net/bnxt: fix FW version query

[dpdk.git] / drivers / net / dpaa / dpaa_rxtx.h

/* SPDX-License-Identifier: BSD-3-Clause
 *
 *   Copyright 2016 Freescale Semiconductor, Inc. All rights reserved.
 *   Copyright 2017 NXP
 *
 */

#ifndef __DPDK_RXTX_H__
#define __DPDK_RXTX_H__

/* internal offset from where IC is copied to packet buffer*/
#define DEFAULT_ICIOF          32
/* IC transfer size */
#define DEFAULT_ICSZ    48

/* IC offsets from buffer header address */
#define DEFAULT_RX_ICEOF        16
#define DEFAULT_TX_ICEOF        16

/*
 * Values for the L3R field of the FM Parse Results
 */
/* L3 Type field: First IP Present IPv4 */
#define DPAA_L3_PARSE_RESULT_IPV4 0x80
/* L3 Type field: First IP Present IPv6 */
#define DPAA_L3_PARSE_RESULT_IPV6       0x40
/* Values for the L4R field of the FM Parse Results
 * See $8.8.4.7.20 - L4 HXS - L4 Results from DPAA-Rev2 Reference Manual.
 */
/* L4 Type field: UDP */
#define DPAA_L4_PARSE_RESULT_UDP        0x40
/* L4 Type field: TCP */
#define DPAA_L4_PARSE_RESULT_TCP        0x20

#define DPAA_MAX_DEQUEUE_NUM_FRAMES    63
        /** <Maximum number of frames to be dequeued in a single rx call*/

/* FD structure masks and offset */
#define DPAA_FD_FORMAT_MASK 0xE0000000
#define DPAA_FD_OFFSET_MASK 0x1FF00000
#define DPAA_FD_LENGTH_MASK 0xFFFFF
#define DPAA_FD_FORMAT_SHIFT 29
#define DPAA_FD_OFFSET_SHIFT 20

/* Parsing mask (Little Endian) - 0x00E044ED00800000
 *      Classification Plan ID 0x00
 *      L4R 0xE0 -
 *              0x20 - TCP
 *              0x40 - UDP
 *              0x80 - SCTP
 *      L3R 0xEDC4 (in Big Endian) -
 *              0x8000 - IPv4
 *              0x4000 - IPv6
 *              0x8140 - IPv4 Ext + Frag
 *              0x8040 - IPv4 Frag
 *              0x8100 - IPv4 Ext
 *              0x4140 - IPv6 Ext + Frag
 *              0x4040 - IPv6 Frag
 *              0x4100 - IPv6 Ext
 *      L2R 0x8000 (in Big Endian) -
 *              0x8000 - Ethernet type
 *      ShimR & Logical Port ID 0x0000
 */
#define DPAA_PARSE_MASK                 0x00E044ED00800000
#define DPAA_PARSE_VLAN_MASK            0x0000000000700000

/* Parsed values (Little Endian) */
#define DPAA_PKT_TYPE_NONE              0x0000000000000000
#define DPAA_PKT_TYPE_ETHER             0x0000000000800000
#define DPAA_PKT_TYPE_IPV4 \
                        (0x0000008000000000 | DPAA_PKT_TYPE_ETHER)
#define DPAA_PKT_TYPE_IPV6 \
                        (0x0000004000000000 | DPAA_PKT_TYPE_ETHER)
#define DPAA_PKT_TYPE_GRE \
                        (0x0000002000000000 | DPAA_PKT_TYPE_ETHER)
#define DPAA_PKT_TYPE_IPV4_FRAG \
                        (0x0000400000000000 | DPAA_PKT_TYPE_IPV4)
#define DPAA_PKT_TYPE_IPV6_FRAG \
                        (0x0000400000000000 | DPAA_PKT_TYPE_IPV6)
#define DPAA_PKT_TYPE_IPV4_EXT \
                        (0x0000000100000000 | DPAA_PKT_TYPE_IPV4)
#define DPAA_PKT_TYPE_IPV6_EXT \
                        (0x0000000100000000 | DPAA_PKT_TYPE_IPV6)
#define DPAA_PKT_TYPE_IPV4_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_IPV4)
#define DPAA_PKT_TYPE_IPV6_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_IPV6)
#define DPAA_PKT_TYPE_IPV4_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_IPV4)
#define DPAA_PKT_TYPE_IPV6_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_IPV6)
#define DPAA_PKT_TYPE_IPV4_SCTP \
                        (0x0080000000000000 | DPAA_PKT_TYPE_IPV4)
#define DPAA_PKT_TYPE_IPV6_SCTP \
                        (0x0080000000000000 | DPAA_PKT_TYPE_IPV6)
#define DPAA_PKT_TYPE_IPV4_FRAG_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_IPV4_FRAG)
#define DPAA_PKT_TYPE_IPV6_FRAG_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_IPV6_FRAG)
#define DPAA_PKT_TYPE_IPV4_FRAG_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_IPV4_FRAG)
#define DPAA_PKT_TYPE_IPV6_FRAG_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_IPV6_FRAG)
#define DPAA_PKT_TYPE_IPV4_FRAG_SCTP \
                        (0x0080000000000000 | DPAA_PKT_TYPE_IPV4_FRAG)
#define DPAA_PKT_TYPE_IPV6_FRAG_SCTP \
                        (0x0080000000000000 | DPAA_PKT_TYPE_IPV6_FRAG)
#define DPAA_PKT_TYPE_IPV4_EXT_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_IPV4_EXT)
#define DPAA_PKT_TYPE_IPV6_EXT_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_IPV6_EXT)
#define DPAA_PKT_TYPE_IPV4_EXT_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_IPV4_EXT)
#define DPAA_PKT_TYPE_IPV6_EXT_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_IPV6_EXT)
#define DPAA_PKT_TYPE_TUNNEL_4_4 \
                        (0x0000000800000000 | DPAA_PKT_TYPE_IPV4)
#define DPAA_PKT_TYPE_TUNNEL_6_6 \
                        (0x0000000400000000 | DPAA_PKT_TYPE_IPV6)
#define DPAA_PKT_TYPE_TUNNEL_4_6 \
                        (0x0000000400000000 | DPAA_PKT_TYPE_IPV4)
#define DPAA_PKT_TYPE_TUNNEL_6_4 \
                        (0x0000000800000000 | DPAA_PKT_TYPE_IPV6)
#define DPAA_PKT_TYPE_TUNNEL_4_4_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_TUNNEL_4_4)
#define DPAA_PKT_TYPE_TUNNEL_6_6_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_TUNNEL_6_6)
#define DPAA_PKT_TYPE_TUNNEL_4_6_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_TUNNEL_4_6)
#define DPAA_PKT_TYPE_TUNNEL_6_4_UDP \
                        (0x0040000000000000 | DPAA_PKT_TYPE_TUNNEL_6_4)
#define DPAA_PKT_TYPE_TUNNEL_4_4_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_TUNNEL_4_4)
#define DPAA_PKT_TYPE_TUNNEL_6_6_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_TUNNEL_6_6)
#define DPAA_PKT_TYPE_TUNNEL_4_6_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_TUNNEL_4_6)
#define DPAA_PKT_TYPE_TUNNEL_6_4_TCP \
                        (0x0020000000000000 | DPAA_PKT_TYPE_TUNNEL_6_4)
#define DPAA_PKT_L3_LEN_SHIFT   7

/**
 * FMan parse result array
 */
struct dpaa_eth_parse_results_t {
         uint8_t     lpid;               /**< Logical port id */
         uint8_t     shimr;              /**< Shim header result  */
         union {
                uint16_t              l2r;      /**< Layer 2 result */
                struct {
#if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
                        uint16_t      ethernet:1;
                        uint16_t      vlan:1;
                        uint16_t      llc_snap:1;
                        uint16_t      mpls:1;
                        uint16_t      ppoe_ppp:1;
                        uint16_t      unused_1:3;
                        uint16_t      unknown_eth_proto:1;
                        uint16_t      eth_frame_type:2;
                        uint16_t      l2r_err:5;
                        /*00-unicast, 01-multicast, 11-broadcast*/
#else
                        uint16_t      l2r_err:5;
                        uint16_t      eth_frame_type:2;
                        uint16_t      unknown_eth_proto:1;
                        uint16_t      unused_1:3;
                        uint16_t      ppoe_ppp:1;
                        uint16_t      mpls:1;
                        uint16_t      llc_snap:1;
                        uint16_t      vlan:1;
                        uint16_t      ethernet:1;
#endif
                } __rte_packed;
         } __rte_packed;
         union {
                uint16_t              l3r;      /**< Layer 3 result */
                struct {
#if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
                        uint16_t      first_ipv4:1;
                        uint16_t      first_ipv6:1;
                        uint16_t      gre:1;
                        uint16_t      min_enc:1;
                        uint16_t      last_ipv4:1;
                        uint16_t      last_ipv6:1;
                        uint16_t      first_info_err:1;/*0 info, 1 error*/
                        uint16_t      first_ip_err_code:5;
                        uint16_t      last_info_err:1;  /*0 info, 1 error*/
                        uint16_t      last_ip_err_code:3;
#else
                        uint16_t      last_ip_err_code:3;
                        uint16_t      last_info_err:1;  /*0 info, 1 error*/
                        uint16_t      first_ip_err_code:5;
                        uint16_t      first_info_err:1;/*0 info, 1 error*/
                        uint16_t      last_ipv6:1;
                        uint16_t      last_ipv4:1;
                        uint16_t      min_enc:1;
                        uint16_t      gre:1;
                        uint16_t      first_ipv6:1;
                        uint16_t      first_ipv4:1;
#endif
                } __rte_packed;
         } __rte_packed;
         union {
                uint8_t               l4r;      /**< Layer 4 result */
                struct{
#if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
                        uint8_t        l4_type:3;
                        uint8_t        l4_info_err:1;
                        uint8_t        l4_result:4;
                                        /* if type IPSec: 1 ESP, 2 AH */
#else
                        uint8_t        l4_result:4;
                                        /* if type IPSec: 1 ESP, 2 AH */
                        uint8_t        l4_info_err:1;
                        uint8_t        l4_type:3;
#endif
                } __rte_packed;
         } __rte_packed;
         uint8_t     cplan;              /**< Classification plan id */
         uint16_t    nxthdr;             /**< Next Header  */
         uint16_t    cksum;              /**< Checksum */
         uint32_t    lcv;                /**< LCV */
         uint8_t     shim_off[3];        /**< Shim offset */
         uint8_t     eth_off;            /**< ETH offset */
         uint8_t     llc_snap_off;       /**< LLC_SNAP offset */
         uint8_t     vlan_off[2];        /**< VLAN offset */
         uint8_t     etype_off;          /**< ETYPE offset */
         uint8_t     pppoe_off;          /**< PPP offset */
         uint8_t     mpls_off[2];        /**< MPLS offset */
         uint8_t     ip_off[2];          /**< IP offset */
         uint8_t     gre_off;            /**< GRE offset */
         uint8_t     l4_off;             /**< Layer 4 offset */
         uint8_t     nxthdr_off;         /**< Parser end point */
} __rte_packed;

/* The structure is the Prepended Data to the Frame which is used by FMAN */
struct annotations_t {
        uint8_t reserved[DEFAULT_RX_ICEOF];
        struct dpaa_eth_parse_results_t parse;  /**< Pointer to Parsed result*/
        uint64_t reserved1;
        uint64_t hash;                  /**< Hash Result */
};

#define GET_ANNOTATIONS(_buf) \
        (struct annotations_t *)(_buf)

#define GET_RX_PRS(_buf) \
        (struct dpaa_eth_parse_results_t *)((uint8_t *)(_buf) + \
        DEFAULT_RX_ICEOF)

#define GET_TX_PRS(_buf) \
        (struct dpaa_eth_parse_results_t *)((uint8_t *)(_buf) + \
        DEFAULT_TX_ICEOF)

uint16_t dpaa_eth_queue_rx(void *q, struct rte_mbuf **bufs, uint16_t nb_bufs);

uint16_t dpaa_eth_queue_tx(void *q, struct rte_mbuf **bufs, uint16_t nb_bufs);

uint16_t dpaa_eth_tx_drop_all(void *q  __rte_unused,
                              struct rte_mbuf **bufs __rte_unused,
                              uint16_t nb_bufs __rte_unused);

struct rte_mbuf *dpaa_eth_sg_to_mbuf(const struct qm_fd *fd, uint32_t ifid);

int dpaa_eth_mbuf_to_sg_fd(struct rte_mbuf *mbuf,
                           struct qm_fd *fd,
                           uint32_t bpid);

void dpaa_rx_cb(struct qman_fq **fq,
                struct qm_dqrr_entry **dqrr, void **bufs, int num_bufs);

void dpaa_rx_cb_prepare(struct qm_dqrr_entry *dq, void **bufs);

void dpaa_rx_cb_no_prefetch(struct qman_fq **fq,
                    struct qm_dqrr_entry **dqrr, void **bufs, int num_bufs);
#endif