_t flag; /**< flag that controls specific attributes of output segments, * such as the type of IP ID generated (i.e. fixed or incremental). */ uint32_t gso_types; /**< the bit mask of required GSO types. The GSO library * uses the same macros as that of describing device TX * offloading capabilities (i.e. DEV_TX_OFFLOAD_*_TSO) for * gso_types. * * For example, if applications want to segment TCP/IPv4 * packets, set DEV_TX_OFFLOAD_TCP_TSO in gso_types. */ uint16_t gso_size; /**< maximum size of an output GSO segment, including packet * header and payload, measured in bytes. Must exceed * RTE_GSO_SEG_SIZE_MIN. */ }; /** * Segmentation function, which supports processing of both single- and * multi- MBUF packets. * * Note that we refer to the packets that are segmented from the input * packet as 'GSO segments'. rte_gso_segment() doesn't check if the * input packet has correct checksums, and doesn't update checksums for * output GSO segments. Additionally, it doesn't process IP fragment * packets. * * Before calling rte_gso_segment(), applications must set proper ol_flags * for the packet. The GSO library uses the same macros as that of TSO. * For example, set PKT_TX_TCP_SEG and PKT_TX_IPV4 in ol_flags to segment * a TCP/IPv4 packet. If rte_gso_segment() succeeds, the PKT_TX_TCP_SEG * flag is removed for all GSO segments and the input packet. * * Each of the newly-created GSO segments is organized as a two-segment * MBUF, where the first segment is a standard MBUF, which stores a copy * of packet header, and the second is an indirect MBUF which points to * a section of data in the input packet. Since each GSO segment has * multiple MBUFs (i.e. typically 2 MBUFs), the driver of the interface which * the GSO segments are sent to should support transmission of multi-segment * packets. * * If the input packet is GSO'd, all the indirect segments are attached to the * input packet. * * rte_gso_segment() will not free the input packet no matter whether it is * GSO'd or not, the application should free it after calling rte_gso_segment(). * * If the memory space in pkts_out or MBUF pools is insufficient, this * function fails, and it returns (-1) * errno. Otherwise, GSO succeeds, * and this function returns the number of output GSO segments filled in * pkts_out. * * @param pkt * The packet mbuf to segment. * @param ctx * GSO context object pointer. * @param pkts_out * Pointer array used to store the MBUF addresses of output GSO * segments, when rte_gso_segment() succeeds. * @param nb_pkts_out * The max number of items that pkts_out can keep. * * @return * - The number of GSO segments filled in pkts_out on success. * - Return 0 if it does not need to be GSO'd. * - Return -ENOMEM if run out of memory in MBUF pools. * - Return -EINVAL for invalid parameters. */ int rte_gso_segment(struct rte_mbuf *pkt, const struct rte_gso_ctx *ctx, struct rte_mbuf **pkts_out, uint16_t nb_pkts_out); #ifdef __cplusplus } #endif #endif /* _RTE_GSO_H_ */