154e4ee71SNavdeep Parhar /*- 2718cf2ccSPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD 3718cf2ccSPedro F. Giffuni * 454e4ee71SNavdeep Parhar * Copyright (c) 2011 Chelsio Communications, Inc. 554e4ee71SNavdeep Parhar * All rights reserved. 654e4ee71SNavdeep Parhar * Written by: Navdeep Parhar <np@FreeBSD.org> 754e4ee71SNavdeep Parhar * 854e4ee71SNavdeep Parhar * Redistribution and use in source and binary forms, with or without 954e4ee71SNavdeep Parhar * modification, are permitted provided that the following conditions 1054e4ee71SNavdeep Parhar * are met: 1154e4ee71SNavdeep Parhar * 1. Redistributions of source code must retain the above copyright 1254e4ee71SNavdeep Parhar * notice, this list of conditions and the following disclaimer. 1354e4ee71SNavdeep Parhar * 2. Redistributions in binary form must reproduce the above copyright 1454e4ee71SNavdeep Parhar * notice, this list of conditions and the following disclaimer in the 1554e4ee71SNavdeep Parhar * documentation and/or other materials provided with the distribution. 1654e4ee71SNavdeep Parhar * 1754e4ee71SNavdeep Parhar * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 1854e4ee71SNavdeep Parhar * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 1954e4ee71SNavdeep Parhar * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 2054e4ee71SNavdeep Parhar * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 2154e4ee71SNavdeep Parhar * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 2254e4ee71SNavdeep Parhar * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 2354e4ee71SNavdeep Parhar * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 2454e4ee71SNavdeep Parhar * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 2554e4ee71SNavdeep Parhar * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 2654e4ee71SNavdeep Parhar * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 2754e4ee71SNavdeep Parhar * SUCH DAMAGE. 2854e4ee71SNavdeep Parhar */ 2954e4ee71SNavdeep Parhar 3054e4ee71SNavdeep Parhar #include <sys/cdefs.h> 3154e4ee71SNavdeep Parhar __FBSDID("$FreeBSD$"); 3254e4ee71SNavdeep Parhar 3354e4ee71SNavdeep Parhar #include "opt_inet.h" 34a1ea9a82SNavdeep Parhar #include "opt_inet6.h" 35eff62dbaSNavdeep Parhar #include "opt_ratelimit.h" 3654e4ee71SNavdeep Parhar 3754e4ee71SNavdeep Parhar #include <sys/types.h> 38c3322cb9SGleb Smirnoff #include <sys/eventhandler.h> 3954e4ee71SNavdeep Parhar #include <sys/mbuf.h> 4054e4ee71SNavdeep Parhar #include <sys/socket.h> 4154e4ee71SNavdeep Parhar #include <sys/kernel.h> 42ecb79ca4SNavdeep Parhar #include <sys/malloc.h> 43ecb79ca4SNavdeep Parhar #include <sys/queue.h> 4438035ed6SNavdeep Parhar #include <sys/sbuf.h> 45ecb79ca4SNavdeep Parhar #include <sys/taskqueue.h> 46480e603cSNavdeep Parhar #include <sys/time.h> 477951040fSNavdeep Parhar #include <sys/sglist.h> 4854e4ee71SNavdeep Parhar #include <sys/sysctl.h> 49733b9277SNavdeep Parhar #include <sys/smp.h> 5082eff304SNavdeep Parhar #include <sys/counter.h> 5154e4ee71SNavdeep Parhar #include <net/bpf.h> 5254e4ee71SNavdeep Parhar #include <net/ethernet.h> 5354e4ee71SNavdeep Parhar #include <net/if.h> 5454e4ee71SNavdeep Parhar #include <net/if_vlan_var.h> 5554e4ee71SNavdeep Parhar #include <netinet/in.h> 5654e4ee71SNavdeep Parhar #include <netinet/ip.h> 57a1ea9a82SNavdeep Parhar #include <netinet/ip6.h> 5854e4ee71SNavdeep Parhar #include <netinet/tcp.h> 59786099deSNavdeep Parhar #include <netinet/udp.h> 606af45170SJohn Baldwin #include <machine/in_cksum.h> 6164db8966SDimitry Andric #include <machine/md_var.h> 6238035ed6SNavdeep Parhar #include <vm/vm.h> 6338035ed6SNavdeep Parhar #include <vm/pmap.h> 64298d969cSNavdeep Parhar #ifdef DEV_NETMAP 65298d969cSNavdeep Parhar #include <machine/bus.h> 66298d969cSNavdeep Parhar #include <sys/selinfo.h> 67298d969cSNavdeep Parhar #include <net/if_var.h> 68298d969cSNavdeep Parhar #include <net/netmap.h> 69298d969cSNavdeep Parhar #include <dev/netmap/netmap_kern.h> 70298d969cSNavdeep Parhar #endif 7154e4ee71SNavdeep Parhar 7254e4ee71SNavdeep Parhar #include "common/common.h" 7354e4ee71SNavdeep Parhar #include "common/t4_regs.h" 7454e4ee71SNavdeep Parhar #include "common/t4_regs_values.h" 7554e4ee71SNavdeep Parhar #include "common/t4_msg.h" 76671bf2b8SNavdeep Parhar #include "t4_l2t.h" 777951040fSNavdeep Parhar #include "t4_mp_ring.h" 7854e4ee71SNavdeep Parhar 79d14b0ac1SNavdeep Parhar #ifdef T4_PKT_TIMESTAMP 80d14b0ac1SNavdeep Parhar #define RX_COPY_THRESHOLD (MINCLSIZE - 8) 81d14b0ac1SNavdeep Parhar #else 82d14b0ac1SNavdeep Parhar #define RX_COPY_THRESHOLD MINCLSIZE 83d14b0ac1SNavdeep Parhar #endif 84d14b0ac1SNavdeep Parhar 855cdaef71SJohn Baldwin /* Internal mbuf flags stored in PH_loc.eight[1]. */ 865cdaef71SJohn Baldwin #define MC_RAW_WR 0x02 875cdaef71SJohn Baldwin 889fb8886bSNavdeep Parhar /* 899fb8886bSNavdeep Parhar * Ethernet frames are DMA'd at this byte offset into the freelist buffer. 909fb8886bSNavdeep Parhar * 0-7 are valid values. 919fb8886bSNavdeep Parhar */ 92518bca2cSNavdeep Parhar static int fl_pktshift = 0; 932d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, fl_pktshift, CTLFLAG_RDTUN, &fl_pktshift, 0, 942d714dbcSJohn Baldwin "payload DMA offset in rx buffer (bytes)"); 9554e4ee71SNavdeep Parhar 969fb8886bSNavdeep Parhar /* 979fb8886bSNavdeep Parhar * Pad ethernet payload up to this boundary. 989fb8886bSNavdeep Parhar * -1: driver should figure out a good value. 991458bff9SNavdeep Parhar * 0: disable padding. 1001458bff9SNavdeep Parhar * Any power of 2 from 32 to 4096 (both inclusive) is also a valid value. 1019fb8886bSNavdeep Parhar */ 102298d969cSNavdeep Parhar int fl_pad = -1; 1032d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, fl_pad, CTLFLAG_RDTUN, &fl_pad, 0, 1042d714dbcSJohn Baldwin "payload pad boundary (bytes)"); 1059fb8886bSNavdeep Parhar 1069fb8886bSNavdeep Parhar /* 1079fb8886bSNavdeep Parhar * Status page length. 1089fb8886bSNavdeep Parhar * -1: driver should figure out a good value. 1099fb8886bSNavdeep Parhar * 64 or 128 are the only other valid values. 1109fb8886bSNavdeep Parhar */ 11129c229e9SJohn Baldwin static int spg_len = -1; 1122d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, spg_len, CTLFLAG_RDTUN, &spg_len, 0, 1132d714dbcSJohn Baldwin "status page size (bytes)"); 1149fb8886bSNavdeep Parhar 1159fb8886bSNavdeep Parhar /* 1169fb8886bSNavdeep Parhar * Congestion drops. 1179fb8886bSNavdeep Parhar * -1: no congestion feedback (not recommended). 1189fb8886bSNavdeep Parhar * 0: backpressure the channel instead of dropping packets right away. 1199fb8886bSNavdeep Parhar * 1: no backpressure, drop packets for the congested queue immediately. 1209fb8886bSNavdeep Parhar */ 1219fb8886bSNavdeep Parhar static int cong_drop = 0; 1222d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, cong_drop, CTLFLAG_RDTUN, &cong_drop, 0, 1232d714dbcSJohn Baldwin "Congestion control for RX queues (0 = backpressure, 1 = drop"); 12454e4ee71SNavdeep Parhar 1251458bff9SNavdeep Parhar /* 1261458bff9SNavdeep Parhar * Deliver multiple frames in the same free list buffer if they fit. 1271458bff9SNavdeep Parhar * -1: let the driver decide whether to enable buffer packing or not. 1281458bff9SNavdeep Parhar * 0: disable buffer packing. 1291458bff9SNavdeep Parhar * 1: enable buffer packing. 1301458bff9SNavdeep Parhar */ 1311458bff9SNavdeep Parhar static int buffer_packing = -1; 1322d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, buffer_packing, CTLFLAG_RDTUN, &buffer_packing, 1332d714dbcSJohn Baldwin 0, "Enable buffer packing"); 1341458bff9SNavdeep Parhar 1351458bff9SNavdeep Parhar /* 1361458bff9SNavdeep Parhar * Start next frame in a packed buffer at this boundary. 1371458bff9SNavdeep Parhar * -1: driver should figure out a good value. 138e3207e19SNavdeep Parhar * T4: driver will ignore this and use the same value as fl_pad above. 139e3207e19SNavdeep Parhar * T5: 16, or a power of 2 from 64 to 4096 (both inclusive) is a valid value. 1401458bff9SNavdeep Parhar */ 1411458bff9SNavdeep Parhar static int fl_pack = -1; 1422d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, fl_pack, CTLFLAG_RDTUN, &fl_pack, 0, 1432d714dbcSJohn Baldwin "payload pack boundary (bytes)"); 1441458bff9SNavdeep Parhar 14538035ed6SNavdeep Parhar /* 14638035ed6SNavdeep Parhar * Allow the driver to create mbuf(s) in a cluster allocated for rx. 14738035ed6SNavdeep Parhar * 0: never; always allocate mbufs from the zone_mbuf UMA zone. 14838035ed6SNavdeep Parhar * 1: ok to create mbuf(s) within a cluster if there is room. 14938035ed6SNavdeep Parhar */ 15038035ed6SNavdeep Parhar static int allow_mbufs_in_cluster = 1; 1512d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, allow_mbufs_in_cluster, CTLFLAG_RDTUN, 1522d714dbcSJohn Baldwin &allow_mbufs_in_cluster, 0, 1532d714dbcSJohn Baldwin "Allow driver to create mbufs within a rx cluster"); 15438035ed6SNavdeep Parhar 15538035ed6SNavdeep Parhar /* 15638035ed6SNavdeep Parhar * Largest rx cluster size that the driver is allowed to allocate. 15738035ed6SNavdeep Parhar */ 15838035ed6SNavdeep Parhar static int largest_rx_cluster = MJUM16BYTES; 1592d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, largest_rx_cluster, CTLFLAG_RDTUN, 1602d714dbcSJohn Baldwin &largest_rx_cluster, 0, "Largest rx cluster (bytes)"); 16138035ed6SNavdeep Parhar 16238035ed6SNavdeep Parhar /* 16338035ed6SNavdeep Parhar * Size of cluster allocation that's most likely to succeed. The driver will 16438035ed6SNavdeep Parhar * fall back to this size if it fails to allocate clusters larger than this. 16538035ed6SNavdeep Parhar */ 16638035ed6SNavdeep Parhar static int safest_rx_cluster = PAGE_SIZE; 1672d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, safest_rx_cluster, CTLFLAG_RDTUN, 1682d714dbcSJohn Baldwin &safest_rx_cluster, 0, "Safe rx cluster (bytes)"); 16938035ed6SNavdeep Parhar 170786099deSNavdeep Parhar #ifdef RATELIMIT 171786099deSNavdeep Parhar /* 172786099deSNavdeep Parhar * Knob to control TCP timestamp rewriting, and the granularity of the tick used 173786099deSNavdeep Parhar * for rewriting. -1 and 0-3 are all valid values. 174786099deSNavdeep Parhar * -1: hardware should leave the TCP timestamps alone. 175786099deSNavdeep Parhar * 0: 1ms 176786099deSNavdeep Parhar * 1: 100us 177786099deSNavdeep Parhar * 2: 10us 178786099deSNavdeep Parhar * 3: 1us 179786099deSNavdeep Parhar */ 180786099deSNavdeep Parhar static int tsclk = -1; 1812d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, tsclk, CTLFLAG_RDTUN, &tsclk, 0, 1822d714dbcSJohn Baldwin "Control TCP timestamp rewriting when using pacing"); 183786099deSNavdeep Parhar 184786099deSNavdeep Parhar static int eo_max_backlog = 1024 * 1024; 1852d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, eo_max_backlog, CTLFLAG_RDTUN, &eo_max_backlog, 1862d714dbcSJohn Baldwin 0, "Maximum backlog of ratelimited data per flow"); 187786099deSNavdeep Parhar #endif 188786099deSNavdeep Parhar 189d491f8caSNavdeep Parhar /* 190d491f8caSNavdeep Parhar * The interrupt holdoff timers are multiplied by this value on T6+. 191d491f8caSNavdeep Parhar * 1 and 3-17 (both inclusive) are legal values. 192d491f8caSNavdeep Parhar */ 193d491f8caSNavdeep Parhar static int tscale = 1; 1942d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, tscale, CTLFLAG_RDTUN, &tscale, 0, 1952d714dbcSJohn Baldwin "Interrupt holdoff timer scale on T6+"); 196d491f8caSNavdeep Parhar 19746f48ee5SNavdeep Parhar /* 19846f48ee5SNavdeep Parhar * Number of LRO entries in the lro_ctrl structure per rx queue. 19946f48ee5SNavdeep Parhar */ 20046f48ee5SNavdeep Parhar static int lro_entries = TCP_LRO_ENTRIES; 2012d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, lro_entries, CTLFLAG_RDTUN, &lro_entries, 0, 2022d714dbcSJohn Baldwin "Number of LRO entries per RX queue"); 20346f48ee5SNavdeep Parhar 20446f48ee5SNavdeep Parhar /* 20546f48ee5SNavdeep Parhar * This enables presorting of frames before they're fed into tcp_lro_rx. 20646f48ee5SNavdeep Parhar */ 20746f48ee5SNavdeep Parhar static int lro_mbufs = 0; 2082d714dbcSJohn Baldwin SYSCTL_INT(_hw_cxgbe, OID_AUTO, lro_mbufs, CTLFLAG_RDTUN, &lro_mbufs, 0, 2092d714dbcSJohn Baldwin "Enable presorting of LRO frames"); 21046f48ee5SNavdeep Parhar 21154e4ee71SNavdeep Parhar struct txpkts { 2127951040fSNavdeep Parhar u_int wr_type; /* type 0 or type 1 */ 2137951040fSNavdeep Parhar u_int npkt; /* # of packets in this work request */ 2147951040fSNavdeep Parhar u_int plen; /* total payload (sum of all packets) */ 2157951040fSNavdeep Parhar u_int len16; /* # of 16B pieces used by this work request */ 21654e4ee71SNavdeep Parhar }; 21754e4ee71SNavdeep Parhar 21854e4ee71SNavdeep Parhar /* A packet's SGL. This + m_pkthdr has all info needed for tx */ 21954e4ee71SNavdeep Parhar struct sgl { 2207951040fSNavdeep Parhar struct sglist sg; 2217951040fSNavdeep Parhar struct sglist_seg seg[TX_SGL_SEGS]; 22254e4ee71SNavdeep Parhar }; 22354e4ee71SNavdeep Parhar 224733b9277SNavdeep Parhar static int service_iq(struct sge_iq *, int); 2253098bcfcSNavdeep Parhar static int service_iq_fl(struct sge_iq *, int); 2264d6db4e0SNavdeep Parhar static struct mbuf *get_fl_payload(struct adapter *, struct sge_fl *, uint32_t); 227733b9277SNavdeep Parhar static int t4_eth_rx(struct sge_iq *, const struct rss_header *, struct mbuf *); 228b2daa9a9SNavdeep Parhar static inline void init_iq(struct sge_iq *, struct adapter *, int, int, int); 229e3207e19SNavdeep Parhar static inline void init_fl(struct adapter *, struct sge_fl *, int, int, char *); 23090e7434aSNavdeep Parhar static inline void init_eq(struct adapter *, struct sge_eq *, int, int, uint8_t, 23190e7434aSNavdeep Parhar uint16_t, char *); 23254e4ee71SNavdeep Parhar static int alloc_ring(struct adapter *, size_t, bus_dma_tag_t *, bus_dmamap_t *, 23354e4ee71SNavdeep Parhar bus_addr_t *, void **); 23454e4ee71SNavdeep Parhar static int free_ring(struct adapter *, bus_dma_tag_t, bus_dmamap_t, bus_addr_t, 23554e4ee71SNavdeep Parhar void *); 236fe2ebb76SJohn Baldwin static int alloc_iq_fl(struct vi_info *, struct sge_iq *, struct sge_fl *, 237bc14b14dSNavdeep Parhar int, int); 238fe2ebb76SJohn Baldwin static int free_iq_fl(struct vi_info *, struct sge_iq *, struct sge_fl *); 239348694daSNavdeep Parhar static void add_iq_sysctls(struct sysctl_ctx_list *, struct sysctl_oid *, 240348694daSNavdeep Parhar struct sge_iq *); 241aa93b99aSNavdeep Parhar static void add_fl_sysctls(struct adapter *, struct sysctl_ctx_list *, 242aa93b99aSNavdeep Parhar struct sysctl_oid *, struct sge_fl *); 243733b9277SNavdeep Parhar static int alloc_fwq(struct adapter *); 244733b9277SNavdeep Parhar static int free_fwq(struct adapter *); 24537310a98SNavdeep Parhar static int alloc_ctrlq(struct adapter *, struct sge_wrq *, int, 24637310a98SNavdeep Parhar struct sysctl_oid *); 247fe2ebb76SJohn Baldwin static int alloc_rxq(struct vi_info *, struct sge_rxq *, int, int, 248733b9277SNavdeep Parhar struct sysctl_oid *); 249fe2ebb76SJohn Baldwin static int free_rxq(struct vi_info *, struct sge_rxq *); 25009fe6320SNavdeep Parhar #ifdef TCP_OFFLOAD 251fe2ebb76SJohn Baldwin static int alloc_ofld_rxq(struct vi_info *, struct sge_ofld_rxq *, int, int, 252733b9277SNavdeep Parhar struct sysctl_oid *); 253fe2ebb76SJohn Baldwin static int free_ofld_rxq(struct vi_info *, struct sge_ofld_rxq *); 254733b9277SNavdeep Parhar #endif 255298d969cSNavdeep Parhar #ifdef DEV_NETMAP 256fe2ebb76SJohn Baldwin static int alloc_nm_rxq(struct vi_info *, struct sge_nm_rxq *, int, int, 257298d969cSNavdeep Parhar struct sysctl_oid *); 258fe2ebb76SJohn Baldwin static int free_nm_rxq(struct vi_info *, struct sge_nm_rxq *); 259fe2ebb76SJohn Baldwin static int alloc_nm_txq(struct vi_info *, struct sge_nm_txq *, int, int, 260298d969cSNavdeep Parhar struct sysctl_oid *); 261fe2ebb76SJohn Baldwin static int free_nm_txq(struct vi_info *, struct sge_nm_txq *); 262298d969cSNavdeep Parhar #endif 263733b9277SNavdeep Parhar static int ctrl_eq_alloc(struct adapter *, struct sge_eq *); 264fe2ebb76SJohn Baldwin static int eth_eq_alloc(struct adapter *, struct vi_info *, struct sge_eq *); 265eff62dbaSNavdeep Parhar #if defined(TCP_OFFLOAD) || defined(RATELIMIT) 266fe2ebb76SJohn Baldwin static int ofld_eq_alloc(struct adapter *, struct vi_info *, struct sge_eq *); 267733b9277SNavdeep Parhar #endif 268fe2ebb76SJohn Baldwin static int alloc_eq(struct adapter *, struct vi_info *, struct sge_eq *); 269733b9277SNavdeep Parhar static int free_eq(struct adapter *, struct sge_eq *); 270fe2ebb76SJohn Baldwin static int alloc_wrq(struct adapter *, struct vi_info *, struct sge_wrq *, 271733b9277SNavdeep Parhar struct sysctl_oid *); 272733b9277SNavdeep Parhar static int free_wrq(struct adapter *, struct sge_wrq *); 273fe2ebb76SJohn Baldwin static int alloc_txq(struct vi_info *, struct sge_txq *, int, 274733b9277SNavdeep Parhar struct sysctl_oid *); 275fe2ebb76SJohn Baldwin static int free_txq(struct vi_info *, struct sge_txq *); 27654e4ee71SNavdeep Parhar static void oneseg_dma_callback(void *, bus_dma_segment_t *, int, int); 27754e4ee71SNavdeep Parhar static inline void ring_fl_db(struct adapter *, struct sge_fl *); 278733b9277SNavdeep Parhar static int refill_fl(struct adapter *, struct sge_fl *, int); 279733b9277SNavdeep Parhar static void refill_sfl(void *); 28054e4ee71SNavdeep Parhar static int alloc_fl_sdesc(struct sge_fl *); 2811458bff9SNavdeep Parhar static void free_fl_sdesc(struct adapter *, struct sge_fl *); 28238035ed6SNavdeep Parhar static void find_best_refill_source(struct adapter *, struct sge_fl *, int); 28338035ed6SNavdeep Parhar static void find_safe_refill_source(struct adapter *, struct sge_fl *); 284733b9277SNavdeep Parhar static void add_fl_to_sfl(struct adapter *, struct sge_fl *); 28554e4ee71SNavdeep Parhar 2867951040fSNavdeep Parhar static inline void get_pkt_gl(struct mbuf *, struct sglist *); 2877951040fSNavdeep Parhar static inline u_int txpkt_len16(u_int, u_int); 2886af45170SJohn Baldwin static inline u_int txpkt_vm_len16(u_int, u_int); 2897951040fSNavdeep Parhar static inline u_int txpkts0_len16(u_int); 2907951040fSNavdeep Parhar static inline u_int txpkts1_len16(void); 2915cdaef71SJohn Baldwin static u_int write_raw_wr(struct sge_txq *, void *, struct mbuf *, u_int); 2927951040fSNavdeep Parhar static u_int write_txpkt_wr(struct sge_txq *, struct fw_eth_tx_pkt_wr *, 2937951040fSNavdeep Parhar struct mbuf *, u_int); 294472a6004SNavdeep Parhar static u_int write_txpkt_vm_wr(struct adapter *, struct sge_txq *, 295472a6004SNavdeep Parhar struct fw_eth_tx_pkt_vm_wr *, struct mbuf *, u_int); 2967951040fSNavdeep Parhar static int try_txpkts(struct mbuf *, struct mbuf *, struct txpkts *, u_int); 2977951040fSNavdeep Parhar static int add_to_txpkts(struct mbuf *, struct txpkts *, u_int); 2987951040fSNavdeep Parhar static u_int write_txpkts_wr(struct sge_txq *, struct fw_eth_tx_pkts_wr *, 2997951040fSNavdeep Parhar struct mbuf *, const struct txpkts *, u_int); 3007951040fSNavdeep Parhar static void write_gl_to_txd(struct sge_txq *, struct mbuf *, caddr_t *, int); 30154e4ee71SNavdeep Parhar static inline void copy_to_txd(struct sge_eq *, caddr_t, caddr_t *, int); 3027951040fSNavdeep Parhar static inline void ring_eq_db(struct adapter *, struct sge_eq *, u_int); 3037951040fSNavdeep Parhar static inline uint16_t read_hw_cidx(struct sge_eq *); 3047951040fSNavdeep Parhar static inline u_int reclaimable_tx_desc(struct sge_eq *); 3057951040fSNavdeep Parhar static inline u_int total_available_tx_desc(struct sge_eq *); 3067951040fSNavdeep Parhar static u_int reclaim_tx_descs(struct sge_txq *, u_int); 3077951040fSNavdeep Parhar static void tx_reclaim(void *, int); 3087951040fSNavdeep Parhar static __be64 get_flit(struct sglist_seg *, int, int); 309733b9277SNavdeep Parhar static int handle_sge_egr_update(struct sge_iq *, const struct rss_header *, 310733b9277SNavdeep Parhar struct mbuf *); 3111b4cc91fSNavdeep Parhar static int handle_fw_msg(struct sge_iq *, const struct rss_header *, 312733b9277SNavdeep Parhar struct mbuf *); 313069af0ebSJohn Baldwin static int t4_handle_wrerr_rpl(struct adapter *, const __be64 *); 3147951040fSNavdeep Parhar static void wrq_tx_drain(void *, int); 3157951040fSNavdeep Parhar static void drain_wrq_wr_list(struct adapter *, struct sge_wrq *); 31654e4ee71SNavdeep Parhar 31756599263SNavdeep Parhar static int sysctl_uint16(SYSCTL_HANDLER_ARGS); 31838035ed6SNavdeep Parhar static int sysctl_bufsizes(SYSCTL_HANDLER_ARGS); 319786099deSNavdeep Parhar #ifdef RATELIMIT 320786099deSNavdeep Parhar static inline u_int txpkt_eo_len16(u_int, u_int, u_int); 321786099deSNavdeep Parhar static int ethofld_fw4_ack(struct sge_iq *, const struct rss_header *, 322786099deSNavdeep Parhar struct mbuf *); 323786099deSNavdeep Parhar #endif 324f7dfe243SNavdeep Parhar 32582eff304SNavdeep Parhar static counter_u64_t extfree_refs; 32682eff304SNavdeep Parhar static counter_u64_t extfree_rels; 32782eff304SNavdeep Parhar 328671bf2b8SNavdeep Parhar an_handler_t t4_an_handler; 329671bf2b8SNavdeep Parhar fw_msg_handler_t t4_fw_msg_handler[NUM_FW6_TYPES]; 330671bf2b8SNavdeep Parhar cpl_handler_t t4_cpl_handler[NUM_CPL_CMDS]; 3314535e804SNavdeep Parhar cpl_handler_t set_tcb_rpl_handlers[NUM_CPL_COOKIES]; 3324535e804SNavdeep Parhar cpl_handler_t l2t_write_rpl_handlers[NUM_CPL_COOKIES]; 333111638bfSNavdeep Parhar cpl_handler_t act_open_rpl_handlers[NUM_CPL_COOKIES]; 33489f651e7SNavdeep Parhar cpl_handler_t abort_rpl_rss_handlers[NUM_CPL_COOKIES]; 3359c707b32SNavdeep Parhar cpl_handler_t fw4_ack_handlers[NUM_CPL_COOKIES]; 336671bf2b8SNavdeep Parhar 3374535e804SNavdeep Parhar void 338671bf2b8SNavdeep Parhar t4_register_an_handler(an_handler_t h) 339671bf2b8SNavdeep Parhar { 3404535e804SNavdeep Parhar uintptr_t *loc; 341671bf2b8SNavdeep Parhar 3424535e804SNavdeep Parhar MPASS(h == NULL || t4_an_handler == NULL); 3434535e804SNavdeep Parhar 344671bf2b8SNavdeep Parhar loc = (uintptr_t *)&t4_an_handler; 3454535e804SNavdeep Parhar atomic_store_rel_ptr(loc, (uintptr_t)h); 346671bf2b8SNavdeep Parhar } 347671bf2b8SNavdeep Parhar 3484535e804SNavdeep Parhar void 349671bf2b8SNavdeep Parhar t4_register_fw_msg_handler(int type, fw_msg_handler_t h) 350671bf2b8SNavdeep Parhar { 3514535e804SNavdeep Parhar uintptr_t *loc; 352671bf2b8SNavdeep Parhar 3534535e804SNavdeep Parhar MPASS(type < nitems(t4_fw_msg_handler)); 3544535e804SNavdeep Parhar MPASS(h == NULL || t4_fw_msg_handler[type] == NULL); 355671bf2b8SNavdeep Parhar /* 356671bf2b8SNavdeep Parhar * These are dispatched by the handler for FW{4|6}_CPL_MSG using the CPL 357671bf2b8SNavdeep Parhar * handler dispatch table. Reject any attempt to install a handler for 358671bf2b8SNavdeep Parhar * this subtype. 359671bf2b8SNavdeep Parhar */ 3604535e804SNavdeep Parhar MPASS(type != FW_TYPE_RSSCPL); 3614535e804SNavdeep Parhar MPASS(type != FW6_TYPE_RSSCPL); 362671bf2b8SNavdeep Parhar 363671bf2b8SNavdeep Parhar loc = (uintptr_t *)&t4_fw_msg_handler[type]; 3644535e804SNavdeep Parhar atomic_store_rel_ptr(loc, (uintptr_t)h); 3654535e804SNavdeep Parhar } 366671bf2b8SNavdeep Parhar 3674535e804SNavdeep Parhar void 3684535e804SNavdeep Parhar t4_register_cpl_handler(int opcode, cpl_handler_t h) 3694535e804SNavdeep Parhar { 3704535e804SNavdeep Parhar uintptr_t *loc; 3714535e804SNavdeep Parhar 3724535e804SNavdeep Parhar MPASS(opcode < nitems(t4_cpl_handler)); 3734535e804SNavdeep Parhar MPASS(h == NULL || t4_cpl_handler[opcode] == NULL); 3744535e804SNavdeep Parhar 3754535e804SNavdeep Parhar loc = (uintptr_t *)&t4_cpl_handler[opcode]; 3764535e804SNavdeep Parhar atomic_store_rel_ptr(loc, (uintptr_t)h); 377671bf2b8SNavdeep Parhar } 378671bf2b8SNavdeep Parhar 379671bf2b8SNavdeep Parhar static int 3804535e804SNavdeep Parhar set_tcb_rpl_handler(struct sge_iq *iq, const struct rss_header *rss, 3814535e804SNavdeep Parhar struct mbuf *m) 382671bf2b8SNavdeep Parhar { 3834535e804SNavdeep Parhar const struct cpl_set_tcb_rpl *cpl = (const void *)(rss + 1); 3844535e804SNavdeep Parhar u_int tid; 3854535e804SNavdeep Parhar int cookie; 386671bf2b8SNavdeep Parhar 3874535e804SNavdeep Parhar MPASS(m == NULL); 3884535e804SNavdeep Parhar 3894535e804SNavdeep Parhar tid = GET_TID(cpl); 3905fc0f72fSNavdeep Parhar if (is_hpftid(iq->adapter, tid) || is_ftid(iq->adapter, tid)) { 3914535e804SNavdeep Parhar /* 3924535e804SNavdeep Parhar * The return code for filter-write is put in the CPL cookie so 3934535e804SNavdeep Parhar * we have to rely on the hardware tid (is_ftid) to determine 3944535e804SNavdeep Parhar * that this is a response to a filter. 3954535e804SNavdeep Parhar */ 3964535e804SNavdeep Parhar cookie = CPL_COOKIE_FILTER; 3974535e804SNavdeep Parhar } else { 3984535e804SNavdeep Parhar cookie = G_COOKIE(cpl->cookie); 3994535e804SNavdeep Parhar } 4004535e804SNavdeep Parhar MPASS(cookie > CPL_COOKIE_RESERVED); 4014535e804SNavdeep Parhar MPASS(cookie < nitems(set_tcb_rpl_handlers)); 4024535e804SNavdeep Parhar 4034535e804SNavdeep Parhar return (set_tcb_rpl_handlers[cookie](iq, rss, m)); 404671bf2b8SNavdeep Parhar } 405671bf2b8SNavdeep Parhar 4064535e804SNavdeep Parhar static int 4074535e804SNavdeep Parhar l2t_write_rpl_handler(struct sge_iq *iq, const struct rss_header *rss, 4084535e804SNavdeep Parhar struct mbuf *m) 409671bf2b8SNavdeep Parhar { 4104535e804SNavdeep Parhar const struct cpl_l2t_write_rpl *rpl = (const void *)(rss + 1); 4114535e804SNavdeep Parhar unsigned int cookie; 412671bf2b8SNavdeep Parhar 4134535e804SNavdeep Parhar MPASS(m == NULL); 414671bf2b8SNavdeep Parhar 4154535e804SNavdeep Parhar cookie = GET_TID(rpl) & F_SYNC_WR ? CPL_COOKIE_TOM : CPL_COOKIE_FILTER; 4164535e804SNavdeep Parhar return (l2t_write_rpl_handlers[cookie](iq, rss, m)); 4174535e804SNavdeep Parhar } 418671bf2b8SNavdeep Parhar 419111638bfSNavdeep Parhar static int 420111638bfSNavdeep Parhar act_open_rpl_handler(struct sge_iq *iq, const struct rss_header *rss, 421111638bfSNavdeep Parhar struct mbuf *m) 422111638bfSNavdeep Parhar { 423111638bfSNavdeep Parhar const struct cpl_act_open_rpl *cpl = (const void *)(rss + 1); 424111638bfSNavdeep Parhar u_int cookie = G_TID_COOKIE(G_AOPEN_ATID(be32toh(cpl->atid_status))); 425111638bfSNavdeep Parhar 426111638bfSNavdeep Parhar MPASS(m == NULL); 427111638bfSNavdeep Parhar MPASS(cookie != CPL_COOKIE_RESERVED); 428111638bfSNavdeep Parhar 429111638bfSNavdeep Parhar return (act_open_rpl_handlers[cookie](iq, rss, m)); 430111638bfSNavdeep Parhar } 431111638bfSNavdeep Parhar 43289f651e7SNavdeep Parhar static int 43389f651e7SNavdeep Parhar abort_rpl_rss_handler(struct sge_iq *iq, const struct rss_header *rss, 43489f651e7SNavdeep Parhar struct mbuf *m) 43589f651e7SNavdeep Parhar { 43689f651e7SNavdeep Parhar struct adapter *sc = iq->adapter; 43789f651e7SNavdeep Parhar u_int cookie; 43889f651e7SNavdeep Parhar 43989f651e7SNavdeep Parhar MPASS(m == NULL); 44089f651e7SNavdeep Parhar if (is_hashfilter(sc)) 44189f651e7SNavdeep Parhar cookie = CPL_COOKIE_HASHFILTER; 44289f651e7SNavdeep Parhar else 44389f651e7SNavdeep Parhar cookie = CPL_COOKIE_TOM; 44489f651e7SNavdeep Parhar 44589f651e7SNavdeep Parhar return (abort_rpl_rss_handlers[cookie](iq, rss, m)); 44689f651e7SNavdeep Parhar } 44789f651e7SNavdeep Parhar 4489c707b32SNavdeep Parhar static int 4499c707b32SNavdeep Parhar fw4_ack_handler(struct sge_iq *iq, const struct rss_header *rss, struct mbuf *m) 4509c707b32SNavdeep Parhar { 4519c707b32SNavdeep Parhar struct adapter *sc = iq->adapter; 4529c707b32SNavdeep Parhar const struct cpl_fw4_ack *cpl = (const void *)(rss + 1); 4539c707b32SNavdeep Parhar unsigned int tid = G_CPL_FW4_ACK_FLOWID(be32toh(OPCODE_TID(cpl))); 4549c707b32SNavdeep Parhar u_int cookie; 4559c707b32SNavdeep Parhar 4569c707b32SNavdeep Parhar MPASS(m == NULL); 4579c707b32SNavdeep Parhar if (is_etid(sc, tid)) 4589c707b32SNavdeep Parhar cookie = CPL_COOKIE_ETHOFLD; 4599c707b32SNavdeep Parhar else 4609c707b32SNavdeep Parhar cookie = CPL_COOKIE_TOM; 4619c707b32SNavdeep Parhar 4629c707b32SNavdeep Parhar return (fw4_ack_handlers[cookie](iq, rss, m)); 4639c707b32SNavdeep Parhar } 4649c707b32SNavdeep Parhar 4654535e804SNavdeep Parhar static void 4664535e804SNavdeep Parhar t4_init_shared_cpl_handlers(void) 4674535e804SNavdeep Parhar { 4684535e804SNavdeep Parhar 4694535e804SNavdeep Parhar t4_register_cpl_handler(CPL_SET_TCB_RPL, set_tcb_rpl_handler); 4704535e804SNavdeep Parhar t4_register_cpl_handler(CPL_L2T_WRITE_RPL, l2t_write_rpl_handler); 471111638bfSNavdeep Parhar t4_register_cpl_handler(CPL_ACT_OPEN_RPL, act_open_rpl_handler); 47289f651e7SNavdeep Parhar t4_register_cpl_handler(CPL_ABORT_RPL_RSS, abort_rpl_rss_handler); 4739c707b32SNavdeep Parhar t4_register_cpl_handler(CPL_FW4_ACK, fw4_ack_handler); 4744535e804SNavdeep Parhar } 4754535e804SNavdeep Parhar 4764535e804SNavdeep Parhar void 4774535e804SNavdeep Parhar t4_register_shared_cpl_handler(int opcode, cpl_handler_t h, int cookie) 4784535e804SNavdeep Parhar { 4794535e804SNavdeep Parhar uintptr_t *loc; 4804535e804SNavdeep Parhar 4814535e804SNavdeep Parhar MPASS(opcode < nitems(t4_cpl_handler)); 4824535e804SNavdeep Parhar MPASS(cookie > CPL_COOKIE_RESERVED); 4834535e804SNavdeep Parhar MPASS(cookie < NUM_CPL_COOKIES); 4844535e804SNavdeep Parhar MPASS(t4_cpl_handler[opcode] != NULL); 4854535e804SNavdeep Parhar 4864535e804SNavdeep Parhar switch (opcode) { 4874535e804SNavdeep Parhar case CPL_SET_TCB_RPL: 4884535e804SNavdeep Parhar loc = (uintptr_t *)&set_tcb_rpl_handlers[cookie]; 4894535e804SNavdeep Parhar break; 4904535e804SNavdeep Parhar case CPL_L2T_WRITE_RPL: 4914535e804SNavdeep Parhar loc = (uintptr_t *)&l2t_write_rpl_handlers[cookie]; 4924535e804SNavdeep Parhar break; 493111638bfSNavdeep Parhar case CPL_ACT_OPEN_RPL: 494111638bfSNavdeep Parhar loc = (uintptr_t *)&act_open_rpl_handlers[cookie]; 495111638bfSNavdeep Parhar break; 49689f651e7SNavdeep Parhar case CPL_ABORT_RPL_RSS: 49789f651e7SNavdeep Parhar loc = (uintptr_t *)&abort_rpl_rss_handlers[cookie]; 49889f651e7SNavdeep Parhar break; 4999c707b32SNavdeep Parhar case CPL_FW4_ACK: 5009c707b32SNavdeep Parhar loc = (uintptr_t *)&fw4_ack_handlers[cookie]; 5019c707b32SNavdeep Parhar break; 5024535e804SNavdeep Parhar default: 5034535e804SNavdeep Parhar MPASS(0); 5044535e804SNavdeep Parhar return; 5054535e804SNavdeep Parhar } 5064535e804SNavdeep Parhar MPASS(h == NULL || *loc == (uintptr_t)NULL); 5074535e804SNavdeep Parhar atomic_store_rel_ptr(loc, (uintptr_t)h); 508671bf2b8SNavdeep Parhar } 509671bf2b8SNavdeep Parhar 51094586193SNavdeep Parhar /* 5111458bff9SNavdeep Parhar * Called on MOD_LOAD. Validates and calculates the SGE tunables. 51294586193SNavdeep Parhar */ 51394586193SNavdeep Parhar void 51494586193SNavdeep Parhar t4_sge_modload(void) 51594586193SNavdeep Parhar { 5164defc81bSNavdeep Parhar 5179fb8886bSNavdeep Parhar if (fl_pktshift < 0 || fl_pktshift > 7) { 5189fb8886bSNavdeep Parhar printf("Invalid hw.cxgbe.fl_pktshift value (%d)," 519518bca2cSNavdeep Parhar " using 0 instead.\n", fl_pktshift); 520518bca2cSNavdeep Parhar fl_pktshift = 0; 5219fb8886bSNavdeep Parhar } 5229fb8886bSNavdeep Parhar 5239fb8886bSNavdeep Parhar if (spg_len != 64 && spg_len != 128) { 5249fb8886bSNavdeep Parhar int len; 5259fb8886bSNavdeep Parhar 5269fb8886bSNavdeep Parhar #if defined(__i386__) || defined(__amd64__) 5279fb8886bSNavdeep Parhar len = cpu_clflush_line_size > 64 ? 128 : 64; 5289fb8886bSNavdeep Parhar #else 5299fb8886bSNavdeep Parhar len = 64; 5309fb8886bSNavdeep Parhar #endif 5319fb8886bSNavdeep Parhar if (spg_len != -1) { 5329fb8886bSNavdeep Parhar printf("Invalid hw.cxgbe.spg_len value (%d)," 5339fb8886bSNavdeep Parhar " using %d instead.\n", spg_len, len); 5349fb8886bSNavdeep Parhar } 5359fb8886bSNavdeep Parhar spg_len = len; 5369fb8886bSNavdeep Parhar } 5379fb8886bSNavdeep Parhar 5389fb8886bSNavdeep Parhar if (cong_drop < -1 || cong_drop > 1) { 5399fb8886bSNavdeep Parhar printf("Invalid hw.cxgbe.cong_drop value (%d)," 5409fb8886bSNavdeep Parhar " using 0 instead.\n", cong_drop); 5419fb8886bSNavdeep Parhar cong_drop = 0; 5429fb8886bSNavdeep Parhar } 54382eff304SNavdeep Parhar 544d491f8caSNavdeep Parhar if (tscale != 1 && (tscale < 3 || tscale > 17)) { 545d491f8caSNavdeep Parhar printf("Invalid hw.cxgbe.tscale value (%d)," 546d491f8caSNavdeep Parhar " using 1 instead.\n", tscale); 547d491f8caSNavdeep Parhar tscale = 1; 548d491f8caSNavdeep Parhar } 549d491f8caSNavdeep Parhar 55082eff304SNavdeep Parhar extfree_refs = counter_u64_alloc(M_WAITOK); 55182eff304SNavdeep Parhar extfree_rels = counter_u64_alloc(M_WAITOK); 55282eff304SNavdeep Parhar counter_u64_zero(extfree_refs); 55382eff304SNavdeep Parhar counter_u64_zero(extfree_rels); 554671bf2b8SNavdeep Parhar 5554535e804SNavdeep Parhar t4_init_shared_cpl_handlers(); 556671bf2b8SNavdeep Parhar t4_register_cpl_handler(CPL_FW4_MSG, handle_fw_msg); 557671bf2b8SNavdeep Parhar t4_register_cpl_handler(CPL_FW6_MSG, handle_fw_msg); 558671bf2b8SNavdeep Parhar t4_register_cpl_handler(CPL_SGE_EGR_UPDATE, handle_sge_egr_update); 559671bf2b8SNavdeep Parhar t4_register_cpl_handler(CPL_RX_PKT, t4_eth_rx); 560786099deSNavdeep Parhar #ifdef RATELIMIT 561786099deSNavdeep Parhar t4_register_shared_cpl_handler(CPL_FW4_ACK, ethofld_fw4_ack, 562786099deSNavdeep Parhar CPL_COOKIE_ETHOFLD); 563786099deSNavdeep Parhar #endif 564671bf2b8SNavdeep Parhar t4_register_fw_msg_handler(FW6_TYPE_CMD_RPL, t4_handle_fw_rpl); 565069af0ebSJohn Baldwin t4_register_fw_msg_handler(FW6_TYPE_WRERR_RPL, t4_handle_wrerr_rpl); 56682eff304SNavdeep Parhar } 56782eff304SNavdeep Parhar 56882eff304SNavdeep Parhar void 56982eff304SNavdeep Parhar t4_sge_modunload(void) 57082eff304SNavdeep Parhar { 57182eff304SNavdeep Parhar 57282eff304SNavdeep Parhar counter_u64_free(extfree_refs); 57382eff304SNavdeep Parhar counter_u64_free(extfree_rels); 57482eff304SNavdeep Parhar } 57582eff304SNavdeep Parhar 57682eff304SNavdeep Parhar uint64_t 57782eff304SNavdeep Parhar t4_sge_extfree_refs(void) 57882eff304SNavdeep Parhar { 57982eff304SNavdeep Parhar uint64_t refs, rels; 58082eff304SNavdeep Parhar 58182eff304SNavdeep Parhar rels = counter_u64_fetch(extfree_rels); 58282eff304SNavdeep Parhar refs = counter_u64_fetch(extfree_refs); 58382eff304SNavdeep Parhar 58482eff304SNavdeep Parhar return (refs - rels); 58594586193SNavdeep Parhar } 58694586193SNavdeep Parhar 587e3207e19SNavdeep Parhar static inline void 588e3207e19SNavdeep Parhar setup_pad_and_pack_boundaries(struct adapter *sc) 589e3207e19SNavdeep Parhar { 590e3207e19SNavdeep Parhar uint32_t v, m; 5910dbc6cfdSNavdeep Parhar int pad, pack, pad_shift; 592e3207e19SNavdeep Parhar 5930dbc6cfdSNavdeep Parhar pad_shift = chip_id(sc) > CHELSIO_T5 ? X_T6_INGPADBOUNDARY_SHIFT : 5940dbc6cfdSNavdeep Parhar X_INGPADBOUNDARY_SHIFT; 595e3207e19SNavdeep Parhar pad = fl_pad; 5960dbc6cfdSNavdeep Parhar if (fl_pad < (1 << pad_shift) || 5970dbc6cfdSNavdeep Parhar fl_pad > (1 << (pad_shift + M_INGPADBOUNDARY)) || 5980dbc6cfdSNavdeep Parhar !powerof2(fl_pad)) { 599e3207e19SNavdeep Parhar /* 600e3207e19SNavdeep Parhar * If there is any chance that we might use buffer packing and 601e3207e19SNavdeep Parhar * the chip is a T4, then pick 64 as the pad/pack boundary. Set 6020dbc6cfdSNavdeep Parhar * it to the minimum allowed in all other cases. 603e3207e19SNavdeep Parhar */ 6040dbc6cfdSNavdeep Parhar pad = is_t4(sc) && buffer_packing ? 64 : 1 << pad_shift; 605e3207e19SNavdeep Parhar 606e3207e19SNavdeep Parhar /* 607e3207e19SNavdeep Parhar * For fl_pad = 0 we'll still write a reasonable value to the 608e3207e19SNavdeep Parhar * register but all the freelists will opt out of padding. 609e3207e19SNavdeep Parhar * We'll complain here only if the user tried to set it to a 610e3207e19SNavdeep Parhar * value greater than 0 that was invalid. 611e3207e19SNavdeep Parhar */ 612e3207e19SNavdeep Parhar if (fl_pad > 0) { 613e3207e19SNavdeep Parhar device_printf(sc->dev, "Invalid hw.cxgbe.fl_pad value" 614e3207e19SNavdeep Parhar " (%d), using %d instead.\n", fl_pad, pad); 615e3207e19SNavdeep Parhar } 616e3207e19SNavdeep Parhar } 617e3207e19SNavdeep Parhar m = V_INGPADBOUNDARY(M_INGPADBOUNDARY); 6180dbc6cfdSNavdeep Parhar v = V_INGPADBOUNDARY(ilog2(pad) - pad_shift); 619e3207e19SNavdeep Parhar t4_set_reg_field(sc, A_SGE_CONTROL, m, v); 620e3207e19SNavdeep Parhar 621e3207e19SNavdeep Parhar if (is_t4(sc)) { 622e3207e19SNavdeep Parhar if (fl_pack != -1 && fl_pack != pad) { 623e3207e19SNavdeep Parhar /* Complain but carry on. */ 624e3207e19SNavdeep Parhar device_printf(sc->dev, "hw.cxgbe.fl_pack (%d) ignored," 625e3207e19SNavdeep Parhar " using %d instead.\n", fl_pack, pad); 626e3207e19SNavdeep Parhar } 627e3207e19SNavdeep Parhar return; 628e3207e19SNavdeep Parhar } 629e3207e19SNavdeep Parhar 630e3207e19SNavdeep Parhar pack = fl_pack; 631e3207e19SNavdeep Parhar if (fl_pack < 16 || fl_pack == 32 || fl_pack > 4096 || 632e3207e19SNavdeep Parhar !powerof2(fl_pack)) { 633e3207e19SNavdeep Parhar pack = max(sc->params.pci.mps, CACHE_LINE_SIZE); 634e3207e19SNavdeep Parhar MPASS(powerof2(pack)); 635e3207e19SNavdeep Parhar if (pack < 16) 636e3207e19SNavdeep Parhar pack = 16; 637e3207e19SNavdeep Parhar if (pack == 32) 638e3207e19SNavdeep Parhar pack = 64; 639e3207e19SNavdeep Parhar if (pack > 4096) 640e3207e19SNavdeep Parhar pack = 4096; 641e3207e19SNavdeep Parhar if (fl_pack != -1) { 642e3207e19SNavdeep Parhar device_printf(sc->dev, "Invalid hw.cxgbe.fl_pack value" 643e3207e19SNavdeep Parhar " (%d), using %d instead.\n", fl_pack, pack); 644e3207e19SNavdeep Parhar } 645e3207e19SNavdeep Parhar } 646e3207e19SNavdeep Parhar m = V_INGPACKBOUNDARY(M_INGPACKBOUNDARY); 647e3207e19SNavdeep Parhar if (pack == 16) 648e3207e19SNavdeep Parhar v = V_INGPACKBOUNDARY(0); 649e3207e19SNavdeep Parhar else 650e3207e19SNavdeep Parhar v = V_INGPACKBOUNDARY(ilog2(pack) - 5); 651e3207e19SNavdeep Parhar 652e3207e19SNavdeep Parhar MPASS(!is_t4(sc)); /* T4 doesn't have SGE_CONTROL2 */ 653e3207e19SNavdeep Parhar t4_set_reg_field(sc, A_SGE_CONTROL2, m, v); 654e3207e19SNavdeep Parhar } 655e3207e19SNavdeep Parhar 656cf738022SNavdeep Parhar /* 657cf738022SNavdeep Parhar * adap->params.vpd.cclk must be set up before this is called. 658cf738022SNavdeep Parhar */ 659d14b0ac1SNavdeep Parhar void 660d14b0ac1SNavdeep Parhar t4_tweak_chip_settings(struct adapter *sc) 661d14b0ac1SNavdeep Parhar { 662d14b0ac1SNavdeep Parhar int i; 663d14b0ac1SNavdeep Parhar uint32_t v, m; 664d14b0ac1SNavdeep Parhar int intr_timer[SGE_NTIMERS] = {1, 5, 10, 50, 100, 200}; 665cf738022SNavdeep Parhar int timer_max = M_TIMERVALUE0 * 1000 / sc->params.vpd.cclk; 666d14b0ac1SNavdeep Parhar int intr_pktcount[SGE_NCOUNTERS] = {1, 8, 16, 32}; /* 63 max */ 667d14b0ac1SNavdeep Parhar uint16_t indsz = min(RX_COPY_THRESHOLD - 1, M_INDICATESIZE); 66838035ed6SNavdeep Parhar static int sge_flbuf_sizes[] = { 6691458bff9SNavdeep Parhar MCLBYTES, 6701458bff9SNavdeep Parhar #if MJUMPAGESIZE != MCLBYTES 6711458bff9SNavdeep Parhar MJUMPAGESIZE, 67238035ed6SNavdeep Parhar MJUMPAGESIZE - CL_METADATA_SIZE, 67338035ed6SNavdeep Parhar MJUMPAGESIZE - 2 * MSIZE - CL_METADATA_SIZE, 6741458bff9SNavdeep Parhar #endif 6751458bff9SNavdeep Parhar MJUM9BYTES, 6761458bff9SNavdeep Parhar MJUM16BYTES, 67738035ed6SNavdeep Parhar MCLBYTES - MSIZE - CL_METADATA_SIZE, 67838035ed6SNavdeep Parhar MJUM9BYTES - CL_METADATA_SIZE, 67938035ed6SNavdeep Parhar MJUM16BYTES - CL_METADATA_SIZE, 6801458bff9SNavdeep Parhar }; 681d14b0ac1SNavdeep Parhar 682d14b0ac1SNavdeep Parhar KASSERT(sc->flags & MASTER_PF, 683d14b0ac1SNavdeep Parhar ("%s: trying to change chip settings when not master.", __func__)); 684d14b0ac1SNavdeep Parhar 6851458bff9SNavdeep Parhar m = V_PKTSHIFT(M_PKTSHIFT) | F_RXPKTCPLMODE | F_EGRSTATUSPAGESIZE; 686d14b0ac1SNavdeep Parhar v = V_PKTSHIFT(fl_pktshift) | F_RXPKTCPLMODE | 6874defc81bSNavdeep Parhar V_EGRSTATUSPAGESIZE(spg_len == 128); 688d14b0ac1SNavdeep Parhar t4_set_reg_field(sc, A_SGE_CONTROL, m, v); 68954e4ee71SNavdeep Parhar 690e3207e19SNavdeep Parhar setup_pad_and_pack_boundaries(sc); 6911458bff9SNavdeep Parhar 692d14b0ac1SNavdeep Parhar v = V_HOSTPAGESIZEPF0(PAGE_SHIFT - 10) | 693733b9277SNavdeep Parhar V_HOSTPAGESIZEPF1(PAGE_SHIFT - 10) | 694733b9277SNavdeep Parhar V_HOSTPAGESIZEPF2(PAGE_SHIFT - 10) | 695733b9277SNavdeep Parhar V_HOSTPAGESIZEPF3(PAGE_SHIFT - 10) | 696733b9277SNavdeep Parhar V_HOSTPAGESIZEPF4(PAGE_SHIFT - 10) | 697733b9277SNavdeep Parhar V_HOSTPAGESIZEPF5(PAGE_SHIFT - 10) | 698733b9277SNavdeep Parhar V_HOSTPAGESIZEPF6(PAGE_SHIFT - 10) | 699733b9277SNavdeep Parhar V_HOSTPAGESIZEPF7(PAGE_SHIFT - 10); 700d14b0ac1SNavdeep Parhar t4_write_reg(sc, A_SGE_HOST_PAGE_SIZE, v); 701733b9277SNavdeep Parhar 70238035ed6SNavdeep Parhar KASSERT(nitems(sge_flbuf_sizes) <= SGE_FLBUF_SIZES, 70338035ed6SNavdeep Parhar ("%s: hw buffer size table too big", __func__)); 7049b11a65dSNavdeep Parhar t4_write_reg(sc, A_SGE_FL_BUFFER_SIZE0, 4096); 7059b11a65dSNavdeep Parhar t4_write_reg(sc, A_SGE_FL_BUFFER_SIZE1, 65536); 70638035ed6SNavdeep Parhar for (i = 0; i < min(nitems(sge_flbuf_sizes), SGE_FLBUF_SIZES); i++) { 7079b11a65dSNavdeep Parhar t4_write_reg(sc, A_SGE_FL_BUFFER_SIZE15 - (4 * i), 70838035ed6SNavdeep Parhar sge_flbuf_sizes[i]); 70954e4ee71SNavdeep Parhar } 71054e4ee71SNavdeep Parhar 711d14b0ac1SNavdeep Parhar v = V_THRESHOLD_0(intr_pktcount[0]) | V_THRESHOLD_1(intr_pktcount[1]) | 712d14b0ac1SNavdeep Parhar V_THRESHOLD_2(intr_pktcount[2]) | V_THRESHOLD_3(intr_pktcount[3]); 713d14b0ac1SNavdeep Parhar t4_write_reg(sc, A_SGE_INGRESS_RX_THRESHOLD, v); 71454e4ee71SNavdeep Parhar 715cf738022SNavdeep Parhar KASSERT(intr_timer[0] <= timer_max, 716cf738022SNavdeep Parhar ("%s: not a single usable timer (%d, %d)", __func__, intr_timer[0], 717cf738022SNavdeep Parhar timer_max)); 718cf738022SNavdeep Parhar for (i = 1; i < nitems(intr_timer); i++) { 719cf738022SNavdeep Parhar KASSERT(intr_timer[i] >= intr_timer[i - 1], 720cf738022SNavdeep Parhar ("%s: timers not listed in increasing order (%d)", 721cf738022SNavdeep Parhar __func__, i)); 722cf738022SNavdeep Parhar 723cf738022SNavdeep Parhar while (intr_timer[i] > timer_max) { 724cf738022SNavdeep Parhar if (i == nitems(intr_timer) - 1) { 725cf738022SNavdeep Parhar intr_timer[i] = timer_max; 726cf738022SNavdeep Parhar break; 727cf738022SNavdeep Parhar } 728cf738022SNavdeep Parhar intr_timer[i] += intr_timer[i - 1]; 729cf738022SNavdeep Parhar intr_timer[i] /= 2; 730cf738022SNavdeep Parhar } 731cf738022SNavdeep Parhar } 732cf738022SNavdeep Parhar 733d14b0ac1SNavdeep Parhar v = V_TIMERVALUE0(us_to_core_ticks(sc, intr_timer[0])) | 734d14b0ac1SNavdeep Parhar V_TIMERVALUE1(us_to_core_ticks(sc, intr_timer[1])); 735d14b0ac1SNavdeep Parhar t4_write_reg(sc, A_SGE_TIMER_VALUE_0_AND_1, v); 736d14b0ac1SNavdeep Parhar v = V_TIMERVALUE2(us_to_core_ticks(sc, intr_timer[2])) | 737d14b0ac1SNavdeep Parhar V_TIMERVALUE3(us_to_core_ticks(sc, intr_timer[3])); 738d14b0ac1SNavdeep Parhar t4_write_reg(sc, A_SGE_TIMER_VALUE_2_AND_3, v); 739d14b0ac1SNavdeep Parhar v = V_TIMERVALUE4(us_to_core_ticks(sc, intr_timer[4])) | 740d14b0ac1SNavdeep Parhar V_TIMERVALUE5(us_to_core_ticks(sc, intr_timer[5])); 741d14b0ac1SNavdeep Parhar t4_write_reg(sc, A_SGE_TIMER_VALUE_4_AND_5, v); 74286e02bf2SNavdeep Parhar 743d491f8caSNavdeep Parhar if (chip_id(sc) >= CHELSIO_T6) { 744d491f8caSNavdeep Parhar m = V_TSCALE(M_TSCALE); 745d491f8caSNavdeep Parhar if (tscale == 1) 746d491f8caSNavdeep Parhar v = 0; 747d491f8caSNavdeep Parhar else 748d491f8caSNavdeep Parhar v = V_TSCALE(tscale - 2); 749d491f8caSNavdeep Parhar t4_set_reg_field(sc, A_SGE_ITP_CONTROL, m, v); 7502f318252SNavdeep Parhar 7512f318252SNavdeep Parhar if (sc->debug_flags & DF_DISABLE_TCB_CACHE) { 7522f318252SNavdeep Parhar m = V_RDTHRESHOLD(M_RDTHRESHOLD) | F_WRTHRTHRESHEN | 7532f318252SNavdeep Parhar V_WRTHRTHRESH(M_WRTHRTHRESH); 7542f318252SNavdeep Parhar t4_tp_pio_read(sc, &v, 1, A_TP_CMM_CONFIG, 1); 7552f318252SNavdeep Parhar v &= ~m; 7562f318252SNavdeep Parhar v |= V_RDTHRESHOLD(1) | F_WRTHRTHRESHEN | 7572f318252SNavdeep Parhar V_WRTHRTHRESH(16); 7582f318252SNavdeep Parhar t4_tp_pio_write(sc, &v, 1, A_TP_CMM_CONFIG, 1); 7592f318252SNavdeep Parhar } 760d491f8caSNavdeep Parhar } 761d491f8caSNavdeep Parhar 7627cba15b1SNavdeep Parhar /* 4K, 16K, 64K, 256K DDP "page sizes" for TDDP */ 763d14b0ac1SNavdeep Parhar v = V_HPZ0(0) | V_HPZ1(2) | V_HPZ2(4) | V_HPZ3(6); 764d14b0ac1SNavdeep Parhar t4_write_reg(sc, A_ULP_RX_TDDP_PSZ, v); 765d14b0ac1SNavdeep Parhar 7667cba15b1SNavdeep Parhar /* 7677cba15b1SNavdeep Parhar * 4K, 8K, 16K, 64K DDP "page sizes" for iSCSI DDP. These have been 7687cba15b1SNavdeep Parhar * chosen with MAXPHYS = 128K in mind. The largest DDP buffer that we 7697cba15b1SNavdeep Parhar * may have to deal with is MAXPHYS + 1 page. 7707cba15b1SNavdeep Parhar */ 7717cba15b1SNavdeep Parhar v = V_HPZ0(0) | V_HPZ1(1) | V_HPZ2(2) | V_HPZ3(4); 7727cba15b1SNavdeep Parhar t4_write_reg(sc, A_ULP_RX_ISCSI_PSZ, v); 7737cba15b1SNavdeep Parhar 7747cba15b1SNavdeep Parhar /* We use multiple DDP page sizes both in plain-TOE and ISCSI modes. */ 7757cba15b1SNavdeep Parhar m = v = F_TDDPTAGTCB | F_ISCSITAGTCB; 776d14b0ac1SNavdeep Parhar t4_set_reg_field(sc, A_ULP_RX_CTL, m, v); 777d14b0ac1SNavdeep Parhar 778d14b0ac1SNavdeep Parhar m = V_INDICATESIZE(M_INDICATESIZE) | F_REARMDDPOFFSET | 779d14b0ac1SNavdeep Parhar F_RESETDDPOFFSET; 780d14b0ac1SNavdeep Parhar v = V_INDICATESIZE(indsz) | F_REARMDDPOFFSET | F_RESETDDPOFFSET; 781d14b0ac1SNavdeep Parhar t4_set_reg_field(sc, A_TP_PARA_REG5, m, v); 782d14b0ac1SNavdeep Parhar } 783d14b0ac1SNavdeep Parhar 784d14b0ac1SNavdeep Parhar /* 785e3207e19SNavdeep Parhar * SGE wants the buffer to be at least 64B and then a multiple of 16. If 7868f6690d3SJohn Baldwin * padding is in use, the buffer's start and end need to be aligned to the pad 787b741402cSNavdeep Parhar * boundary as well. We'll just make sure that the size is a multiple of the 788b741402cSNavdeep Parhar * boundary here, it is up to the buffer allocation code to make sure the start 789b741402cSNavdeep Parhar * of the buffer is aligned as well. 79038035ed6SNavdeep Parhar */ 79138035ed6SNavdeep Parhar static inline int 792e3207e19SNavdeep Parhar hwsz_ok(struct adapter *sc, int hwsz) 79338035ed6SNavdeep Parhar { 79490e7434aSNavdeep Parhar int mask = fl_pad ? sc->params.sge.pad_boundary - 1 : 16 - 1; 79538035ed6SNavdeep Parhar 796b741402cSNavdeep Parhar return (hwsz >= 64 && (hwsz & mask) == 0); 79738035ed6SNavdeep Parhar } 79838035ed6SNavdeep Parhar 79938035ed6SNavdeep Parhar /* 800d14b0ac1SNavdeep Parhar * XXX: driver really should be able to deal with unexpected settings. 801d14b0ac1SNavdeep Parhar */ 802d14b0ac1SNavdeep Parhar int 803d14b0ac1SNavdeep Parhar t4_read_chip_settings(struct adapter *sc) 804d14b0ac1SNavdeep Parhar { 805d14b0ac1SNavdeep Parhar struct sge *s = &sc->sge; 80690e7434aSNavdeep Parhar struct sge_params *sp = &sc->params.sge; 8071458bff9SNavdeep Parhar int i, j, n, rc = 0; 808d14b0ac1SNavdeep Parhar uint32_t m, v, r; 809d14b0ac1SNavdeep Parhar uint16_t indsz = min(RX_COPY_THRESHOLD - 1, M_INDICATESIZE); 81038035ed6SNavdeep Parhar static int sw_buf_sizes[] = { /* Sorted by size */ 8111458bff9SNavdeep Parhar MCLBYTES, 8121458bff9SNavdeep Parhar #if MJUMPAGESIZE != MCLBYTES 8131458bff9SNavdeep Parhar MJUMPAGESIZE, 8141458bff9SNavdeep Parhar #endif 8151458bff9SNavdeep Parhar MJUM9BYTES, 8161458bff9SNavdeep Parhar MJUM16BYTES 8171458bff9SNavdeep Parhar }; 81838035ed6SNavdeep Parhar struct sw_zone_info *swz, *safe_swz; 81938035ed6SNavdeep Parhar struct hw_buf_info *hwb; 820d14b0ac1SNavdeep Parhar 82190e7434aSNavdeep Parhar m = F_RXPKTCPLMODE; 82290e7434aSNavdeep Parhar v = F_RXPKTCPLMODE; 82359c1e950SJohn Baldwin r = sc->params.sge.sge_control; 824d14b0ac1SNavdeep Parhar if ((r & m) != v) { 825d14b0ac1SNavdeep Parhar device_printf(sc->dev, "invalid SGE_CONTROL(0x%x)\n", r); 826733b9277SNavdeep Parhar rc = EINVAL; 827733b9277SNavdeep Parhar } 828733b9277SNavdeep Parhar 82990e7434aSNavdeep Parhar /* 83090e7434aSNavdeep Parhar * If this changes then every single use of PAGE_SHIFT in the driver 83190e7434aSNavdeep Parhar * needs to be carefully reviewed for PAGE_SHIFT vs sp->page_shift. 83290e7434aSNavdeep Parhar */ 83390e7434aSNavdeep Parhar if (sp->page_shift != PAGE_SHIFT) { 834d14b0ac1SNavdeep Parhar device_printf(sc->dev, "invalid SGE_HOST_PAGE_SIZE(0x%x)\n", r); 835733b9277SNavdeep Parhar rc = EINVAL; 836733b9277SNavdeep Parhar } 837733b9277SNavdeep Parhar 83838035ed6SNavdeep Parhar /* Filter out unusable hw buffer sizes entirely (mark with -2). */ 83938035ed6SNavdeep Parhar hwb = &s->hw_buf_info[0]; 84038035ed6SNavdeep Parhar for (i = 0; i < nitems(s->hw_buf_info); i++, hwb++) { 84159c1e950SJohn Baldwin r = sc->params.sge.sge_fl_buffer_size[i]; 84238035ed6SNavdeep Parhar hwb->size = r; 843e3207e19SNavdeep Parhar hwb->zidx = hwsz_ok(sc, r) ? -1 : -2; 84438035ed6SNavdeep Parhar hwb->next = -1; 8451458bff9SNavdeep Parhar } 84638035ed6SNavdeep Parhar 84738035ed6SNavdeep Parhar /* 84838035ed6SNavdeep Parhar * Create a sorted list in decreasing order of hw buffer sizes (and so 84938035ed6SNavdeep Parhar * increasing order of spare area) for each software zone. 850e3207e19SNavdeep Parhar * 851e3207e19SNavdeep Parhar * If padding is enabled then the start and end of the buffer must align 852e3207e19SNavdeep Parhar * to the pad boundary; if packing is enabled then they must align with 853e3207e19SNavdeep Parhar * the pack boundary as well. Allocations from the cluster zones are 854e3207e19SNavdeep Parhar * aligned to min(size, 4K), so the buffer starts at that alignment and 855e3207e19SNavdeep Parhar * ends at hwb->size alignment. If mbuf inlining is allowed the 856e3207e19SNavdeep Parhar * starting alignment will be reduced to MSIZE and the driver will 857e3207e19SNavdeep Parhar * exercise appropriate caution when deciding on the best buffer layout 858e3207e19SNavdeep Parhar * to use. 85938035ed6SNavdeep Parhar */ 86038035ed6SNavdeep Parhar n = 0; /* no usable buffer size to begin with */ 86138035ed6SNavdeep Parhar swz = &s->sw_zone_info[0]; 86238035ed6SNavdeep Parhar safe_swz = NULL; 86338035ed6SNavdeep Parhar for (i = 0; i < SW_ZONE_SIZES; i++, swz++) { 86438035ed6SNavdeep Parhar int8_t head = -1, tail = -1; 86538035ed6SNavdeep Parhar 86638035ed6SNavdeep Parhar swz->size = sw_buf_sizes[i]; 86738035ed6SNavdeep Parhar swz->zone = m_getzone(swz->size); 86838035ed6SNavdeep Parhar swz->type = m_gettype(swz->size); 86938035ed6SNavdeep Parhar 870e3207e19SNavdeep Parhar if (swz->size < PAGE_SIZE) { 871e3207e19SNavdeep Parhar MPASS(powerof2(swz->size)); 87290e7434aSNavdeep Parhar if (fl_pad && (swz->size % sp->pad_boundary != 0)) 873e3207e19SNavdeep Parhar continue; 874e3207e19SNavdeep Parhar } 875e3207e19SNavdeep Parhar 87638035ed6SNavdeep Parhar if (swz->size == safest_rx_cluster) 87738035ed6SNavdeep Parhar safe_swz = swz; 87838035ed6SNavdeep Parhar 87938035ed6SNavdeep Parhar hwb = &s->hw_buf_info[0]; 88038035ed6SNavdeep Parhar for (j = 0; j < SGE_FLBUF_SIZES; j++, hwb++) { 88138035ed6SNavdeep Parhar if (hwb->zidx != -1 || hwb->size > swz->size) 8821458bff9SNavdeep Parhar continue; 883e3207e19SNavdeep Parhar #ifdef INVARIANTS 884e3207e19SNavdeep Parhar if (fl_pad) 88590e7434aSNavdeep Parhar MPASS(hwb->size % sp->pad_boundary == 0); 886e3207e19SNavdeep Parhar #endif 88738035ed6SNavdeep Parhar hwb->zidx = i; 88838035ed6SNavdeep Parhar if (head == -1) 88938035ed6SNavdeep Parhar head = tail = j; 89038035ed6SNavdeep Parhar else if (hwb->size < s->hw_buf_info[tail].size) { 89138035ed6SNavdeep Parhar s->hw_buf_info[tail].next = j; 89238035ed6SNavdeep Parhar tail = j; 89338035ed6SNavdeep Parhar } else { 89438035ed6SNavdeep Parhar int8_t *cur; 89538035ed6SNavdeep Parhar struct hw_buf_info *t; 89638035ed6SNavdeep Parhar 89738035ed6SNavdeep Parhar for (cur = &head; *cur != -1; cur = &t->next) { 89838035ed6SNavdeep Parhar t = &s->hw_buf_info[*cur]; 89938035ed6SNavdeep Parhar if (hwb->size == t->size) { 90038035ed6SNavdeep Parhar hwb->zidx = -2; 9011458bff9SNavdeep Parhar break; 9021458bff9SNavdeep Parhar } 90338035ed6SNavdeep Parhar if (hwb->size > t->size) { 90438035ed6SNavdeep Parhar hwb->next = *cur; 90538035ed6SNavdeep Parhar *cur = j; 90638035ed6SNavdeep Parhar break; 90738035ed6SNavdeep Parhar } 90838035ed6SNavdeep Parhar } 90938035ed6SNavdeep Parhar } 91038035ed6SNavdeep Parhar } 91138035ed6SNavdeep Parhar swz->head_hwidx = head; 91238035ed6SNavdeep Parhar swz->tail_hwidx = tail; 91338035ed6SNavdeep Parhar 91438035ed6SNavdeep Parhar if (tail != -1) { 91538035ed6SNavdeep Parhar n++; 91638035ed6SNavdeep Parhar if (swz->size - s->hw_buf_info[tail].size >= 91738035ed6SNavdeep Parhar CL_METADATA_SIZE) 91838035ed6SNavdeep Parhar sc->flags |= BUF_PACKING_OK; 91938035ed6SNavdeep Parhar } 9201458bff9SNavdeep Parhar } 9211458bff9SNavdeep Parhar if (n == 0) { 9221458bff9SNavdeep Parhar device_printf(sc->dev, "no usable SGE FL buffer size.\n"); 9231458bff9SNavdeep Parhar rc = EINVAL; 924733b9277SNavdeep Parhar } 92538035ed6SNavdeep Parhar 92638035ed6SNavdeep Parhar s->safe_hwidx1 = -1; 92738035ed6SNavdeep Parhar s->safe_hwidx2 = -1; 92838035ed6SNavdeep Parhar if (safe_swz != NULL) { 92938035ed6SNavdeep Parhar s->safe_hwidx1 = safe_swz->head_hwidx; 93038035ed6SNavdeep Parhar for (i = safe_swz->head_hwidx; i != -1; i = hwb->next) { 93138035ed6SNavdeep Parhar int spare; 93238035ed6SNavdeep Parhar 93338035ed6SNavdeep Parhar hwb = &s->hw_buf_info[i]; 934e3207e19SNavdeep Parhar #ifdef INVARIANTS 935e3207e19SNavdeep Parhar if (fl_pad) 93690e7434aSNavdeep Parhar MPASS(hwb->size % sp->pad_boundary == 0); 937e3207e19SNavdeep Parhar #endif 93838035ed6SNavdeep Parhar spare = safe_swz->size - hwb->size; 939e3207e19SNavdeep Parhar if (spare >= CL_METADATA_SIZE) { 94038035ed6SNavdeep Parhar s->safe_hwidx2 = i; 94138035ed6SNavdeep Parhar break; 94238035ed6SNavdeep Parhar } 94338035ed6SNavdeep Parhar } 944e3207e19SNavdeep Parhar } 945733b9277SNavdeep Parhar 9466af45170SJohn Baldwin if (sc->flags & IS_VF) 9476af45170SJohn Baldwin return (0); 9486af45170SJohn Baldwin 949d14b0ac1SNavdeep Parhar v = V_HPZ0(0) | V_HPZ1(2) | V_HPZ2(4) | V_HPZ3(6); 950d14b0ac1SNavdeep Parhar r = t4_read_reg(sc, A_ULP_RX_TDDP_PSZ); 951d14b0ac1SNavdeep Parhar if (r != v) { 952d14b0ac1SNavdeep Parhar device_printf(sc->dev, "invalid ULP_RX_TDDP_PSZ(0x%x)\n", r); 953d14b0ac1SNavdeep Parhar rc = EINVAL; 954d14b0ac1SNavdeep Parhar } 955733b9277SNavdeep Parhar 956d14b0ac1SNavdeep Parhar m = v = F_TDDPTAGTCB; 957d14b0ac1SNavdeep Parhar r = t4_read_reg(sc, A_ULP_RX_CTL); 958d14b0ac1SNavdeep Parhar if ((r & m) != v) { 959d14b0ac1SNavdeep Parhar device_printf(sc->dev, "invalid ULP_RX_CTL(0x%x)\n", r); 960d14b0ac1SNavdeep Parhar rc = EINVAL; 961d14b0ac1SNavdeep Parhar } 962d14b0ac1SNavdeep Parhar 963d14b0ac1SNavdeep Parhar m = V_INDICATESIZE(M_INDICATESIZE) | F_REARMDDPOFFSET | 964d14b0ac1SNavdeep Parhar F_RESETDDPOFFSET; 965d14b0ac1SNavdeep Parhar v = V_INDICATESIZE(indsz) | F_REARMDDPOFFSET | F_RESETDDPOFFSET; 966d14b0ac1SNavdeep Parhar r = t4_read_reg(sc, A_TP_PARA_REG5); 967d14b0ac1SNavdeep Parhar if ((r & m) != v) { 968d14b0ac1SNavdeep Parhar device_printf(sc->dev, "invalid TP_PARA_REG5(0x%x)\n", r); 969d14b0ac1SNavdeep Parhar rc = EINVAL; 970d14b0ac1SNavdeep Parhar } 971d14b0ac1SNavdeep Parhar 972c45b1868SNavdeep Parhar t4_init_tp_params(sc, 1); 973d14b0ac1SNavdeep Parhar 974d14b0ac1SNavdeep Parhar t4_read_mtu_tbl(sc, sc->params.mtus, NULL); 975d14b0ac1SNavdeep Parhar t4_load_mtus(sc, sc->params.mtus, sc->params.a_wnd, sc->params.b_wnd); 976d14b0ac1SNavdeep Parhar 977733b9277SNavdeep Parhar return (rc); 97854e4ee71SNavdeep Parhar } 97954e4ee71SNavdeep Parhar 98054e4ee71SNavdeep Parhar int 98154e4ee71SNavdeep Parhar t4_create_dma_tag(struct adapter *sc) 98254e4ee71SNavdeep Parhar { 98354e4ee71SNavdeep Parhar int rc; 98454e4ee71SNavdeep Parhar 98554e4ee71SNavdeep Parhar rc = bus_dma_tag_create(bus_get_dma_tag(sc->dev), 1, 0, 98654e4ee71SNavdeep Parhar BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, NULL, NULL, BUS_SPACE_MAXSIZE, 98754e4ee71SNavdeep Parhar BUS_SPACE_UNRESTRICTED, BUS_SPACE_MAXSIZE, BUS_DMA_ALLOCNOW, NULL, 98854e4ee71SNavdeep Parhar NULL, &sc->dmat); 98954e4ee71SNavdeep Parhar if (rc != 0) { 99054e4ee71SNavdeep Parhar device_printf(sc->dev, 99154e4ee71SNavdeep Parhar "failed to create main DMA tag: %d\n", rc); 99254e4ee71SNavdeep Parhar } 99354e4ee71SNavdeep Parhar 99454e4ee71SNavdeep Parhar return (rc); 99554e4ee71SNavdeep Parhar } 99654e4ee71SNavdeep Parhar 9976e22f9f3SNavdeep Parhar void 9986e22f9f3SNavdeep Parhar t4_sge_sysctls(struct adapter *sc, struct sysctl_ctx_list *ctx, 9996e22f9f3SNavdeep Parhar struct sysctl_oid_list *children) 10006e22f9f3SNavdeep Parhar { 100190e7434aSNavdeep Parhar struct sge_params *sp = &sc->params.sge; 10026e22f9f3SNavdeep Parhar 100338035ed6SNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "buffer_sizes", 100438035ed6SNavdeep Parhar CTLTYPE_STRING | CTLFLAG_RD, &sc->sge, 0, sysctl_bufsizes, "A", 100538035ed6SNavdeep Parhar "freelist buffer sizes"); 100638035ed6SNavdeep Parhar 10076e22f9f3SNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "fl_pktshift", CTLFLAG_RD, 100890e7434aSNavdeep Parhar NULL, sp->fl_pktshift, "payload DMA offset in rx buffer (bytes)"); 10096e22f9f3SNavdeep Parhar 10106e22f9f3SNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "fl_pad", CTLFLAG_RD, 101190e7434aSNavdeep Parhar NULL, sp->pad_boundary, "payload pad boundary (bytes)"); 10126e22f9f3SNavdeep Parhar 10136e22f9f3SNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "spg_len", CTLFLAG_RD, 101490e7434aSNavdeep Parhar NULL, sp->spg_len, "status page size (bytes)"); 10156e22f9f3SNavdeep Parhar 10166e22f9f3SNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "cong_drop", CTLFLAG_RD, 10176e22f9f3SNavdeep Parhar NULL, cong_drop, "congestion drop setting"); 10181458bff9SNavdeep Parhar 10191458bff9SNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "fl_pack", CTLFLAG_RD, 102090e7434aSNavdeep Parhar NULL, sp->pack_boundary, "payload pack boundary (bytes)"); 10216e22f9f3SNavdeep Parhar } 10226e22f9f3SNavdeep Parhar 102354e4ee71SNavdeep Parhar int 102454e4ee71SNavdeep Parhar t4_destroy_dma_tag(struct adapter *sc) 102554e4ee71SNavdeep Parhar { 102654e4ee71SNavdeep Parhar if (sc->dmat) 102754e4ee71SNavdeep Parhar bus_dma_tag_destroy(sc->dmat); 102854e4ee71SNavdeep Parhar 102954e4ee71SNavdeep Parhar return (0); 103054e4ee71SNavdeep Parhar } 103154e4ee71SNavdeep Parhar 103254e4ee71SNavdeep Parhar /* 103337310a98SNavdeep Parhar * Allocate and initialize the firmware event queue, control queues, and special 103437310a98SNavdeep Parhar * purpose rx queues owned by the adapter. 103554e4ee71SNavdeep Parhar * 103654e4ee71SNavdeep Parhar * Returns errno on failure. Resources allocated up to that point may still be 103754e4ee71SNavdeep Parhar * allocated. Caller is responsible for cleanup in case this function fails. 103854e4ee71SNavdeep Parhar */ 103954e4ee71SNavdeep Parhar int 1040f7dfe243SNavdeep Parhar t4_setup_adapter_queues(struct adapter *sc) 104154e4ee71SNavdeep Parhar { 104237310a98SNavdeep Parhar struct sysctl_oid *oid; 104337310a98SNavdeep Parhar struct sysctl_oid_list *children; 104437310a98SNavdeep Parhar int rc, i; 104554e4ee71SNavdeep Parhar 104654e4ee71SNavdeep Parhar ADAPTER_LOCK_ASSERT_NOTOWNED(sc); 104754e4ee71SNavdeep Parhar 1048733b9277SNavdeep Parhar sysctl_ctx_init(&sc->ctx); 1049733b9277SNavdeep Parhar sc->flags |= ADAP_SYSCTL_CTX; 105054e4ee71SNavdeep Parhar 105156599263SNavdeep Parhar /* 105256599263SNavdeep Parhar * Firmware event queue 105356599263SNavdeep Parhar */ 1054733b9277SNavdeep Parhar rc = alloc_fwq(sc); 1055aa95b653SNavdeep Parhar if (rc != 0) 1056f7dfe243SNavdeep Parhar return (rc); 1057f7dfe243SNavdeep Parhar 1058f7dfe243SNavdeep Parhar /* 105937310a98SNavdeep Parhar * That's all for the VF driver. 1060f7dfe243SNavdeep Parhar */ 106137310a98SNavdeep Parhar if (sc->flags & IS_VF) 106237310a98SNavdeep Parhar return (rc); 106337310a98SNavdeep Parhar 106437310a98SNavdeep Parhar oid = device_get_sysctl_tree(sc->dev); 106537310a98SNavdeep Parhar children = SYSCTL_CHILDREN(oid); 106637310a98SNavdeep Parhar 106737310a98SNavdeep Parhar /* 106837310a98SNavdeep Parhar * XXX: General purpose rx queues, one per port. 106937310a98SNavdeep Parhar */ 107037310a98SNavdeep Parhar 107137310a98SNavdeep Parhar /* 107237310a98SNavdeep Parhar * Control queues, one per port. 107337310a98SNavdeep Parhar */ 107437310a98SNavdeep Parhar oid = SYSCTL_ADD_NODE(&sc->ctx, children, OID_AUTO, "ctrlq", 107537310a98SNavdeep Parhar CTLFLAG_RD, NULL, "control queues"); 107637310a98SNavdeep Parhar for_each_port(sc, i) { 107737310a98SNavdeep Parhar struct sge_wrq *ctrlq = &sc->sge.ctrlq[i]; 107837310a98SNavdeep Parhar 107937310a98SNavdeep Parhar rc = alloc_ctrlq(sc, ctrlq, i, oid); 108037310a98SNavdeep Parhar if (rc != 0) 108137310a98SNavdeep Parhar return (rc); 108237310a98SNavdeep Parhar } 108354e4ee71SNavdeep Parhar 108454e4ee71SNavdeep Parhar return (rc); 108554e4ee71SNavdeep Parhar } 108654e4ee71SNavdeep Parhar 108754e4ee71SNavdeep Parhar /* 108854e4ee71SNavdeep Parhar * Idempotent 108954e4ee71SNavdeep Parhar */ 109054e4ee71SNavdeep Parhar int 1091f7dfe243SNavdeep Parhar t4_teardown_adapter_queues(struct adapter *sc) 109254e4ee71SNavdeep Parhar { 109337310a98SNavdeep Parhar int i; 109454e4ee71SNavdeep Parhar 109554e4ee71SNavdeep Parhar ADAPTER_LOCK_ASSERT_NOTOWNED(sc); 109654e4ee71SNavdeep Parhar 1097733b9277SNavdeep Parhar /* Do this before freeing the queue */ 1098733b9277SNavdeep Parhar if (sc->flags & ADAP_SYSCTL_CTX) { 1099f7dfe243SNavdeep Parhar sysctl_ctx_free(&sc->ctx); 1100733b9277SNavdeep Parhar sc->flags &= ~ADAP_SYSCTL_CTX; 1101f7dfe243SNavdeep Parhar } 1102f7dfe243SNavdeep Parhar 1103b8bfcb71SNavdeep Parhar if (!(sc->flags & IS_VF)) { 110437310a98SNavdeep Parhar for_each_port(sc, i) 110537310a98SNavdeep Parhar free_wrq(sc, &sc->sge.ctrlq[i]); 1106b8bfcb71SNavdeep Parhar } 1107733b9277SNavdeep Parhar free_fwq(sc); 110854e4ee71SNavdeep Parhar 110954e4ee71SNavdeep Parhar return (0); 111054e4ee71SNavdeep Parhar } 111154e4ee71SNavdeep Parhar 111238035ed6SNavdeep Parhar /* Maximum payload that can be delivered with a single iq descriptor */ 11138340ece5SNavdeep Parhar static inline int 111438035ed6SNavdeep Parhar mtu_to_max_payload(struct adapter *sc, int mtu, const int toe) 11158340ece5SNavdeep Parhar { 111638035ed6SNavdeep Parhar int payload; 11178340ece5SNavdeep Parhar 11186eb3180fSNavdeep Parhar #ifdef TCP_OFFLOAD 111938035ed6SNavdeep Parhar if (toe) { 11201131c927SNavdeep Parhar int rxcs = G_RXCOALESCESIZE(t4_read_reg(sc, A_TP_PARA_REG2)); 11211131c927SNavdeep Parhar 11221131c927SNavdeep Parhar /* Note that COP can set rx_coalesce on/off per connection. */ 11231131c927SNavdeep Parhar payload = max(mtu, rxcs); 112438035ed6SNavdeep Parhar } else { 112538035ed6SNavdeep Parhar #endif 112638035ed6SNavdeep Parhar /* large enough even when hw VLAN extraction is disabled */ 112790e7434aSNavdeep Parhar payload = sc->params.sge.fl_pktshift + ETHER_HDR_LEN + 112890e7434aSNavdeep Parhar ETHER_VLAN_ENCAP_LEN + mtu; 112938035ed6SNavdeep Parhar #ifdef TCP_OFFLOAD 11306eb3180fSNavdeep Parhar } 11316eb3180fSNavdeep Parhar #endif 113238035ed6SNavdeep Parhar 113338035ed6SNavdeep Parhar return (payload); 113438035ed6SNavdeep Parhar } 11356eb3180fSNavdeep Parhar 1136733b9277SNavdeep Parhar int 1137fe2ebb76SJohn Baldwin t4_setup_vi_queues(struct vi_info *vi) 1138733b9277SNavdeep Parhar { 1139f549e352SNavdeep Parhar int rc = 0, i, intr_idx, iqidx; 1140733b9277SNavdeep Parhar struct sge_rxq *rxq; 1141733b9277SNavdeep Parhar struct sge_txq *txq; 114209fe6320SNavdeep Parhar #ifdef TCP_OFFLOAD 1143733b9277SNavdeep Parhar struct sge_ofld_rxq *ofld_rxq; 1144eff62dbaSNavdeep Parhar #endif 1145eff62dbaSNavdeep Parhar #if defined(TCP_OFFLOAD) || defined(RATELIMIT) 1146733b9277SNavdeep Parhar struct sge_wrq *ofld_txq; 1147298d969cSNavdeep Parhar #endif 1148298d969cSNavdeep Parhar #ifdef DEV_NETMAP 114962291463SNavdeep Parhar int saved_idx; 1150298d969cSNavdeep Parhar struct sge_nm_rxq *nm_rxq; 1151298d969cSNavdeep Parhar struct sge_nm_txq *nm_txq; 1152733b9277SNavdeep Parhar #endif 1153733b9277SNavdeep Parhar char name[16]; 1154fe2ebb76SJohn Baldwin struct port_info *pi = vi->pi; 1155733b9277SNavdeep Parhar struct adapter *sc = pi->adapter; 1156fe2ebb76SJohn Baldwin struct ifnet *ifp = vi->ifp; 1157fe2ebb76SJohn Baldwin struct sysctl_oid *oid = device_get_sysctl_tree(vi->dev); 1158733b9277SNavdeep Parhar struct sysctl_oid_list *children = SYSCTL_CHILDREN(oid); 1159e3207e19SNavdeep Parhar int maxp, mtu = ifp->if_mtu; 1160733b9277SNavdeep Parhar 1161733b9277SNavdeep Parhar /* Interrupt vector to start from (when using multiple vectors) */ 1162f549e352SNavdeep Parhar intr_idx = vi->first_intr; 1163fe2ebb76SJohn Baldwin 1164fe2ebb76SJohn Baldwin #ifdef DEV_NETMAP 116562291463SNavdeep Parhar saved_idx = intr_idx; 116662291463SNavdeep Parhar if (ifp->if_capabilities & IFCAP_NETMAP) { 116762291463SNavdeep Parhar 116862291463SNavdeep Parhar /* netmap is supported with direct interrupts only. */ 1169f549e352SNavdeep Parhar MPASS(!forwarding_intr_to_fwq(sc)); 117062291463SNavdeep Parhar 1171fe2ebb76SJohn Baldwin /* 1172fe2ebb76SJohn Baldwin * We don't have buffers to back the netmap rx queues 1173fe2ebb76SJohn Baldwin * right now so we create the queues in a way that 1174fe2ebb76SJohn Baldwin * doesn't set off any congestion signal in the chip. 1175fe2ebb76SJohn Baldwin */ 117662291463SNavdeep Parhar oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, "nm_rxq", 1177fe2ebb76SJohn Baldwin CTLFLAG_RD, NULL, "rx queues"); 1178fe2ebb76SJohn Baldwin for_each_nm_rxq(vi, i, nm_rxq) { 1179fe2ebb76SJohn Baldwin rc = alloc_nm_rxq(vi, nm_rxq, intr_idx, i, oid); 1180fe2ebb76SJohn Baldwin if (rc != 0) 1181fe2ebb76SJohn Baldwin goto done; 1182fe2ebb76SJohn Baldwin intr_idx++; 1183fe2ebb76SJohn Baldwin } 1184fe2ebb76SJohn Baldwin 118562291463SNavdeep Parhar oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, "nm_txq", 1186fe2ebb76SJohn Baldwin CTLFLAG_RD, NULL, "tx queues"); 1187fe2ebb76SJohn Baldwin for_each_nm_txq(vi, i, nm_txq) { 1188f549e352SNavdeep Parhar iqidx = vi->first_nm_rxq + (i % vi->nnmrxq); 1189f549e352SNavdeep Parhar rc = alloc_nm_txq(vi, nm_txq, iqidx, i, oid); 1190fe2ebb76SJohn Baldwin if (rc != 0) 1191fe2ebb76SJohn Baldwin goto done; 1192fe2ebb76SJohn Baldwin } 1193fe2ebb76SJohn Baldwin } 119462291463SNavdeep Parhar 119562291463SNavdeep Parhar /* Normal rx queues and netmap rx queues share the same interrupts. */ 119662291463SNavdeep Parhar intr_idx = saved_idx; 1197fe2ebb76SJohn Baldwin #endif 1198733b9277SNavdeep Parhar 1199733b9277SNavdeep Parhar /* 1200f549e352SNavdeep Parhar * Allocate rx queues first because a default iqid is required when 1201f549e352SNavdeep Parhar * creating a tx queue. 1202733b9277SNavdeep Parhar */ 120338035ed6SNavdeep Parhar maxp = mtu_to_max_payload(sc, mtu, 0); 1204fe2ebb76SJohn Baldwin oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, "rxq", 1205298d969cSNavdeep Parhar CTLFLAG_RD, NULL, "rx queues"); 1206fe2ebb76SJohn Baldwin for_each_rxq(vi, i, rxq) { 120754e4ee71SNavdeep Parhar 1208fe2ebb76SJohn Baldwin init_iq(&rxq->iq, sc, vi->tmr_idx, vi->pktc_idx, vi->qsize_rxq); 120954e4ee71SNavdeep Parhar 121054e4ee71SNavdeep Parhar snprintf(name, sizeof(name), "%s rxq%d-fl", 1211fe2ebb76SJohn Baldwin device_get_nameunit(vi->dev), i); 1212fe2ebb76SJohn Baldwin init_fl(sc, &rxq->fl, vi->qsize_rxq / 8, maxp, name); 121354e4ee71SNavdeep Parhar 1214f549e352SNavdeep Parhar rc = alloc_rxq(vi, rxq, 1215f549e352SNavdeep Parhar forwarding_intr_to_fwq(sc) ? -1 : intr_idx, i, oid); 121654e4ee71SNavdeep Parhar if (rc != 0) 121754e4ee71SNavdeep Parhar goto done; 1218733b9277SNavdeep Parhar intr_idx++; 1219733b9277SNavdeep Parhar } 122062291463SNavdeep Parhar #ifdef DEV_NETMAP 122162291463SNavdeep Parhar if (ifp->if_capabilities & IFCAP_NETMAP) 122262291463SNavdeep Parhar intr_idx = saved_idx + max(vi->nrxq, vi->nnmrxq); 122362291463SNavdeep Parhar #endif 122409fe6320SNavdeep Parhar #ifdef TCP_OFFLOAD 122538035ed6SNavdeep Parhar maxp = mtu_to_max_payload(sc, mtu, 1); 1226fe2ebb76SJohn Baldwin oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, "ofld_rxq", 1227f549e352SNavdeep Parhar CTLFLAG_RD, NULL, "rx queues for offloaded TCP connections"); 1228fe2ebb76SJohn Baldwin for_each_ofld_rxq(vi, i, ofld_rxq) { 1229733b9277SNavdeep Parhar 123008cd1f11SNavdeep Parhar init_iq(&ofld_rxq->iq, sc, vi->ofld_tmr_idx, vi->ofld_pktc_idx, 1231fe2ebb76SJohn Baldwin vi->qsize_rxq); 1232733b9277SNavdeep Parhar 1233733b9277SNavdeep Parhar snprintf(name, sizeof(name), "%s ofld_rxq%d-fl", 1234fe2ebb76SJohn Baldwin device_get_nameunit(vi->dev), i); 1235fe2ebb76SJohn Baldwin init_fl(sc, &ofld_rxq->fl, vi->qsize_rxq / 8, maxp, name); 1236733b9277SNavdeep Parhar 1237f549e352SNavdeep Parhar rc = alloc_ofld_rxq(vi, ofld_rxq, 1238f549e352SNavdeep Parhar forwarding_intr_to_fwq(sc) ? -1 : intr_idx, i, oid); 1239733b9277SNavdeep Parhar if (rc != 0) 1240733b9277SNavdeep Parhar goto done; 1241733b9277SNavdeep Parhar intr_idx++; 1242733b9277SNavdeep Parhar } 1243733b9277SNavdeep Parhar #endif 1244733b9277SNavdeep Parhar 1245733b9277SNavdeep Parhar /* 1246f549e352SNavdeep Parhar * Now the tx queues. 1247733b9277SNavdeep Parhar */ 1248fe2ebb76SJohn Baldwin oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, "txq", CTLFLAG_RD, 1249733b9277SNavdeep Parhar NULL, "tx queues"); 1250fe2ebb76SJohn Baldwin for_each_txq(vi, i, txq) { 1251f549e352SNavdeep Parhar iqidx = vi->first_rxq + (i % vi->nrxq); 125254e4ee71SNavdeep Parhar snprintf(name, sizeof(name), "%s txq%d", 1253fe2ebb76SJohn Baldwin device_get_nameunit(vi->dev), i); 1254f549e352SNavdeep Parhar init_eq(sc, &txq->eq, EQ_ETH, vi->qsize_txq, pi->tx_chan, 1255f549e352SNavdeep Parhar sc->sge.rxq[iqidx].iq.cntxt_id, name); 125654e4ee71SNavdeep Parhar 1257fe2ebb76SJohn Baldwin rc = alloc_txq(vi, txq, i, oid); 125854e4ee71SNavdeep Parhar if (rc != 0) 125954e4ee71SNavdeep Parhar goto done; 126054e4ee71SNavdeep Parhar } 1261eff62dbaSNavdeep Parhar #if defined(TCP_OFFLOAD) || defined(RATELIMIT) 1262fe2ebb76SJohn Baldwin oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, "ofld_txq", 1263eff62dbaSNavdeep Parhar CTLFLAG_RD, NULL, "tx queues for TOE/ETHOFLD"); 1264fe2ebb76SJohn Baldwin for_each_ofld_txq(vi, i, ofld_txq) { 1265298d969cSNavdeep Parhar struct sysctl_oid *oid2; 1266733b9277SNavdeep Parhar 1267733b9277SNavdeep Parhar snprintf(name, sizeof(name), "%s ofld_txq%d", 1268fe2ebb76SJohn Baldwin device_get_nameunit(vi->dev), i); 1269c3a88be4SNavdeep Parhar if (vi->nofldrxq > 0) { 1270eff62dbaSNavdeep Parhar iqidx = vi->first_ofld_rxq + (i % vi->nofldrxq); 1271c3a88be4SNavdeep Parhar init_eq(sc, &ofld_txq->eq, EQ_OFLD, vi->qsize_txq, 1272c3a88be4SNavdeep Parhar pi->tx_chan, sc->sge.ofld_rxq[iqidx].iq.cntxt_id, 1273c3a88be4SNavdeep Parhar name); 1274c3a88be4SNavdeep Parhar } else { 1275eff62dbaSNavdeep Parhar iqidx = vi->first_rxq + (i % vi->nrxq); 1276c3a88be4SNavdeep Parhar init_eq(sc, &ofld_txq->eq, EQ_OFLD, vi->qsize_txq, 1277c3a88be4SNavdeep Parhar pi->tx_chan, sc->sge.rxq[iqidx].iq.cntxt_id, name); 1278c3a88be4SNavdeep Parhar } 1279733b9277SNavdeep Parhar 1280733b9277SNavdeep Parhar snprintf(name, sizeof(name), "%d", i); 1281fe2ebb76SJohn Baldwin oid2 = SYSCTL_ADD_NODE(&vi->ctx, SYSCTL_CHILDREN(oid), OID_AUTO, 1282733b9277SNavdeep Parhar name, CTLFLAG_RD, NULL, "offload tx queue"); 1283733b9277SNavdeep Parhar 1284fe2ebb76SJohn Baldwin rc = alloc_wrq(sc, vi, ofld_txq, oid2); 1285298d969cSNavdeep Parhar if (rc != 0) 1286298d969cSNavdeep Parhar goto done; 1287298d969cSNavdeep Parhar } 1288298d969cSNavdeep Parhar #endif 128954e4ee71SNavdeep Parhar done: 129054e4ee71SNavdeep Parhar if (rc) 1291fe2ebb76SJohn Baldwin t4_teardown_vi_queues(vi); 129254e4ee71SNavdeep Parhar 129354e4ee71SNavdeep Parhar return (rc); 129454e4ee71SNavdeep Parhar } 129554e4ee71SNavdeep Parhar 129654e4ee71SNavdeep Parhar /* 129754e4ee71SNavdeep Parhar * Idempotent 129854e4ee71SNavdeep Parhar */ 129954e4ee71SNavdeep Parhar int 1300fe2ebb76SJohn Baldwin t4_teardown_vi_queues(struct vi_info *vi) 130154e4ee71SNavdeep Parhar { 130254e4ee71SNavdeep Parhar int i; 130354e4ee71SNavdeep Parhar struct sge_rxq *rxq; 130454e4ee71SNavdeep Parhar struct sge_txq *txq; 130537310a98SNavdeep Parhar #if defined(TCP_OFFLOAD) || defined(RATELIMIT) 130637310a98SNavdeep Parhar struct port_info *pi = vi->pi; 130737310a98SNavdeep Parhar struct adapter *sc = pi->adapter; 130837310a98SNavdeep Parhar struct sge_wrq *ofld_txq; 130937310a98SNavdeep Parhar #endif 131009fe6320SNavdeep Parhar #ifdef TCP_OFFLOAD 1311733b9277SNavdeep Parhar struct sge_ofld_rxq *ofld_rxq; 1312eff62dbaSNavdeep Parhar #endif 1313298d969cSNavdeep Parhar #ifdef DEV_NETMAP 1314298d969cSNavdeep Parhar struct sge_nm_rxq *nm_rxq; 1315298d969cSNavdeep Parhar struct sge_nm_txq *nm_txq; 1316298d969cSNavdeep Parhar #endif 131754e4ee71SNavdeep Parhar 131854e4ee71SNavdeep Parhar /* Do this before freeing the queues */ 1319fe2ebb76SJohn Baldwin if (vi->flags & VI_SYSCTL_CTX) { 1320fe2ebb76SJohn Baldwin sysctl_ctx_free(&vi->ctx); 1321fe2ebb76SJohn Baldwin vi->flags &= ~VI_SYSCTL_CTX; 132254e4ee71SNavdeep Parhar } 132354e4ee71SNavdeep Parhar 1324fe2ebb76SJohn Baldwin #ifdef DEV_NETMAP 132562291463SNavdeep Parhar if (vi->ifp->if_capabilities & IFCAP_NETMAP) { 1326fe2ebb76SJohn Baldwin for_each_nm_txq(vi, i, nm_txq) { 1327fe2ebb76SJohn Baldwin free_nm_txq(vi, nm_txq); 1328fe2ebb76SJohn Baldwin } 1329fe2ebb76SJohn Baldwin 1330fe2ebb76SJohn Baldwin for_each_nm_rxq(vi, i, nm_rxq) { 1331fe2ebb76SJohn Baldwin free_nm_rxq(vi, nm_rxq); 1332fe2ebb76SJohn Baldwin } 1333fe2ebb76SJohn Baldwin } 1334fe2ebb76SJohn Baldwin #endif 1335fe2ebb76SJohn Baldwin 1336733b9277SNavdeep Parhar /* 1337733b9277SNavdeep Parhar * Take down all the tx queues first, as they reference the rx queues 1338733b9277SNavdeep Parhar * (for egress updates, etc.). 1339733b9277SNavdeep Parhar */ 1340733b9277SNavdeep Parhar 1341fe2ebb76SJohn Baldwin for_each_txq(vi, i, txq) { 1342fe2ebb76SJohn Baldwin free_txq(vi, txq); 134354e4ee71SNavdeep Parhar } 1344eff62dbaSNavdeep Parhar #if defined(TCP_OFFLOAD) || defined(RATELIMIT) 1345fe2ebb76SJohn Baldwin for_each_ofld_txq(vi, i, ofld_txq) { 1346733b9277SNavdeep Parhar free_wrq(sc, ofld_txq); 1347733b9277SNavdeep Parhar } 1348733b9277SNavdeep Parhar #endif 1349733b9277SNavdeep Parhar 1350733b9277SNavdeep Parhar /* 1351f549e352SNavdeep Parhar * Then take down the rx queues. 1352733b9277SNavdeep Parhar */ 1353733b9277SNavdeep Parhar 1354fe2ebb76SJohn Baldwin for_each_rxq(vi, i, rxq) { 1355fe2ebb76SJohn Baldwin free_rxq(vi, rxq); 135654e4ee71SNavdeep Parhar } 135709fe6320SNavdeep Parhar #ifdef TCP_OFFLOAD 1358fe2ebb76SJohn Baldwin for_each_ofld_rxq(vi, i, ofld_rxq) { 1359fe2ebb76SJohn Baldwin free_ofld_rxq(vi, ofld_rxq); 1360733b9277SNavdeep Parhar } 1361733b9277SNavdeep Parhar #endif 1362733b9277SNavdeep Parhar 136354e4ee71SNavdeep Parhar return (0); 136454e4ee71SNavdeep Parhar } 136554e4ee71SNavdeep Parhar 1366733b9277SNavdeep Parhar /* 13673098bcfcSNavdeep Parhar * Interrupt handler when the driver is using only 1 interrupt. This is a very 13683098bcfcSNavdeep Parhar * unusual scenario. 13693098bcfcSNavdeep Parhar * 13703098bcfcSNavdeep Parhar * a) Deals with errors, if any. 13713098bcfcSNavdeep Parhar * b) Services firmware event queue, which is taking interrupts for all other 13723098bcfcSNavdeep Parhar * queues. 1373733b9277SNavdeep Parhar */ 137454e4ee71SNavdeep Parhar void 137554e4ee71SNavdeep Parhar t4_intr_all(void *arg) 137654e4ee71SNavdeep Parhar { 137754e4ee71SNavdeep Parhar struct adapter *sc = arg; 1378733b9277SNavdeep Parhar struct sge_iq *fwq = &sc->sge.fwq; 137954e4ee71SNavdeep Parhar 13803098bcfcSNavdeep Parhar MPASS(sc->intr_count == 1); 13813098bcfcSNavdeep Parhar 13821dca7005SNavdeep Parhar if (sc->intr_type == INTR_INTX) 13831dca7005SNavdeep Parhar t4_write_reg(sc, MYPF_REG(A_PCIE_PF_CLI), 0); 13841dca7005SNavdeep Parhar 138554e4ee71SNavdeep Parhar t4_intr_err(arg); 13863098bcfcSNavdeep Parhar t4_intr_evt(fwq); 138754e4ee71SNavdeep Parhar } 138854e4ee71SNavdeep Parhar 13893098bcfcSNavdeep Parhar /* 13903098bcfcSNavdeep Parhar * Interrupt handler for errors (installed directly when multiple interrupts are 13913098bcfcSNavdeep Parhar * being used, or called by t4_intr_all). 13923098bcfcSNavdeep Parhar */ 139354e4ee71SNavdeep Parhar void 139454e4ee71SNavdeep Parhar t4_intr_err(void *arg) 139554e4ee71SNavdeep Parhar { 139654e4ee71SNavdeep Parhar struct adapter *sc = arg; 1397*dd3b96ecSNavdeep Parhar uint32_t v; 1398cb7c3f12SNavdeep Parhar const bool verbose = (sc->debug_flags & DF_VERBOSE_SLOWINTR) != 0; 139954e4ee71SNavdeep Parhar 1400cb7c3f12SNavdeep Parhar if (sc->flags & ADAP_ERR) 1401cb7c3f12SNavdeep Parhar return; 1402cb7c3f12SNavdeep Parhar 1403*dd3b96ecSNavdeep Parhar v = t4_read_reg(sc, MYPF_REG(A_PL_PF_INT_CAUSE)); 1404*dd3b96ecSNavdeep Parhar if (v & F_PFSW) { 1405*dd3b96ecSNavdeep Parhar sc->swintr++; 1406*dd3b96ecSNavdeep Parhar t4_write_reg(sc, MYPF_REG(A_PL_PF_INT_CAUSE), v); 1407*dd3b96ecSNavdeep Parhar } 1408*dd3b96ecSNavdeep Parhar 1409cb7c3f12SNavdeep Parhar t4_slow_intr_handler(sc, verbose); 141054e4ee71SNavdeep Parhar } 141154e4ee71SNavdeep Parhar 14123098bcfcSNavdeep Parhar /* 14133098bcfcSNavdeep Parhar * Interrupt handler for iq-only queues. The firmware event queue is the only 14143098bcfcSNavdeep Parhar * such queue right now. 14153098bcfcSNavdeep Parhar */ 141654e4ee71SNavdeep Parhar void 141754e4ee71SNavdeep Parhar t4_intr_evt(void *arg) 141854e4ee71SNavdeep Parhar { 141954e4ee71SNavdeep Parhar struct sge_iq *iq = arg; 14202be67d29SNavdeep Parhar 1421733b9277SNavdeep Parhar if (atomic_cmpset_int(&iq->state, IQS_IDLE, IQS_BUSY)) { 1422733b9277SNavdeep Parhar service_iq(iq, 0); 1423da6e3387SNavdeep Parhar (void) atomic_cmpset_int(&iq->state, IQS_BUSY, IQS_IDLE); 14242be67d29SNavdeep Parhar } 14252be67d29SNavdeep Parhar } 14262be67d29SNavdeep Parhar 14273098bcfcSNavdeep Parhar /* 14283098bcfcSNavdeep Parhar * Interrupt handler for iq+fl queues. 14293098bcfcSNavdeep Parhar */ 1430733b9277SNavdeep Parhar void 1431733b9277SNavdeep Parhar t4_intr(void *arg) 14322be67d29SNavdeep Parhar { 14332be67d29SNavdeep Parhar struct sge_iq *iq = arg; 1434733b9277SNavdeep Parhar 1435733b9277SNavdeep Parhar if (atomic_cmpset_int(&iq->state, IQS_IDLE, IQS_BUSY)) { 14363098bcfcSNavdeep Parhar service_iq_fl(iq, 0); 1437da6e3387SNavdeep Parhar (void) atomic_cmpset_int(&iq->state, IQS_BUSY, IQS_IDLE); 1438733b9277SNavdeep Parhar } 1439733b9277SNavdeep Parhar } 1440733b9277SNavdeep Parhar 14413098bcfcSNavdeep Parhar #ifdef DEV_NETMAP 14423098bcfcSNavdeep Parhar /* 14433098bcfcSNavdeep Parhar * Interrupt handler for netmap rx queues. 14443098bcfcSNavdeep Parhar */ 14453098bcfcSNavdeep Parhar void 14463098bcfcSNavdeep Parhar t4_nm_intr(void *arg) 14473098bcfcSNavdeep Parhar { 14483098bcfcSNavdeep Parhar struct sge_nm_rxq *nm_rxq = arg; 14493098bcfcSNavdeep Parhar 14503098bcfcSNavdeep Parhar if (atomic_cmpset_int(&nm_rxq->nm_state, NM_ON, NM_BUSY)) { 14513098bcfcSNavdeep Parhar service_nm_rxq(nm_rxq); 1452da6e3387SNavdeep Parhar (void) atomic_cmpset_int(&nm_rxq->nm_state, NM_BUSY, NM_ON); 14533098bcfcSNavdeep Parhar } 14543098bcfcSNavdeep Parhar } 14553098bcfcSNavdeep Parhar 14563098bcfcSNavdeep Parhar /* 14573098bcfcSNavdeep Parhar * Interrupt handler for vectors shared between NIC and netmap rx queues. 14583098bcfcSNavdeep Parhar */ 145962291463SNavdeep Parhar void 146062291463SNavdeep Parhar t4_vi_intr(void *arg) 146162291463SNavdeep Parhar { 146262291463SNavdeep Parhar struct irq *irq = arg; 146362291463SNavdeep Parhar 14643098bcfcSNavdeep Parhar MPASS(irq->nm_rxq != NULL); 146562291463SNavdeep Parhar t4_nm_intr(irq->nm_rxq); 14663098bcfcSNavdeep Parhar 14673098bcfcSNavdeep Parhar MPASS(irq->rxq != NULL); 146862291463SNavdeep Parhar t4_intr(irq->rxq); 146962291463SNavdeep Parhar } 14703098bcfcSNavdeep Parhar #endif 147146f48ee5SNavdeep Parhar 1472733b9277SNavdeep Parhar /* 14733098bcfcSNavdeep Parhar * Deals with interrupts on an iq-only (no freelist) queue. 1474733b9277SNavdeep Parhar */ 1475733b9277SNavdeep Parhar static int 1476733b9277SNavdeep Parhar service_iq(struct sge_iq *iq, int budget) 1477733b9277SNavdeep Parhar { 1478733b9277SNavdeep Parhar struct sge_iq *q; 147954e4ee71SNavdeep Parhar struct adapter *sc = iq->adapter; 1480b2daa9a9SNavdeep Parhar struct iq_desc *d = &iq->desc[iq->cidx]; 14814d6db4e0SNavdeep Parhar int ndescs = 0, limit; 14823098bcfcSNavdeep Parhar int rsp_type; 1483733b9277SNavdeep Parhar uint32_t lq; 1484733b9277SNavdeep Parhar STAILQ_HEAD(, sge_iq) iql = STAILQ_HEAD_INITIALIZER(iql); 1485733b9277SNavdeep Parhar 1486733b9277SNavdeep Parhar KASSERT(iq->state == IQS_BUSY, ("%s: iq %p not BUSY", __func__, iq)); 14873098bcfcSNavdeep Parhar KASSERT((iq->flags & IQ_HAS_FL) == 0, 14883098bcfcSNavdeep Parhar ("%s: called for iq %p with fl (iq->flags 0x%x)", __func__, iq, 14893098bcfcSNavdeep Parhar iq->flags)); 14903098bcfcSNavdeep Parhar MPASS((iq->flags & IQ_ADJ_CREDIT) == 0); 14913098bcfcSNavdeep Parhar MPASS((iq->flags & IQ_LRO_ENABLED) == 0); 1492733b9277SNavdeep Parhar 14934d6db4e0SNavdeep Parhar limit = budget ? budget : iq->qsize / 16; 14944d6db4e0SNavdeep Parhar 1495733b9277SNavdeep Parhar /* 1496733b9277SNavdeep Parhar * We always come back and check the descriptor ring for new indirect 1497733b9277SNavdeep Parhar * interrupts and other responses after running a single handler. 1498733b9277SNavdeep Parhar */ 1499733b9277SNavdeep Parhar for (;;) { 1500b2daa9a9SNavdeep Parhar while ((d->rsp.u.type_gen & F_RSPD_GEN) == iq->gen) { 150154e4ee71SNavdeep Parhar 150254e4ee71SNavdeep Parhar rmb(); 150354e4ee71SNavdeep Parhar 1504b2daa9a9SNavdeep Parhar rsp_type = G_RSPD_TYPE(d->rsp.u.type_gen); 1505b2daa9a9SNavdeep Parhar lq = be32toh(d->rsp.pldbuflen_qid); 150654e4ee71SNavdeep Parhar 1507733b9277SNavdeep Parhar switch (rsp_type) { 1508733b9277SNavdeep Parhar case X_RSPD_TYPE_FLBUF: 15093098bcfcSNavdeep Parhar panic("%s: data for an iq (%p) with no freelist", 15103098bcfcSNavdeep Parhar __func__, iq); 151154e4ee71SNavdeep Parhar 15123098bcfcSNavdeep Parhar /* NOTREACHED */ 1513733b9277SNavdeep Parhar 1514733b9277SNavdeep Parhar case X_RSPD_TYPE_CPL: 1515b2daa9a9SNavdeep Parhar KASSERT(d->rss.opcode < NUM_CPL_CMDS, 1516733b9277SNavdeep Parhar ("%s: bad opcode %02x.", __func__, 1517b2daa9a9SNavdeep Parhar d->rss.opcode)); 15183098bcfcSNavdeep Parhar t4_cpl_handler[d->rss.opcode](iq, &d->rss, NULL); 1519733b9277SNavdeep Parhar break; 1520733b9277SNavdeep Parhar 1521733b9277SNavdeep Parhar case X_RSPD_TYPE_INTR: 152298005176SNavdeep Parhar /* 152398005176SNavdeep Parhar * There are 1K interrupt-capable queues (qids 0 152498005176SNavdeep Parhar * through 1023). A response type indicating a 152598005176SNavdeep Parhar * forwarded interrupt with a qid >= 1K is an 152698005176SNavdeep Parhar * iWARP async notification. 152798005176SNavdeep Parhar */ 15283098bcfcSNavdeep Parhar if (__predict_true(lq >= 1024)) { 1529671bf2b8SNavdeep Parhar t4_an_handler(iq, &d->rsp); 153098005176SNavdeep Parhar break; 153198005176SNavdeep Parhar } 153298005176SNavdeep Parhar 1533ec55567cSJohn Baldwin q = sc->sge.iqmap[lq - sc->sge.iq_start - 1534ec55567cSJohn Baldwin sc->sge.iq_base]; 1535733b9277SNavdeep Parhar if (atomic_cmpset_int(&q->state, IQS_IDLE, 1536733b9277SNavdeep Parhar IQS_BUSY)) { 15373098bcfcSNavdeep Parhar if (service_iq_fl(q, q->qsize / 16) == 0) { 1538da6e3387SNavdeep Parhar (void) atomic_cmpset_int(&q->state, 1539733b9277SNavdeep Parhar IQS_BUSY, IQS_IDLE); 1540733b9277SNavdeep Parhar } else { 1541733b9277SNavdeep Parhar STAILQ_INSERT_TAIL(&iql, q, 1542733b9277SNavdeep Parhar link); 1543733b9277SNavdeep Parhar } 1544733b9277SNavdeep Parhar } 1545733b9277SNavdeep Parhar break; 1546733b9277SNavdeep Parhar 1547733b9277SNavdeep Parhar default: 154898005176SNavdeep Parhar KASSERT(0, 154998005176SNavdeep Parhar ("%s: illegal response type %d on iq %p", 155098005176SNavdeep Parhar __func__, rsp_type, iq)); 155198005176SNavdeep Parhar log(LOG_ERR, 155298005176SNavdeep Parhar "%s: illegal response type %d on iq %p", 155398005176SNavdeep Parhar device_get_nameunit(sc->dev), rsp_type, iq); 155409fe6320SNavdeep Parhar break; 155554e4ee71SNavdeep Parhar } 155656599263SNavdeep Parhar 1557b2daa9a9SNavdeep Parhar d++; 1558b2daa9a9SNavdeep Parhar if (__predict_false(++iq->cidx == iq->sidx)) { 1559b2daa9a9SNavdeep Parhar iq->cidx = 0; 1560b2daa9a9SNavdeep Parhar iq->gen ^= F_RSPD_GEN; 1561b2daa9a9SNavdeep Parhar d = &iq->desc[0]; 1562b2daa9a9SNavdeep Parhar } 1563b2daa9a9SNavdeep Parhar if (__predict_false(++ndescs == limit)) { 1564315048f2SJohn Baldwin t4_write_reg(sc, sc->sge_gts_reg, 1565733b9277SNavdeep Parhar V_CIDXINC(ndescs) | 1566733b9277SNavdeep Parhar V_INGRESSQID(iq->cntxt_id) | 1567733b9277SNavdeep Parhar V_SEINTARM(V_QINTR_TIMER_IDX(X_TIMERREG_UPDATE_CIDX))); 1568733b9277SNavdeep Parhar ndescs = 0; 1569733b9277SNavdeep Parhar 15703098bcfcSNavdeep Parhar if (budget) { 15713098bcfcSNavdeep Parhar return (EINPROGRESS); 15723098bcfcSNavdeep Parhar } 15733098bcfcSNavdeep Parhar } 15743098bcfcSNavdeep Parhar } 15753098bcfcSNavdeep Parhar 15763098bcfcSNavdeep Parhar if (STAILQ_EMPTY(&iql)) 15773098bcfcSNavdeep Parhar break; 15783098bcfcSNavdeep Parhar 15793098bcfcSNavdeep Parhar /* 15803098bcfcSNavdeep Parhar * Process the head only, and send it to the back of the list if 15813098bcfcSNavdeep Parhar * it's still not done. 15823098bcfcSNavdeep Parhar */ 15833098bcfcSNavdeep Parhar q = STAILQ_FIRST(&iql); 15843098bcfcSNavdeep Parhar STAILQ_REMOVE_HEAD(&iql, link); 15853098bcfcSNavdeep Parhar if (service_iq_fl(q, q->qsize / 8) == 0) 1586da6e3387SNavdeep Parhar (void) atomic_cmpset_int(&q->state, IQS_BUSY, IQS_IDLE); 15873098bcfcSNavdeep Parhar else 15883098bcfcSNavdeep Parhar STAILQ_INSERT_TAIL(&iql, q, link); 15893098bcfcSNavdeep Parhar } 15903098bcfcSNavdeep Parhar 15913098bcfcSNavdeep Parhar t4_write_reg(sc, sc->sge_gts_reg, V_CIDXINC(ndescs) | 15923098bcfcSNavdeep Parhar V_INGRESSQID((u32)iq->cntxt_id) | V_SEINTARM(iq->intr_params)); 15933098bcfcSNavdeep Parhar 15943098bcfcSNavdeep Parhar return (0); 15953098bcfcSNavdeep Parhar } 15963098bcfcSNavdeep Parhar 15973098bcfcSNavdeep Parhar static inline int 15983098bcfcSNavdeep Parhar sort_before_lro(struct lro_ctrl *lro) 15993098bcfcSNavdeep Parhar { 16003098bcfcSNavdeep Parhar 16013098bcfcSNavdeep Parhar return (lro->lro_mbuf_max != 0); 16023098bcfcSNavdeep Parhar } 16033098bcfcSNavdeep Parhar 1604e7e08444SNavdeep Parhar static inline uint64_t 1605e7e08444SNavdeep Parhar last_flit_to_ns(struct adapter *sc, uint64_t lf) 1606e7e08444SNavdeep Parhar { 1607e7e08444SNavdeep Parhar uint64_t n = be64toh(lf) & 0xfffffffffffffff; /* 60b, not 64b. */ 1608e7e08444SNavdeep Parhar 1609e7e08444SNavdeep Parhar if (n > UINT64_MAX / 1000000) 1610e7e08444SNavdeep Parhar return (n / sc->params.vpd.cclk * 1000000); 1611e7e08444SNavdeep Parhar else 1612e7e08444SNavdeep Parhar return (n * 1000000 / sc->params.vpd.cclk); 1613e7e08444SNavdeep Parhar } 1614e7e08444SNavdeep Parhar 16153098bcfcSNavdeep Parhar /* 16163098bcfcSNavdeep Parhar * Deals with interrupts on an iq+fl queue. 16173098bcfcSNavdeep Parhar */ 16183098bcfcSNavdeep Parhar static int 16193098bcfcSNavdeep Parhar service_iq_fl(struct sge_iq *iq, int budget) 16203098bcfcSNavdeep Parhar { 16213098bcfcSNavdeep Parhar struct sge_rxq *rxq = iq_to_rxq(iq); 16223098bcfcSNavdeep Parhar struct sge_fl *fl; 16233098bcfcSNavdeep Parhar struct adapter *sc = iq->adapter; 16243098bcfcSNavdeep Parhar struct iq_desc *d = &iq->desc[iq->cidx]; 16253098bcfcSNavdeep Parhar int ndescs = 0, limit; 16263098bcfcSNavdeep Parhar int rsp_type, refill, starved; 16273098bcfcSNavdeep Parhar uint32_t lq; 16283098bcfcSNavdeep Parhar uint16_t fl_hw_cidx; 16293098bcfcSNavdeep Parhar struct mbuf *m0; 16303098bcfcSNavdeep Parhar #if defined(INET) || defined(INET6) 16313098bcfcSNavdeep Parhar const struct timeval lro_timeout = {0, sc->lro_timeout}; 16323098bcfcSNavdeep Parhar struct lro_ctrl *lro = &rxq->lro; 16333098bcfcSNavdeep Parhar #endif 16343098bcfcSNavdeep Parhar 16353098bcfcSNavdeep Parhar KASSERT(iq->state == IQS_BUSY, ("%s: iq %p not BUSY", __func__, iq)); 16363098bcfcSNavdeep Parhar MPASS(iq->flags & IQ_HAS_FL); 16373098bcfcSNavdeep Parhar 16383098bcfcSNavdeep Parhar limit = budget ? budget : iq->qsize / 16; 16393098bcfcSNavdeep Parhar fl = &rxq->fl; 16403098bcfcSNavdeep Parhar fl_hw_cidx = fl->hw_cidx; /* stable snapshot */ 16413098bcfcSNavdeep Parhar 16423098bcfcSNavdeep Parhar #if defined(INET) || defined(INET6) 16433098bcfcSNavdeep Parhar if (iq->flags & IQ_ADJ_CREDIT) { 16443098bcfcSNavdeep Parhar MPASS(sort_before_lro(lro)); 16453098bcfcSNavdeep Parhar iq->flags &= ~IQ_ADJ_CREDIT; 16463098bcfcSNavdeep Parhar if ((d->rsp.u.type_gen & F_RSPD_GEN) != iq->gen) { 16473098bcfcSNavdeep Parhar tcp_lro_flush_all(lro); 16483098bcfcSNavdeep Parhar t4_write_reg(sc, sc->sge_gts_reg, V_CIDXINC(1) | 16493098bcfcSNavdeep Parhar V_INGRESSQID((u32)iq->cntxt_id) | 16503098bcfcSNavdeep Parhar V_SEINTARM(iq->intr_params)); 16513098bcfcSNavdeep Parhar return (0); 16523098bcfcSNavdeep Parhar } 16533098bcfcSNavdeep Parhar ndescs = 1; 16543098bcfcSNavdeep Parhar } 16553098bcfcSNavdeep Parhar #else 16563098bcfcSNavdeep Parhar MPASS((iq->flags & IQ_ADJ_CREDIT) == 0); 16573098bcfcSNavdeep Parhar #endif 16583098bcfcSNavdeep Parhar 16593098bcfcSNavdeep Parhar while ((d->rsp.u.type_gen & F_RSPD_GEN) == iq->gen) { 16603098bcfcSNavdeep Parhar 16613098bcfcSNavdeep Parhar rmb(); 16623098bcfcSNavdeep Parhar 16633098bcfcSNavdeep Parhar refill = 0; 16643098bcfcSNavdeep Parhar m0 = NULL; 16653098bcfcSNavdeep Parhar rsp_type = G_RSPD_TYPE(d->rsp.u.type_gen); 16663098bcfcSNavdeep Parhar lq = be32toh(d->rsp.pldbuflen_qid); 16673098bcfcSNavdeep Parhar 16683098bcfcSNavdeep Parhar switch (rsp_type) { 16693098bcfcSNavdeep Parhar case X_RSPD_TYPE_FLBUF: 16703098bcfcSNavdeep Parhar 16713098bcfcSNavdeep Parhar m0 = get_fl_payload(sc, fl, lq); 16723098bcfcSNavdeep Parhar if (__predict_false(m0 == NULL)) 16733098bcfcSNavdeep Parhar goto out; 16743098bcfcSNavdeep Parhar refill = IDXDIFF(fl->hw_cidx, fl_hw_cidx, fl->sidx) > 2; 1675e7e08444SNavdeep Parhar 1676e7e08444SNavdeep Parhar if (iq->flags & IQ_RX_TIMESTAMP) { 16773098bcfcSNavdeep Parhar /* 1678e7e08444SNavdeep Parhar * Fill up rcv_tstmp but do not set M_TSTMP. 1679e7e08444SNavdeep Parhar * rcv_tstmp is not in the format that the 1680e7e08444SNavdeep Parhar * kernel expects and we don't want to mislead 1681e7e08444SNavdeep Parhar * it. For now this is only for custom code 1682e7e08444SNavdeep Parhar * that knows how to interpret cxgbe's stamp. 16833098bcfcSNavdeep Parhar */ 1684e7e08444SNavdeep Parhar m0->m_pkthdr.rcv_tstmp = 1685e7e08444SNavdeep Parhar last_flit_to_ns(sc, d->rsp.u.last_flit); 1686e7e08444SNavdeep Parhar #ifdef notyet 1687e7e08444SNavdeep Parhar m0->m_flags |= M_TSTMP; 16883098bcfcSNavdeep Parhar #endif 1689e7e08444SNavdeep Parhar } 16903098bcfcSNavdeep Parhar 16913098bcfcSNavdeep Parhar /* fall through */ 16923098bcfcSNavdeep Parhar 16933098bcfcSNavdeep Parhar case X_RSPD_TYPE_CPL: 16943098bcfcSNavdeep Parhar KASSERT(d->rss.opcode < NUM_CPL_CMDS, 16953098bcfcSNavdeep Parhar ("%s: bad opcode %02x.", __func__, d->rss.opcode)); 16963098bcfcSNavdeep Parhar t4_cpl_handler[d->rss.opcode](iq, &d->rss, m0); 16973098bcfcSNavdeep Parhar break; 16983098bcfcSNavdeep Parhar 16993098bcfcSNavdeep Parhar case X_RSPD_TYPE_INTR: 17003098bcfcSNavdeep Parhar 17013098bcfcSNavdeep Parhar /* 17023098bcfcSNavdeep Parhar * There are 1K interrupt-capable queues (qids 0 17033098bcfcSNavdeep Parhar * through 1023). A response type indicating a 17043098bcfcSNavdeep Parhar * forwarded interrupt with a qid >= 1K is an 17053098bcfcSNavdeep Parhar * iWARP async notification. That is the only 17063098bcfcSNavdeep Parhar * acceptable indirect interrupt on this queue. 17073098bcfcSNavdeep Parhar */ 17083098bcfcSNavdeep Parhar if (__predict_false(lq < 1024)) { 17093098bcfcSNavdeep Parhar panic("%s: indirect interrupt on iq_fl %p " 17103098bcfcSNavdeep Parhar "with qid %u", __func__, iq, lq); 17113098bcfcSNavdeep Parhar } 17123098bcfcSNavdeep Parhar 17133098bcfcSNavdeep Parhar t4_an_handler(iq, &d->rsp); 17143098bcfcSNavdeep Parhar break; 17153098bcfcSNavdeep Parhar 17163098bcfcSNavdeep Parhar default: 17173098bcfcSNavdeep Parhar KASSERT(0, ("%s: illegal response type %d on iq %p", 17183098bcfcSNavdeep Parhar __func__, rsp_type, iq)); 17193098bcfcSNavdeep Parhar log(LOG_ERR, "%s: illegal response type %d on iq %p", 17203098bcfcSNavdeep Parhar device_get_nameunit(sc->dev), rsp_type, iq); 17213098bcfcSNavdeep Parhar break; 17223098bcfcSNavdeep Parhar } 17233098bcfcSNavdeep Parhar 17243098bcfcSNavdeep Parhar d++; 17253098bcfcSNavdeep Parhar if (__predict_false(++iq->cidx == iq->sidx)) { 17263098bcfcSNavdeep Parhar iq->cidx = 0; 17273098bcfcSNavdeep Parhar iq->gen ^= F_RSPD_GEN; 17283098bcfcSNavdeep Parhar d = &iq->desc[0]; 17293098bcfcSNavdeep Parhar } 17303098bcfcSNavdeep Parhar if (__predict_false(++ndescs == limit)) { 17313098bcfcSNavdeep Parhar t4_write_reg(sc, sc->sge_gts_reg, V_CIDXINC(ndescs) | 17323098bcfcSNavdeep Parhar V_INGRESSQID(iq->cntxt_id) | 17333098bcfcSNavdeep Parhar V_SEINTARM(V_QINTR_TIMER_IDX(X_TIMERREG_UPDATE_CIDX))); 17343098bcfcSNavdeep Parhar ndescs = 0; 17353098bcfcSNavdeep Parhar 1736480e603cSNavdeep Parhar #if defined(INET) || defined(INET6) 1737480e603cSNavdeep Parhar if (iq->flags & IQ_LRO_ENABLED && 173846f48ee5SNavdeep Parhar !sort_before_lro(lro) && 1739480e603cSNavdeep Parhar sc->lro_timeout != 0) { 17403098bcfcSNavdeep Parhar tcp_lro_flush_inactive(lro, &lro_timeout); 1741480e603cSNavdeep Parhar } 1742480e603cSNavdeep Parhar #endif 1743861e42b2SNavdeep Parhar if (budget) { 1744861e42b2SNavdeep Parhar FL_LOCK(fl); 1745861e42b2SNavdeep Parhar refill_fl(sc, fl, 32); 1746861e42b2SNavdeep Parhar FL_UNLOCK(fl); 17473098bcfcSNavdeep Parhar 1748733b9277SNavdeep Parhar return (EINPROGRESS); 174954e4ee71SNavdeep Parhar } 1750733b9277SNavdeep Parhar } 17514d6db4e0SNavdeep Parhar if (refill) { 17524d6db4e0SNavdeep Parhar FL_LOCK(fl); 17534d6db4e0SNavdeep Parhar refill_fl(sc, fl, 32); 17544d6db4e0SNavdeep Parhar FL_UNLOCK(fl); 17554d6db4e0SNavdeep Parhar fl_hw_cidx = fl->hw_cidx; 17564d6db4e0SNavdeep Parhar } 1757861e42b2SNavdeep Parhar } 17583098bcfcSNavdeep Parhar out: 1759a1ea9a82SNavdeep Parhar #if defined(INET) || defined(INET6) 1760733b9277SNavdeep Parhar if (iq->flags & IQ_LRO_ENABLED) { 176146f48ee5SNavdeep Parhar if (ndescs > 0 && lro->lro_mbuf_count > 8) { 176246f48ee5SNavdeep Parhar MPASS(sort_before_lro(lro)); 176346f48ee5SNavdeep Parhar /* hold back one credit and don't flush LRO state */ 176446f48ee5SNavdeep Parhar iq->flags |= IQ_ADJ_CREDIT; 176546f48ee5SNavdeep Parhar ndescs--; 176646f48ee5SNavdeep Parhar } else { 17676dd38b87SSepherosa Ziehau tcp_lro_flush_all(lro); 1768733b9277SNavdeep Parhar } 176946f48ee5SNavdeep Parhar } 1770733b9277SNavdeep Parhar #endif 1771733b9277SNavdeep Parhar 1772315048f2SJohn Baldwin t4_write_reg(sc, sc->sge_gts_reg, V_CIDXINC(ndescs) | 1773733b9277SNavdeep Parhar V_INGRESSQID((u32)iq->cntxt_id) | V_SEINTARM(iq->intr_params)); 1774733b9277SNavdeep Parhar 1775733b9277SNavdeep Parhar FL_LOCK(fl); 177638035ed6SNavdeep Parhar starved = refill_fl(sc, fl, 64); 1777733b9277SNavdeep Parhar FL_UNLOCK(fl); 1778733b9277SNavdeep Parhar if (__predict_false(starved != 0)) 1779733b9277SNavdeep Parhar add_fl_to_sfl(sc, fl); 1780733b9277SNavdeep Parhar 1781733b9277SNavdeep Parhar return (0); 1782733b9277SNavdeep Parhar } 1783733b9277SNavdeep Parhar 178438035ed6SNavdeep Parhar static inline int 178538035ed6SNavdeep Parhar cl_has_metadata(struct sge_fl *fl, struct cluster_layout *cll) 17861458bff9SNavdeep Parhar { 178738035ed6SNavdeep Parhar int rc = fl->flags & FL_BUF_PACKING || cll->region1 > 0; 17881458bff9SNavdeep Parhar 178938035ed6SNavdeep Parhar if (rc) 179038035ed6SNavdeep Parhar MPASS(cll->region3 >= CL_METADATA_SIZE); 179138035ed6SNavdeep Parhar 179238035ed6SNavdeep Parhar return (rc); 17931458bff9SNavdeep Parhar } 17941458bff9SNavdeep Parhar 179538035ed6SNavdeep Parhar static inline struct cluster_metadata * 179638035ed6SNavdeep Parhar cl_metadata(struct adapter *sc, struct sge_fl *fl, struct cluster_layout *cll, 179738035ed6SNavdeep Parhar caddr_t cl) 17981458bff9SNavdeep Parhar { 17991458bff9SNavdeep Parhar 180038035ed6SNavdeep Parhar if (cl_has_metadata(fl, cll)) { 180138035ed6SNavdeep Parhar struct sw_zone_info *swz = &sc->sge.sw_zone_info[cll->zidx]; 18021458bff9SNavdeep Parhar 180338035ed6SNavdeep Parhar return ((struct cluster_metadata *)(cl + swz->size) - 1); 18041458bff9SNavdeep Parhar } 180538035ed6SNavdeep Parhar return (NULL); 18061458bff9SNavdeep Parhar } 18071458bff9SNavdeep Parhar 180815c28f87SGleb Smirnoff static void 1809e8fd18f3SGleb Smirnoff rxb_free(struct mbuf *m) 18101458bff9SNavdeep Parhar { 1811e8fd18f3SGleb Smirnoff uma_zone_t zone = m->m_ext.ext_arg1; 1812e8fd18f3SGleb Smirnoff void *cl = m->m_ext.ext_arg2; 18131458bff9SNavdeep Parhar 18141458bff9SNavdeep Parhar uma_zfree(zone, cl); 181582eff304SNavdeep Parhar counter_u64_add(extfree_rels, 1); 18161458bff9SNavdeep Parhar } 18171458bff9SNavdeep Parhar 181838035ed6SNavdeep Parhar /* 181938035ed6SNavdeep Parhar * The mbuf returned by this function could be allocated from zone_mbuf or 182038035ed6SNavdeep Parhar * constructed in spare room in the cluster. 182138035ed6SNavdeep Parhar * 182238035ed6SNavdeep Parhar * The mbuf carries the payload in one of these ways 182338035ed6SNavdeep Parhar * a) frame inside the mbuf (mbuf from zone_mbuf) 182438035ed6SNavdeep Parhar * b) m_cljset (for clusters without metadata) zone_mbuf 182538035ed6SNavdeep Parhar * c) m_extaddref (cluster with metadata) inline mbuf 182638035ed6SNavdeep Parhar * d) m_extaddref (cluster with metadata) zone_mbuf 182738035ed6SNavdeep Parhar */ 18281458bff9SNavdeep Parhar static struct mbuf * 1829b741402cSNavdeep Parhar get_scatter_segment(struct adapter *sc, struct sge_fl *fl, int fr_offset, 1830b741402cSNavdeep Parhar int remaining) 183138035ed6SNavdeep Parhar { 183238035ed6SNavdeep Parhar struct mbuf *m; 183338035ed6SNavdeep Parhar struct fl_sdesc *sd = &fl->sdesc[fl->cidx]; 183438035ed6SNavdeep Parhar struct cluster_layout *cll = &sd->cll; 183538035ed6SNavdeep Parhar struct sw_zone_info *swz = &sc->sge.sw_zone_info[cll->zidx]; 183638035ed6SNavdeep Parhar struct hw_buf_info *hwb = &sc->sge.hw_buf_info[cll->hwidx]; 183738035ed6SNavdeep Parhar struct cluster_metadata *clm = cl_metadata(sc, fl, cll, sd->cl); 1838b741402cSNavdeep Parhar int len, blen; 183938035ed6SNavdeep Parhar caddr_t payload; 184038035ed6SNavdeep Parhar 1841b741402cSNavdeep Parhar blen = hwb->size - fl->rx_offset; /* max possible in this buf */ 1842b741402cSNavdeep Parhar len = min(remaining, blen); 184338035ed6SNavdeep Parhar payload = sd->cl + cll->region1 + fl->rx_offset; 1844e3207e19SNavdeep Parhar if (fl->flags & FL_BUF_PACKING) { 1845b741402cSNavdeep Parhar const u_int l = fr_offset + len; 1846b741402cSNavdeep Parhar const u_int pad = roundup2(l, fl->buf_boundary) - l; 1847b741402cSNavdeep Parhar 1848b741402cSNavdeep Parhar if (fl->rx_offset + len + pad < hwb->size) 1849b741402cSNavdeep Parhar blen = len + pad; 1850b741402cSNavdeep Parhar MPASS(fl->rx_offset + blen <= hwb->size); 1851e3207e19SNavdeep Parhar } else { 1852e3207e19SNavdeep Parhar MPASS(fl->rx_offset == 0); /* not packing */ 1853e3207e19SNavdeep Parhar } 185438035ed6SNavdeep Parhar 1855b741402cSNavdeep Parhar 185638035ed6SNavdeep Parhar if (sc->sc_do_rxcopy && len < RX_COPY_THRESHOLD) { 185738035ed6SNavdeep Parhar 185838035ed6SNavdeep Parhar /* 185938035ed6SNavdeep Parhar * Copy payload into a freshly allocated mbuf. 186038035ed6SNavdeep Parhar */ 186138035ed6SNavdeep Parhar 1862b741402cSNavdeep Parhar m = fr_offset == 0 ? 186338035ed6SNavdeep Parhar m_gethdr(M_NOWAIT, MT_DATA) : m_get(M_NOWAIT, MT_DATA); 186438035ed6SNavdeep Parhar if (m == NULL) 186538035ed6SNavdeep Parhar return (NULL); 186638035ed6SNavdeep Parhar fl->mbuf_allocated++; 1867e7e08444SNavdeep Parhar 186838035ed6SNavdeep Parhar /* copy data to mbuf */ 186938035ed6SNavdeep Parhar bcopy(payload, mtod(m, caddr_t), len); 187038035ed6SNavdeep Parhar 1871c3fb7725SNavdeep Parhar } else if (sd->nmbuf * MSIZE < cll->region1) { 187238035ed6SNavdeep Parhar 187338035ed6SNavdeep Parhar /* 187438035ed6SNavdeep Parhar * There's spare room in the cluster for an mbuf. Create one 1875ccc69b2fSNavdeep Parhar * and associate it with the payload that's in the cluster. 187638035ed6SNavdeep Parhar */ 187738035ed6SNavdeep Parhar 187838035ed6SNavdeep Parhar MPASS(clm != NULL); 1879c3fb7725SNavdeep Parhar m = (struct mbuf *)(sd->cl + sd->nmbuf * MSIZE); 188038035ed6SNavdeep Parhar /* No bzero required */ 1881b4b12e52SGleb Smirnoff if (m_init(m, M_NOWAIT, MT_DATA, 1882b741402cSNavdeep Parhar fr_offset == 0 ? M_PKTHDR | M_NOFREE : M_NOFREE)) 188338035ed6SNavdeep Parhar return (NULL); 188438035ed6SNavdeep Parhar fl->mbuf_inlined++; 1885b741402cSNavdeep Parhar m_extaddref(m, payload, blen, &clm->refcount, rxb_free, 188638035ed6SNavdeep Parhar swz->zone, sd->cl); 188782eff304SNavdeep Parhar if (sd->nmbuf++ == 0) 188882eff304SNavdeep Parhar counter_u64_add(extfree_refs, 1); 188938035ed6SNavdeep Parhar 189038035ed6SNavdeep Parhar } else { 189138035ed6SNavdeep Parhar 189238035ed6SNavdeep Parhar /* 189338035ed6SNavdeep Parhar * Grab an mbuf from zone_mbuf and associate it with the 189438035ed6SNavdeep Parhar * payload in the cluster. 189538035ed6SNavdeep Parhar */ 189638035ed6SNavdeep Parhar 1897b741402cSNavdeep Parhar m = fr_offset == 0 ? 189838035ed6SNavdeep Parhar m_gethdr(M_NOWAIT, MT_DATA) : m_get(M_NOWAIT, MT_DATA); 189938035ed6SNavdeep Parhar if (m == NULL) 190038035ed6SNavdeep Parhar return (NULL); 190138035ed6SNavdeep Parhar fl->mbuf_allocated++; 1902ccc69b2fSNavdeep Parhar if (clm != NULL) { 1903b741402cSNavdeep Parhar m_extaddref(m, payload, blen, &clm->refcount, 190438035ed6SNavdeep Parhar rxb_free, swz->zone, sd->cl); 190582eff304SNavdeep Parhar if (sd->nmbuf++ == 0) 190682eff304SNavdeep Parhar counter_u64_add(extfree_refs, 1); 1907ccc69b2fSNavdeep Parhar } else { 190838035ed6SNavdeep Parhar m_cljset(m, sd->cl, swz->type); 190938035ed6SNavdeep Parhar sd->cl = NULL; /* consumed, not a recycle candidate */ 191038035ed6SNavdeep Parhar } 191138035ed6SNavdeep Parhar } 1912b741402cSNavdeep Parhar if (fr_offset == 0) 1913b741402cSNavdeep Parhar m->m_pkthdr.len = remaining; 191438035ed6SNavdeep Parhar m->m_len = len; 191538035ed6SNavdeep Parhar 191638035ed6SNavdeep Parhar if (fl->flags & FL_BUF_PACKING) { 1917b741402cSNavdeep Parhar fl->rx_offset += blen; 191838035ed6SNavdeep Parhar MPASS(fl->rx_offset <= hwb->size); 191938035ed6SNavdeep Parhar if (fl->rx_offset < hwb->size) 192038035ed6SNavdeep Parhar return (m); /* without advancing the cidx */ 192138035ed6SNavdeep Parhar } 192238035ed6SNavdeep Parhar 19234d6db4e0SNavdeep Parhar if (__predict_false(++fl->cidx % 8 == 0)) { 19244d6db4e0SNavdeep Parhar uint16_t cidx = fl->cidx / 8; 19254d6db4e0SNavdeep Parhar 19264d6db4e0SNavdeep Parhar if (__predict_false(cidx == fl->sidx)) 19274d6db4e0SNavdeep Parhar fl->cidx = cidx = 0; 19284d6db4e0SNavdeep Parhar fl->hw_cidx = cidx; 19294d6db4e0SNavdeep Parhar } 193038035ed6SNavdeep Parhar fl->rx_offset = 0; 193138035ed6SNavdeep Parhar 193238035ed6SNavdeep Parhar return (m); 193338035ed6SNavdeep Parhar } 193438035ed6SNavdeep Parhar 193538035ed6SNavdeep Parhar static struct mbuf * 19364d6db4e0SNavdeep Parhar get_fl_payload(struct adapter *sc, struct sge_fl *fl, uint32_t len_newbuf) 19371458bff9SNavdeep Parhar { 193838035ed6SNavdeep Parhar struct mbuf *m0, *m, **pnext; 1939b741402cSNavdeep Parhar u_int remaining; 1940b741402cSNavdeep Parhar const u_int total = G_RSPD_LEN(len_newbuf); 19411458bff9SNavdeep Parhar 19424d6db4e0SNavdeep Parhar if (__predict_false(fl->flags & FL_BUF_RESUME)) { 1943368541baSNavdeep Parhar M_ASSERTPKTHDR(fl->m0); 1944b741402cSNavdeep Parhar MPASS(fl->m0->m_pkthdr.len == total); 1945b741402cSNavdeep Parhar MPASS(fl->remaining < total); 19461458bff9SNavdeep Parhar 194738035ed6SNavdeep Parhar m0 = fl->m0; 194838035ed6SNavdeep Parhar pnext = fl->pnext; 1949b741402cSNavdeep Parhar remaining = fl->remaining; 19504d6db4e0SNavdeep Parhar fl->flags &= ~FL_BUF_RESUME; 195138035ed6SNavdeep Parhar goto get_segment; 19521458bff9SNavdeep Parhar } 19531458bff9SNavdeep Parhar 195438035ed6SNavdeep Parhar if (fl->rx_offset > 0 && len_newbuf & F_RSPD_NEWBUF) { 19551458bff9SNavdeep Parhar fl->rx_offset = 0; 19564d6db4e0SNavdeep Parhar if (__predict_false(++fl->cidx % 8 == 0)) { 19574d6db4e0SNavdeep Parhar uint16_t cidx = fl->cidx / 8; 19584d6db4e0SNavdeep Parhar 19594d6db4e0SNavdeep Parhar if (__predict_false(cidx == fl->sidx)) 19604d6db4e0SNavdeep Parhar fl->cidx = cidx = 0; 19614d6db4e0SNavdeep Parhar fl->hw_cidx = cidx; 19624d6db4e0SNavdeep Parhar } 19631458bff9SNavdeep Parhar } 19641458bff9SNavdeep Parhar 19651458bff9SNavdeep Parhar /* 196638035ed6SNavdeep Parhar * Payload starts at rx_offset in the current hw buffer. Its length is 196738035ed6SNavdeep Parhar * 'len' and it may span multiple hw buffers. 19681458bff9SNavdeep Parhar */ 19691458bff9SNavdeep Parhar 1970b741402cSNavdeep Parhar m0 = get_scatter_segment(sc, fl, 0, total); 1971368541baSNavdeep Parhar if (m0 == NULL) 19724d6db4e0SNavdeep Parhar return (NULL); 1973b741402cSNavdeep Parhar remaining = total - m0->m_len; 197438035ed6SNavdeep Parhar pnext = &m0->m_next; 1975b741402cSNavdeep Parhar while (remaining > 0) { 197638035ed6SNavdeep Parhar get_segment: 197738035ed6SNavdeep Parhar MPASS(fl->rx_offset == 0); 1978b741402cSNavdeep Parhar m = get_scatter_segment(sc, fl, total - remaining, remaining); 19794d6db4e0SNavdeep Parhar if (__predict_false(m == NULL)) { 198038035ed6SNavdeep Parhar fl->m0 = m0; 198138035ed6SNavdeep Parhar fl->pnext = pnext; 1982b741402cSNavdeep Parhar fl->remaining = remaining; 19834d6db4e0SNavdeep Parhar fl->flags |= FL_BUF_RESUME; 19844d6db4e0SNavdeep Parhar return (NULL); 19851458bff9SNavdeep Parhar } 198638035ed6SNavdeep Parhar *pnext = m; 198738035ed6SNavdeep Parhar pnext = &m->m_next; 1988b741402cSNavdeep Parhar remaining -= m->m_len; 1989733b9277SNavdeep Parhar } 199038035ed6SNavdeep Parhar *pnext = NULL; 19914d6db4e0SNavdeep Parhar 1992dbbf46c4SNavdeep Parhar M_ASSERTPKTHDR(m0); 1993733b9277SNavdeep Parhar return (m0); 1994733b9277SNavdeep Parhar } 1995733b9277SNavdeep Parhar 1996733b9277SNavdeep Parhar static int 1997733b9277SNavdeep Parhar t4_eth_rx(struct sge_iq *iq, const struct rss_header *rss, struct mbuf *m0) 1998733b9277SNavdeep Parhar { 19993c51d154SNavdeep Parhar struct sge_rxq *rxq = iq_to_rxq(iq); 2000733b9277SNavdeep Parhar struct ifnet *ifp = rxq->ifp; 200190e7434aSNavdeep Parhar struct adapter *sc = iq->adapter; 2002733b9277SNavdeep Parhar const struct cpl_rx_pkt *cpl = (const void *)(rss + 1); 2003a1ea9a82SNavdeep Parhar #if defined(INET) || defined(INET6) 2004733b9277SNavdeep Parhar struct lro_ctrl *lro = &rxq->lro; 2005733b9277SNavdeep Parhar #endif 200670ca6229SNavdeep Parhar static const int sw_hashtype[4][2] = { 200770ca6229SNavdeep Parhar {M_HASHTYPE_NONE, M_HASHTYPE_NONE}, 200870ca6229SNavdeep Parhar {M_HASHTYPE_RSS_IPV4, M_HASHTYPE_RSS_IPV6}, 200970ca6229SNavdeep Parhar {M_HASHTYPE_RSS_TCP_IPV4, M_HASHTYPE_RSS_TCP_IPV6}, 201070ca6229SNavdeep Parhar {M_HASHTYPE_RSS_UDP_IPV4, M_HASHTYPE_RSS_UDP_IPV6}, 201170ca6229SNavdeep Parhar }; 2012733b9277SNavdeep Parhar 2013733b9277SNavdeep Parhar KASSERT(m0 != NULL, ("%s: no payload with opcode %02x", __func__, 2014733b9277SNavdeep Parhar rss->opcode)); 2015733b9277SNavdeep Parhar 201690e7434aSNavdeep Parhar m0->m_pkthdr.len -= sc->params.sge.fl_pktshift; 201790e7434aSNavdeep Parhar m0->m_len -= sc->params.sge.fl_pktshift; 201890e7434aSNavdeep Parhar m0->m_data += sc->params.sge.fl_pktshift; 201954e4ee71SNavdeep Parhar 202054e4ee71SNavdeep Parhar m0->m_pkthdr.rcvif = ifp; 202170ca6229SNavdeep Parhar M_HASHTYPE_SET(m0, sw_hashtype[rss->hash_type][rss->ipv6]); 2022273ef991SNavdeep Parhar m0->m_pkthdr.flowid = be32toh(rss->hash_val); 202354e4ee71SNavdeep Parhar 20241de8c69dSNavdeep Parhar if (cpl->csum_calc && !(cpl->err_vec & sc->params.tp.err_vec_mask)) { 20259600bf00SNavdeep Parhar if (ifp->if_capenable & IFCAP_RXCSUM && 20269600bf00SNavdeep Parhar cpl->l2info & htobe32(F_RXF_IP)) { 2027932b1a5fSNavdeep Parhar m0->m_pkthdr.csum_flags = (CSUM_IP_CHECKED | 202854e4ee71SNavdeep Parhar CSUM_IP_VALID | CSUM_DATA_VALID | CSUM_PSEUDO_HDR); 20299600bf00SNavdeep Parhar rxq->rxcsum++; 20309600bf00SNavdeep Parhar } else if (ifp->if_capenable & IFCAP_RXCSUM_IPV6 && 20319600bf00SNavdeep Parhar cpl->l2info & htobe32(F_RXF_IP6)) { 2032932b1a5fSNavdeep Parhar m0->m_pkthdr.csum_flags = (CSUM_DATA_VALID_IPV6 | 20339600bf00SNavdeep Parhar CSUM_PSEUDO_HDR); 20349600bf00SNavdeep Parhar rxq->rxcsum++; 20359600bf00SNavdeep Parhar } 20369600bf00SNavdeep Parhar 20379600bf00SNavdeep Parhar if (__predict_false(cpl->ip_frag)) 203854e4ee71SNavdeep Parhar m0->m_pkthdr.csum_data = be16toh(cpl->csum); 203954e4ee71SNavdeep Parhar else 204054e4ee71SNavdeep Parhar m0->m_pkthdr.csum_data = 0xffff; 204154e4ee71SNavdeep Parhar } 204254e4ee71SNavdeep Parhar 204354e4ee71SNavdeep Parhar if (cpl->vlan_ex) { 204454e4ee71SNavdeep Parhar m0->m_pkthdr.ether_vtag = be16toh(cpl->vlan); 204554e4ee71SNavdeep Parhar m0->m_flags |= M_VLANTAG; 204654e4ee71SNavdeep Parhar rxq->vlan_extraction++; 204754e4ee71SNavdeep Parhar } 204854e4ee71SNavdeep Parhar 2049a1ea9a82SNavdeep Parhar #if defined(INET) || defined(INET6) 205046f48ee5SNavdeep Parhar if (iq->flags & IQ_LRO_ENABLED) { 205146f48ee5SNavdeep Parhar if (sort_before_lro(lro)) { 205246f48ee5SNavdeep Parhar tcp_lro_queue_mbuf(lro, m0); 205346f48ee5SNavdeep Parhar return (0); /* queued for sort, then LRO */ 205446f48ee5SNavdeep Parhar } 205546f48ee5SNavdeep Parhar if (tcp_lro_rx(lro, m0, 0) == 0) 205646f48ee5SNavdeep Parhar return (0); /* queued for LRO */ 205746f48ee5SNavdeep Parhar } 205854e4ee71SNavdeep Parhar #endif 20597d29df59SNavdeep Parhar ifp->if_input(ifp, m0); 206054e4ee71SNavdeep Parhar 2061733b9277SNavdeep Parhar return (0); 206254e4ee71SNavdeep Parhar } 206354e4ee71SNavdeep Parhar 2064733b9277SNavdeep Parhar /* 20657951040fSNavdeep Parhar * Must drain the wrq or make sure that someone else will. 20667951040fSNavdeep Parhar */ 20677951040fSNavdeep Parhar static void 20687951040fSNavdeep Parhar wrq_tx_drain(void *arg, int n) 20697951040fSNavdeep Parhar { 20707951040fSNavdeep Parhar struct sge_wrq *wrq = arg; 20717951040fSNavdeep Parhar struct sge_eq *eq = &wrq->eq; 20727951040fSNavdeep Parhar 20737951040fSNavdeep Parhar EQ_LOCK(eq); 20747951040fSNavdeep Parhar if (TAILQ_EMPTY(&wrq->incomplete_wrs) && !STAILQ_EMPTY(&wrq->wr_list)) 20757951040fSNavdeep Parhar drain_wrq_wr_list(wrq->adapter, wrq); 20767951040fSNavdeep Parhar EQ_UNLOCK(eq); 20777951040fSNavdeep Parhar } 20787951040fSNavdeep Parhar 20797951040fSNavdeep Parhar static void 20807951040fSNavdeep Parhar drain_wrq_wr_list(struct adapter *sc, struct sge_wrq *wrq) 20817951040fSNavdeep Parhar { 20827951040fSNavdeep Parhar struct sge_eq *eq = &wrq->eq; 20837951040fSNavdeep Parhar u_int available, dbdiff; /* # of hardware descriptors */ 20847951040fSNavdeep Parhar u_int n; 20857951040fSNavdeep Parhar struct wrqe *wr; 20867951040fSNavdeep Parhar struct fw_eth_tx_pkt_wr *dst; /* any fw WR struct will do */ 20877951040fSNavdeep Parhar 20887951040fSNavdeep Parhar EQ_LOCK_ASSERT_OWNED(eq); 20897951040fSNavdeep Parhar MPASS(TAILQ_EMPTY(&wrq->incomplete_wrs)); 20907951040fSNavdeep Parhar wr = STAILQ_FIRST(&wrq->wr_list); 20917951040fSNavdeep Parhar MPASS(wr != NULL); /* Must be called with something useful to do */ 2092cda2ab0eSNavdeep Parhar MPASS(eq->pidx == eq->dbidx); 2093cda2ab0eSNavdeep Parhar dbdiff = 0; 20947951040fSNavdeep Parhar 20957951040fSNavdeep Parhar do { 20967951040fSNavdeep Parhar eq->cidx = read_hw_cidx(eq); 20977951040fSNavdeep Parhar if (eq->pidx == eq->cidx) 20987951040fSNavdeep Parhar available = eq->sidx - 1; 20997951040fSNavdeep Parhar else 21007951040fSNavdeep Parhar available = IDXDIFF(eq->cidx, eq->pidx, eq->sidx) - 1; 21017951040fSNavdeep Parhar 21027951040fSNavdeep Parhar MPASS(wr->wrq == wrq); 21037951040fSNavdeep Parhar n = howmany(wr->wr_len, EQ_ESIZE); 21047951040fSNavdeep Parhar if (available < n) 2105cda2ab0eSNavdeep Parhar break; 21067951040fSNavdeep Parhar 21077951040fSNavdeep Parhar dst = (void *)&eq->desc[eq->pidx]; 21087951040fSNavdeep Parhar if (__predict_true(eq->sidx - eq->pidx > n)) { 21097951040fSNavdeep Parhar /* Won't wrap, won't end exactly at the status page. */ 21107951040fSNavdeep Parhar bcopy(&wr->wr[0], dst, wr->wr_len); 21117951040fSNavdeep Parhar eq->pidx += n; 21127951040fSNavdeep Parhar } else { 21137951040fSNavdeep Parhar int first_portion = (eq->sidx - eq->pidx) * EQ_ESIZE; 21147951040fSNavdeep Parhar 21157951040fSNavdeep Parhar bcopy(&wr->wr[0], dst, first_portion); 21167951040fSNavdeep Parhar if (wr->wr_len > first_portion) { 21177951040fSNavdeep Parhar bcopy(&wr->wr[first_portion], &eq->desc[0], 21187951040fSNavdeep Parhar wr->wr_len - first_portion); 21197951040fSNavdeep Parhar } 21207951040fSNavdeep Parhar eq->pidx = n - (eq->sidx - eq->pidx); 21217951040fSNavdeep Parhar } 21220459a175SNavdeep Parhar wrq->tx_wrs_copied++; 21237951040fSNavdeep Parhar 21247951040fSNavdeep Parhar if (available < eq->sidx / 4 && 21257951040fSNavdeep Parhar atomic_cmpset_int(&eq->equiq, 0, 1)) { 2126ddf09ad6SNavdeep Parhar /* 2127ddf09ad6SNavdeep Parhar * XXX: This is not 100% reliable with some 2128ddf09ad6SNavdeep Parhar * types of WRs. But this is a very unusual 2129ddf09ad6SNavdeep Parhar * situation for an ofld/ctrl queue anyway. 2130ddf09ad6SNavdeep Parhar */ 21317951040fSNavdeep Parhar dst->equiq_to_len16 |= htobe32(F_FW_WR_EQUIQ | 21327951040fSNavdeep Parhar F_FW_WR_EQUEQ); 21337951040fSNavdeep Parhar } 21347951040fSNavdeep Parhar 21357951040fSNavdeep Parhar dbdiff += n; 21367951040fSNavdeep Parhar if (dbdiff >= 16) { 21377951040fSNavdeep Parhar ring_eq_db(sc, eq, dbdiff); 21387951040fSNavdeep Parhar dbdiff = 0; 21397951040fSNavdeep Parhar } 21407951040fSNavdeep Parhar 21417951040fSNavdeep Parhar STAILQ_REMOVE_HEAD(&wrq->wr_list, link); 21427951040fSNavdeep Parhar free_wrqe(wr); 21437951040fSNavdeep Parhar MPASS(wrq->nwr_pending > 0); 21447951040fSNavdeep Parhar wrq->nwr_pending--; 21457951040fSNavdeep Parhar MPASS(wrq->ndesc_needed >= n); 21467951040fSNavdeep Parhar wrq->ndesc_needed -= n; 21477951040fSNavdeep Parhar } while ((wr = STAILQ_FIRST(&wrq->wr_list)) != NULL); 21487951040fSNavdeep Parhar 21497951040fSNavdeep Parhar if (dbdiff) 21507951040fSNavdeep Parhar ring_eq_db(sc, eq, dbdiff); 21517951040fSNavdeep Parhar } 21527951040fSNavdeep Parhar 21537951040fSNavdeep Parhar /* 2154733b9277SNavdeep Parhar * Doesn't fail. Holds on to work requests it can't send right away. 2155733b9277SNavdeep Parhar */ 215609fe6320SNavdeep Parhar void 215709fe6320SNavdeep Parhar t4_wrq_tx_locked(struct adapter *sc, struct sge_wrq *wrq, struct wrqe *wr) 2158733b9277SNavdeep Parhar { 2159733b9277SNavdeep Parhar #ifdef INVARIANTS 21607951040fSNavdeep Parhar struct sge_eq *eq = &wrq->eq; 2161733b9277SNavdeep Parhar #endif 2162733b9277SNavdeep Parhar 21637951040fSNavdeep Parhar EQ_LOCK_ASSERT_OWNED(eq); 21647951040fSNavdeep Parhar MPASS(wr != NULL); 21657951040fSNavdeep Parhar MPASS(wr->wr_len > 0 && wr->wr_len <= SGE_MAX_WR_LEN); 21667951040fSNavdeep Parhar MPASS((wr->wr_len & 0x7) == 0); 2167733b9277SNavdeep Parhar 21687951040fSNavdeep Parhar STAILQ_INSERT_TAIL(&wrq->wr_list, wr, link); 21697951040fSNavdeep Parhar wrq->nwr_pending++; 21707951040fSNavdeep Parhar wrq->ndesc_needed += howmany(wr->wr_len, EQ_ESIZE); 2171733b9277SNavdeep Parhar 21727951040fSNavdeep Parhar if (!TAILQ_EMPTY(&wrq->incomplete_wrs)) 21737951040fSNavdeep Parhar return; /* commit_wrq_wr will drain wr_list as well. */ 2174733b9277SNavdeep Parhar 21757951040fSNavdeep Parhar drain_wrq_wr_list(sc, wrq); 2176733b9277SNavdeep Parhar 21777951040fSNavdeep Parhar /* Doorbell must have caught up to the pidx. */ 21787951040fSNavdeep Parhar MPASS(eq->pidx == eq->dbidx); 217954e4ee71SNavdeep Parhar } 218054e4ee71SNavdeep Parhar 218154e4ee71SNavdeep Parhar void 218254e4ee71SNavdeep Parhar t4_update_fl_bufsize(struct ifnet *ifp) 218354e4ee71SNavdeep Parhar { 2184fe2ebb76SJohn Baldwin struct vi_info *vi = ifp->if_softc; 2185fe2ebb76SJohn Baldwin struct adapter *sc = vi->pi->adapter; 218654e4ee71SNavdeep Parhar struct sge_rxq *rxq; 21876eb3180fSNavdeep Parhar #ifdef TCP_OFFLOAD 21886eb3180fSNavdeep Parhar struct sge_ofld_rxq *ofld_rxq; 21896eb3180fSNavdeep Parhar #endif 219054e4ee71SNavdeep Parhar struct sge_fl *fl; 219138035ed6SNavdeep Parhar int i, maxp, mtu = ifp->if_mtu; 219254e4ee71SNavdeep Parhar 219338035ed6SNavdeep Parhar maxp = mtu_to_max_payload(sc, mtu, 0); 2194fe2ebb76SJohn Baldwin for_each_rxq(vi, i, rxq) { 219554e4ee71SNavdeep Parhar fl = &rxq->fl; 219654e4ee71SNavdeep Parhar 219754e4ee71SNavdeep Parhar FL_LOCK(fl); 219838035ed6SNavdeep Parhar find_best_refill_source(sc, fl, maxp); 219954e4ee71SNavdeep Parhar FL_UNLOCK(fl); 220054e4ee71SNavdeep Parhar } 22016eb3180fSNavdeep Parhar #ifdef TCP_OFFLOAD 220238035ed6SNavdeep Parhar maxp = mtu_to_max_payload(sc, mtu, 1); 2203fe2ebb76SJohn Baldwin for_each_ofld_rxq(vi, i, ofld_rxq) { 22046eb3180fSNavdeep Parhar fl = &ofld_rxq->fl; 22056eb3180fSNavdeep Parhar 22066eb3180fSNavdeep Parhar FL_LOCK(fl); 220738035ed6SNavdeep Parhar find_best_refill_source(sc, fl, maxp); 22086eb3180fSNavdeep Parhar FL_UNLOCK(fl); 22096eb3180fSNavdeep Parhar } 22106eb3180fSNavdeep Parhar #endif 221154e4ee71SNavdeep Parhar } 221254e4ee71SNavdeep Parhar 22137951040fSNavdeep Parhar static inline int 22147951040fSNavdeep Parhar mbuf_nsegs(struct mbuf *m) 2215733b9277SNavdeep Parhar { 22160835ddc7SNavdeep Parhar 22177951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 22187951040fSNavdeep Parhar KASSERT(m->m_pkthdr.l5hlen > 0, 22197951040fSNavdeep Parhar ("%s: mbuf %p missing information on # of segments.", __func__, m)); 22207951040fSNavdeep Parhar 22217951040fSNavdeep Parhar return (m->m_pkthdr.l5hlen); 22227951040fSNavdeep Parhar } 22237951040fSNavdeep Parhar 22247951040fSNavdeep Parhar static inline void 22257951040fSNavdeep Parhar set_mbuf_nsegs(struct mbuf *m, uint8_t nsegs) 22267951040fSNavdeep Parhar { 22277951040fSNavdeep Parhar 22287951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 22297951040fSNavdeep Parhar m->m_pkthdr.l5hlen = nsegs; 22307951040fSNavdeep Parhar } 22317951040fSNavdeep Parhar 22327951040fSNavdeep Parhar static inline int 22335cdaef71SJohn Baldwin mbuf_cflags(struct mbuf *m) 22345cdaef71SJohn Baldwin { 22355cdaef71SJohn Baldwin 22365cdaef71SJohn Baldwin M_ASSERTPKTHDR(m); 22375cdaef71SJohn Baldwin return (m->m_pkthdr.PH_loc.eight[4]); 22385cdaef71SJohn Baldwin } 22395cdaef71SJohn Baldwin 22405cdaef71SJohn Baldwin static inline void 22415cdaef71SJohn Baldwin set_mbuf_cflags(struct mbuf *m, uint8_t flags) 22425cdaef71SJohn Baldwin { 22435cdaef71SJohn Baldwin 22445cdaef71SJohn Baldwin M_ASSERTPKTHDR(m); 22455cdaef71SJohn Baldwin m->m_pkthdr.PH_loc.eight[4] = flags; 22465cdaef71SJohn Baldwin } 22475cdaef71SJohn Baldwin 22485cdaef71SJohn Baldwin static inline int 22497951040fSNavdeep Parhar mbuf_len16(struct mbuf *m) 22507951040fSNavdeep Parhar { 22517951040fSNavdeep Parhar int n; 22527951040fSNavdeep Parhar 22537951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 22547951040fSNavdeep Parhar n = m->m_pkthdr.PH_loc.eight[0]; 22557951040fSNavdeep Parhar MPASS(n > 0 && n <= SGE_MAX_WR_LEN / 16); 22567951040fSNavdeep Parhar 22577951040fSNavdeep Parhar return (n); 22587951040fSNavdeep Parhar } 22597951040fSNavdeep Parhar 22607951040fSNavdeep Parhar static inline void 22617951040fSNavdeep Parhar set_mbuf_len16(struct mbuf *m, uint8_t len16) 22627951040fSNavdeep Parhar { 22637951040fSNavdeep Parhar 22647951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 22657951040fSNavdeep Parhar m->m_pkthdr.PH_loc.eight[0] = len16; 22667951040fSNavdeep Parhar } 22677951040fSNavdeep Parhar 2268786099deSNavdeep Parhar #ifdef RATELIMIT 2269786099deSNavdeep Parhar static inline int 2270786099deSNavdeep Parhar mbuf_eo_nsegs(struct mbuf *m) 2271786099deSNavdeep Parhar { 2272786099deSNavdeep Parhar 2273786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2274786099deSNavdeep Parhar return (m->m_pkthdr.PH_loc.eight[1]); 2275786099deSNavdeep Parhar } 2276786099deSNavdeep Parhar 2277786099deSNavdeep Parhar static inline void 2278786099deSNavdeep Parhar set_mbuf_eo_nsegs(struct mbuf *m, uint8_t nsegs) 2279786099deSNavdeep Parhar { 2280786099deSNavdeep Parhar 2281786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2282786099deSNavdeep Parhar m->m_pkthdr.PH_loc.eight[1] = nsegs; 2283786099deSNavdeep Parhar } 2284786099deSNavdeep Parhar 2285786099deSNavdeep Parhar static inline int 2286786099deSNavdeep Parhar mbuf_eo_len16(struct mbuf *m) 2287786099deSNavdeep Parhar { 2288786099deSNavdeep Parhar int n; 2289786099deSNavdeep Parhar 2290786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2291786099deSNavdeep Parhar n = m->m_pkthdr.PH_loc.eight[2]; 2292786099deSNavdeep Parhar MPASS(n > 0 && n <= SGE_MAX_WR_LEN / 16); 2293786099deSNavdeep Parhar 2294786099deSNavdeep Parhar return (n); 2295786099deSNavdeep Parhar } 2296786099deSNavdeep Parhar 2297786099deSNavdeep Parhar static inline void 2298786099deSNavdeep Parhar set_mbuf_eo_len16(struct mbuf *m, uint8_t len16) 2299786099deSNavdeep Parhar { 2300786099deSNavdeep Parhar 2301786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2302786099deSNavdeep Parhar m->m_pkthdr.PH_loc.eight[2] = len16; 2303786099deSNavdeep Parhar } 2304786099deSNavdeep Parhar 2305786099deSNavdeep Parhar static inline int 2306786099deSNavdeep Parhar mbuf_eo_tsclk_tsoff(struct mbuf *m) 2307786099deSNavdeep Parhar { 2308786099deSNavdeep Parhar 2309786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2310786099deSNavdeep Parhar return (m->m_pkthdr.PH_loc.eight[3]); 2311786099deSNavdeep Parhar } 2312786099deSNavdeep Parhar 2313786099deSNavdeep Parhar static inline void 2314786099deSNavdeep Parhar set_mbuf_eo_tsclk_tsoff(struct mbuf *m, uint8_t tsclk_tsoff) 2315786099deSNavdeep Parhar { 2316786099deSNavdeep Parhar 2317786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2318786099deSNavdeep Parhar m->m_pkthdr.PH_loc.eight[3] = tsclk_tsoff; 2319786099deSNavdeep Parhar } 2320786099deSNavdeep Parhar 2321786099deSNavdeep Parhar static inline int 2322786099deSNavdeep Parhar needs_eo(struct mbuf *m) 2323786099deSNavdeep Parhar { 2324786099deSNavdeep Parhar 2325786099deSNavdeep Parhar return (m->m_pkthdr.snd_tag != NULL); 2326786099deSNavdeep Parhar } 2327786099deSNavdeep Parhar #endif 2328786099deSNavdeep Parhar 23295cdaef71SJohn Baldwin /* 23305cdaef71SJohn Baldwin * Try to allocate an mbuf to contain a raw work request. To make it 23315cdaef71SJohn Baldwin * easy to construct the work request, don't allocate a chain but a 23325cdaef71SJohn Baldwin * single mbuf. 23335cdaef71SJohn Baldwin */ 23345cdaef71SJohn Baldwin struct mbuf * 23355cdaef71SJohn Baldwin alloc_wr_mbuf(int len, int how) 23365cdaef71SJohn Baldwin { 23375cdaef71SJohn Baldwin struct mbuf *m; 23385cdaef71SJohn Baldwin 23395cdaef71SJohn Baldwin if (len <= MHLEN) 23405cdaef71SJohn Baldwin m = m_gethdr(how, MT_DATA); 23415cdaef71SJohn Baldwin else if (len <= MCLBYTES) 23425cdaef71SJohn Baldwin m = m_getcl(how, MT_DATA, M_PKTHDR); 23435cdaef71SJohn Baldwin else 23445cdaef71SJohn Baldwin m = NULL; 23455cdaef71SJohn Baldwin if (m == NULL) 23465cdaef71SJohn Baldwin return (NULL); 23475cdaef71SJohn Baldwin m->m_pkthdr.len = len; 23485cdaef71SJohn Baldwin m->m_len = len; 23495cdaef71SJohn Baldwin set_mbuf_cflags(m, MC_RAW_WR); 23505cdaef71SJohn Baldwin set_mbuf_len16(m, howmany(len, 16)); 23515cdaef71SJohn Baldwin return (m); 23525cdaef71SJohn Baldwin } 23535cdaef71SJohn Baldwin 23547951040fSNavdeep Parhar static inline int 23557951040fSNavdeep Parhar needs_tso(struct mbuf *m) 23567951040fSNavdeep Parhar { 23577951040fSNavdeep Parhar 23587951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 23597951040fSNavdeep Parhar 2360a6a8ff35SNavdeep Parhar return (m->m_pkthdr.csum_flags & CSUM_TSO); 23617951040fSNavdeep Parhar } 23627951040fSNavdeep Parhar 23637951040fSNavdeep Parhar static inline int 23647951040fSNavdeep Parhar needs_l3_csum(struct mbuf *m) 23657951040fSNavdeep Parhar { 23667951040fSNavdeep Parhar 23677951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 23687951040fSNavdeep Parhar 2369a6a8ff35SNavdeep Parhar return (m->m_pkthdr.csum_flags & (CSUM_IP | CSUM_TSO)); 23707951040fSNavdeep Parhar } 23717951040fSNavdeep Parhar 23727951040fSNavdeep Parhar static inline int 23737951040fSNavdeep Parhar needs_l4_csum(struct mbuf *m) 23747951040fSNavdeep Parhar { 23757951040fSNavdeep Parhar 23767951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 23777951040fSNavdeep Parhar 2378a6a8ff35SNavdeep Parhar return (m->m_pkthdr.csum_flags & (CSUM_TCP | CSUM_UDP | CSUM_UDP_IPV6 | 2379a6a8ff35SNavdeep Parhar CSUM_TCP_IPV6 | CSUM_TSO)); 23807951040fSNavdeep Parhar } 23817951040fSNavdeep Parhar 23827951040fSNavdeep Parhar static inline int 2383786099deSNavdeep Parhar needs_tcp_csum(struct mbuf *m) 2384786099deSNavdeep Parhar { 2385786099deSNavdeep Parhar 2386786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2387786099deSNavdeep Parhar return (m->m_pkthdr.csum_flags & (CSUM_TCP | CSUM_TCP_IPV6 | CSUM_TSO)); 2388786099deSNavdeep Parhar } 2389786099deSNavdeep Parhar 2390c3fce948SNavdeep Parhar #ifdef RATELIMIT 2391786099deSNavdeep Parhar static inline int 2392786099deSNavdeep Parhar needs_udp_csum(struct mbuf *m) 2393786099deSNavdeep Parhar { 2394786099deSNavdeep Parhar 2395786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2396786099deSNavdeep Parhar return (m->m_pkthdr.csum_flags & (CSUM_UDP | CSUM_UDP_IPV6)); 2397786099deSNavdeep Parhar } 2398c3fce948SNavdeep Parhar #endif 2399786099deSNavdeep Parhar 2400786099deSNavdeep Parhar static inline int 24017951040fSNavdeep Parhar needs_vlan_insertion(struct mbuf *m) 24027951040fSNavdeep Parhar { 24037951040fSNavdeep Parhar 24047951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 24057951040fSNavdeep Parhar 2406a6a8ff35SNavdeep Parhar return (m->m_flags & M_VLANTAG); 24077951040fSNavdeep Parhar } 24087951040fSNavdeep Parhar 24097951040fSNavdeep Parhar static void * 24107951040fSNavdeep Parhar m_advance(struct mbuf **pm, int *poffset, int len) 24117951040fSNavdeep Parhar { 24127951040fSNavdeep Parhar struct mbuf *m = *pm; 24137951040fSNavdeep Parhar int offset = *poffset; 24147951040fSNavdeep Parhar uintptr_t p = 0; 24157951040fSNavdeep Parhar 24167951040fSNavdeep Parhar MPASS(len > 0); 24177951040fSNavdeep Parhar 2418e06ab612SJohn Baldwin for (;;) { 24197951040fSNavdeep Parhar if (offset + len < m->m_len) { 24207951040fSNavdeep Parhar offset += len; 24217951040fSNavdeep Parhar p = mtod(m, uintptr_t) + offset; 24227951040fSNavdeep Parhar break; 24237951040fSNavdeep Parhar } 24247951040fSNavdeep Parhar len -= m->m_len - offset; 24257951040fSNavdeep Parhar m = m->m_next; 24267951040fSNavdeep Parhar offset = 0; 24277951040fSNavdeep Parhar MPASS(m != NULL); 24287951040fSNavdeep Parhar } 24297951040fSNavdeep Parhar *poffset = offset; 24307951040fSNavdeep Parhar *pm = m; 24317951040fSNavdeep Parhar return ((void *)p); 24327951040fSNavdeep Parhar } 24337951040fSNavdeep Parhar 24347951040fSNavdeep Parhar /* 24357951040fSNavdeep Parhar * Can deal with empty mbufs in the chain that have m_len = 0, but the chain 2436786099deSNavdeep Parhar * must have at least one mbuf that's not empty. It is possible for this 2437786099deSNavdeep Parhar * routine to return 0 if skip accounts for all the contents of the mbuf chain. 24387951040fSNavdeep Parhar */ 24397951040fSNavdeep Parhar static inline int 2440786099deSNavdeep Parhar count_mbuf_nsegs(struct mbuf *m, int skip) 24417951040fSNavdeep Parhar { 244277e9044cSNavdeep Parhar vm_paddr_t lastb, next; 244377e9044cSNavdeep Parhar vm_offset_t va; 24447951040fSNavdeep Parhar int len, nsegs; 24457951040fSNavdeep Parhar 2446786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 2447786099deSNavdeep Parhar MPASS(m->m_pkthdr.len > 0); 2448786099deSNavdeep Parhar MPASS(m->m_pkthdr.len >= skip); 24497951040fSNavdeep Parhar 24507951040fSNavdeep Parhar nsegs = 0; 245177e9044cSNavdeep Parhar lastb = 0; 24527951040fSNavdeep Parhar for (; m; m = m->m_next) { 24537951040fSNavdeep Parhar 24547951040fSNavdeep Parhar len = m->m_len; 24557951040fSNavdeep Parhar if (__predict_false(len == 0)) 24567951040fSNavdeep Parhar continue; 2457786099deSNavdeep Parhar if (skip >= len) { 2458786099deSNavdeep Parhar skip -= len; 2459786099deSNavdeep Parhar continue; 2460786099deSNavdeep Parhar } 2461786099deSNavdeep Parhar va = mtod(m, vm_offset_t) + skip; 2462786099deSNavdeep Parhar len -= skip; 2463786099deSNavdeep Parhar skip = 0; 246477e9044cSNavdeep Parhar next = pmap_kextract(va); 2465786099deSNavdeep Parhar nsegs += sglist_count((void *)(uintptr_t)va, len); 246677e9044cSNavdeep Parhar if (lastb + 1 == next) 24677951040fSNavdeep Parhar nsegs--; 246877e9044cSNavdeep Parhar lastb = pmap_kextract(va + len - 1); 24697951040fSNavdeep Parhar } 24707951040fSNavdeep Parhar 24717951040fSNavdeep Parhar return (nsegs); 24727951040fSNavdeep Parhar } 24737951040fSNavdeep Parhar 24747951040fSNavdeep Parhar /* 24757951040fSNavdeep Parhar * Analyze the mbuf to determine its tx needs. The mbuf passed in may change: 24767951040fSNavdeep Parhar * a) caller can assume it's been freed if this function returns with an error. 24777951040fSNavdeep Parhar * b) it may get defragged up if the gather list is too long for the hardware. 24787951040fSNavdeep Parhar */ 24797951040fSNavdeep Parhar int 24806af45170SJohn Baldwin parse_pkt(struct adapter *sc, struct mbuf **mp) 24817951040fSNavdeep Parhar { 24827951040fSNavdeep Parhar struct mbuf *m0 = *mp, *m; 24837951040fSNavdeep Parhar int rc, nsegs, defragged = 0, offset; 24847951040fSNavdeep Parhar struct ether_header *eh; 24857951040fSNavdeep Parhar void *l3hdr; 24867951040fSNavdeep Parhar #if defined(INET) || defined(INET6) 24877951040fSNavdeep Parhar struct tcphdr *tcp; 24887951040fSNavdeep Parhar #endif 24897951040fSNavdeep Parhar uint16_t eh_type; 24907951040fSNavdeep Parhar 24917951040fSNavdeep Parhar M_ASSERTPKTHDR(m0); 24927951040fSNavdeep Parhar if (__predict_false(m0->m_pkthdr.len < ETHER_HDR_LEN)) { 24937951040fSNavdeep Parhar rc = EINVAL; 24947951040fSNavdeep Parhar fail: 24957951040fSNavdeep Parhar m_freem(m0); 24967951040fSNavdeep Parhar *mp = NULL; 24977951040fSNavdeep Parhar return (rc); 24987951040fSNavdeep Parhar } 24997951040fSNavdeep Parhar restart: 25007951040fSNavdeep Parhar /* 25017951040fSNavdeep Parhar * First count the number of gather list segments in the payload. 25027951040fSNavdeep Parhar * Defrag the mbuf if nsegs exceeds the hardware limit. 25037951040fSNavdeep Parhar */ 25047951040fSNavdeep Parhar M_ASSERTPKTHDR(m0); 25057951040fSNavdeep Parhar MPASS(m0->m_pkthdr.len > 0); 2506786099deSNavdeep Parhar nsegs = count_mbuf_nsegs(m0, 0); 25077951040fSNavdeep Parhar if (nsegs > (needs_tso(m0) ? TX_SGL_SEGS_TSO : TX_SGL_SEGS)) { 25087951040fSNavdeep Parhar if (defragged++ > 0 || (m = m_defrag(m0, M_NOWAIT)) == NULL) { 25097951040fSNavdeep Parhar rc = EFBIG; 25107951040fSNavdeep Parhar goto fail; 25117951040fSNavdeep Parhar } 25127951040fSNavdeep Parhar *mp = m0 = m; /* update caller's copy after defrag */ 25137951040fSNavdeep Parhar goto restart; 25147951040fSNavdeep Parhar } 25157951040fSNavdeep Parhar 25167951040fSNavdeep Parhar if (__predict_false(nsegs > 2 && m0->m_pkthdr.len <= MHLEN)) { 25177951040fSNavdeep Parhar m0 = m_pullup(m0, m0->m_pkthdr.len); 25187951040fSNavdeep Parhar if (m0 == NULL) { 25197951040fSNavdeep Parhar /* Should have left well enough alone. */ 25207951040fSNavdeep Parhar rc = EFBIG; 25217951040fSNavdeep Parhar goto fail; 25227951040fSNavdeep Parhar } 25237951040fSNavdeep Parhar *mp = m0; /* update caller's copy after pullup */ 25247951040fSNavdeep Parhar goto restart; 25257951040fSNavdeep Parhar } 25267951040fSNavdeep Parhar set_mbuf_nsegs(m0, nsegs); 25275cdaef71SJohn Baldwin set_mbuf_cflags(m0, 0); 25286af45170SJohn Baldwin if (sc->flags & IS_VF) 25296af45170SJohn Baldwin set_mbuf_len16(m0, txpkt_vm_len16(nsegs, needs_tso(m0))); 25306af45170SJohn Baldwin else 25317951040fSNavdeep Parhar set_mbuf_len16(m0, txpkt_len16(nsegs, needs_tso(m0))); 25327951040fSNavdeep Parhar 2533786099deSNavdeep Parhar #ifdef RATELIMIT 2534786099deSNavdeep Parhar /* 2535786099deSNavdeep Parhar * Ethofld is limited to TCP and UDP for now, and only when L4 hw 2536786099deSNavdeep Parhar * checksumming is enabled. needs_l4_csum happens to check for all the 2537786099deSNavdeep Parhar * right things. 2538786099deSNavdeep Parhar */ 2539786099deSNavdeep Parhar if (__predict_false(needs_eo(m0) && !needs_l4_csum(m0))) 2540786099deSNavdeep Parhar m0->m_pkthdr.snd_tag = NULL; 2541786099deSNavdeep Parhar #endif 2542786099deSNavdeep Parhar 25436af45170SJohn Baldwin if (!needs_tso(m0) && 2544786099deSNavdeep Parhar #ifdef RATELIMIT 2545786099deSNavdeep Parhar !needs_eo(m0) && 2546786099deSNavdeep Parhar #endif 25476af45170SJohn Baldwin !(sc->flags & IS_VF && (needs_l3_csum(m0) || needs_l4_csum(m0)))) 25487951040fSNavdeep Parhar return (0); 25497951040fSNavdeep Parhar 25507951040fSNavdeep Parhar m = m0; 25517951040fSNavdeep Parhar eh = mtod(m, struct ether_header *); 25527951040fSNavdeep Parhar eh_type = ntohs(eh->ether_type); 25537951040fSNavdeep Parhar if (eh_type == ETHERTYPE_VLAN) { 25547951040fSNavdeep Parhar struct ether_vlan_header *evh = (void *)eh; 25557951040fSNavdeep Parhar 25567951040fSNavdeep Parhar eh_type = ntohs(evh->evl_proto); 25577951040fSNavdeep Parhar m0->m_pkthdr.l2hlen = sizeof(*evh); 25587951040fSNavdeep Parhar } else 25597951040fSNavdeep Parhar m0->m_pkthdr.l2hlen = sizeof(*eh); 25607951040fSNavdeep Parhar 25617951040fSNavdeep Parhar offset = 0; 25627951040fSNavdeep Parhar l3hdr = m_advance(&m, &offset, m0->m_pkthdr.l2hlen); 25637951040fSNavdeep Parhar 25647951040fSNavdeep Parhar switch (eh_type) { 25657951040fSNavdeep Parhar #ifdef INET6 25667951040fSNavdeep Parhar case ETHERTYPE_IPV6: 25677951040fSNavdeep Parhar { 25687951040fSNavdeep Parhar struct ip6_hdr *ip6 = l3hdr; 25697951040fSNavdeep Parhar 25706af45170SJohn Baldwin MPASS(!needs_tso(m0) || ip6->ip6_nxt == IPPROTO_TCP); 25717951040fSNavdeep Parhar 25727951040fSNavdeep Parhar m0->m_pkthdr.l3hlen = sizeof(*ip6); 25737951040fSNavdeep Parhar break; 25747951040fSNavdeep Parhar } 25757951040fSNavdeep Parhar #endif 25767951040fSNavdeep Parhar #ifdef INET 25777951040fSNavdeep Parhar case ETHERTYPE_IP: 25787951040fSNavdeep Parhar { 25797951040fSNavdeep Parhar struct ip *ip = l3hdr; 25807951040fSNavdeep Parhar 25817951040fSNavdeep Parhar m0->m_pkthdr.l3hlen = ip->ip_hl * 4; 25827951040fSNavdeep Parhar break; 25837951040fSNavdeep Parhar } 25847951040fSNavdeep Parhar #endif 25857951040fSNavdeep Parhar default: 25867951040fSNavdeep Parhar panic("%s: ethertype 0x%04x unknown. if_cxgbe must be compiled" 25877951040fSNavdeep Parhar " with the same INET/INET6 options as the kernel.", 25887951040fSNavdeep Parhar __func__, eh_type); 25897951040fSNavdeep Parhar } 25907951040fSNavdeep Parhar 25917951040fSNavdeep Parhar #if defined(INET) || defined(INET6) 2592786099deSNavdeep Parhar if (needs_tcp_csum(m0)) { 25937951040fSNavdeep Parhar tcp = m_advance(&m, &offset, m0->m_pkthdr.l3hlen); 25947951040fSNavdeep Parhar m0->m_pkthdr.l4hlen = tcp->th_off * 4; 2595786099deSNavdeep Parhar #ifdef RATELIMIT 2596786099deSNavdeep Parhar if (tsclk >= 0 && *(uint32_t *)(tcp + 1) == ntohl(0x0101080a)) { 2597786099deSNavdeep Parhar set_mbuf_eo_tsclk_tsoff(m0, 2598786099deSNavdeep Parhar V_FW_ETH_TX_EO_WR_TSCLK(tsclk) | 2599786099deSNavdeep Parhar V_FW_ETH_TX_EO_WR_TSOFF(sizeof(*tcp) / 2 + 1)); 2600786099deSNavdeep Parhar } else 2601786099deSNavdeep Parhar set_mbuf_eo_tsclk_tsoff(m0, 0); 2602786099deSNavdeep Parhar } else if (needs_udp_csum(m)) { 2603786099deSNavdeep Parhar m0->m_pkthdr.l4hlen = sizeof(struct udphdr); 2604786099deSNavdeep Parhar #endif 26056af45170SJohn Baldwin } 2606786099deSNavdeep Parhar #ifdef RATELIMIT 2607786099deSNavdeep Parhar if (needs_eo(m0)) { 2608786099deSNavdeep Parhar u_int immhdrs; 2609786099deSNavdeep Parhar 2610786099deSNavdeep Parhar /* EO WRs have the headers in the WR and not the GL. */ 2611786099deSNavdeep Parhar immhdrs = m0->m_pkthdr.l2hlen + m0->m_pkthdr.l3hlen + 2612786099deSNavdeep Parhar m0->m_pkthdr.l4hlen; 2613786099deSNavdeep Parhar nsegs = count_mbuf_nsegs(m0, immhdrs); 2614786099deSNavdeep Parhar set_mbuf_eo_nsegs(m0, nsegs); 2615786099deSNavdeep Parhar set_mbuf_eo_len16(m0, 2616786099deSNavdeep Parhar txpkt_eo_len16(nsegs, immhdrs, needs_tso(m0))); 2617786099deSNavdeep Parhar } 2618786099deSNavdeep Parhar #endif 26197951040fSNavdeep Parhar #endif 26207951040fSNavdeep Parhar MPASS(m0 == *mp); 26217951040fSNavdeep Parhar return (0); 26227951040fSNavdeep Parhar } 26237951040fSNavdeep Parhar 26247951040fSNavdeep Parhar void * 26257951040fSNavdeep Parhar start_wrq_wr(struct sge_wrq *wrq, int len16, struct wrq_cookie *cookie) 26267951040fSNavdeep Parhar { 26277951040fSNavdeep Parhar struct sge_eq *eq = &wrq->eq; 26287951040fSNavdeep Parhar struct adapter *sc = wrq->adapter; 26297951040fSNavdeep Parhar int ndesc, available; 26307951040fSNavdeep Parhar struct wrqe *wr; 26317951040fSNavdeep Parhar void *w; 26327951040fSNavdeep Parhar 26337951040fSNavdeep Parhar MPASS(len16 > 0); 26347951040fSNavdeep Parhar ndesc = howmany(len16, EQ_ESIZE / 16); 26357951040fSNavdeep Parhar MPASS(ndesc > 0 && ndesc <= SGE_MAX_WR_NDESC); 26367951040fSNavdeep Parhar 26377951040fSNavdeep Parhar EQ_LOCK(eq); 26387951040fSNavdeep Parhar 26398d6ae10aSNavdeep Parhar if (TAILQ_EMPTY(&wrq->incomplete_wrs) && !STAILQ_EMPTY(&wrq->wr_list)) 26407951040fSNavdeep Parhar drain_wrq_wr_list(sc, wrq); 26417951040fSNavdeep Parhar 26427951040fSNavdeep Parhar if (!STAILQ_EMPTY(&wrq->wr_list)) { 26437951040fSNavdeep Parhar slowpath: 26447951040fSNavdeep Parhar EQ_UNLOCK(eq); 26457951040fSNavdeep Parhar wr = alloc_wrqe(len16 * 16, wrq); 26467951040fSNavdeep Parhar if (__predict_false(wr == NULL)) 26477951040fSNavdeep Parhar return (NULL); 26487951040fSNavdeep Parhar cookie->pidx = -1; 26497951040fSNavdeep Parhar cookie->ndesc = ndesc; 26507951040fSNavdeep Parhar return (&wr->wr); 26517951040fSNavdeep Parhar } 26527951040fSNavdeep Parhar 26537951040fSNavdeep Parhar eq->cidx = read_hw_cidx(eq); 26547951040fSNavdeep Parhar if (eq->pidx == eq->cidx) 26557951040fSNavdeep Parhar available = eq->sidx - 1; 26567951040fSNavdeep Parhar else 26577951040fSNavdeep Parhar available = IDXDIFF(eq->cidx, eq->pidx, eq->sidx) - 1; 26587951040fSNavdeep Parhar if (available < ndesc) 26597951040fSNavdeep Parhar goto slowpath; 26607951040fSNavdeep Parhar 26617951040fSNavdeep Parhar cookie->pidx = eq->pidx; 26627951040fSNavdeep Parhar cookie->ndesc = ndesc; 26637951040fSNavdeep Parhar TAILQ_INSERT_TAIL(&wrq->incomplete_wrs, cookie, link); 26647951040fSNavdeep Parhar 26657951040fSNavdeep Parhar w = &eq->desc[eq->pidx]; 26667951040fSNavdeep Parhar IDXINCR(eq->pidx, ndesc, eq->sidx); 2667f50c49ccSNavdeep Parhar if (__predict_false(cookie->pidx + ndesc > eq->sidx)) { 26687951040fSNavdeep Parhar w = &wrq->ss[0]; 26697951040fSNavdeep Parhar wrq->ss_pidx = cookie->pidx; 26707951040fSNavdeep Parhar wrq->ss_len = len16 * 16; 26717951040fSNavdeep Parhar } 26727951040fSNavdeep Parhar 26737951040fSNavdeep Parhar EQ_UNLOCK(eq); 26747951040fSNavdeep Parhar 26757951040fSNavdeep Parhar return (w); 26767951040fSNavdeep Parhar } 26777951040fSNavdeep Parhar 26787951040fSNavdeep Parhar void 26797951040fSNavdeep Parhar commit_wrq_wr(struct sge_wrq *wrq, void *w, struct wrq_cookie *cookie) 26807951040fSNavdeep Parhar { 26817951040fSNavdeep Parhar struct sge_eq *eq = &wrq->eq; 26827951040fSNavdeep Parhar struct adapter *sc = wrq->adapter; 26837951040fSNavdeep Parhar int ndesc, pidx; 26847951040fSNavdeep Parhar struct wrq_cookie *prev, *next; 26857951040fSNavdeep Parhar 26867951040fSNavdeep Parhar if (cookie->pidx == -1) { 26877951040fSNavdeep Parhar struct wrqe *wr = __containerof(w, struct wrqe, wr); 26887951040fSNavdeep Parhar 26897951040fSNavdeep Parhar t4_wrq_tx(sc, wr); 26907951040fSNavdeep Parhar return; 26917951040fSNavdeep Parhar } 26927951040fSNavdeep Parhar 26937951040fSNavdeep Parhar if (__predict_false(w == &wrq->ss[0])) { 26947951040fSNavdeep Parhar int n = (eq->sidx - wrq->ss_pidx) * EQ_ESIZE; 26957951040fSNavdeep Parhar 26967951040fSNavdeep Parhar MPASS(wrq->ss_len > n); /* WR had better wrap around. */ 26977951040fSNavdeep Parhar bcopy(&wrq->ss[0], &eq->desc[wrq->ss_pidx], n); 26987951040fSNavdeep Parhar bcopy(&wrq->ss[n], &eq->desc[0], wrq->ss_len - n); 26997951040fSNavdeep Parhar wrq->tx_wrs_ss++; 27007951040fSNavdeep Parhar } else 27017951040fSNavdeep Parhar wrq->tx_wrs_direct++; 27027951040fSNavdeep Parhar 27037951040fSNavdeep Parhar EQ_LOCK(eq); 27048d6ae10aSNavdeep Parhar ndesc = cookie->ndesc; /* Can be more than SGE_MAX_WR_NDESC here. */ 27058d6ae10aSNavdeep Parhar pidx = cookie->pidx; 27068d6ae10aSNavdeep Parhar MPASS(pidx >= 0 && pidx < eq->sidx); 27077951040fSNavdeep Parhar prev = TAILQ_PREV(cookie, wrq_incomplete_wrs, link); 27087951040fSNavdeep Parhar next = TAILQ_NEXT(cookie, link); 27097951040fSNavdeep Parhar if (prev == NULL) { 27107951040fSNavdeep Parhar MPASS(pidx == eq->dbidx); 27112e09fe91SNavdeep Parhar if (next == NULL || ndesc >= 16) { 27122e09fe91SNavdeep Parhar int available; 27132e09fe91SNavdeep Parhar struct fw_eth_tx_pkt_wr *dst; /* any fw WR struct will do */ 27142e09fe91SNavdeep Parhar 27152e09fe91SNavdeep Parhar /* 27162e09fe91SNavdeep Parhar * Note that the WR via which we'll request tx updates 27172e09fe91SNavdeep Parhar * is at pidx and not eq->pidx, which has moved on 27182e09fe91SNavdeep Parhar * already. 27192e09fe91SNavdeep Parhar */ 27202e09fe91SNavdeep Parhar dst = (void *)&eq->desc[pidx]; 27212e09fe91SNavdeep Parhar available = IDXDIFF(eq->cidx, eq->pidx, eq->sidx) - 1; 27222e09fe91SNavdeep Parhar if (available < eq->sidx / 4 && 27232e09fe91SNavdeep Parhar atomic_cmpset_int(&eq->equiq, 0, 1)) { 2724ddf09ad6SNavdeep Parhar /* 2725ddf09ad6SNavdeep Parhar * XXX: This is not 100% reliable with some 2726ddf09ad6SNavdeep Parhar * types of WRs. But this is a very unusual 2727ddf09ad6SNavdeep Parhar * situation for an ofld/ctrl queue anyway. 2728ddf09ad6SNavdeep Parhar */ 27292e09fe91SNavdeep Parhar dst->equiq_to_len16 |= htobe32(F_FW_WR_EQUIQ | 27302e09fe91SNavdeep Parhar F_FW_WR_EQUEQ); 27312e09fe91SNavdeep Parhar } 27322e09fe91SNavdeep Parhar 27337951040fSNavdeep Parhar ring_eq_db(wrq->adapter, eq, ndesc); 27342e09fe91SNavdeep Parhar } else { 27357951040fSNavdeep Parhar MPASS(IDXDIFF(next->pidx, pidx, eq->sidx) == ndesc); 27367951040fSNavdeep Parhar next->pidx = pidx; 27377951040fSNavdeep Parhar next->ndesc += ndesc; 27387951040fSNavdeep Parhar } 27397951040fSNavdeep Parhar } else { 27407951040fSNavdeep Parhar MPASS(IDXDIFF(pidx, prev->pidx, eq->sidx) == prev->ndesc); 27417951040fSNavdeep Parhar prev->ndesc += ndesc; 27427951040fSNavdeep Parhar } 27437951040fSNavdeep Parhar TAILQ_REMOVE(&wrq->incomplete_wrs, cookie, link); 27447951040fSNavdeep Parhar 27457951040fSNavdeep Parhar if (TAILQ_EMPTY(&wrq->incomplete_wrs) && !STAILQ_EMPTY(&wrq->wr_list)) 27467951040fSNavdeep Parhar drain_wrq_wr_list(sc, wrq); 27477951040fSNavdeep Parhar 27487951040fSNavdeep Parhar #ifdef INVARIANTS 27497951040fSNavdeep Parhar if (TAILQ_EMPTY(&wrq->incomplete_wrs)) { 27507951040fSNavdeep Parhar /* Doorbell must have caught up to the pidx. */ 27517951040fSNavdeep Parhar MPASS(wrq->eq.pidx == wrq->eq.dbidx); 27527951040fSNavdeep Parhar } 27537951040fSNavdeep Parhar #endif 27547951040fSNavdeep Parhar EQ_UNLOCK(eq); 27557951040fSNavdeep Parhar } 27567951040fSNavdeep Parhar 27577951040fSNavdeep Parhar static u_int 27587951040fSNavdeep Parhar can_resume_eth_tx(struct mp_ring *r) 27597951040fSNavdeep Parhar { 27607951040fSNavdeep Parhar struct sge_eq *eq = r->cookie; 27617951040fSNavdeep Parhar 27627951040fSNavdeep Parhar return (total_available_tx_desc(eq) > eq->sidx / 8); 27637951040fSNavdeep Parhar } 27647951040fSNavdeep Parhar 27657951040fSNavdeep Parhar static inline int 27667951040fSNavdeep Parhar cannot_use_txpkts(struct mbuf *m) 27677951040fSNavdeep Parhar { 27687951040fSNavdeep Parhar /* maybe put a GL limit too, to avoid silliness? */ 27697951040fSNavdeep Parhar 27705cdaef71SJohn Baldwin return (needs_tso(m) || (mbuf_cflags(m) & MC_RAW_WR) != 0); 27717951040fSNavdeep Parhar } 27727951040fSNavdeep Parhar 27731404daa7SNavdeep Parhar static inline int 27741404daa7SNavdeep Parhar discard_tx(struct sge_eq *eq) 27751404daa7SNavdeep Parhar { 27761404daa7SNavdeep Parhar 27771404daa7SNavdeep Parhar return ((eq->flags & (EQ_ENABLED | EQ_QFLUSH)) != EQ_ENABLED); 27781404daa7SNavdeep Parhar } 27791404daa7SNavdeep Parhar 27805cdaef71SJohn Baldwin static inline int 27815cdaef71SJohn Baldwin wr_can_update_eq(struct fw_eth_tx_pkts_wr *wr) 27825cdaef71SJohn Baldwin { 27835cdaef71SJohn Baldwin 27845cdaef71SJohn Baldwin switch (G_FW_WR_OP(be32toh(wr->op_pkd))) { 27855cdaef71SJohn Baldwin case FW_ULPTX_WR: 27865cdaef71SJohn Baldwin case FW_ETH_TX_PKT_WR: 27875cdaef71SJohn Baldwin case FW_ETH_TX_PKTS_WR: 27885cdaef71SJohn Baldwin case FW_ETH_TX_PKT_VM_WR: 27895cdaef71SJohn Baldwin return (1); 27905cdaef71SJohn Baldwin default: 27915cdaef71SJohn Baldwin return (0); 27925cdaef71SJohn Baldwin } 27935cdaef71SJohn Baldwin } 27945cdaef71SJohn Baldwin 27957951040fSNavdeep Parhar /* 27967951040fSNavdeep Parhar * r->items[cidx] to r->items[pidx], with a wraparound at r->size, are ready to 27977951040fSNavdeep Parhar * be consumed. Return the actual number consumed. 0 indicates a stall. 27987951040fSNavdeep Parhar */ 27997951040fSNavdeep Parhar static u_int 28007951040fSNavdeep Parhar eth_tx(struct mp_ring *r, u_int cidx, u_int pidx) 28017951040fSNavdeep Parhar { 28027951040fSNavdeep Parhar struct sge_txq *txq = r->cookie; 28037951040fSNavdeep Parhar struct sge_eq *eq = &txq->eq; 28047951040fSNavdeep Parhar struct ifnet *ifp = txq->ifp; 2805fe2ebb76SJohn Baldwin struct vi_info *vi = ifp->if_softc; 2806fe2ebb76SJohn Baldwin struct port_info *pi = vi->pi; 28077951040fSNavdeep Parhar struct adapter *sc = pi->adapter; 28087951040fSNavdeep Parhar u_int total, remaining; /* # of packets */ 28097951040fSNavdeep Parhar u_int available, dbdiff; /* # of hardware descriptors */ 28107951040fSNavdeep Parhar u_int n, next_cidx; 28117951040fSNavdeep Parhar struct mbuf *m0, *tail; 28127951040fSNavdeep Parhar struct txpkts txp; 28137951040fSNavdeep Parhar struct fw_eth_tx_pkts_wr *wr; /* any fw WR struct will do */ 28147951040fSNavdeep Parhar 28157951040fSNavdeep Parhar remaining = IDXDIFF(pidx, cidx, r->size); 28167951040fSNavdeep Parhar MPASS(remaining > 0); /* Must not be called without work to do. */ 28177951040fSNavdeep Parhar total = 0; 28187951040fSNavdeep Parhar 28197951040fSNavdeep Parhar TXQ_LOCK(txq); 28201404daa7SNavdeep Parhar if (__predict_false(discard_tx(eq))) { 28217951040fSNavdeep Parhar while (cidx != pidx) { 28227951040fSNavdeep Parhar m0 = r->items[cidx]; 28237951040fSNavdeep Parhar m_freem(m0); 28247951040fSNavdeep Parhar if (++cidx == r->size) 28257951040fSNavdeep Parhar cidx = 0; 28267951040fSNavdeep Parhar } 28277951040fSNavdeep Parhar reclaim_tx_descs(txq, 2048); 28287951040fSNavdeep Parhar total = remaining; 28297951040fSNavdeep Parhar goto done; 28307951040fSNavdeep Parhar } 28317951040fSNavdeep Parhar 28327951040fSNavdeep Parhar /* How many hardware descriptors do we have readily available. */ 28337951040fSNavdeep Parhar if (eq->pidx == eq->cidx) 28347951040fSNavdeep Parhar available = eq->sidx - 1; 28357951040fSNavdeep Parhar else 28367951040fSNavdeep Parhar available = IDXDIFF(eq->cidx, eq->pidx, eq->sidx) - 1; 28377951040fSNavdeep Parhar dbdiff = IDXDIFF(eq->pidx, eq->dbidx, eq->sidx); 28387951040fSNavdeep Parhar 28397951040fSNavdeep Parhar while (remaining > 0) { 28407951040fSNavdeep Parhar 28417951040fSNavdeep Parhar m0 = r->items[cidx]; 28427951040fSNavdeep Parhar M_ASSERTPKTHDR(m0); 28437951040fSNavdeep Parhar MPASS(m0->m_nextpkt == NULL); 28447951040fSNavdeep Parhar 28457951040fSNavdeep Parhar if (available < SGE_MAX_WR_NDESC) { 28467951040fSNavdeep Parhar available += reclaim_tx_descs(txq, 64); 28477951040fSNavdeep Parhar if (available < howmany(mbuf_len16(m0), EQ_ESIZE / 16)) 28487951040fSNavdeep Parhar break; /* out of descriptors */ 28497951040fSNavdeep Parhar } 28507951040fSNavdeep Parhar 28517951040fSNavdeep Parhar next_cidx = cidx + 1; 28527951040fSNavdeep Parhar if (__predict_false(next_cidx == r->size)) 28537951040fSNavdeep Parhar next_cidx = 0; 28547951040fSNavdeep Parhar 28557951040fSNavdeep Parhar wr = (void *)&eq->desc[eq->pidx]; 28566af45170SJohn Baldwin if (sc->flags & IS_VF) { 28576af45170SJohn Baldwin total++; 28586af45170SJohn Baldwin remaining--; 28596af45170SJohn Baldwin ETHER_BPF_MTAP(ifp, m0); 2860472a6004SNavdeep Parhar n = write_txpkt_vm_wr(sc, txq, (void *)wr, m0, 2861472a6004SNavdeep Parhar available); 28626af45170SJohn Baldwin } else if (remaining > 1 && 28637951040fSNavdeep Parhar try_txpkts(m0, r->items[next_cidx], &txp, available) == 0) { 28647951040fSNavdeep Parhar 28657951040fSNavdeep Parhar /* pkts at cidx, next_cidx should both be in txp. */ 28667951040fSNavdeep Parhar MPASS(txp.npkt == 2); 28677951040fSNavdeep Parhar tail = r->items[next_cidx]; 28687951040fSNavdeep Parhar MPASS(tail->m_nextpkt == NULL); 28697951040fSNavdeep Parhar ETHER_BPF_MTAP(ifp, m0); 28707951040fSNavdeep Parhar ETHER_BPF_MTAP(ifp, tail); 28717951040fSNavdeep Parhar m0->m_nextpkt = tail; 28727951040fSNavdeep Parhar 28737951040fSNavdeep Parhar if (__predict_false(++next_cidx == r->size)) 28747951040fSNavdeep Parhar next_cidx = 0; 28757951040fSNavdeep Parhar 28767951040fSNavdeep Parhar while (next_cidx != pidx) { 28777951040fSNavdeep Parhar if (add_to_txpkts(r->items[next_cidx], &txp, 28787951040fSNavdeep Parhar available) != 0) 28797951040fSNavdeep Parhar break; 28807951040fSNavdeep Parhar tail->m_nextpkt = r->items[next_cidx]; 28817951040fSNavdeep Parhar tail = tail->m_nextpkt; 28827951040fSNavdeep Parhar ETHER_BPF_MTAP(ifp, tail); 28837951040fSNavdeep Parhar if (__predict_false(++next_cidx == r->size)) 28847951040fSNavdeep Parhar next_cidx = 0; 28857951040fSNavdeep Parhar } 28867951040fSNavdeep Parhar 28877951040fSNavdeep Parhar n = write_txpkts_wr(txq, wr, m0, &txp, available); 28887951040fSNavdeep Parhar total += txp.npkt; 28897951040fSNavdeep Parhar remaining -= txp.npkt; 28905cdaef71SJohn Baldwin } else if (mbuf_cflags(m0) & MC_RAW_WR) { 28915cdaef71SJohn Baldwin total++; 28925cdaef71SJohn Baldwin remaining--; 28935cdaef71SJohn Baldwin n = write_raw_wr(txq, (void *)wr, m0, available); 28947951040fSNavdeep Parhar } else { 28957951040fSNavdeep Parhar total++; 28967951040fSNavdeep Parhar remaining--; 28977951040fSNavdeep Parhar ETHER_BPF_MTAP(ifp, m0); 289878552b23SNavdeep Parhar n = write_txpkt_wr(txq, (void *)wr, m0, available); 28997951040fSNavdeep Parhar } 29007951040fSNavdeep Parhar MPASS(n >= 1 && n <= available && n <= SGE_MAX_WR_NDESC); 29017951040fSNavdeep Parhar 29027951040fSNavdeep Parhar available -= n; 29037951040fSNavdeep Parhar dbdiff += n; 29047951040fSNavdeep Parhar IDXINCR(eq->pidx, n, eq->sidx); 29057951040fSNavdeep Parhar 29065cdaef71SJohn Baldwin if (wr_can_update_eq(wr)) { 29077951040fSNavdeep Parhar if (total_available_tx_desc(eq) < eq->sidx / 4 && 29087951040fSNavdeep Parhar atomic_cmpset_int(&eq->equiq, 0, 1)) { 29097951040fSNavdeep Parhar wr->equiq_to_len16 |= htobe32(F_FW_WR_EQUIQ | 29107951040fSNavdeep Parhar F_FW_WR_EQUEQ); 29117951040fSNavdeep Parhar eq->equeqidx = eq->pidx; 29125cdaef71SJohn Baldwin } else if (IDXDIFF(eq->pidx, eq->equeqidx, eq->sidx) >= 29135cdaef71SJohn Baldwin 32) { 29147951040fSNavdeep Parhar wr->equiq_to_len16 |= htobe32(F_FW_WR_EQUEQ); 29157951040fSNavdeep Parhar eq->equeqidx = eq->pidx; 29167951040fSNavdeep Parhar } 29175cdaef71SJohn Baldwin } 29187951040fSNavdeep Parhar 29197951040fSNavdeep Parhar if (dbdiff >= 16 && remaining >= 4) { 29207951040fSNavdeep Parhar ring_eq_db(sc, eq, dbdiff); 29217951040fSNavdeep Parhar available += reclaim_tx_descs(txq, 4 * dbdiff); 29227951040fSNavdeep Parhar dbdiff = 0; 29237951040fSNavdeep Parhar } 29247951040fSNavdeep Parhar 29257951040fSNavdeep Parhar cidx = next_cidx; 29267951040fSNavdeep Parhar } 29277951040fSNavdeep Parhar if (dbdiff != 0) { 29287951040fSNavdeep Parhar ring_eq_db(sc, eq, dbdiff); 29297951040fSNavdeep Parhar reclaim_tx_descs(txq, 32); 29307951040fSNavdeep Parhar } 29317951040fSNavdeep Parhar done: 29327951040fSNavdeep Parhar TXQ_UNLOCK(txq); 29337951040fSNavdeep Parhar 29347951040fSNavdeep Parhar return (total); 2935733b9277SNavdeep Parhar } 2936733b9277SNavdeep Parhar 293754e4ee71SNavdeep Parhar static inline void 293854e4ee71SNavdeep Parhar init_iq(struct sge_iq *iq, struct adapter *sc, int tmr_idx, int pktc_idx, 2939b2daa9a9SNavdeep Parhar int qsize) 294054e4ee71SNavdeep Parhar { 2941b2daa9a9SNavdeep Parhar 294254e4ee71SNavdeep Parhar KASSERT(tmr_idx >= 0 && tmr_idx < SGE_NTIMERS, 294354e4ee71SNavdeep Parhar ("%s: bad tmr_idx %d", __func__, tmr_idx)); 294454e4ee71SNavdeep Parhar KASSERT(pktc_idx < SGE_NCOUNTERS, /* -ve is ok, means don't use */ 294554e4ee71SNavdeep Parhar ("%s: bad pktc_idx %d", __func__, pktc_idx)); 294654e4ee71SNavdeep Parhar 294754e4ee71SNavdeep Parhar iq->flags = 0; 294854e4ee71SNavdeep Parhar iq->adapter = sc; 29497a32954cSNavdeep Parhar iq->intr_params = V_QINTR_TIMER_IDX(tmr_idx); 29507a32954cSNavdeep Parhar iq->intr_pktc_idx = SGE_NCOUNTERS - 1; 29517a32954cSNavdeep Parhar if (pktc_idx >= 0) { 29527a32954cSNavdeep Parhar iq->intr_params |= F_QINTR_CNT_EN; 295354e4ee71SNavdeep Parhar iq->intr_pktc_idx = pktc_idx; 29547a32954cSNavdeep Parhar } 2955d14b0ac1SNavdeep Parhar iq->qsize = roundup2(qsize, 16); /* See FW_IQ_CMD/iqsize */ 295690e7434aSNavdeep Parhar iq->sidx = iq->qsize - sc->params.sge.spg_len / IQ_ESIZE; 295754e4ee71SNavdeep Parhar } 295854e4ee71SNavdeep Parhar 295954e4ee71SNavdeep Parhar static inline void 2960e3207e19SNavdeep Parhar init_fl(struct adapter *sc, struct sge_fl *fl, int qsize, int maxp, char *name) 296154e4ee71SNavdeep Parhar { 29621458bff9SNavdeep Parhar 296354e4ee71SNavdeep Parhar fl->qsize = qsize; 296490e7434aSNavdeep Parhar fl->sidx = qsize - sc->params.sge.spg_len / EQ_ESIZE; 296554e4ee71SNavdeep Parhar strlcpy(fl->lockname, name, sizeof(fl->lockname)); 2966e3207e19SNavdeep Parhar if (sc->flags & BUF_PACKING_OK && 2967e3207e19SNavdeep Parhar ((!is_t4(sc) && buffer_packing) || /* T5+: enabled unless 0 */ 2968e3207e19SNavdeep Parhar (is_t4(sc) && buffer_packing == 1)))/* T4: disabled unless 1 */ 29691458bff9SNavdeep Parhar fl->flags |= FL_BUF_PACKING; 297038035ed6SNavdeep Parhar find_best_refill_source(sc, fl, maxp); 297138035ed6SNavdeep Parhar find_safe_refill_source(sc, fl); 297254e4ee71SNavdeep Parhar } 297354e4ee71SNavdeep Parhar 297454e4ee71SNavdeep Parhar static inline void 297590e7434aSNavdeep Parhar init_eq(struct adapter *sc, struct sge_eq *eq, int eqtype, int qsize, 297690e7434aSNavdeep Parhar uint8_t tx_chan, uint16_t iqid, char *name) 297754e4ee71SNavdeep Parhar { 2978733b9277SNavdeep Parhar KASSERT(eqtype <= EQ_TYPEMASK, ("%s: bad qtype %d", __func__, eqtype)); 2979733b9277SNavdeep Parhar 2980733b9277SNavdeep Parhar eq->flags = eqtype & EQ_TYPEMASK; 2981733b9277SNavdeep Parhar eq->tx_chan = tx_chan; 2982733b9277SNavdeep Parhar eq->iqid = iqid; 298390e7434aSNavdeep Parhar eq->sidx = qsize - sc->params.sge.spg_len / EQ_ESIZE; 2984f7dfe243SNavdeep Parhar strlcpy(eq->lockname, name, sizeof(eq->lockname)); 298554e4ee71SNavdeep Parhar } 298654e4ee71SNavdeep Parhar 298754e4ee71SNavdeep Parhar static int 298854e4ee71SNavdeep Parhar alloc_ring(struct adapter *sc, size_t len, bus_dma_tag_t *tag, 298954e4ee71SNavdeep Parhar bus_dmamap_t *map, bus_addr_t *pa, void **va) 299054e4ee71SNavdeep Parhar { 299154e4ee71SNavdeep Parhar int rc; 299254e4ee71SNavdeep Parhar 299354e4ee71SNavdeep Parhar rc = bus_dma_tag_create(sc->dmat, 512, 0, BUS_SPACE_MAXADDR, 299454e4ee71SNavdeep Parhar BUS_SPACE_MAXADDR, NULL, NULL, len, 1, len, 0, NULL, NULL, tag); 299554e4ee71SNavdeep Parhar if (rc != 0) { 299654e4ee71SNavdeep Parhar device_printf(sc->dev, "cannot allocate DMA tag: %d\n", rc); 299754e4ee71SNavdeep Parhar goto done; 299854e4ee71SNavdeep Parhar } 299954e4ee71SNavdeep Parhar 300054e4ee71SNavdeep Parhar rc = bus_dmamem_alloc(*tag, va, 300154e4ee71SNavdeep Parhar BUS_DMA_WAITOK | BUS_DMA_COHERENT | BUS_DMA_ZERO, map); 300254e4ee71SNavdeep Parhar if (rc != 0) { 300354e4ee71SNavdeep Parhar device_printf(sc->dev, "cannot allocate DMA memory: %d\n", rc); 300454e4ee71SNavdeep Parhar goto done; 300554e4ee71SNavdeep Parhar } 300654e4ee71SNavdeep Parhar 300754e4ee71SNavdeep Parhar rc = bus_dmamap_load(*tag, *map, *va, len, oneseg_dma_callback, pa, 0); 300854e4ee71SNavdeep Parhar if (rc != 0) { 300954e4ee71SNavdeep Parhar device_printf(sc->dev, "cannot load DMA map: %d\n", rc); 301054e4ee71SNavdeep Parhar goto done; 301154e4ee71SNavdeep Parhar } 301254e4ee71SNavdeep Parhar done: 301354e4ee71SNavdeep Parhar if (rc) 301454e4ee71SNavdeep Parhar free_ring(sc, *tag, *map, *pa, *va); 301554e4ee71SNavdeep Parhar 301654e4ee71SNavdeep Parhar return (rc); 301754e4ee71SNavdeep Parhar } 301854e4ee71SNavdeep Parhar 301954e4ee71SNavdeep Parhar static int 302054e4ee71SNavdeep Parhar free_ring(struct adapter *sc, bus_dma_tag_t tag, bus_dmamap_t map, 302154e4ee71SNavdeep Parhar bus_addr_t pa, void *va) 302254e4ee71SNavdeep Parhar { 302354e4ee71SNavdeep Parhar if (pa) 302454e4ee71SNavdeep Parhar bus_dmamap_unload(tag, map); 302554e4ee71SNavdeep Parhar if (va) 302654e4ee71SNavdeep Parhar bus_dmamem_free(tag, va, map); 302754e4ee71SNavdeep Parhar if (tag) 302854e4ee71SNavdeep Parhar bus_dma_tag_destroy(tag); 302954e4ee71SNavdeep Parhar 303054e4ee71SNavdeep Parhar return (0); 303154e4ee71SNavdeep Parhar } 303254e4ee71SNavdeep Parhar 303354e4ee71SNavdeep Parhar /* 303454e4ee71SNavdeep Parhar * Allocates the ring for an ingress queue and an optional freelist. If the 303554e4ee71SNavdeep Parhar * freelist is specified it will be allocated and then associated with the 303654e4ee71SNavdeep Parhar * ingress queue. 303754e4ee71SNavdeep Parhar * 303854e4ee71SNavdeep Parhar * Returns errno on failure. Resources allocated up to that point may still be 303954e4ee71SNavdeep Parhar * allocated. Caller is responsible for cleanup in case this function fails. 304054e4ee71SNavdeep Parhar * 3041f549e352SNavdeep Parhar * If the ingress queue will take interrupts directly then the intr_idx 3042f549e352SNavdeep Parhar * specifies the vector, starting from 0. -1 means the interrupts for this 3043f549e352SNavdeep Parhar * queue should be forwarded to the fwq. 304454e4ee71SNavdeep Parhar */ 304554e4ee71SNavdeep Parhar static int 3046fe2ebb76SJohn Baldwin alloc_iq_fl(struct vi_info *vi, struct sge_iq *iq, struct sge_fl *fl, 3047bc14b14dSNavdeep Parhar int intr_idx, int cong) 304854e4ee71SNavdeep Parhar { 304954e4ee71SNavdeep Parhar int rc, i, cntxt_id; 305054e4ee71SNavdeep Parhar size_t len; 305154e4ee71SNavdeep Parhar struct fw_iq_cmd c; 3052fe2ebb76SJohn Baldwin struct port_info *pi = vi->pi; 305354e4ee71SNavdeep Parhar struct adapter *sc = iq->adapter; 305490e7434aSNavdeep Parhar struct sge_params *sp = &sc->params.sge; 305554e4ee71SNavdeep Parhar __be32 v = 0; 305654e4ee71SNavdeep Parhar 3057b2daa9a9SNavdeep Parhar len = iq->qsize * IQ_ESIZE; 305854e4ee71SNavdeep Parhar rc = alloc_ring(sc, len, &iq->desc_tag, &iq->desc_map, &iq->ba, 305954e4ee71SNavdeep Parhar (void **)&iq->desc); 306054e4ee71SNavdeep Parhar if (rc != 0) 306154e4ee71SNavdeep Parhar return (rc); 306254e4ee71SNavdeep Parhar 306354e4ee71SNavdeep Parhar bzero(&c, sizeof(c)); 306454e4ee71SNavdeep Parhar c.op_to_vfn = htobe32(V_FW_CMD_OP(FW_IQ_CMD) | F_FW_CMD_REQUEST | 306554e4ee71SNavdeep Parhar F_FW_CMD_WRITE | F_FW_CMD_EXEC | V_FW_IQ_CMD_PFN(sc->pf) | 306654e4ee71SNavdeep Parhar V_FW_IQ_CMD_VFN(0)); 306754e4ee71SNavdeep Parhar 306854e4ee71SNavdeep Parhar c.alloc_to_len16 = htobe32(F_FW_IQ_CMD_ALLOC | F_FW_IQ_CMD_IQSTART | 306954e4ee71SNavdeep Parhar FW_LEN16(c)); 307054e4ee71SNavdeep Parhar 307154e4ee71SNavdeep Parhar /* Special handling for firmware event queue */ 307254e4ee71SNavdeep Parhar if (iq == &sc->sge.fwq) 307354e4ee71SNavdeep Parhar v |= F_FW_IQ_CMD_IQASYNCH; 307454e4ee71SNavdeep Parhar 3075f549e352SNavdeep Parhar if (intr_idx < 0) { 3076f549e352SNavdeep Parhar /* Forwarded interrupts, all headed to fwq */ 3077f549e352SNavdeep Parhar v |= F_FW_IQ_CMD_IQANDST; 3078f549e352SNavdeep Parhar v |= V_FW_IQ_CMD_IQANDSTINDEX(sc->sge.fwq.cntxt_id); 3079f549e352SNavdeep Parhar } else { 308054e4ee71SNavdeep Parhar KASSERT(intr_idx < sc->intr_count, 308154e4ee71SNavdeep Parhar ("%s: invalid direct intr_idx %d", __func__, intr_idx)); 308254e4ee71SNavdeep Parhar v |= V_FW_IQ_CMD_IQANDSTINDEX(intr_idx); 3083f549e352SNavdeep Parhar } 308454e4ee71SNavdeep Parhar 308554e4ee71SNavdeep Parhar c.type_to_iqandstindex = htobe32(v | 308654e4ee71SNavdeep Parhar V_FW_IQ_CMD_TYPE(FW_IQ_TYPE_FL_INT_CAP) | 3087fe2ebb76SJohn Baldwin V_FW_IQ_CMD_VIID(vi->viid) | 308854e4ee71SNavdeep Parhar V_FW_IQ_CMD_IQANUD(X_UPDATEDELIVERY_INTERRUPT)); 308954e4ee71SNavdeep Parhar c.iqdroprss_to_iqesize = htobe16(V_FW_IQ_CMD_IQPCIECH(pi->tx_chan) | 309054e4ee71SNavdeep Parhar F_FW_IQ_CMD_IQGTSMODE | 309154e4ee71SNavdeep Parhar V_FW_IQ_CMD_IQINTCNTTHRESH(iq->intr_pktc_idx) | 3092b2daa9a9SNavdeep Parhar V_FW_IQ_CMD_IQESIZE(ilog2(IQ_ESIZE) - 4)); 309354e4ee71SNavdeep Parhar c.iqsize = htobe16(iq->qsize); 309454e4ee71SNavdeep Parhar c.iqaddr = htobe64(iq->ba); 3095bc14b14dSNavdeep Parhar if (cong >= 0) 3096bc14b14dSNavdeep Parhar c.iqns_to_fl0congen = htobe32(F_FW_IQ_CMD_IQFLINTCONGEN); 309754e4ee71SNavdeep Parhar 309854e4ee71SNavdeep Parhar if (fl) { 309954e4ee71SNavdeep Parhar mtx_init(&fl->fl_lock, fl->lockname, NULL, MTX_DEF); 310054e4ee71SNavdeep Parhar 3101b2daa9a9SNavdeep Parhar len = fl->qsize * EQ_ESIZE; 310254e4ee71SNavdeep Parhar rc = alloc_ring(sc, len, &fl->desc_tag, &fl->desc_map, 310354e4ee71SNavdeep Parhar &fl->ba, (void **)&fl->desc); 310454e4ee71SNavdeep Parhar if (rc) 310554e4ee71SNavdeep Parhar return (rc); 310654e4ee71SNavdeep Parhar 310754e4ee71SNavdeep Parhar /* Allocate space for one software descriptor per buffer. */ 310854e4ee71SNavdeep Parhar rc = alloc_fl_sdesc(fl); 310954e4ee71SNavdeep Parhar if (rc != 0) { 311054e4ee71SNavdeep Parhar device_printf(sc->dev, 311154e4ee71SNavdeep Parhar "failed to setup fl software descriptors: %d\n", 311254e4ee71SNavdeep Parhar rc); 311354e4ee71SNavdeep Parhar return (rc); 311454e4ee71SNavdeep Parhar } 31154d6db4e0SNavdeep Parhar 31164d6db4e0SNavdeep Parhar if (fl->flags & FL_BUF_PACKING) { 311790e7434aSNavdeep Parhar fl->lowat = roundup2(sp->fl_starve_threshold2, 8); 311890e7434aSNavdeep Parhar fl->buf_boundary = sp->pack_boundary; 31194d6db4e0SNavdeep Parhar } else { 312090e7434aSNavdeep Parhar fl->lowat = roundup2(sp->fl_starve_threshold, 8); 3121e3207e19SNavdeep Parhar fl->buf_boundary = 16; 31224d6db4e0SNavdeep Parhar } 312390e7434aSNavdeep Parhar if (fl_pad && fl->buf_boundary < sp->pad_boundary) 312490e7434aSNavdeep Parhar fl->buf_boundary = sp->pad_boundary; 312554e4ee71SNavdeep Parhar 3126214c3582SNavdeep Parhar c.iqns_to_fl0congen |= 3127bc14b14dSNavdeep Parhar htobe32(V_FW_IQ_CMD_FL0HOSTFCMODE(X_HOSTFCMODE_NONE) | 3128bc14b14dSNavdeep Parhar F_FW_IQ_CMD_FL0FETCHRO | F_FW_IQ_CMD_FL0DATARO | 31291458bff9SNavdeep Parhar (fl_pad ? F_FW_IQ_CMD_FL0PADEN : 0) | 31301458bff9SNavdeep Parhar (fl->flags & FL_BUF_PACKING ? F_FW_IQ_CMD_FL0PACKEN : 31311458bff9SNavdeep Parhar 0)); 3132bc14b14dSNavdeep Parhar if (cong >= 0) { 3133bc14b14dSNavdeep Parhar c.iqns_to_fl0congen |= 3134bc14b14dSNavdeep Parhar htobe32(V_FW_IQ_CMD_FL0CNGCHMAP(cong) | 3135bc14b14dSNavdeep Parhar F_FW_IQ_CMD_FL0CONGCIF | 3136bc14b14dSNavdeep Parhar F_FW_IQ_CMD_FL0CONGEN); 3137bc14b14dSNavdeep Parhar } 313854e4ee71SNavdeep Parhar c.fl0dcaen_to_fl0cidxfthresh = 3139ed7e5640SNavdeep Parhar htobe16(V_FW_IQ_CMD_FL0FBMIN(chip_id(sc) <= CHELSIO_T5 ? 3140ed7e5640SNavdeep Parhar X_FETCHBURSTMIN_128B : X_FETCHBURSTMIN_64B) | 3141ed7e5640SNavdeep Parhar V_FW_IQ_CMD_FL0FBMAX(chip_id(sc) <= CHELSIO_T5 ? 3142ed7e5640SNavdeep Parhar X_FETCHBURSTMAX_512B : X_FETCHBURSTMAX_256B)); 314354e4ee71SNavdeep Parhar c.fl0size = htobe16(fl->qsize); 314454e4ee71SNavdeep Parhar c.fl0addr = htobe64(fl->ba); 314554e4ee71SNavdeep Parhar } 314654e4ee71SNavdeep Parhar 314754e4ee71SNavdeep Parhar rc = -t4_wr_mbox(sc, sc->mbox, &c, sizeof(c), &c); 314854e4ee71SNavdeep Parhar if (rc != 0) { 314954e4ee71SNavdeep Parhar device_printf(sc->dev, 315054e4ee71SNavdeep Parhar "failed to create ingress queue: %d\n", rc); 315154e4ee71SNavdeep Parhar return (rc); 315254e4ee71SNavdeep Parhar } 315354e4ee71SNavdeep Parhar 315454e4ee71SNavdeep Parhar iq->cidx = 0; 3155b2daa9a9SNavdeep Parhar iq->gen = F_RSPD_GEN; 315654e4ee71SNavdeep Parhar iq->intr_next = iq->intr_params; 315754e4ee71SNavdeep Parhar iq->cntxt_id = be16toh(c.iqid); 315854e4ee71SNavdeep Parhar iq->abs_id = be16toh(c.physiqid); 3159733b9277SNavdeep Parhar iq->flags |= IQ_ALLOCATED; 316054e4ee71SNavdeep Parhar 316154e4ee71SNavdeep Parhar cntxt_id = iq->cntxt_id - sc->sge.iq_start; 3162733b9277SNavdeep Parhar if (cntxt_id >= sc->sge.niq) { 3163733b9277SNavdeep Parhar panic ("%s: iq->cntxt_id (%d) more than the max (%d)", __func__, 3164733b9277SNavdeep Parhar cntxt_id, sc->sge.niq - 1); 3165733b9277SNavdeep Parhar } 316654e4ee71SNavdeep Parhar sc->sge.iqmap[cntxt_id] = iq; 316754e4ee71SNavdeep Parhar 316854e4ee71SNavdeep Parhar if (fl) { 31694d6db4e0SNavdeep Parhar u_int qid; 31704d6db4e0SNavdeep Parhar 31714d6db4e0SNavdeep Parhar iq->flags |= IQ_HAS_FL; 317254e4ee71SNavdeep Parhar fl->cntxt_id = be16toh(c.fl0id); 317354e4ee71SNavdeep Parhar fl->pidx = fl->cidx = 0; 317454e4ee71SNavdeep Parhar 31759f1f7ec9SNavdeep Parhar cntxt_id = fl->cntxt_id - sc->sge.eq_start; 3176733b9277SNavdeep Parhar if (cntxt_id >= sc->sge.neq) { 3177733b9277SNavdeep Parhar panic("%s: fl->cntxt_id (%d) more than the max (%d)", 3178733b9277SNavdeep Parhar __func__, cntxt_id, sc->sge.neq - 1); 3179733b9277SNavdeep Parhar } 318054e4ee71SNavdeep Parhar sc->sge.eqmap[cntxt_id] = (void *)fl; 318154e4ee71SNavdeep Parhar 31824d6db4e0SNavdeep Parhar qid = fl->cntxt_id; 31834d6db4e0SNavdeep Parhar if (isset(&sc->doorbells, DOORBELL_UDB)) { 318490e7434aSNavdeep Parhar uint32_t s_qpp = sc->params.sge.eq_s_qpp; 31854d6db4e0SNavdeep Parhar uint32_t mask = (1 << s_qpp) - 1; 31864d6db4e0SNavdeep Parhar volatile uint8_t *udb; 31874d6db4e0SNavdeep Parhar 31884d6db4e0SNavdeep Parhar udb = sc->udbs_base + UDBS_DB_OFFSET; 31894d6db4e0SNavdeep Parhar udb += (qid >> s_qpp) << PAGE_SHIFT; 31904d6db4e0SNavdeep Parhar qid &= mask; 31914d6db4e0SNavdeep Parhar if (qid < PAGE_SIZE / UDBS_SEG_SIZE) { 31924d6db4e0SNavdeep Parhar udb += qid << UDBS_SEG_SHIFT; 31934d6db4e0SNavdeep Parhar qid = 0; 31944d6db4e0SNavdeep Parhar } 31954d6db4e0SNavdeep Parhar fl->udb = (volatile void *)udb; 31964d6db4e0SNavdeep Parhar } 3197d1205d09SNavdeep Parhar fl->dbval = V_QID(qid) | sc->chip_params->sge_fl_db; 31984d6db4e0SNavdeep Parhar 319954e4ee71SNavdeep Parhar FL_LOCK(fl); 3200733b9277SNavdeep Parhar /* Enough to make sure the SGE doesn't think it's starved */ 3201733b9277SNavdeep Parhar refill_fl(sc, fl, fl->lowat); 320254e4ee71SNavdeep Parhar FL_UNLOCK(fl); 320354e4ee71SNavdeep Parhar } 320454e4ee71SNavdeep Parhar 32058c0ca00bSNavdeep Parhar if (chip_id(sc) >= CHELSIO_T5 && !(sc->flags & IS_VF) && cong >= 0) { 3206ba41ec48SNavdeep Parhar uint32_t param, val; 3207ba41ec48SNavdeep Parhar 3208ba41ec48SNavdeep Parhar param = V_FW_PARAMS_MNEM(FW_PARAMS_MNEM_DMAQ) | 3209ba41ec48SNavdeep Parhar V_FW_PARAMS_PARAM_X(FW_PARAMS_PARAM_DMAQ_CONM_CTXT) | 3210ba41ec48SNavdeep Parhar V_FW_PARAMS_PARAM_YZ(iq->cntxt_id); 321173cd9220SNavdeep Parhar if (cong == 0) 321273cd9220SNavdeep Parhar val = 1 << 19; 321373cd9220SNavdeep Parhar else { 321473cd9220SNavdeep Parhar val = 2 << 19; 321573cd9220SNavdeep Parhar for (i = 0; i < 4; i++) { 321673cd9220SNavdeep Parhar if (cong & (1 << i)) 321773cd9220SNavdeep Parhar val |= 1 << (i << 2); 321873cd9220SNavdeep Parhar } 321973cd9220SNavdeep Parhar } 322073cd9220SNavdeep Parhar 3221ba41ec48SNavdeep Parhar rc = -t4_set_params(sc, sc->mbox, sc->pf, 0, 1, ¶m, &val); 3222ba41ec48SNavdeep Parhar if (rc != 0) { 3223ba41ec48SNavdeep Parhar /* report error but carry on */ 3224ba41ec48SNavdeep Parhar device_printf(sc->dev, 3225ba41ec48SNavdeep Parhar "failed to set congestion manager context for " 3226ba41ec48SNavdeep Parhar "ingress queue %d: %d\n", iq->cntxt_id, rc); 3227ba41ec48SNavdeep Parhar } 3228ba41ec48SNavdeep Parhar } 3229ba41ec48SNavdeep Parhar 323054e4ee71SNavdeep Parhar /* Enable IQ interrupts */ 3231733b9277SNavdeep Parhar atomic_store_rel_int(&iq->state, IQS_IDLE); 3232315048f2SJohn Baldwin t4_write_reg(sc, sc->sge_gts_reg, V_SEINTARM(iq->intr_params) | 323354e4ee71SNavdeep Parhar V_INGRESSQID(iq->cntxt_id)); 323454e4ee71SNavdeep Parhar 323554e4ee71SNavdeep Parhar return (0); 323654e4ee71SNavdeep Parhar } 323754e4ee71SNavdeep Parhar 323854e4ee71SNavdeep Parhar static int 3239fe2ebb76SJohn Baldwin free_iq_fl(struct vi_info *vi, struct sge_iq *iq, struct sge_fl *fl) 324054e4ee71SNavdeep Parhar { 324138035ed6SNavdeep Parhar int rc; 324254e4ee71SNavdeep Parhar struct adapter *sc = iq->adapter; 324354e4ee71SNavdeep Parhar device_t dev; 324454e4ee71SNavdeep Parhar 324554e4ee71SNavdeep Parhar if (sc == NULL) 324654e4ee71SNavdeep Parhar return (0); /* nothing to do */ 324754e4ee71SNavdeep Parhar 3248fe2ebb76SJohn Baldwin dev = vi ? vi->dev : sc->dev; 324954e4ee71SNavdeep Parhar 325054e4ee71SNavdeep Parhar if (iq->flags & IQ_ALLOCATED) { 325154e4ee71SNavdeep Parhar rc = -t4_iq_free(sc, sc->mbox, sc->pf, 0, 325254e4ee71SNavdeep Parhar FW_IQ_TYPE_FL_INT_CAP, iq->cntxt_id, 325354e4ee71SNavdeep Parhar fl ? fl->cntxt_id : 0xffff, 0xffff); 325454e4ee71SNavdeep Parhar if (rc != 0) { 325554e4ee71SNavdeep Parhar device_printf(dev, 325654e4ee71SNavdeep Parhar "failed to free queue %p: %d\n", iq, rc); 325754e4ee71SNavdeep Parhar return (rc); 325854e4ee71SNavdeep Parhar } 325954e4ee71SNavdeep Parhar iq->flags &= ~IQ_ALLOCATED; 326054e4ee71SNavdeep Parhar } 326154e4ee71SNavdeep Parhar 326254e4ee71SNavdeep Parhar free_ring(sc, iq->desc_tag, iq->desc_map, iq->ba, iq->desc); 326354e4ee71SNavdeep Parhar 326454e4ee71SNavdeep Parhar bzero(iq, sizeof(*iq)); 326554e4ee71SNavdeep Parhar 326654e4ee71SNavdeep Parhar if (fl) { 326754e4ee71SNavdeep Parhar free_ring(sc, fl->desc_tag, fl->desc_map, fl->ba, 326854e4ee71SNavdeep Parhar fl->desc); 326954e4ee71SNavdeep Parhar 3270aa9a5cc0SNavdeep Parhar if (fl->sdesc) 32711458bff9SNavdeep Parhar free_fl_sdesc(sc, fl); 32721458bff9SNavdeep Parhar 327354e4ee71SNavdeep Parhar if (mtx_initialized(&fl->fl_lock)) 327454e4ee71SNavdeep Parhar mtx_destroy(&fl->fl_lock); 327554e4ee71SNavdeep Parhar 327654e4ee71SNavdeep Parhar bzero(fl, sizeof(*fl)); 327754e4ee71SNavdeep Parhar } 327854e4ee71SNavdeep Parhar 327954e4ee71SNavdeep Parhar return (0); 328054e4ee71SNavdeep Parhar } 328154e4ee71SNavdeep Parhar 328238035ed6SNavdeep Parhar static void 3283348694daSNavdeep Parhar add_iq_sysctls(struct sysctl_ctx_list *ctx, struct sysctl_oid *oid, 3284348694daSNavdeep Parhar struct sge_iq *iq) 3285348694daSNavdeep Parhar { 3286348694daSNavdeep Parhar struct sysctl_oid_list *children = SYSCTL_CHILDREN(oid); 3287348694daSNavdeep Parhar 3288348694daSNavdeep Parhar SYSCTL_ADD_UAUTO(ctx, children, OID_AUTO, "ba", CTLFLAG_RD, &iq->ba, 3289348694daSNavdeep Parhar "bus address of descriptor ring"); 3290348694daSNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "dmalen", CTLFLAG_RD, NULL, 3291348694daSNavdeep Parhar iq->qsize * IQ_ESIZE, "descriptor ring size in bytes"); 3292348694daSNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "abs_id", 3293348694daSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &iq->abs_id, 0, sysctl_uint16, "I", 3294348694daSNavdeep Parhar "absolute id of the queue"); 3295348694daSNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "cntxt_id", 3296348694daSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &iq->cntxt_id, 0, sysctl_uint16, "I", 3297348694daSNavdeep Parhar "SGE context id of the queue"); 3298348694daSNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "cidx", 3299348694daSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &iq->cidx, 0, sysctl_uint16, "I", 3300348694daSNavdeep Parhar "consumer index"); 3301348694daSNavdeep Parhar } 3302348694daSNavdeep Parhar 3303348694daSNavdeep Parhar static void 3304aa93b99aSNavdeep Parhar add_fl_sysctls(struct adapter *sc, struct sysctl_ctx_list *ctx, 3305aa93b99aSNavdeep Parhar struct sysctl_oid *oid, struct sge_fl *fl) 330638035ed6SNavdeep Parhar { 330738035ed6SNavdeep Parhar struct sysctl_oid_list *children = SYSCTL_CHILDREN(oid); 330838035ed6SNavdeep Parhar 330938035ed6SNavdeep Parhar oid = SYSCTL_ADD_NODE(ctx, children, OID_AUTO, "fl", CTLFLAG_RD, NULL, 331038035ed6SNavdeep Parhar "freelist"); 331138035ed6SNavdeep Parhar children = SYSCTL_CHILDREN(oid); 331238035ed6SNavdeep Parhar 3313aa93b99aSNavdeep Parhar SYSCTL_ADD_UAUTO(ctx, children, OID_AUTO, "ba", CTLFLAG_RD, 3314aa93b99aSNavdeep Parhar &fl->ba, "bus address of descriptor ring"); 3315aa93b99aSNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "dmalen", CTLFLAG_RD, NULL, 3316aa93b99aSNavdeep Parhar fl->sidx * EQ_ESIZE + sc->params.sge.spg_len, 3317aa93b99aSNavdeep Parhar "desc ring size in bytes"); 331838035ed6SNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "cntxt_id", 331938035ed6SNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &fl->cntxt_id, 0, sysctl_uint16, "I", 332038035ed6SNavdeep Parhar "SGE context id of the freelist"); 3321e3207e19SNavdeep Parhar SYSCTL_ADD_UINT(ctx, children, OID_AUTO, "padding", CTLFLAG_RD, NULL, 3322e3207e19SNavdeep Parhar fl_pad ? 1 : 0, "padding enabled"); 3323e3207e19SNavdeep Parhar SYSCTL_ADD_UINT(ctx, children, OID_AUTO, "packing", CTLFLAG_RD, NULL, 3324e3207e19SNavdeep Parhar fl->flags & FL_BUF_PACKING ? 1 : 0, "packing enabled"); 332538035ed6SNavdeep Parhar SYSCTL_ADD_UINT(ctx, children, OID_AUTO, "cidx", CTLFLAG_RD, &fl->cidx, 332638035ed6SNavdeep Parhar 0, "consumer index"); 332738035ed6SNavdeep Parhar if (fl->flags & FL_BUF_PACKING) { 332838035ed6SNavdeep Parhar SYSCTL_ADD_UINT(ctx, children, OID_AUTO, "rx_offset", 332938035ed6SNavdeep Parhar CTLFLAG_RD, &fl->rx_offset, 0, "packing rx offset"); 333038035ed6SNavdeep Parhar } 333138035ed6SNavdeep Parhar SYSCTL_ADD_UINT(ctx, children, OID_AUTO, "pidx", CTLFLAG_RD, &fl->pidx, 333238035ed6SNavdeep Parhar 0, "producer index"); 333338035ed6SNavdeep Parhar SYSCTL_ADD_UQUAD(ctx, children, OID_AUTO, "mbuf_allocated", 333438035ed6SNavdeep Parhar CTLFLAG_RD, &fl->mbuf_allocated, "# of mbuf allocated"); 333538035ed6SNavdeep Parhar SYSCTL_ADD_UQUAD(ctx, children, OID_AUTO, "mbuf_inlined", 333638035ed6SNavdeep Parhar CTLFLAG_RD, &fl->mbuf_inlined, "# of mbuf inlined in clusters"); 333738035ed6SNavdeep Parhar SYSCTL_ADD_UQUAD(ctx, children, OID_AUTO, "cluster_allocated", 333838035ed6SNavdeep Parhar CTLFLAG_RD, &fl->cl_allocated, "# of clusters allocated"); 333938035ed6SNavdeep Parhar SYSCTL_ADD_UQUAD(ctx, children, OID_AUTO, "cluster_recycled", 334038035ed6SNavdeep Parhar CTLFLAG_RD, &fl->cl_recycled, "# of clusters recycled"); 334138035ed6SNavdeep Parhar SYSCTL_ADD_UQUAD(ctx, children, OID_AUTO, "cluster_fast_recycled", 334238035ed6SNavdeep Parhar CTLFLAG_RD, &fl->cl_fast_recycled, "# of clusters recycled (fast)"); 334338035ed6SNavdeep Parhar } 334438035ed6SNavdeep Parhar 334554e4ee71SNavdeep Parhar static int 3346733b9277SNavdeep Parhar alloc_fwq(struct adapter *sc) 334754e4ee71SNavdeep Parhar { 3348733b9277SNavdeep Parhar int rc, intr_idx; 334956599263SNavdeep Parhar struct sge_iq *fwq = &sc->sge.fwq; 3350733b9277SNavdeep Parhar struct sysctl_oid *oid = device_get_sysctl_tree(sc->dev); 3351733b9277SNavdeep Parhar struct sysctl_oid_list *children = SYSCTL_CHILDREN(oid); 335256599263SNavdeep Parhar 3353b2daa9a9SNavdeep Parhar init_iq(fwq, sc, 0, 0, FW_IQ_QSIZE); 33546af45170SJohn Baldwin if (sc->flags & IS_VF) 33556af45170SJohn Baldwin intr_idx = 0; 33564535e804SNavdeep Parhar else 3357733b9277SNavdeep Parhar intr_idx = sc->intr_count > 1 ? 1 : 0; 3358fe2ebb76SJohn Baldwin rc = alloc_iq_fl(&sc->port[0]->vi[0], fwq, NULL, intr_idx, -1); 3359733b9277SNavdeep Parhar if (rc != 0) { 3360733b9277SNavdeep Parhar device_printf(sc->dev, 3361733b9277SNavdeep Parhar "failed to create firmware event queue: %d\n", rc); 336256599263SNavdeep Parhar return (rc); 3363733b9277SNavdeep Parhar } 336456599263SNavdeep Parhar 3365733b9277SNavdeep Parhar oid = SYSCTL_ADD_NODE(&sc->ctx, children, OID_AUTO, "fwq", CTLFLAG_RD, 3366733b9277SNavdeep Parhar NULL, "firmware event queue"); 3367348694daSNavdeep Parhar add_iq_sysctls(&sc->ctx, oid, fwq); 336856599263SNavdeep Parhar 3369733b9277SNavdeep Parhar return (0); 3370733b9277SNavdeep Parhar } 3371733b9277SNavdeep Parhar 3372733b9277SNavdeep Parhar static int 3373733b9277SNavdeep Parhar free_fwq(struct adapter *sc) 3374733b9277SNavdeep Parhar { 3375733b9277SNavdeep Parhar return free_iq_fl(NULL, &sc->sge.fwq, NULL); 3376733b9277SNavdeep Parhar } 3377733b9277SNavdeep Parhar 3378733b9277SNavdeep Parhar static int 337937310a98SNavdeep Parhar alloc_ctrlq(struct adapter *sc, struct sge_wrq *ctrlq, int idx, 338037310a98SNavdeep Parhar struct sysctl_oid *oid) 3381733b9277SNavdeep Parhar { 3382733b9277SNavdeep Parhar int rc; 3383733b9277SNavdeep Parhar char name[16]; 338437310a98SNavdeep Parhar struct sysctl_oid_list *children; 3385733b9277SNavdeep Parhar 338637310a98SNavdeep Parhar snprintf(name, sizeof(name), "%s ctrlq%d", device_get_nameunit(sc->dev), 338737310a98SNavdeep Parhar idx); 338837310a98SNavdeep Parhar init_eq(sc, &ctrlq->eq, EQ_CTRL, CTRL_EQ_QSIZE, sc->port[idx]->tx_chan, 3389733b9277SNavdeep Parhar sc->sge.fwq.cntxt_id, name); 339037310a98SNavdeep Parhar 339137310a98SNavdeep Parhar children = SYSCTL_CHILDREN(oid); 339237310a98SNavdeep Parhar snprintf(name, sizeof(name), "%d", idx); 339337310a98SNavdeep Parhar oid = SYSCTL_ADD_NODE(&sc->ctx, children, OID_AUTO, name, CTLFLAG_RD, 339437310a98SNavdeep Parhar NULL, "ctrl queue"); 339537310a98SNavdeep Parhar rc = alloc_wrq(sc, NULL, ctrlq, oid); 339637310a98SNavdeep Parhar 339756599263SNavdeep Parhar return (rc); 339856599263SNavdeep Parhar } 339956599263SNavdeep Parhar 34001605bac6SNavdeep Parhar int 34019af71ab3SNavdeep Parhar tnl_cong(struct port_info *pi, int drop) 34029fb8886bSNavdeep Parhar { 34039fb8886bSNavdeep Parhar 34049af71ab3SNavdeep Parhar if (drop == -1) 34059fb8886bSNavdeep Parhar return (-1); 34069af71ab3SNavdeep Parhar else if (drop == 1) 34079fb8886bSNavdeep Parhar return (0); 34089fb8886bSNavdeep Parhar else 34095bcae8ddSNavdeep Parhar return (pi->rx_e_chan_map); 34109fb8886bSNavdeep Parhar } 34119fb8886bSNavdeep Parhar 3412733b9277SNavdeep Parhar static int 3413fe2ebb76SJohn Baldwin alloc_rxq(struct vi_info *vi, struct sge_rxq *rxq, int intr_idx, int idx, 3414733b9277SNavdeep Parhar struct sysctl_oid *oid) 341554e4ee71SNavdeep Parhar { 341654e4ee71SNavdeep Parhar int rc; 3417ec55567cSJohn Baldwin struct adapter *sc = vi->pi->adapter; 341854e4ee71SNavdeep Parhar struct sysctl_oid_list *children; 341954e4ee71SNavdeep Parhar char name[16]; 342054e4ee71SNavdeep Parhar 3421fe2ebb76SJohn Baldwin rc = alloc_iq_fl(vi, &rxq->iq, &rxq->fl, intr_idx, 3422fe2ebb76SJohn Baldwin tnl_cong(vi->pi, cong_drop)); 342354e4ee71SNavdeep Parhar if (rc != 0) 342454e4ee71SNavdeep Parhar return (rc); 342554e4ee71SNavdeep Parhar 3426ec55567cSJohn Baldwin if (idx == 0) 3427ec55567cSJohn Baldwin sc->sge.iq_base = rxq->iq.abs_id - rxq->iq.cntxt_id; 3428ec55567cSJohn Baldwin else 3429ec55567cSJohn Baldwin KASSERT(rxq->iq.cntxt_id + sc->sge.iq_base == rxq->iq.abs_id, 3430ec55567cSJohn Baldwin ("iq_base mismatch")); 3431ec55567cSJohn Baldwin KASSERT(sc->sge.iq_base == 0 || sc->flags & IS_VF, 3432ec55567cSJohn Baldwin ("PF with non-zero iq_base")); 3433ec55567cSJohn Baldwin 34344d6db4e0SNavdeep Parhar /* 34354d6db4e0SNavdeep Parhar * The freelist is just barely above the starvation threshold right now, 34364d6db4e0SNavdeep Parhar * fill it up a bit more. 34374d6db4e0SNavdeep Parhar */ 34389b4d7b4eSNavdeep Parhar FL_LOCK(&rxq->fl); 3439ec55567cSJohn Baldwin refill_fl(sc, &rxq->fl, 128); 34409b4d7b4eSNavdeep Parhar FL_UNLOCK(&rxq->fl); 34419b4d7b4eSNavdeep Parhar 3442a1ea9a82SNavdeep Parhar #if defined(INET) || defined(INET6) 344346f48ee5SNavdeep Parhar rc = tcp_lro_init_args(&rxq->lro, vi->ifp, lro_entries, lro_mbufs); 344454e4ee71SNavdeep Parhar if (rc != 0) 344554e4ee71SNavdeep Parhar return (rc); 344646f48ee5SNavdeep Parhar MPASS(rxq->lro.ifp == vi->ifp); /* also indicates LRO init'ed */ 344754e4ee71SNavdeep Parhar 3448fe2ebb76SJohn Baldwin if (vi->ifp->if_capenable & IFCAP_LRO) 3449733b9277SNavdeep Parhar rxq->iq.flags |= IQ_LRO_ENABLED; 345054e4ee71SNavdeep Parhar #endif 34519877f735SNavdeep Parhar if (vi->ifp->if_capenable & IFCAP_HWRXTSTMP) 34529877f735SNavdeep Parhar rxq->iq.flags |= IQ_RX_TIMESTAMP; 3453fe2ebb76SJohn Baldwin rxq->ifp = vi->ifp; 345454e4ee71SNavdeep Parhar 3455733b9277SNavdeep Parhar children = SYSCTL_CHILDREN(oid); 345654e4ee71SNavdeep Parhar 345754e4ee71SNavdeep Parhar snprintf(name, sizeof(name), "%d", idx); 3458fe2ebb76SJohn Baldwin oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, name, CTLFLAG_RD, 345954e4ee71SNavdeep Parhar NULL, "rx queue"); 346054e4ee71SNavdeep Parhar children = SYSCTL_CHILDREN(oid); 346154e4ee71SNavdeep Parhar 3462348694daSNavdeep Parhar add_iq_sysctls(&vi->ctx, oid, &rxq->iq); 3463a1ea9a82SNavdeep Parhar #if defined(INET) || defined(INET6) 3464e936121dSHans Petter Selasky SYSCTL_ADD_U64(&vi->ctx, children, OID_AUTO, "lro_queued", CTLFLAG_RD, 346554e4ee71SNavdeep Parhar &rxq->lro.lro_queued, 0, NULL); 3466e936121dSHans Petter Selasky SYSCTL_ADD_U64(&vi->ctx, children, OID_AUTO, "lro_flushed", CTLFLAG_RD, 346754e4ee71SNavdeep Parhar &rxq->lro.lro_flushed, 0, NULL); 34687d29df59SNavdeep Parhar #endif 3469fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "rxcsum", CTLFLAG_RD, 347054e4ee71SNavdeep Parhar &rxq->rxcsum, "# of times hardware assisted with checksum"); 3471fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "vlan_extraction", 347254e4ee71SNavdeep Parhar CTLFLAG_RD, &rxq->vlan_extraction, 347354e4ee71SNavdeep Parhar "# of times hardware extracted 802.1Q tag"); 347454e4ee71SNavdeep Parhar 3475aa93b99aSNavdeep Parhar add_fl_sysctls(sc, &vi->ctx, oid, &rxq->fl); 347659bc8ce0SNavdeep Parhar 347754e4ee71SNavdeep Parhar return (rc); 347854e4ee71SNavdeep Parhar } 347954e4ee71SNavdeep Parhar 348054e4ee71SNavdeep Parhar static int 3481fe2ebb76SJohn Baldwin free_rxq(struct vi_info *vi, struct sge_rxq *rxq) 348254e4ee71SNavdeep Parhar { 348354e4ee71SNavdeep Parhar int rc; 348454e4ee71SNavdeep Parhar 3485a1ea9a82SNavdeep Parhar #if defined(INET) || defined(INET6) 348654e4ee71SNavdeep Parhar if (rxq->lro.ifp) { 348754e4ee71SNavdeep Parhar tcp_lro_free(&rxq->lro); 348854e4ee71SNavdeep Parhar rxq->lro.ifp = NULL; 348954e4ee71SNavdeep Parhar } 349054e4ee71SNavdeep Parhar #endif 349154e4ee71SNavdeep Parhar 3492fe2ebb76SJohn Baldwin rc = free_iq_fl(vi, &rxq->iq, &rxq->fl); 349354e4ee71SNavdeep Parhar if (rc == 0) 349454e4ee71SNavdeep Parhar bzero(rxq, sizeof(*rxq)); 349554e4ee71SNavdeep Parhar 349654e4ee71SNavdeep Parhar return (rc); 349754e4ee71SNavdeep Parhar } 349854e4ee71SNavdeep Parhar 349909fe6320SNavdeep Parhar #ifdef TCP_OFFLOAD 350054e4ee71SNavdeep Parhar static int 3501fe2ebb76SJohn Baldwin alloc_ofld_rxq(struct vi_info *vi, struct sge_ofld_rxq *ofld_rxq, 3502733b9277SNavdeep Parhar int intr_idx, int idx, struct sysctl_oid *oid) 3503f7dfe243SNavdeep Parhar { 3504aa93b99aSNavdeep Parhar struct port_info *pi = vi->pi; 3505733b9277SNavdeep Parhar int rc; 3506f7dfe243SNavdeep Parhar struct sysctl_oid_list *children; 3507733b9277SNavdeep Parhar char name[16]; 3508f7dfe243SNavdeep Parhar 35095bcae8ddSNavdeep Parhar rc = alloc_iq_fl(vi, &ofld_rxq->iq, &ofld_rxq->fl, intr_idx, 0); 3510733b9277SNavdeep Parhar if (rc != 0) 3511f7dfe243SNavdeep Parhar return (rc); 3512f7dfe243SNavdeep Parhar 3513733b9277SNavdeep Parhar children = SYSCTL_CHILDREN(oid); 3514733b9277SNavdeep Parhar 3515733b9277SNavdeep Parhar snprintf(name, sizeof(name), "%d", idx); 3516fe2ebb76SJohn Baldwin oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, name, CTLFLAG_RD, 3517733b9277SNavdeep Parhar NULL, "rx queue"); 3518348694daSNavdeep Parhar add_iq_sysctls(&vi->ctx, oid, &ofld_rxq->iq); 3519aa93b99aSNavdeep Parhar add_fl_sysctls(pi->adapter, &vi->ctx, oid, &ofld_rxq->fl); 3520733b9277SNavdeep Parhar 3521733b9277SNavdeep Parhar return (rc); 3522733b9277SNavdeep Parhar } 3523733b9277SNavdeep Parhar 3524733b9277SNavdeep Parhar static int 3525fe2ebb76SJohn Baldwin free_ofld_rxq(struct vi_info *vi, struct sge_ofld_rxq *ofld_rxq) 3526733b9277SNavdeep Parhar { 3527733b9277SNavdeep Parhar int rc; 3528733b9277SNavdeep Parhar 3529fe2ebb76SJohn Baldwin rc = free_iq_fl(vi, &ofld_rxq->iq, &ofld_rxq->fl); 3530733b9277SNavdeep Parhar if (rc == 0) 3531733b9277SNavdeep Parhar bzero(ofld_rxq, sizeof(*ofld_rxq)); 3532733b9277SNavdeep Parhar 3533733b9277SNavdeep Parhar return (rc); 3534733b9277SNavdeep Parhar } 3535733b9277SNavdeep Parhar #endif 3536733b9277SNavdeep Parhar 3537298d969cSNavdeep Parhar #ifdef DEV_NETMAP 3538298d969cSNavdeep Parhar static int 3539fe2ebb76SJohn Baldwin alloc_nm_rxq(struct vi_info *vi, struct sge_nm_rxq *nm_rxq, int intr_idx, 3540298d969cSNavdeep Parhar int idx, struct sysctl_oid *oid) 3541298d969cSNavdeep Parhar { 3542298d969cSNavdeep Parhar int rc; 3543298d969cSNavdeep Parhar struct sysctl_oid_list *children; 3544298d969cSNavdeep Parhar struct sysctl_ctx_list *ctx; 3545298d969cSNavdeep Parhar char name[16]; 3546298d969cSNavdeep Parhar size_t len; 3547fe2ebb76SJohn Baldwin struct adapter *sc = vi->pi->adapter; 3548fe2ebb76SJohn Baldwin struct netmap_adapter *na = NA(vi->ifp); 3549298d969cSNavdeep Parhar 3550298d969cSNavdeep Parhar MPASS(na != NULL); 3551298d969cSNavdeep Parhar 3552fe2ebb76SJohn Baldwin len = vi->qsize_rxq * IQ_ESIZE; 3553298d969cSNavdeep Parhar rc = alloc_ring(sc, len, &nm_rxq->iq_desc_tag, &nm_rxq->iq_desc_map, 3554298d969cSNavdeep Parhar &nm_rxq->iq_ba, (void **)&nm_rxq->iq_desc); 3555298d969cSNavdeep Parhar if (rc != 0) 3556298d969cSNavdeep Parhar return (rc); 3557298d969cSNavdeep Parhar 355890e7434aSNavdeep Parhar len = na->num_rx_desc * EQ_ESIZE + sc->params.sge.spg_len; 3559298d969cSNavdeep Parhar rc = alloc_ring(sc, len, &nm_rxq->fl_desc_tag, &nm_rxq->fl_desc_map, 3560298d969cSNavdeep Parhar &nm_rxq->fl_ba, (void **)&nm_rxq->fl_desc); 3561298d969cSNavdeep Parhar if (rc != 0) 3562298d969cSNavdeep Parhar return (rc); 3563298d969cSNavdeep Parhar 3564fe2ebb76SJohn Baldwin nm_rxq->vi = vi; 3565298d969cSNavdeep Parhar nm_rxq->nid = idx; 3566298d969cSNavdeep Parhar nm_rxq->iq_cidx = 0; 356790e7434aSNavdeep Parhar nm_rxq->iq_sidx = vi->qsize_rxq - sc->params.sge.spg_len / IQ_ESIZE; 3568298d969cSNavdeep Parhar nm_rxq->iq_gen = F_RSPD_GEN; 3569298d969cSNavdeep Parhar nm_rxq->fl_pidx = nm_rxq->fl_cidx = 0; 3570298d969cSNavdeep Parhar nm_rxq->fl_sidx = na->num_rx_desc; 3571298d969cSNavdeep Parhar nm_rxq->intr_idx = intr_idx; 3572a8c4fcb9SNavdeep Parhar nm_rxq->iq_cntxt_id = INVALID_NM_RXQ_CNTXT_ID; 3573298d969cSNavdeep Parhar 3574fe2ebb76SJohn Baldwin ctx = &vi->ctx; 3575298d969cSNavdeep Parhar children = SYSCTL_CHILDREN(oid); 3576298d969cSNavdeep Parhar 3577298d969cSNavdeep Parhar snprintf(name, sizeof(name), "%d", idx); 3578298d969cSNavdeep Parhar oid = SYSCTL_ADD_NODE(ctx, children, OID_AUTO, name, CTLFLAG_RD, NULL, 3579298d969cSNavdeep Parhar "rx queue"); 3580298d969cSNavdeep Parhar children = SYSCTL_CHILDREN(oid); 3581298d969cSNavdeep Parhar 3582298d969cSNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "abs_id", 3583298d969cSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &nm_rxq->iq_abs_id, 0, sysctl_uint16, 3584298d969cSNavdeep Parhar "I", "absolute id of the queue"); 3585298d969cSNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "cntxt_id", 3586298d969cSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &nm_rxq->iq_cntxt_id, 0, sysctl_uint16, 3587298d969cSNavdeep Parhar "I", "SGE context id of the queue"); 3588298d969cSNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "cidx", 3589298d969cSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &nm_rxq->iq_cidx, 0, sysctl_uint16, "I", 3590298d969cSNavdeep Parhar "consumer index"); 3591298d969cSNavdeep Parhar 3592298d969cSNavdeep Parhar children = SYSCTL_CHILDREN(oid); 3593298d969cSNavdeep Parhar oid = SYSCTL_ADD_NODE(ctx, children, OID_AUTO, "fl", CTLFLAG_RD, NULL, 3594298d969cSNavdeep Parhar "freelist"); 3595298d969cSNavdeep Parhar children = SYSCTL_CHILDREN(oid); 3596298d969cSNavdeep Parhar 3597298d969cSNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "cntxt_id", 3598298d969cSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &nm_rxq->fl_cntxt_id, 0, sysctl_uint16, 3599298d969cSNavdeep Parhar "I", "SGE context id of the freelist"); 3600298d969cSNavdeep Parhar SYSCTL_ADD_UINT(ctx, children, OID_AUTO, "cidx", CTLFLAG_RD, 3601298d969cSNavdeep Parhar &nm_rxq->fl_cidx, 0, "consumer index"); 3602298d969cSNavdeep Parhar SYSCTL_ADD_UINT(ctx, children, OID_AUTO, "pidx", CTLFLAG_RD, 3603298d969cSNavdeep Parhar &nm_rxq->fl_pidx, 0, "producer index"); 3604298d969cSNavdeep Parhar 3605298d969cSNavdeep Parhar return (rc); 3606298d969cSNavdeep Parhar } 3607298d969cSNavdeep Parhar 3608298d969cSNavdeep Parhar 3609298d969cSNavdeep Parhar static int 3610fe2ebb76SJohn Baldwin free_nm_rxq(struct vi_info *vi, struct sge_nm_rxq *nm_rxq) 3611298d969cSNavdeep Parhar { 3612fe2ebb76SJohn Baldwin struct adapter *sc = vi->pi->adapter; 3613298d969cSNavdeep Parhar 36140fa7560dSNavdeep Parhar if (vi->flags & VI_INIT_DONE) 3615a8c4fcb9SNavdeep Parhar MPASS(nm_rxq->iq_cntxt_id == INVALID_NM_RXQ_CNTXT_ID); 36160fa7560dSNavdeep Parhar else 36170fa7560dSNavdeep Parhar MPASS(nm_rxq->iq_cntxt_id == 0); 3618a8c4fcb9SNavdeep Parhar 3619298d969cSNavdeep Parhar free_ring(sc, nm_rxq->iq_desc_tag, nm_rxq->iq_desc_map, nm_rxq->iq_ba, 3620298d969cSNavdeep Parhar nm_rxq->iq_desc); 3621298d969cSNavdeep Parhar free_ring(sc, nm_rxq->fl_desc_tag, nm_rxq->fl_desc_map, nm_rxq->fl_ba, 3622298d969cSNavdeep Parhar nm_rxq->fl_desc); 3623298d969cSNavdeep Parhar 3624298d969cSNavdeep Parhar return (0); 3625298d969cSNavdeep Parhar } 3626298d969cSNavdeep Parhar 3627298d969cSNavdeep Parhar static int 3628fe2ebb76SJohn Baldwin alloc_nm_txq(struct vi_info *vi, struct sge_nm_txq *nm_txq, int iqidx, int idx, 3629298d969cSNavdeep Parhar struct sysctl_oid *oid) 3630298d969cSNavdeep Parhar { 3631298d969cSNavdeep Parhar int rc; 3632298d969cSNavdeep Parhar size_t len; 3633fe2ebb76SJohn Baldwin struct port_info *pi = vi->pi; 3634298d969cSNavdeep Parhar struct adapter *sc = pi->adapter; 3635fe2ebb76SJohn Baldwin struct netmap_adapter *na = NA(vi->ifp); 3636298d969cSNavdeep Parhar char name[16]; 3637298d969cSNavdeep Parhar struct sysctl_oid_list *children = SYSCTL_CHILDREN(oid); 3638298d969cSNavdeep Parhar 363990e7434aSNavdeep Parhar len = na->num_tx_desc * EQ_ESIZE + sc->params.sge.spg_len; 3640298d969cSNavdeep Parhar rc = alloc_ring(sc, len, &nm_txq->desc_tag, &nm_txq->desc_map, 3641298d969cSNavdeep Parhar &nm_txq->ba, (void **)&nm_txq->desc); 3642298d969cSNavdeep Parhar if (rc) 3643298d969cSNavdeep Parhar return (rc); 3644298d969cSNavdeep Parhar 3645298d969cSNavdeep Parhar nm_txq->pidx = nm_txq->cidx = 0; 3646298d969cSNavdeep Parhar nm_txq->sidx = na->num_tx_desc; 3647298d969cSNavdeep Parhar nm_txq->nid = idx; 3648298d969cSNavdeep Parhar nm_txq->iqidx = iqidx; 3649298d969cSNavdeep Parhar nm_txq->cpl_ctrl0 = htobe32(V_TXPKT_OPCODE(CPL_TX_PKT) | 3650edb518f4SNavdeep Parhar V_TXPKT_INTF(pi->tx_chan) | V_TXPKT_PF(sc->pf) | 3651edb518f4SNavdeep Parhar V_TXPKT_VF(vi->vin) | V_TXPKT_VF_VLD(vi->vfvld)); 3652a8c4fcb9SNavdeep Parhar nm_txq->cntxt_id = INVALID_NM_TXQ_CNTXT_ID; 3653298d969cSNavdeep Parhar 3654298d969cSNavdeep Parhar snprintf(name, sizeof(name), "%d", idx); 3655fe2ebb76SJohn Baldwin oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, name, CTLFLAG_RD, 3656298d969cSNavdeep Parhar NULL, "netmap tx queue"); 3657298d969cSNavdeep Parhar children = SYSCTL_CHILDREN(oid); 3658298d969cSNavdeep Parhar 3659fe2ebb76SJohn Baldwin SYSCTL_ADD_UINT(&vi->ctx, children, OID_AUTO, "cntxt_id", CTLFLAG_RD, 3660298d969cSNavdeep Parhar &nm_txq->cntxt_id, 0, "SGE context id of the queue"); 3661fe2ebb76SJohn Baldwin SYSCTL_ADD_PROC(&vi->ctx, children, OID_AUTO, "cidx", 3662298d969cSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &nm_txq->cidx, 0, sysctl_uint16, "I", 3663298d969cSNavdeep Parhar "consumer index"); 3664fe2ebb76SJohn Baldwin SYSCTL_ADD_PROC(&vi->ctx, children, OID_AUTO, "pidx", 3665298d969cSNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &nm_txq->pidx, 0, sysctl_uint16, "I", 3666298d969cSNavdeep Parhar "producer index"); 3667298d969cSNavdeep Parhar 3668298d969cSNavdeep Parhar return (rc); 3669298d969cSNavdeep Parhar } 3670298d969cSNavdeep Parhar 3671298d969cSNavdeep Parhar static int 3672fe2ebb76SJohn Baldwin free_nm_txq(struct vi_info *vi, struct sge_nm_txq *nm_txq) 3673298d969cSNavdeep Parhar { 3674fe2ebb76SJohn Baldwin struct adapter *sc = vi->pi->adapter; 3675298d969cSNavdeep Parhar 36760fa7560dSNavdeep Parhar if (vi->flags & VI_INIT_DONE) 3677a8c4fcb9SNavdeep Parhar MPASS(nm_txq->cntxt_id == INVALID_NM_TXQ_CNTXT_ID); 36780fa7560dSNavdeep Parhar else 36790fa7560dSNavdeep Parhar MPASS(nm_txq->cntxt_id == 0); 3680a8c4fcb9SNavdeep Parhar 3681298d969cSNavdeep Parhar free_ring(sc, nm_txq->desc_tag, nm_txq->desc_map, nm_txq->ba, 3682298d969cSNavdeep Parhar nm_txq->desc); 3683298d969cSNavdeep Parhar 3684298d969cSNavdeep Parhar return (0); 3685298d969cSNavdeep Parhar } 3686298d969cSNavdeep Parhar #endif 3687298d969cSNavdeep Parhar 3688ddf09ad6SNavdeep Parhar /* 3689ddf09ad6SNavdeep Parhar * Returns a reasonable automatic cidx flush threshold for a given queue size. 3690ddf09ad6SNavdeep Parhar */ 3691ddf09ad6SNavdeep Parhar static u_int 3692ddf09ad6SNavdeep Parhar qsize_to_fthresh(int qsize) 3693ddf09ad6SNavdeep Parhar { 3694ddf09ad6SNavdeep Parhar u_int fthresh; 3695ddf09ad6SNavdeep Parhar 3696ddf09ad6SNavdeep Parhar while (!powerof2(qsize)) 3697ddf09ad6SNavdeep Parhar qsize++; 3698ddf09ad6SNavdeep Parhar fthresh = ilog2(qsize); 3699ddf09ad6SNavdeep Parhar if (fthresh > X_CIDXFLUSHTHRESH_128) 3700ddf09ad6SNavdeep Parhar fthresh = X_CIDXFLUSHTHRESH_128; 3701ddf09ad6SNavdeep Parhar 3702ddf09ad6SNavdeep Parhar return (fthresh); 3703ddf09ad6SNavdeep Parhar } 3704ddf09ad6SNavdeep Parhar 3705733b9277SNavdeep Parhar static int 3706733b9277SNavdeep Parhar ctrl_eq_alloc(struct adapter *sc, struct sge_eq *eq) 3707733b9277SNavdeep Parhar { 3708733b9277SNavdeep Parhar int rc, cntxt_id; 3709733b9277SNavdeep Parhar struct fw_eq_ctrl_cmd c; 371090e7434aSNavdeep Parhar int qsize = eq->sidx + sc->params.sge.spg_len / EQ_ESIZE; 3711f7dfe243SNavdeep Parhar 3712f7dfe243SNavdeep Parhar bzero(&c, sizeof(c)); 3713f7dfe243SNavdeep Parhar 3714f7dfe243SNavdeep Parhar c.op_to_vfn = htobe32(V_FW_CMD_OP(FW_EQ_CTRL_CMD) | F_FW_CMD_REQUEST | 3715f7dfe243SNavdeep Parhar F_FW_CMD_WRITE | F_FW_CMD_EXEC | V_FW_EQ_CTRL_CMD_PFN(sc->pf) | 3716f7dfe243SNavdeep Parhar V_FW_EQ_CTRL_CMD_VFN(0)); 3717f7dfe243SNavdeep Parhar c.alloc_to_len16 = htobe32(F_FW_EQ_CTRL_CMD_ALLOC | 3718f7dfe243SNavdeep Parhar F_FW_EQ_CTRL_CMD_EQSTART | FW_LEN16(c)); 37197951040fSNavdeep Parhar c.cmpliqid_eqid = htonl(V_FW_EQ_CTRL_CMD_CMPLIQID(eq->iqid)); 3720f7dfe243SNavdeep Parhar c.physeqid_pkd = htobe32(0); 3721f7dfe243SNavdeep Parhar c.fetchszm_to_iqid = 372287b027baSNavdeep Parhar htobe32(V_FW_EQ_CTRL_CMD_HOSTFCMODE(X_HOSTFCMODE_STATUS_PAGE) | 3723733b9277SNavdeep Parhar V_FW_EQ_CTRL_CMD_PCIECHN(eq->tx_chan) | 372456599263SNavdeep Parhar F_FW_EQ_CTRL_CMD_FETCHRO | V_FW_EQ_CTRL_CMD_IQID(eq->iqid)); 3725f7dfe243SNavdeep Parhar c.dcaen_to_eqsize = 3726f7dfe243SNavdeep Parhar htobe32(V_FW_EQ_CTRL_CMD_FBMIN(X_FETCHBURSTMIN_64B) | 3727f7dfe243SNavdeep Parhar V_FW_EQ_CTRL_CMD_FBMAX(X_FETCHBURSTMAX_512B) | 3728ddf09ad6SNavdeep Parhar V_FW_EQ_CTRL_CMD_CIDXFTHRESH(qsize_to_fthresh(qsize)) | 37297951040fSNavdeep Parhar V_FW_EQ_CTRL_CMD_EQSIZE(qsize)); 3730f7dfe243SNavdeep Parhar c.eqaddr = htobe64(eq->ba); 3731f7dfe243SNavdeep Parhar 3732f7dfe243SNavdeep Parhar rc = -t4_wr_mbox(sc, sc->mbox, &c, sizeof(c), &c); 3733f7dfe243SNavdeep Parhar if (rc != 0) { 3734f7dfe243SNavdeep Parhar device_printf(sc->dev, 3735733b9277SNavdeep Parhar "failed to create control queue %d: %d\n", eq->tx_chan, rc); 3736f7dfe243SNavdeep Parhar return (rc); 3737f7dfe243SNavdeep Parhar } 3738733b9277SNavdeep Parhar eq->flags |= EQ_ALLOCATED; 3739f7dfe243SNavdeep Parhar 3740f7dfe243SNavdeep Parhar eq->cntxt_id = G_FW_EQ_CTRL_CMD_EQID(be32toh(c.cmpliqid_eqid)); 3741f7dfe243SNavdeep Parhar cntxt_id = eq->cntxt_id - sc->sge.eq_start; 3742733b9277SNavdeep Parhar if (cntxt_id >= sc->sge.neq) 3743733b9277SNavdeep Parhar panic("%s: eq->cntxt_id (%d) more than the max (%d)", __func__, 3744733b9277SNavdeep Parhar cntxt_id, sc->sge.neq - 1); 3745f7dfe243SNavdeep Parhar sc->sge.eqmap[cntxt_id] = eq; 3746f7dfe243SNavdeep Parhar 3747f7dfe243SNavdeep Parhar return (rc); 3748f7dfe243SNavdeep Parhar } 3749f7dfe243SNavdeep Parhar 3750f7dfe243SNavdeep Parhar static int 3751fe2ebb76SJohn Baldwin eth_eq_alloc(struct adapter *sc, struct vi_info *vi, struct sge_eq *eq) 375254e4ee71SNavdeep Parhar { 375354e4ee71SNavdeep Parhar int rc, cntxt_id; 375454e4ee71SNavdeep Parhar struct fw_eq_eth_cmd c; 375590e7434aSNavdeep Parhar int qsize = eq->sidx + sc->params.sge.spg_len / EQ_ESIZE; 375654e4ee71SNavdeep Parhar 375754e4ee71SNavdeep Parhar bzero(&c, sizeof(c)); 375854e4ee71SNavdeep Parhar 375954e4ee71SNavdeep Parhar c.op_to_vfn = htobe32(V_FW_CMD_OP(FW_EQ_ETH_CMD) | F_FW_CMD_REQUEST | 376054e4ee71SNavdeep Parhar F_FW_CMD_WRITE | F_FW_CMD_EXEC | V_FW_EQ_ETH_CMD_PFN(sc->pf) | 376154e4ee71SNavdeep Parhar V_FW_EQ_ETH_CMD_VFN(0)); 376254e4ee71SNavdeep Parhar c.alloc_to_len16 = htobe32(F_FW_EQ_ETH_CMD_ALLOC | 376354e4ee71SNavdeep Parhar F_FW_EQ_ETH_CMD_EQSTART | FW_LEN16(c)); 37647951040fSNavdeep Parhar c.autoequiqe_to_viid = htobe32(F_FW_EQ_ETH_CMD_AUTOEQUIQE | 3765fe2ebb76SJohn Baldwin F_FW_EQ_ETH_CMD_AUTOEQUEQE | V_FW_EQ_ETH_CMD_VIID(vi->viid)); 376654e4ee71SNavdeep Parhar c.fetchszm_to_iqid = 37677951040fSNavdeep Parhar htobe32(V_FW_EQ_ETH_CMD_HOSTFCMODE(X_HOSTFCMODE_NONE) | 3768733b9277SNavdeep Parhar V_FW_EQ_ETH_CMD_PCIECHN(eq->tx_chan) | F_FW_EQ_ETH_CMD_FETCHRO | 3769aa2457e1SNavdeep Parhar V_FW_EQ_ETH_CMD_IQID(eq->iqid)); 377054e4ee71SNavdeep Parhar c.dcaen_to_eqsize = htobe32(V_FW_EQ_ETH_CMD_FBMIN(X_FETCHBURSTMIN_64B) | 377154e4ee71SNavdeep Parhar V_FW_EQ_ETH_CMD_FBMAX(X_FETCHBURSTMAX_512B) | 37727951040fSNavdeep Parhar V_FW_EQ_ETH_CMD_EQSIZE(qsize)); 377354e4ee71SNavdeep Parhar c.eqaddr = htobe64(eq->ba); 377454e4ee71SNavdeep Parhar 377554e4ee71SNavdeep Parhar rc = -t4_wr_mbox(sc, sc->mbox, &c, sizeof(c), &c); 377654e4ee71SNavdeep Parhar if (rc != 0) { 3777fe2ebb76SJohn Baldwin device_printf(vi->dev, 3778733b9277SNavdeep Parhar "failed to create Ethernet egress queue: %d\n", rc); 3779733b9277SNavdeep Parhar return (rc); 3780733b9277SNavdeep Parhar } 3781733b9277SNavdeep Parhar eq->flags |= EQ_ALLOCATED; 3782733b9277SNavdeep Parhar 3783733b9277SNavdeep Parhar eq->cntxt_id = G_FW_EQ_ETH_CMD_EQID(be32toh(c.eqid_pkd)); 3784ec55567cSJohn Baldwin eq->abs_id = G_FW_EQ_ETH_CMD_PHYSEQID(be32toh(c.physeqid_pkd)); 3785733b9277SNavdeep Parhar cntxt_id = eq->cntxt_id - sc->sge.eq_start; 3786733b9277SNavdeep Parhar if (cntxt_id >= sc->sge.neq) 3787733b9277SNavdeep Parhar panic("%s: eq->cntxt_id (%d) more than the max (%d)", __func__, 3788733b9277SNavdeep Parhar cntxt_id, sc->sge.neq - 1); 3789733b9277SNavdeep Parhar sc->sge.eqmap[cntxt_id] = eq; 3790733b9277SNavdeep Parhar 379154e4ee71SNavdeep Parhar return (rc); 379254e4ee71SNavdeep Parhar } 379354e4ee71SNavdeep Parhar 3794eff62dbaSNavdeep Parhar #if defined(TCP_OFFLOAD) || defined(RATELIMIT) 3795733b9277SNavdeep Parhar static int 3796fe2ebb76SJohn Baldwin ofld_eq_alloc(struct adapter *sc, struct vi_info *vi, struct sge_eq *eq) 3797733b9277SNavdeep Parhar { 3798733b9277SNavdeep Parhar int rc, cntxt_id; 3799733b9277SNavdeep Parhar struct fw_eq_ofld_cmd c; 380090e7434aSNavdeep Parhar int qsize = eq->sidx + sc->params.sge.spg_len / EQ_ESIZE; 380154e4ee71SNavdeep Parhar 3802733b9277SNavdeep Parhar bzero(&c, sizeof(c)); 3803733b9277SNavdeep Parhar 3804733b9277SNavdeep Parhar c.op_to_vfn = htonl(V_FW_CMD_OP(FW_EQ_OFLD_CMD) | F_FW_CMD_REQUEST | 3805733b9277SNavdeep Parhar F_FW_CMD_WRITE | F_FW_CMD_EXEC | V_FW_EQ_OFLD_CMD_PFN(sc->pf) | 3806733b9277SNavdeep Parhar V_FW_EQ_OFLD_CMD_VFN(0)); 3807733b9277SNavdeep Parhar c.alloc_to_len16 = htonl(F_FW_EQ_OFLD_CMD_ALLOC | 3808733b9277SNavdeep Parhar F_FW_EQ_OFLD_CMD_EQSTART | FW_LEN16(c)); 3809733b9277SNavdeep Parhar c.fetchszm_to_iqid = 3810ddf09ad6SNavdeep Parhar htonl(V_FW_EQ_OFLD_CMD_HOSTFCMODE(X_HOSTFCMODE_STATUS_PAGE) | 3811733b9277SNavdeep Parhar V_FW_EQ_OFLD_CMD_PCIECHN(eq->tx_chan) | 3812733b9277SNavdeep Parhar F_FW_EQ_OFLD_CMD_FETCHRO | V_FW_EQ_OFLD_CMD_IQID(eq->iqid)); 3813733b9277SNavdeep Parhar c.dcaen_to_eqsize = 3814733b9277SNavdeep Parhar htobe32(V_FW_EQ_OFLD_CMD_FBMIN(X_FETCHBURSTMIN_64B) | 3815733b9277SNavdeep Parhar V_FW_EQ_OFLD_CMD_FBMAX(X_FETCHBURSTMAX_512B) | 3816ddf09ad6SNavdeep Parhar V_FW_EQ_OFLD_CMD_CIDXFTHRESH(qsize_to_fthresh(qsize)) | 38177951040fSNavdeep Parhar V_FW_EQ_OFLD_CMD_EQSIZE(qsize)); 3818733b9277SNavdeep Parhar c.eqaddr = htobe64(eq->ba); 3819733b9277SNavdeep Parhar 3820733b9277SNavdeep Parhar rc = -t4_wr_mbox(sc, sc->mbox, &c, sizeof(c), &c); 3821733b9277SNavdeep Parhar if (rc != 0) { 3822fe2ebb76SJohn Baldwin device_printf(vi->dev, 3823733b9277SNavdeep Parhar "failed to create egress queue for TCP offload: %d\n", rc); 3824733b9277SNavdeep Parhar return (rc); 3825733b9277SNavdeep Parhar } 3826733b9277SNavdeep Parhar eq->flags |= EQ_ALLOCATED; 3827733b9277SNavdeep Parhar 3828733b9277SNavdeep Parhar eq->cntxt_id = G_FW_EQ_OFLD_CMD_EQID(be32toh(c.eqid_pkd)); 382954e4ee71SNavdeep Parhar cntxt_id = eq->cntxt_id - sc->sge.eq_start; 3830733b9277SNavdeep Parhar if (cntxt_id >= sc->sge.neq) 3831733b9277SNavdeep Parhar panic("%s: eq->cntxt_id (%d) more than the max (%d)", __func__, 3832733b9277SNavdeep Parhar cntxt_id, sc->sge.neq - 1); 383354e4ee71SNavdeep Parhar sc->sge.eqmap[cntxt_id] = eq; 383454e4ee71SNavdeep Parhar 3835733b9277SNavdeep Parhar return (rc); 3836733b9277SNavdeep Parhar } 3837733b9277SNavdeep Parhar #endif 3838733b9277SNavdeep Parhar 3839733b9277SNavdeep Parhar static int 3840fe2ebb76SJohn Baldwin alloc_eq(struct adapter *sc, struct vi_info *vi, struct sge_eq *eq) 3841733b9277SNavdeep Parhar { 38427951040fSNavdeep Parhar int rc, qsize; 3843733b9277SNavdeep Parhar size_t len; 3844733b9277SNavdeep Parhar 3845733b9277SNavdeep Parhar mtx_init(&eq->eq_lock, eq->lockname, NULL, MTX_DEF); 3846733b9277SNavdeep Parhar 384790e7434aSNavdeep Parhar qsize = eq->sidx + sc->params.sge.spg_len / EQ_ESIZE; 38487951040fSNavdeep Parhar len = qsize * EQ_ESIZE; 3849733b9277SNavdeep Parhar rc = alloc_ring(sc, len, &eq->desc_tag, &eq->desc_map, 3850733b9277SNavdeep Parhar &eq->ba, (void **)&eq->desc); 3851733b9277SNavdeep Parhar if (rc) 3852733b9277SNavdeep Parhar return (rc); 3853733b9277SNavdeep Parhar 3854ddf09ad6SNavdeep Parhar eq->pidx = eq->cidx = eq->dbidx = 0; 3855ddf09ad6SNavdeep Parhar /* Note that equeqidx is not used with sge_wrq (OFLD/CTRL) queues. */ 3856ddf09ad6SNavdeep Parhar eq->equeqidx = 0; 3857d14b0ac1SNavdeep Parhar eq->doorbells = sc->doorbells; 3858733b9277SNavdeep Parhar 3859733b9277SNavdeep Parhar switch (eq->flags & EQ_TYPEMASK) { 3860733b9277SNavdeep Parhar case EQ_CTRL: 3861733b9277SNavdeep Parhar rc = ctrl_eq_alloc(sc, eq); 3862733b9277SNavdeep Parhar break; 3863733b9277SNavdeep Parhar 3864733b9277SNavdeep Parhar case EQ_ETH: 3865fe2ebb76SJohn Baldwin rc = eth_eq_alloc(sc, vi, eq); 3866733b9277SNavdeep Parhar break; 3867733b9277SNavdeep Parhar 3868eff62dbaSNavdeep Parhar #if defined(TCP_OFFLOAD) || defined(RATELIMIT) 3869733b9277SNavdeep Parhar case EQ_OFLD: 3870fe2ebb76SJohn Baldwin rc = ofld_eq_alloc(sc, vi, eq); 3871733b9277SNavdeep Parhar break; 3872733b9277SNavdeep Parhar #endif 3873733b9277SNavdeep Parhar 3874733b9277SNavdeep Parhar default: 3875733b9277SNavdeep Parhar panic("%s: invalid eq type %d.", __func__, 3876733b9277SNavdeep Parhar eq->flags & EQ_TYPEMASK); 3877733b9277SNavdeep Parhar } 3878733b9277SNavdeep Parhar if (rc != 0) { 3879733b9277SNavdeep Parhar device_printf(sc->dev, 3880c086e3d1SNavdeep Parhar "failed to allocate egress queue(%d): %d\n", 3881733b9277SNavdeep Parhar eq->flags & EQ_TYPEMASK, rc); 3882733b9277SNavdeep Parhar } 3883733b9277SNavdeep Parhar 3884d14b0ac1SNavdeep Parhar if (isset(&eq->doorbells, DOORBELL_UDB) || 3885d14b0ac1SNavdeep Parhar isset(&eq->doorbells, DOORBELL_UDBWC) || 388677ad3c41SNavdeep Parhar isset(&eq->doorbells, DOORBELL_WCWR)) { 388790e7434aSNavdeep Parhar uint32_t s_qpp = sc->params.sge.eq_s_qpp; 3888d14b0ac1SNavdeep Parhar uint32_t mask = (1 << s_qpp) - 1; 3889d14b0ac1SNavdeep Parhar volatile uint8_t *udb; 3890d14b0ac1SNavdeep Parhar 3891d14b0ac1SNavdeep Parhar udb = sc->udbs_base + UDBS_DB_OFFSET; 3892d14b0ac1SNavdeep Parhar udb += (eq->cntxt_id >> s_qpp) << PAGE_SHIFT; /* pg offset */ 3893d14b0ac1SNavdeep Parhar eq->udb_qid = eq->cntxt_id & mask; /* id in page */ 3894f10405b3SNavdeep Parhar if (eq->udb_qid >= PAGE_SIZE / UDBS_SEG_SIZE) 389577ad3c41SNavdeep Parhar clrbit(&eq->doorbells, DOORBELL_WCWR); 3896d14b0ac1SNavdeep Parhar else { 3897d14b0ac1SNavdeep Parhar udb += eq->udb_qid << UDBS_SEG_SHIFT; /* seg offset */ 3898d14b0ac1SNavdeep Parhar eq->udb_qid = 0; 3899d14b0ac1SNavdeep Parhar } 3900d14b0ac1SNavdeep Parhar eq->udb = (volatile void *)udb; 3901d14b0ac1SNavdeep Parhar } 3902d14b0ac1SNavdeep Parhar 3903733b9277SNavdeep Parhar return (rc); 3904733b9277SNavdeep Parhar } 3905733b9277SNavdeep Parhar 3906733b9277SNavdeep Parhar static int 3907733b9277SNavdeep Parhar free_eq(struct adapter *sc, struct sge_eq *eq) 3908733b9277SNavdeep Parhar { 3909733b9277SNavdeep Parhar int rc; 3910733b9277SNavdeep Parhar 3911733b9277SNavdeep Parhar if (eq->flags & EQ_ALLOCATED) { 3912733b9277SNavdeep Parhar switch (eq->flags & EQ_TYPEMASK) { 3913733b9277SNavdeep Parhar case EQ_CTRL: 3914733b9277SNavdeep Parhar rc = -t4_ctrl_eq_free(sc, sc->mbox, sc->pf, 0, 3915733b9277SNavdeep Parhar eq->cntxt_id); 3916733b9277SNavdeep Parhar break; 3917733b9277SNavdeep Parhar 3918733b9277SNavdeep Parhar case EQ_ETH: 3919733b9277SNavdeep Parhar rc = -t4_eth_eq_free(sc, sc->mbox, sc->pf, 0, 3920733b9277SNavdeep Parhar eq->cntxt_id); 3921733b9277SNavdeep Parhar break; 3922733b9277SNavdeep Parhar 3923eff62dbaSNavdeep Parhar #if defined(TCP_OFFLOAD) || defined(RATELIMIT) 3924733b9277SNavdeep Parhar case EQ_OFLD: 3925733b9277SNavdeep Parhar rc = -t4_ofld_eq_free(sc, sc->mbox, sc->pf, 0, 3926733b9277SNavdeep Parhar eq->cntxt_id); 3927733b9277SNavdeep Parhar break; 3928733b9277SNavdeep Parhar #endif 3929733b9277SNavdeep Parhar 3930733b9277SNavdeep Parhar default: 3931733b9277SNavdeep Parhar panic("%s: invalid eq type %d.", __func__, 3932733b9277SNavdeep Parhar eq->flags & EQ_TYPEMASK); 3933733b9277SNavdeep Parhar } 3934733b9277SNavdeep Parhar if (rc != 0) { 3935733b9277SNavdeep Parhar device_printf(sc->dev, 3936733b9277SNavdeep Parhar "failed to free egress queue (%d): %d\n", 3937733b9277SNavdeep Parhar eq->flags & EQ_TYPEMASK, rc); 3938733b9277SNavdeep Parhar return (rc); 3939733b9277SNavdeep Parhar } 3940733b9277SNavdeep Parhar eq->flags &= ~EQ_ALLOCATED; 3941733b9277SNavdeep Parhar } 3942733b9277SNavdeep Parhar 3943733b9277SNavdeep Parhar free_ring(sc, eq->desc_tag, eq->desc_map, eq->ba, eq->desc); 3944733b9277SNavdeep Parhar 3945733b9277SNavdeep Parhar if (mtx_initialized(&eq->eq_lock)) 3946733b9277SNavdeep Parhar mtx_destroy(&eq->eq_lock); 3947733b9277SNavdeep Parhar 3948733b9277SNavdeep Parhar bzero(eq, sizeof(*eq)); 3949733b9277SNavdeep Parhar return (0); 3950733b9277SNavdeep Parhar } 3951733b9277SNavdeep Parhar 3952733b9277SNavdeep Parhar static int 3953fe2ebb76SJohn Baldwin alloc_wrq(struct adapter *sc, struct vi_info *vi, struct sge_wrq *wrq, 3954733b9277SNavdeep Parhar struct sysctl_oid *oid) 3955733b9277SNavdeep Parhar { 3956733b9277SNavdeep Parhar int rc; 3957fe2ebb76SJohn Baldwin struct sysctl_ctx_list *ctx = vi ? &vi->ctx : &sc->ctx; 3958733b9277SNavdeep Parhar struct sysctl_oid_list *children = SYSCTL_CHILDREN(oid); 3959733b9277SNavdeep Parhar 3960fe2ebb76SJohn Baldwin rc = alloc_eq(sc, vi, &wrq->eq); 3961733b9277SNavdeep Parhar if (rc) 3962733b9277SNavdeep Parhar return (rc); 3963733b9277SNavdeep Parhar 3964733b9277SNavdeep Parhar wrq->adapter = sc; 39657951040fSNavdeep Parhar TASK_INIT(&wrq->wrq_tx_task, 0, wrq_tx_drain, wrq); 39667951040fSNavdeep Parhar TAILQ_INIT(&wrq->incomplete_wrs); 396709fe6320SNavdeep Parhar STAILQ_INIT(&wrq->wr_list); 39687951040fSNavdeep Parhar wrq->nwr_pending = 0; 39697951040fSNavdeep Parhar wrq->ndesc_needed = 0; 3970733b9277SNavdeep Parhar 3971aa93b99aSNavdeep Parhar SYSCTL_ADD_UAUTO(ctx, children, OID_AUTO, "ba", CTLFLAG_RD, 3972aa93b99aSNavdeep Parhar &wrq->eq.ba, "bus address of descriptor ring"); 3973aa93b99aSNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "dmalen", CTLFLAG_RD, NULL, 3974aa93b99aSNavdeep Parhar wrq->eq.sidx * EQ_ESIZE + sc->params.sge.spg_len, 3975aa93b99aSNavdeep Parhar "desc ring size in bytes"); 3976733b9277SNavdeep Parhar SYSCTL_ADD_UINT(ctx, children, OID_AUTO, "cntxt_id", CTLFLAG_RD, 3977733b9277SNavdeep Parhar &wrq->eq.cntxt_id, 0, "SGE context id of the queue"); 3978733b9277SNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "cidx", 3979733b9277SNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &wrq->eq.cidx, 0, sysctl_uint16, "I", 3980733b9277SNavdeep Parhar "consumer index"); 3981733b9277SNavdeep Parhar SYSCTL_ADD_PROC(ctx, children, OID_AUTO, "pidx", 3982733b9277SNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &wrq->eq.pidx, 0, sysctl_uint16, "I", 3983733b9277SNavdeep Parhar "producer index"); 3984aa93b99aSNavdeep Parhar SYSCTL_ADD_INT(ctx, children, OID_AUTO, "sidx", CTLFLAG_RD, NULL, 3985aa93b99aSNavdeep Parhar wrq->eq.sidx, "status page index"); 39867951040fSNavdeep Parhar SYSCTL_ADD_UQUAD(ctx, children, OID_AUTO, "tx_wrs_direct", CTLFLAG_RD, 39877951040fSNavdeep Parhar &wrq->tx_wrs_direct, "# of work requests (direct)"); 39887951040fSNavdeep Parhar SYSCTL_ADD_UQUAD(ctx, children, OID_AUTO, "tx_wrs_copied", CTLFLAG_RD, 39897951040fSNavdeep Parhar &wrq->tx_wrs_copied, "# of work requests (copied)"); 39900459a175SNavdeep Parhar SYSCTL_ADD_UQUAD(ctx, children, OID_AUTO, "tx_wrs_sspace", CTLFLAG_RD, 39910459a175SNavdeep Parhar &wrq->tx_wrs_ss, "# of work requests (copied from scratch space)"); 3992733b9277SNavdeep Parhar 3993733b9277SNavdeep Parhar return (rc); 3994733b9277SNavdeep Parhar } 3995733b9277SNavdeep Parhar 3996733b9277SNavdeep Parhar static int 3997733b9277SNavdeep Parhar free_wrq(struct adapter *sc, struct sge_wrq *wrq) 3998733b9277SNavdeep Parhar { 3999733b9277SNavdeep Parhar int rc; 4000733b9277SNavdeep Parhar 4001733b9277SNavdeep Parhar rc = free_eq(sc, &wrq->eq); 4002733b9277SNavdeep Parhar if (rc) 4003733b9277SNavdeep Parhar return (rc); 4004733b9277SNavdeep Parhar 4005733b9277SNavdeep Parhar bzero(wrq, sizeof(*wrq)); 4006733b9277SNavdeep Parhar return (0); 4007733b9277SNavdeep Parhar } 4008733b9277SNavdeep Parhar 4009733b9277SNavdeep Parhar static int 4010fe2ebb76SJohn Baldwin alloc_txq(struct vi_info *vi, struct sge_txq *txq, int idx, 4011733b9277SNavdeep Parhar struct sysctl_oid *oid) 4012733b9277SNavdeep Parhar { 4013733b9277SNavdeep Parhar int rc; 4014fe2ebb76SJohn Baldwin struct port_info *pi = vi->pi; 4015733b9277SNavdeep Parhar struct adapter *sc = pi->adapter; 4016733b9277SNavdeep Parhar struct sge_eq *eq = &txq->eq; 4017733b9277SNavdeep Parhar char name[16]; 4018733b9277SNavdeep Parhar struct sysctl_oid_list *children = SYSCTL_CHILDREN(oid); 4019733b9277SNavdeep Parhar 40207951040fSNavdeep Parhar rc = mp_ring_alloc(&txq->r, eq->sidx, txq, eth_tx, can_resume_eth_tx, 40217951040fSNavdeep Parhar M_CXGBE, M_WAITOK); 40227951040fSNavdeep Parhar if (rc != 0) { 40237951040fSNavdeep Parhar device_printf(sc->dev, "failed to allocate mp_ring: %d\n", rc); 40247951040fSNavdeep Parhar return (rc); 40257951040fSNavdeep Parhar } 40267951040fSNavdeep Parhar 4027fe2ebb76SJohn Baldwin rc = alloc_eq(sc, vi, eq); 40287951040fSNavdeep Parhar if (rc != 0) { 40297951040fSNavdeep Parhar mp_ring_free(txq->r); 40307951040fSNavdeep Parhar txq->r = NULL; 4031733b9277SNavdeep Parhar return (rc); 40327951040fSNavdeep Parhar } 4033733b9277SNavdeep Parhar 40347951040fSNavdeep Parhar /* Can't fail after this point. */ 40357951040fSNavdeep Parhar 4036ec55567cSJohn Baldwin if (idx == 0) 4037ec55567cSJohn Baldwin sc->sge.eq_base = eq->abs_id - eq->cntxt_id; 4038ec55567cSJohn Baldwin else 4039ec55567cSJohn Baldwin KASSERT(eq->cntxt_id + sc->sge.eq_base == eq->abs_id, 4040ec55567cSJohn Baldwin ("eq_base mismatch")); 4041ec55567cSJohn Baldwin KASSERT(sc->sge.eq_base == 0 || sc->flags & IS_VF, 4042ec55567cSJohn Baldwin ("PF with non-zero eq_base")); 4043ec55567cSJohn Baldwin 40447951040fSNavdeep Parhar TASK_INIT(&txq->tx_reclaim_task, 0, tx_reclaim, eq); 4045fe2ebb76SJohn Baldwin txq->ifp = vi->ifp; 40467951040fSNavdeep Parhar txq->gl = sglist_alloc(TX_SGL_SEGS, M_WAITOK); 40476af45170SJohn Baldwin if (sc->flags & IS_VF) 40486af45170SJohn Baldwin txq->cpl_ctrl0 = htobe32(V_TXPKT_OPCODE(CPL_TX_PKT_XT) | 40496af45170SJohn Baldwin V_TXPKT_INTF(pi->tx_chan)); 40506af45170SJohn Baldwin else 40517951040fSNavdeep Parhar txq->cpl_ctrl0 = htobe32(V_TXPKT_OPCODE(CPL_TX_PKT) | 4052edb518f4SNavdeep Parhar V_TXPKT_INTF(pi->tx_chan) | V_TXPKT_PF(sc->pf) | 4053edb518f4SNavdeep Parhar V_TXPKT_VF(vi->vin) | V_TXPKT_VF_VLD(vi->vfvld)); 405402f972e8SNavdeep Parhar txq->tc_idx = -1; 40557951040fSNavdeep Parhar txq->sdesc = malloc(eq->sidx * sizeof(struct tx_sdesc), M_CXGBE, 4056733b9277SNavdeep Parhar M_ZERO | M_WAITOK); 405754e4ee71SNavdeep Parhar 405854e4ee71SNavdeep Parhar snprintf(name, sizeof(name), "%d", idx); 4059fe2ebb76SJohn Baldwin oid = SYSCTL_ADD_NODE(&vi->ctx, children, OID_AUTO, name, CTLFLAG_RD, 406054e4ee71SNavdeep Parhar NULL, "tx queue"); 406154e4ee71SNavdeep Parhar children = SYSCTL_CHILDREN(oid); 406254e4ee71SNavdeep Parhar 4063aa93b99aSNavdeep Parhar SYSCTL_ADD_UAUTO(&vi->ctx, children, OID_AUTO, "ba", CTLFLAG_RD, 4064aa93b99aSNavdeep Parhar &eq->ba, "bus address of descriptor ring"); 4065aa93b99aSNavdeep Parhar SYSCTL_ADD_INT(&vi->ctx, children, OID_AUTO, "dmalen", CTLFLAG_RD, NULL, 4066aa93b99aSNavdeep Parhar eq->sidx * EQ_ESIZE + sc->params.sge.spg_len, 4067aa93b99aSNavdeep Parhar "desc ring size in bytes"); 4068ec55567cSJohn Baldwin SYSCTL_ADD_UINT(&vi->ctx, children, OID_AUTO, "abs_id", CTLFLAG_RD, 4069ec55567cSJohn Baldwin &eq->abs_id, 0, "absolute id of the queue"); 4070fe2ebb76SJohn Baldwin SYSCTL_ADD_UINT(&vi->ctx, children, OID_AUTO, "cntxt_id", CTLFLAG_RD, 407159bc8ce0SNavdeep Parhar &eq->cntxt_id, 0, "SGE context id of the queue"); 4072fe2ebb76SJohn Baldwin SYSCTL_ADD_PROC(&vi->ctx, children, OID_AUTO, "cidx", 407359bc8ce0SNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &eq->cidx, 0, sysctl_uint16, "I", 407459bc8ce0SNavdeep Parhar "consumer index"); 4075fe2ebb76SJohn Baldwin SYSCTL_ADD_PROC(&vi->ctx, children, OID_AUTO, "pidx", 407659bc8ce0SNavdeep Parhar CTLTYPE_INT | CTLFLAG_RD, &eq->pidx, 0, sysctl_uint16, "I", 407759bc8ce0SNavdeep Parhar "producer index"); 4078aa93b99aSNavdeep Parhar SYSCTL_ADD_INT(&vi->ctx, children, OID_AUTO, "sidx", CTLFLAG_RD, NULL, 4079aa93b99aSNavdeep Parhar eq->sidx, "status page index"); 408059bc8ce0SNavdeep Parhar 408102f972e8SNavdeep Parhar SYSCTL_ADD_PROC(&vi->ctx, children, OID_AUTO, "tc", 408202f972e8SNavdeep Parhar CTLTYPE_INT | CTLFLAG_RW, vi, idx, sysctl_tc, "I", 408302f972e8SNavdeep Parhar "traffic class (-1 means none)"); 408402f972e8SNavdeep Parhar 4085fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "txcsum", CTLFLAG_RD, 408654e4ee71SNavdeep Parhar &txq->txcsum, "# of times hardware assisted with checksum"); 4087fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "vlan_insertion", 408854e4ee71SNavdeep Parhar CTLFLAG_RD, &txq->vlan_insertion, 408954e4ee71SNavdeep Parhar "# of times hardware inserted 802.1Q tag"); 4090fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "tso_wrs", CTLFLAG_RD, 4091a1ea9a82SNavdeep Parhar &txq->tso_wrs, "# of TSO work requests"); 4092fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "imm_wrs", CTLFLAG_RD, 409354e4ee71SNavdeep Parhar &txq->imm_wrs, "# of work requests with immediate data"); 4094fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "sgl_wrs", CTLFLAG_RD, 409554e4ee71SNavdeep Parhar &txq->sgl_wrs, "# of work requests with direct SGL"); 4096fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "txpkt_wrs", CTLFLAG_RD, 409754e4ee71SNavdeep Parhar &txq->txpkt_wrs, "# of txpkt work requests (one pkt/WR)"); 4098fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "txpkts0_wrs", 40997951040fSNavdeep Parhar CTLFLAG_RD, &txq->txpkts0_wrs, 41007951040fSNavdeep Parhar "# of txpkts (type 0) work requests"); 4101fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "txpkts1_wrs", 41027951040fSNavdeep Parhar CTLFLAG_RD, &txq->txpkts1_wrs, 41037951040fSNavdeep Parhar "# of txpkts (type 1) work requests"); 4104fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "txpkts0_pkts", 41057951040fSNavdeep Parhar CTLFLAG_RD, &txq->txpkts0_pkts, 41067951040fSNavdeep Parhar "# of frames tx'd using type0 txpkts work requests"); 4107fe2ebb76SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "txpkts1_pkts", 41087951040fSNavdeep Parhar CTLFLAG_RD, &txq->txpkts1_pkts, 41097951040fSNavdeep Parhar "# of frames tx'd using type1 txpkts work requests"); 41105cdaef71SJohn Baldwin SYSCTL_ADD_UQUAD(&vi->ctx, children, OID_AUTO, "raw_wrs", CTLFLAG_RD, 41115cdaef71SJohn Baldwin &txq->raw_wrs, "# of raw work requests (non-packets)"); 411254e4ee71SNavdeep Parhar 4113fe2ebb76SJohn Baldwin SYSCTL_ADD_COUNTER_U64(&vi->ctx, children, OID_AUTO, "r_enqueues", 41147951040fSNavdeep Parhar CTLFLAG_RD, &txq->r->enqueues, 41157951040fSNavdeep Parhar "# of enqueues to the mp_ring for this queue"); 4116fe2ebb76SJohn Baldwin SYSCTL_ADD_COUNTER_U64(&vi->ctx, children, OID_AUTO, "r_drops", 41177951040fSNavdeep Parhar CTLFLAG_RD, &txq->r->drops, 41187951040fSNavdeep Parhar "# of drops in the mp_ring for this queue"); 4119fe2ebb76SJohn Baldwin SYSCTL_ADD_COUNTER_U64(&vi->ctx, children, OID_AUTO, "r_starts", 41207951040fSNavdeep Parhar CTLFLAG_RD, &txq->r->starts, 41217951040fSNavdeep Parhar "# of normal consumer starts in the mp_ring for this queue"); 4122fe2ebb76SJohn Baldwin SYSCTL_ADD_COUNTER_U64(&vi->ctx, children, OID_AUTO, "r_stalls", 41237951040fSNavdeep Parhar CTLFLAG_RD, &txq->r->stalls, 41247951040fSNavdeep Parhar "# of consumer stalls in the mp_ring for this queue"); 4125fe2ebb76SJohn Baldwin SYSCTL_ADD_COUNTER_U64(&vi->ctx, children, OID_AUTO, "r_restarts", 41267951040fSNavdeep Parhar CTLFLAG_RD, &txq->r->restarts, 41277951040fSNavdeep Parhar "# of consumer restarts in the mp_ring for this queue"); 4128fe2ebb76SJohn Baldwin SYSCTL_ADD_COUNTER_U64(&vi->ctx, children, OID_AUTO, "r_abdications", 41297951040fSNavdeep Parhar CTLFLAG_RD, &txq->r->abdications, 41307951040fSNavdeep Parhar "# of consumer abdications in the mp_ring for this queue"); 413154e4ee71SNavdeep Parhar 41327951040fSNavdeep Parhar return (0); 413354e4ee71SNavdeep Parhar } 413454e4ee71SNavdeep Parhar 413554e4ee71SNavdeep Parhar static int 4136fe2ebb76SJohn Baldwin free_txq(struct vi_info *vi, struct sge_txq *txq) 413754e4ee71SNavdeep Parhar { 413854e4ee71SNavdeep Parhar int rc; 4139fe2ebb76SJohn Baldwin struct adapter *sc = vi->pi->adapter; 414054e4ee71SNavdeep Parhar struct sge_eq *eq = &txq->eq; 414154e4ee71SNavdeep Parhar 4142733b9277SNavdeep Parhar rc = free_eq(sc, eq); 4143733b9277SNavdeep Parhar if (rc) 414454e4ee71SNavdeep Parhar return (rc); 414554e4ee71SNavdeep Parhar 41467951040fSNavdeep Parhar sglist_free(txq->gl); 4147f7dfe243SNavdeep Parhar free(txq->sdesc, M_CXGBE); 41487951040fSNavdeep Parhar mp_ring_free(txq->r); 414954e4ee71SNavdeep Parhar 415054e4ee71SNavdeep Parhar bzero(txq, sizeof(*txq)); 415154e4ee71SNavdeep Parhar return (0); 415254e4ee71SNavdeep Parhar } 415354e4ee71SNavdeep Parhar 415454e4ee71SNavdeep Parhar static void 415554e4ee71SNavdeep Parhar oneseg_dma_callback(void *arg, bus_dma_segment_t *segs, int nseg, int error) 415654e4ee71SNavdeep Parhar { 415754e4ee71SNavdeep Parhar bus_addr_t *ba = arg; 415854e4ee71SNavdeep Parhar 415954e4ee71SNavdeep Parhar KASSERT(nseg == 1, 416054e4ee71SNavdeep Parhar ("%s meant for single segment mappings only.", __func__)); 416154e4ee71SNavdeep Parhar 416254e4ee71SNavdeep Parhar *ba = error ? 0 : segs->ds_addr; 416354e4ee71SNavdeep Parhar } 416454e4ee71SNavdeep Parhar 416554e4ee71SNavdeep Parhar static inline void 416654e4ee71SNavdeep Parhar ring_fl_db(struct adapter *sc, struct sge_fl *fl) 416754e4ee71SNavdeep Parhar { 41684d6db4e0SNavdeep Parhar uint32_t n, v; 416954e4ee71SNavdeep Parhar 41704d6db4e0SNavdeep Parhar n = IDXDIFF(fl->pidx / 8, fl->dbidx, fl->sidx); 41714d6db4e0SNavdeep Parhar MPASS(n > 0); 4172d14b0ac1SNavdeep Parhar 417354e4ee71SNavdeep Parhar wmb(); 41744d6db4e0SNavdeep Parhar v = fl->dbval | V_PIDX(n); 41754d6db4e0SNavdeep Parhar if (fl->udb) 41764d6db4e0SNavdeep Parhar *fl->udb = htole32(v); 41774d6db4e0SNavdeep Parhar else 4178315048f2SJohn Baldwin t4_write_reg(sc, sc->sge_kdoorbell_reg, v); 41794d6db4e0SNavdeep Parhar IDXINCR(fl->dbidx, n, fl->sidx); 418054e4ee71SNavdeep Parhar } 418154e4ee71SNavdeep Parhar 4182fb12416cSNavdeep Parhar /* 41834d6db4e0SNavdeep Parhar * Fills up the freelist by allocating up to 'n' buffers. Buffers that are 41844d6db4e0SNavdeep Parhar * recycled do not count towards this allocation budget. 4185733b9277SNavdeep Parhar * 41864d6db4e0SNavdeep Parhar * Returns non-zero to indicate that this freelist should be added to the list 41874d6db4e0SNavdeep Parhar * of starving freelists. 4188fb12416cSNavdeep Parhar */ 4189733b9277SNavdeep Parhar static int 41904d6db4e0SNavdeep Parhar refill_fl(struct adapter *sc, struct sge_fl *fl, int n) 419154e4ee71SNavdeep Parhar { 41924d6db4e0SNavdeep Parhar __be64 *d; 41934d6db4e0SNavdeep Parhar struct fl_sdesc *sd; 419438035ed6SNavdeep Parhar uintptr_t pa; 419554e4ee71SNavdeep Parhar caddr_t cl; 41964d6db4e0SNavdeep Parhar struct cluster_layout *cll; 41974d6db4e0SNavdeep Parhar struct sw_zone_info *swz; 419838035ed6SNavdeep Parhar struct cluster_metadata *clm; 41994d6db4e0SNavdeep Parhar uint16_t max_pidx; 42004d6db4e0SNavdeep Parhar uint16_t hw_cidx = fl->hw_cidx; /* stable snapshot */ 420154e4ee71SNavdeep Parhar 420254e4ee71SNavdeep Parhar FL_LOCK_ASSERT_OWNED(fl); 420354e4ee71SNavdeep Parhar 42044d6db4e0SNavdeep Parhar /* 4205453130d9SPedro F. Giffuni * We always stop at the beginning of the hardware descriptor that's just 42064d6db4e0SNavdeep Parhar * before the one with the hw cidx. This is to avoid hw pidx = hw cidx, 42074d6db4e0SNavdeep Parhar * which would mean an empty freelist to the chip. 42084d6db4e0SNavdeep Parhar */ 42094d6db4e0SNavdeep Parhar max_pidx = __predict_false(hw_cidx == 0) ? fl->sidx - 1 : hw_cidx - 1; 42104d6db4e0SNavdeep Parhar if (fl->pidx == max_pidx * 8) 42114d6db4e0SNavdeep Parhar return (0); 421254e4ee71SNavdeep Parhar 42134d6db4e0SNavdeep Parhar d = &fl->desc[fl->pidx]; 42144d6db4e0SNavdeep Parhar sd = &fl->sdesc[fl->pidx]; 42154d6db4e0SNavdeep Parhar cll = &fl->cll_def; /* default layout */ 42164d6db4e0SNavdeep Parhar swz = &sc->sge.sw_zone_info[cll->zidx]; 42174d6db4e0SNavdeep Parhar 42184d6db4e0SNavdeep Parhar while (n > 0) { 421954e4ee71SNavdeep Parhar 422054e4ee71SNavdeep Parhar if (sd->cl != NULL) { 422154e4ee71SNavdeep Parhar 4222c3fb7725SNavdeep Parhar if (sd->nmbuf == 0) { 422338035ed6SNavdeep Parhar /* 422438035ed6SNavdeep Parhar * Fast recycle without involving any atomics on 422538035ed6SNavdeep Parhar * the cluster's metadata (if the cluster has 422638035ed6SNavdeep Parhar * metadata). This happens when all frames 422738035ed6SNavdeep Parhar * received in the cluster were small enough to 422838035ed6SNavdeep Parhar * fit within a single mbuf each. 422938035ed6SNavdeep Parhar */ 423038035ed6SNavdeep Parhar fl->cl_fast_recycled++; 4231ccc69b2fSNavdeep Parhar #ifdef INVARIANTS 4232ccc69b2fSNavdeep Parhar clm = cl_metadata(sc, fl, &sd->cll, sd->cl); 4233ccc69b2fSNavdeep Parhar if (clm != NULL) 4234ccc69b2fSNavdeep Parhar MPASS(clm->refcount == 1); 4235ccc69b2fSNavdeep Parhar #endif 423638035ed6SNavdeep Parhar goto recycled_fast; 423738035ed6SNavdeep Parhar } 423854e4ee71SNavdeep Parhar 423938035ed6SNavdeep Parhar /* 424038035ed6SNavdeep Parhar * Cluster is guaranteed to have metadata. Clusters 424138035ed6SNavdeep Parhar * without metadata always take the fast recycle path 424238035ed6SNavdeep Parhar * when they're recycled. 424338035ed6SNavdeep Parhar */ 424438035ed6SNavdeep Parhar clm = cl_metadata(sc, fl, &sd->cll, sd->cl); 424538035ed6SNavdeep Parhar MPASS(clm != NULL); 42461458bff9SNavdeep Parhar 424738035ed6SNavdeep Parhar if (atomic_fetchadd_int(&clm->refcount, -1) == 1) { 424838035ed6SNavdeep Parhar fl->cl_recycled++; 424982eff304SNavdeep Parhar counter_u64_add(extfree_rels, 1); 425054e4ee71SNavdeep Parhar goto recycled; 425154e4ee71SNavdeep Parhar } 42521458bff9SNavdeep Parhar sd->cl = NULL; /* gave up my reference */ 42531458bff9SNavdeep Parhar } 425438035ed6SNavdeep Parhar MPASS(sd->cl == NULL); 425538035ed6SNavdeep Parhar alloc: 425638035ed6SNavdeep Parhar cl = uma_zalloc(swz->zone, M_NOWAIT); 425738035ed6SNavdeep Parhar if (__predict_false(cl == NULL)) { 425838035ed6SNavdeep Parhar if (cll == &fl->cll_alt || fl->cll_alt.zidx == -1 || 425938035ed6SNavdeep Parhar fl->cll_def.zidx == fl->cll_alt.zidx) 426054e4ee71SNavdeep Parhar break; 426154e4ee71SNavdeep Parhar 426238035ed6SNavdeep Parhar /* fall back to the safe zone */ 426338035ed6SNavdeep Parhar cll = &fl->cll_alt; 426438035ed6SNavdeep Parhar swz = &sc->sge.sw_zone_info[cll->zidx]; 426538035ed6SNavdeep Parhar goto alloc; 426654e4ee71SNavdeep Parhar } 426738035ed6SNavdeep Parhar fl->cl_allocated++; 42684d6db4e0SNavdeep Parhar n--; 426954e4ee71SNavdeep Parhar 427038035ed6SNavdeep Parhar pa = pmap_kextract((vm_offset_t)cl); 427138035ed6SNavdeep Parhar pa += cll->region1; 427254e4ee71SNavdeep Parhar sd->cl = cl; 427338035ed6SNavdeep Parhar sd->cll = *cll; 427438035ed6SNavdeep Parhar *d = htobe64(pa | cll->hwidx); 427538035ed6SNavdeep Parhar clm = cl_metadata(sc, fl, cll, cl); 427638035ed6SNavdeep Parhar if (clm != NULL) { 42777d29df59SNavdeep Parhar recycled: 427838035ed6SNavdeep Parhar #ifdef INVARIANTS 427938035ed6SNavdeep Parhar clm->sd = sd; 428038035ed6SNavdeep Parhar #endif 428138035ed6SNavdeep Parhar clm->refcount = 1; 428238035ed6SNavdeep Parhar } 4283c3fb7725SNavdeep Parhar sd->nmbuf = 0; 428438035ed6SNavdeep Parhar recycled_fast: 428538035ed6SNavdeep Parhar d++; 428654e4ee71SNavdeep Parhar sd++; 42874d6db4e0SNavdeep Parhar if (__predict_false(++fl->pidx % 8 == 0)) { 42884d6db4e0SNavdeep Parhar uint16_t pidx = fl->pidx / 8; 42894d6db4e0SNavdeep Parhar 42904d6db4e0SNavdeep Parhar if (__predict_false(pidx == fl->sidx)) { 429154e4ee71SNavdeep Parhar fl->pidx = 0; 42924d6db4e0SNavdeep Parhar pidx = 0; 429354e4ee71SNavdeep Parhar sd = fl->sdesc; 429454e4ee71SNavdeep Parhar d = fl->desc; 429554e4ee71SNavdeep Parhar } 42964d6db4e0SNavdeep Parhar if (pidx == max_pidx) 42974d6db4e0SNavdeep Parhar break; 42984d6db4e0SNavdeep Parhar 42994d6db4e0SNavdeep Parhar if (IDXDIFF(pidx, fl->dbidx, fl->sidx) >= 4) 43004d6db4e0SNavdeep Parhar ring_fl_db(sc, fl); 43014d6db4e0SNavdeep Parhar } 430254e4ee71SNavdeep Parhar } 4303fb12416cSNavdeep Parhar 43044d6db4e0SNavdeep Parhar if (fl->pidx / 8 != fl->dbidx) 4305fb12416cSNavdeep Parhar ring_fl_db(sc, fl); 4306733b9277SNavdeep Parhar 4307733b9277SNavdeep Parhar return (FL_RUNNING_LOW(fl) && !(fl->flags & FL_STARVING)); 4308733b9277SNavdeep Parhar } 4309733b9277SNavdeep Parhar 4310733b9277SNavdeep Parhar /* 4311733b9277SNavdeep Parhar * Attempt to refill all starving freelists. 4312733b9277SNavdeep Parhar */ 4313733b9277SNavdeep Parhar static void 4314733b9277SNavdeep Parhar refill_sfl(void *arg) 4315733b9277SNavdeep Parhar { 4316733b9277SNavdeep Parhar struct adapter *sc = arg; 4317733b9277SNavdeep Parhar struct sge_fl *fl, *fl_temp; 4318733b9277SNavdeep Parhar 4319fe2ebb76SJohn Baldwin mtx_assert(&sc->sfl_lock, MA_OWNED); 4320733b9277SNavdeep Parhar TAILQ_FOREACH_SAFE(fl, &sc->sfl, link, fl_temp) { 4321733b9277SNavdeep Parhar FL_LOCK(fl); 4322733b9277SNavdeep Parhar refill_fl(sc, fl, 64); 4323733b9277SNavdeep Parhar if (FL_NOT_RUNNING_LOW(fl) || fl->flags & FL_DOOMED) { 4324733b9277SNavdeep Parhar TAILQ_REMOVE(&sc->sfl, fl, link); 4325733b9277SNavdeep Parhar fl->flags &= ~FL_STARVING; 4326733b9277SNavdeep Parhar } 4327733b9277SNavdeep Parhar FL_UNLOCK(fl); 4328733b9277SNavdeep Parhar } 4329733b9277SNavdeep Parhar 4330733b9277SNavdeep Parhar if (!TAILQ_EMPTY(&sc->sfl)) 4331733b9277SNavdeep Parhar callout_schedule(&sc->sfl_callout, hz / 5); 433254e4ee71SNavdeep Parhar } 433354e4ee71SNavdeep Parhar 433454e4ee71SNavdeep Parhar static int 433554e4ee71SNavdeep Parhar alloc_fl_sdesc(struct sge_fl *fl) 433654e4ee71SNavdeep Parhar { 433754e4ee71SNavdeep Parhar 43384d6db4e0SNavdeep Parhar fl->sdesc = malloc(fl->sidx * 8 * sizeof(struct fl_sdesc), M_CXGBE, 433954e4ee71SNavdeep Parhar M_ZERO | M_WAITOK); 434054e4ee71SNavdeep Parhar 434154e4ee71SNavdeep Parhar return (0); 434254e4ee71SNavdeep Parhar } 434354e4ee71SNavdeep Parhar 434454e4ee71SNavdeep Parhar static void 43451458bff9SNavdeep Parhar free_fl_sdesc(struct adapter *sc, struct sge_fl *fl) 434654e4ee71SNavdeep Parhar { 434754e4ee71SNavdeep Parhar struct fl_sdesc *sd; 434838035ed6SNavdeep Parhar struct cluster_metadata *clm; 434938035ed6SNavdeep Parhar struct cluster_layout *cll; 435054e4ee71SNavdeep Parhar int i; 435154e4ee71SNavdeep Parhar 435254e4ee71SNavdeep Parhar sd = fl->sdesc; 43534d6db4e0SNavdeep Parhar for (i = 0; i < fl->sidx * 8; i++, sd++) { 435438035ed6SNavdeep Parhar if (sd->cl == NULL) 435538035ed6SNavdeep Parhar continue; 435654e4ee71SNavdeep Parhar 435738035ed6SNavdeep Parhar cll = &sd->cll; 435838035ed6SNavdeep Parhar clm = cl_metadata(sc, fl, cll, sd->cl); 435982eff304SNavdeep Parhar if (sd->nmbuf == 0) 436038035ed6SNavdeep Parhar uma_zfree(sc->sge.sw_zone_info[cll->zidx].zone, sd->cl); 436182eff304SNavdeep Parhar else if (clm && atomic_fetchadd_int(&clm->refcount, -1) == 1) { 436282eff304SNavdeep Parhar uma_zfree(sc->sge.sw_zone_info[cll->zidx].zone, sd->cl); 436382eff304SNavdeep Parhar counter_u64_add(extfree_rels, 1); 436454e4ee71SNavdeep Parhar } 436538035ed6SNavdeep Parhar sd->cl = NULL; 436654e4ee71SNavdeep Parhar } 436754e4ee71SNavdeep Parhar 436854e4ee71SNavdeep Parhar free(fl->sdesc, M_CXGBE); 436954e4ee71SNavdeep Parhar fl->sdesc = NULL; 437054e4ee71SNavdeep Parhar } 437154e4ee71SNavdeep Parhar 43727951040fSNavdeep Parhar static inline void 43737951040fSNavdeep Parhar get_pkt_gl(struct mbuf *m, struct sglist *gl) 437454e4ee71SNavdeep Parhar { 43757951040fSNavdeep Parhar int rc; 437654e4ee71SNavdeep Parhar 43777951040fSNavdeep Parhar M_ASSERTPKTHDR(m); 437854e4ee71SNavdeep Parhar 43797951040fSNavdeep Parhar sglist_reset(gl); 43807951040fSNavdeep Parhar rc = sglist_append_mbuf(gl, m); 43817951040fSNavdeep Parhar if (__predict_false(rc != 0)) { 43827951040fSNavdeep Parhar panic("%s: mbuf %p (%d segs) was vetted earlier but now fails " 43837951040fSNavdeep Parhar "with %d.", __func__, m, mbuf_nsegs(m), rc); 438454e4ee71SNavdeep Parhar } 438554e4ee71SNavdeep Parhar 43867951040fSNavdeep Parhar KASSERT(gl->sg_nseg == mbuf_nsegs(m), 43877951040fSNavdeep Parhar ("%s: nsegs changed for mbuf %p from %d to %d", __func__, m, 43887951040fSNavdeep Parhar mbuf_nsegs(m), gl->sg_nseg)); 43897951040fSNavdeep Parhar KASSERT(gl->sg_nseg > 0 && 43907951040fSNavdeep Parhar gl->sg_nseg <= (needs_tso(m) ? TX_SGL_SEGS_TSO : TX_SGL_SEGS), 43917951040fSNavdeep Parhar ("%s: %d segments, should have been 1 <= nsegs <= %d", __func__, 43927951040fSNavdeep Parhar gl->sg_nseg, needs_tso(m) ? TX_SGL_SEGS_TSO : TX_SGL_SEGS)); 439354e4ee71SNavdeep Parhar } 439454e4ee71SNavdeep Parhar 439554e4ee71SNavdeep Parhar /* 43967951040fSNavdeep Parhar * len16 for a txpkt WR with a GL. Includes the firmware work request header. 439754e4ee71SNavdeep Parhar */ 43987951040fSNavdeep Parhar static inline u_int 43997951040fSNavdeep Parhar txpkt_len16(u_int nsegs, u_int tso) 44007951040fSNavdeep Parhar { 44017951040fSNavdeep Parhar u_int n; 44027951040fSNavdeep Parhar 44037951040fSNavdeep Parhar MPASS(nsegs > 0); 44047951040fSNavdeep Parhar 44057951040fSNavdeep Parhar nsegs--; /* first segment is part of ulptx_sgl */ 44067951040fSNavdeep Parhar n = sizeof(struct fw_eth_tx_pkt_wr) + sizeof(struct cpl_tx_pkt_core) + 44077951040fSNavdeep Parhar sizeof(struct ulptx_sgl) + 8 * ((3 * nsegs) / 2 + (nsegs & 1)); 44087951040fSNavdeep Parhar if (tso) 44097951040fSNavdeep Parhar n += sizeof(struct cpl_tx_pkt_lso_core); 44107951040fSNavdeep Parhar 44117951040fSNavdeep Parhar return (howmany(n, 16)); 44127951040fSNavdeep Parhar } 441354e4ee71SNavdeep Parhar 441454e4ee71SNavdeep Parhar /* 44156af45170SJohn Baldwin * len16 for a txpkt_vm WR with a GL. Includes the firmware work 44166af45170SJohn Baldwin * request header. 44176af45170SJohn Baldwin */ 44186af45170SJohn Baldwin static inline u_int 44196af45170SJohn Baldwin txpkt_vm_len16(u_int nsegs, u_int tso) 44206af45170SJohn Baldwin { 44216af45170SJohn Baldwin u_int n; 44226af45170SJohn Baldwin 44236af45170SJohn Baldwin MPASS(nsegs > 0); 44246af45170SJohn Baldwin 44256af45170SJohn Baldwin nsegs--; /* first segment is part of ulptx_sgl */ 44266af45170SJohn Baldwin n = sizeof(struct fw_eth_tx_pkt_vm_wr) + 44276af45170SJohn Baldwin sizeof(struct cpl_tx_pkt_core) + 44286af45170SJohn Baldwin sizeof(struct ulptx_sgl) + 8 * ((3 * nsegs) / 2 + (nsegs & 1)); 44296af45170SJohn Baldwin if (tso) 44306af45170SJohn Baldwin n += sizeof(struct cpl_tx_pkt_lso_core); 44316af45170SJohn Baldwin 44326af45170SJohn Baldwin return (howmany(n, 16)); 44336af45170SJohn Baldwin } 44346af45170SJohn Baldwin 44356af45170SJohn Baldwin /* 44367951040fSNavdeep Parhar * len16 for a txpkts type 0 WR with a GL. Does not include the firmware work 44377951040fSNavdeep Parhar * request header. 44387951040fSNavdeep Parhar */ 44397951040fSNavdeep Parhar static inline u_int 44407951040fSNavdeep Parhar txpkts0_len16(u_int nsegs) 44417951040fSNavdeep Parhar { 44427951040fSNavdeep Parhar u_int n; 44437951040fSNavdeep Parhar 44447951040fSNavdeep Parhar MPASS(nsegs > 0); 44457951040fSNavdeep Parhar 44467951040fSNavdeep Parhar nsegs--; /* first segment is part of ulptx_sgl */ 44477951040fSNavdeep Parhar n = sizeof(struct ulp_txpkt) + sizeof(struct ulptx_idata) + 44487951040fSNavdeep Parhar sizeof(struct cpl_tx_pkt_core) + sizeof(struct ulptx_sgl) + 44497951040fSNavdeep Parhar 8 * ((3 * nsegs) / 2 + (nsegs & 1)); 44507951040fSNavdeep Parhar 44517951040fSNavdeep Parhar return (howmany(n, 16)); 44527951040fSNavdeep Parhar } 44537951040fSNavdeep Parhar 44547951040fSNavdeep Parhar /* 44557951040fSNavdeep Parhar * len16 for a txpkts type 1 WR with a GL. Does not include the firmware work 44567951040fSNavdeep Parhar * request header. 44577951040fSNavdeep Parhar */ 44587951040fSNavdeep Parhar static inline u_int 44597951040fSNavdeep Parhar txpkts1_len16(void) 44607951040fSNavdeep Parhar { 44617951040fSNavdeep Parhar u_int n; 44627951040fSNavdeep Parhar 44637951040fSNavdeep Parhar n = sizeof(struct cpl_tx_pkt_core) + sizeof(struct ulptx_sgl); 44647951040fSNavdeep Parhar 44657951040fSNavdeep Parhar return (howmany(n, 16)); 44667951040fSNavdeep Parhar } 44677951040fSNavdeep Parhar 44687951040fSNavdeep Parhar static inline u_int 44697951040fSNavdeep Parhar imm_payload(u_int ndesc) 44707951040fSNavdeep Parhar { 44717951040fSNavdeep Parhar u_int n; 44727951040fSNavdeep Parhar 44737951040fSNavdeep Parhar n = ndesc * EQ_ESIZE - sizeof(struct fw_eth_tx_pkt_wr) - 44747951040fSNavdeep Parhar sizeof(struct cpl_tx_pkt_core); 44757951040fSNavdeep Parhar 44767951040fSNavdeep Parhar return (n); 44777951040fSNavdeep Parhar } 44787951040fSNavdeep Parhar 44797951040fSNavdeep Parhar /* 44806af45170SJohn Baldwin * Write a VM txpkt WR for this packet to the hardware descriptors, update the 44816af45170SJohn Baldwin * software descriptor, and advance the pidx. It is guaranteed that enough 44826af45170SJohn Baldwin * descriptors are available. 44836af45170SJohn Baldwin * 44846af45170SJohn Baldwin * The return value is the # of hardware descriptors used. 44856af45170SJohn Baldwin */ 44866af45170SJohn Baldwin static u_int 4487472a6004SNavdeep Parhar write_txpkt_vm_wr(struct adapter *sc, struct sge_txq *txq, 4488472a6004SNavdeep Parhar struct fw_eth_tx_pkt_vm_wr *wr, struct mbuf *m0, u_int available) 44896af45170SJohn Baldwin { 44906af45170SJohn Baldwin struct sge_eq *eq = &txq->eq; 44916af45170SJohn Baldwin struct tx_sdesc *txsd; 44926af45170SJohn Baldwin struct cpl_tx_pkt_core *cpl; 44936af45170SJohn Baldwin uint32_t ctrl; /* used in many unrelated places */ 44946af45170SJohn Baldwin uint64_t ctrl1; 44956af45170SJohn Baldwin int csum_type, len16, ndesc, pktlen, nsegs; 44966af45170SJohn Baldwin caddr_t dst; 44976af45170SJohn Baldwin 44986af45170SJohn Baldwin TXQ_LOCK_ASSERT_OWNED(txq); 44996af45170SJohn Baldwin M_ASSERTPKTHDR(m0); 45006af45170SJohn Baldwin MPASS(available > 0 && available < eq->sidx); 45016af45170SJohn Baldwin 45026af45170SJohn Baldwin len16 = mbuf_len16(m0); 45036af45170SJohn Baldwin nsegs = mbuf_nsegs(m0); 45046af45170SJohn Baldwin pktlen = m0->m_pkthdr.len; 45056af45170SJohn Baldwin ctrl = sizeof(struct cpl_tx_pkt_core); 45066af45170SJohn Baldwin if (needs_tso(m0)) 45076af45170SJohn Baldwin ctrl += sizeof(struct cpl_tx_pkt_lso_core); 45086af45170SJohn Baldwin ndesc = howmany(len16, EQ_ESIZE / 16); 45096af45170SJohn Baldwin MPASS(ndesc <= available); 45106af45170SJohn Baldwin 45116af45170SJohn Baldwin /* Firmware work request header */ 45126af45170SJohn Baldwin MPASS(wr == (void *)&eq->desc[eq->pidx]); 45136af45170SJohn Baldwin wr->op_immdlen = htobe32(V_FW_WR_OP(FW_ETH_TX_PKT_VM_WR) | 45146af45170SJohn Baldwin V_FW_ETH_TX_PKT_WR_IMMDLEN(ctrl)); 45156af45170SJohn Baldwin 45166af45170SJohn Baldwin ctrl = V_FW_WR_LEN16(len16); 45176af45170SJohn Baldwin wr->equiq_to_len16 = htobe32(ctrl); 45186af45170SJohn Baldwin wr->r3[0] = 0; 45196af45170SJohn Baldwin wr->r3[1] = 0; 45206af45170SJohn Baldwin 45216af45170SJohn Baldwin /* 45226af45170SJohn Baldwin * Copy over ethmacdst, ethmacsrc, ethtype, and vlantci. 45236af45170SJohn Baldwin * vlantci is ignored unless the ethtype is 0x8100, so it's 45246af45170SJohn Baldwin * simpler to always copy it rather than making it 45256af45170SJohn Baldwin * conditional. Also, it seems that we do not have to set 45266af45170SJohn Baldwin * vlantci or fake the ethtype when doing VLAN tag insertion. 45276af45170SJohn Baldwin */ 45286af45170SJohn Baldwin m_copydata(m0, 0, sizeof(struct ether_header) + 2, wr->ethmacdst); 45296af45170SJohn Baldwin 45306af45170SJohn Baldwin csum_type = -1; 45316af45170SJohn Baldwin if (needs_tso(m0)) { 45326af45170SJohn Baldwin struct cpl_tx_pkt_lso_core *lso = (void *)(wr + 1); 45336af45170SJohn Baldwin 45346af45170SJohn Baldwin KASSERT(m0->m_pkthdr.l2hlen > 0 && m0->m_pkthdr.l3hlen > 0 && 45356af45170SJohn Baldwin m0->m_pkthdr.l4hlen > 0, 45366af45170SJohn Baldwin ("%s: mbuf %p needs TSO but missing header lengths", 45376af45170SJohn Baldwin __func__, m0)); 45386af45170SJohn Baldwin 45396af45170SJohn Baldwin ctrl = V_LSO_OPCODE(CPL_TX_PKT_LSO) | F_LSO_FIRST_SLICE | 45406af45170SJohn Baldwin F_LSO_LAST_SLICE | V_LSO_IPHDR_LEN(m0->m_pkthdr.l3hlen >> 2) 45416af45170SJohn Baldwin | V_LSO_TCPHDR_LEN(m0->m_pkthdr.l4hlen >> 2); 45426af45170SJohn Baldwin if (m0->m_pkthdr.l2hlen == sizeof(struct ether_vlan_header)) 45436af45170SJohn Baldwin ctrl |= V_LSO_ETHHDR_LEN(1); 45446af45170SJohn Baldwin if (m0->m_pkthdr.l3hlen == sizeof(struct ip6_hdr)) 45456af45170SJohn Baldwin ctrl |= F_LSO_IPV6; 45466af45170SJohn Baldwin 45476af45170SJohn Baldwin lso->lso_ctrl = htobe32(ctrl); 45486af45170SJohn Baldwin lso->ipid_ofst = htobe16(0); 45496af45170SJohn Baldwin lso->mss = htobe16(m0->m_pkthdr.tso_segsz); 45506af45170SJohn Baldwin lso->seqno_offset = htobe32(0); 45516af45170SJohn Baldwin lso->len = htobe32(pktlen); 45526af45170SJohn Baldwin 45536af45170SJohn Baldwin if (m0->m_pkthdr.l3hlen == sizeof(struct ip6_hdr)) 45546af45170SJohn Baldwin csum_type = TX_CSUM_TCPIP6; 45556af45170SJohn Baldwin else 45566af45170SJohn Baldwin csum_type = TX_CSUM_TCPIP; 45576af45170SJohn Baldwin 45586af45170SJohn Baldwin cpl = (void *)(lso + 1); 45596af45170SJohn Baldwin 45606af45170SJohn Baldwin txq->tso_wrs++; 45616af45170SJohn Baldwin } else { 45626af45170SJohn Baldwin if (m0->m_pkthdr.csum_flags & CSUM_IP_TCP) 45636af45170SJohn Baldwin csum_type = TX_CSUM_TCPIP; 45646af45170SJohn Baldwin else if (m0->m_pkthdr.csum_flags & CSUM_IP_UDP) 45656af45170SJohn Baldwin csum_type = TX_CSUM_UDPIP; 45666af45170SJohn Baldwin else if (m0->m_pkthdr.csum_flags & CSUM_IP6_TCP) 45676af45170SJohn Baldwin csum_type = TX_CSUM_TCPIP6; 45686af45170SJohn Baldwin else if (m0->m_pkthdr.csum_flags & CSUM_IP6_UDP) 45696af45170SJohn Baldwin csum_type = TX_CSUM_UDPIP6; 45706af45170SJohn Baldwin #if defined(INET) 45716af45170SJohn Baldwin else if (m0->m_pkthdr.csum_flags & CSUM_IP) { 45726af45170SJohn Baldwin /* 45736af45170SJohn Baldwin * XXX: The firmware appears to stomp on the 45746af45170SJohn Baldwin * fragment/flags field of the IP header when 45756af45170SJohn Baldwin * using TX_CSUM_IP. Fall back to doing 45766af45170SJohn Baldwin * software checksums. 45776af45170SJohn Baldwin */ 45786af45170SJohn Baldwin u_short *sump; 45796af45170SJohn Baldwin struct mbuf *m; 45806af45170SJohn Baldwin int offset; 45816af45170SJohn Baldwin 45826af45170SJohn Baldwin m = m0; 45836af45170SJohn Baldwin offset = 0; 45846af45170SJohn Baldwin sump = m_advance(&m, &offset, m0->m_pkthdr.l2hlen + 45856af45170SJohn Baldwin offsetof(struct ip, ip_sum)); 45866af45170SJohn Baldwin *sump = in_cksum_skip(m0, m0->m_pkthdr.l2hlen + 45876af45170SJohn Baldwin m0->m_pkthdr.l3hlen, m0->m_pkthdr.l2hlen); 45886af45170SJohn Baldwin m0->m_pkthdr.csum_flags &= ~CSUM_IP; 45896af45170SJohn Baldwin } 45906af45170SJohn Baldwin #endif 45916af45170SJohn Baldwin 45926af45170SJohn Baldwin cpl = (void *)(wr + 1); 45936af45170SJohn Baldwin } 45946af45170SJohn Baldwin 45956af45170SJohn Baldwin /* Checksum offload */ 45966af45170SJohn Baldwin ctrl1 = 0; 45976af45170SJohn Baldwin if (needs_l3_csum(m0) == 0) 45986af45170SJohn Baldwin ctrl1 |= F_TXPKT_IPCSUM_DIS; 45996af45170SJohn Baldwin if (csum_type >= 0) { 46006af45170SJohn Baldwin KASSERT(m0->m_pkthdr.l2hlen > 0 && m0->m_pkthdr.l3hlen > 0, 46016af45170SJohn Baldwin ("%s: mbuf %p needs checksum offload but missing header lengths", 46026af45170SJohn Baldwin __func__, m0)); 46036af45170SJohn Baldwin 4604472a6004SNavdeep Parhar if (chip_id(sc) <= CHELSIO_T5) { 46056af45170SJohn Baldwin ctrl1 |= V_TXPKT_ETHHDR_LEN(m0->m_pkthdr.l2hlen - 46066af45170SJohn Baldwin ETHER_HDR_LEN); 4607472a6004SNavdeep Parhar } else { 4608472a6004SNavdeep Parhar ctrl1 |= V_T6_TXPKT_ETHHDR_LEN(m0->m_pkthdr.l2hlen - 4609472a6004SNavdeep Parhar ETHER_HDR_LEN); 4610472a6004SNavdeep Parhar } 46116af45170SJohn Baldwin ctrl1 |= V_TXPKT_IPHDR_LEN(m0->m_pkthdr.l3hlen); 46126af45170SJohn Baldwin ctrl1 |= V_TXPKT_CSUM_TYPE(csum_type); 46136af45170SJohn Baldwin } else 46146af45170SJohn Baldwin ctrl1 |= F_TXPKT_L4CSUM_DIS; 46156af45170SJohn Baldwin if (m0->m_pkthdr.csum_flags & (CSUM_IP | CSUM_TCP | CSUM_UDP | 46166af45170SJohn Baldwin CSUM_UDP_IPV6 | CSUM_TCP_IPV6 | CSUM_TSO)) 46176af45170SJohn Baldwin txq->txcsum++; /* some hardware assistance provided */ 46186af45170SJohn Baldwin 46196af45170SJohn Baldwin /* VLAN tag insertion */ 46206af45170SJohn Baldwin if (needs_vlan_insertion(m0)) { 46216af45170SJohn Baldwin ctrl1 |= F_TXPKT_VLAN_VLD | 46226af45170SJohn Baldwin V_TXPKT_VLAN(m0->m_pkthdr.ether_vtag); 46236af45170SJohn Baldwin txq->vlan_insertion++; 46246af45170SJohn Baldwin } 46256af45170SJohn Baldwin 46266af45170SJohn Baldwin /* CPL header */ 46276af45170SJohn Baldwin cpl->ctrl0 = txq->cpl_ctrl0; 46286af45170SJohn Baldwin cpl->pack = 0; 46296af45170SJohn Baldwin cpl->len = htobe16(pktlen); 46306af45170SJohn Baldwin cpl->ctrl1 = htobe64(ctrl1); 46316af45170SJohn Baldwin 46326af45170SJohn Baldwin /* SGL */ 46336af45170SJohn Baldwin dst = (void *)(cpl + 1); 46346af45170SJohn Baldwin 46356af45170SJohn Baldwin /* 46366af45170SJohn Baldwin * A packet using TSO will use up an entire descriptor for the 46376af45170SJohn Baldwin * firmware work request header, LSO CPL, and TX_PKT_XT CPL. 46386af45170SJohn Baldwin * If this descriptor is the last descriptor in the ring, wrap 46396af45170SJohn Baldwin * around to the front of the ring explicitly for the start of 46406af45170SJohn Baldwin * the sgl. 46416af45170SJohn Baldwin */ 46426af45170SJohn Baldwin if (dst == (void *)&eq->desc[eq->sidx]) { 46436af45170SJohn Baldwin dst = (void *)&eq->desc[0]; 46446af45170SJohn Baldwin write_gl_to_txd(txq, m0, &dst, 0); 46456af45170SJohn Baldwin } else 46466af45170SJohn Baldwin write_gl_to_txd(txq, m0, &dst, eq->sidx - ndesc < eq->pidx); 46476af45170SJohn Baldwin txq->sgl_wrs++; 46486af45170SJohn Baldwin 46496af45170SJohn Baldwin txq->txpkt_wrs++; 46506af45170SJohn Baldwin 46516af45170SJohn Baldwin txsd = &txq->sdesc[eq->pidx]; 46526af45170SJohn Baldwin txsd->m = m0; 46536af45170SJohn Baldwin txsd->desc_used = ndesc; 46546af45170SJohn Baldwin 46556af45170SJohn Baldwin return (ndesc); 46566af45170SJohn Baldwin } 46576af45170SJohn Baldwin 46586af45170SJohn Baldwin /* 46595cdaef71SJohn Baldwin * Write a raw WR to the hardware descriptors, update the software 46605cdaef71SJohn Baldwin * descriptor, and advance the pidx. It is guaranteed that enough 46615cdaef71SJohn Baldwin * descriptors are available. 46625cdaef71SJohn Baldwin * 46635cdaef71SJohn Baldwin * The return value is the # of hardware descriptors used. 46645cdaef71SJohn Baldwin */ 46655cdaef71SJohn Baldwin static u_int 46665cdaef71SJohn Baldwin write_raw_wr(struct sge_txq *txq, void *wr, struct mbuf *m0, u_int available) 46675cdaef71SJohn Baldwin { 46685cdaef71SJohn Baldwin struct sge_eq *eq = &txq->eq; 46695cdaef71SJohn Baldwin struct tx_sdesc *txsd; 46705cdaef71SJohn Baldwin struct mbuf *m; 46715cdaef71SJohn Baldwin caddr_t dst; 46725cdaef71SJohn Baldwin int len16, ndesc; 46735cdaef71SJohn Baldwin 46745cdaef71SJohn Baldwin len16 = mbuf_len16(m0); 46755cdaef71SJohn Baldwin ndesc = howmany(len16, EQ_ESIZE / 16); 46765cdaef71SJohn Baldwin MPASS(ndesc <= available); 46775cdaef71SJohn Baldwin 46785cdaef71SJohn Baldwin dst = wr; 46795cdaef71SJohn Baldwin for (m = m0; m != NULL; m = m->m_next) 46805cdaef71SJohn Baldwin copy_to_txd(eq, mtod(m, caddr_t), &dst, m->m_len); 46815cdaef71SJohn Baldwin 46825cdaef71SJohn Baldwin txq->raw_wrs++; 46835cdaef71SJohn Baldwin 46845cdaef71SJohn Baldwin txsd = &txq->sdesc[eq->pidx]; 46855cdaef71SJohn Baldwin txsd->m = m0; 46865cdaef71SJohn Baldwin txsd->desc_used = ndesc; 46875cdaef71SJohn Baldwin 46885cdaef71SJohn Baldwin return (ndesc); 46895cdaef71SJohn Baldwin } 46905cdaef71SJohn Baldwin 46915cdaef71SJohn Baldwin /* 46927951040fSNavdeep Parhar * Write a txpkt WR for this packet to the hardware descriptors, update the 46937951040fSNavdeep Parhar * software descriptor, and advance the pidx. It is guaranteed that enough 46947951040fSNavdeep Parhar * descriptors are available. 469554e4ee71SNavdeep Parhar * 46967951040fSNavdeep Parhar * The return value is the # of hardware descriptors used. 469754e4ee71SNavdeep Parhar */ 46987951040fSNavdeep Parhar static u_int 46997951040fSNavdeep Parhar write_txpkt_wr(struct sge_txq *txq, struct fw_eth_tx_pkt_wr *wr, 47007951040fSNavdeep Parhar struct mbuf *m0, u_int available) 470154e4ee71SNavdeep Parhar { 470254e4ee71SNavdeep Parhar struct sge_eq *eq = &txq->eq; 47037951040fSNavdeep Parhar struct tx_sdesc *txsd; 470454e4ee71SNavdeep Parhar struct cpl_tx_pkt_core *cpl; 470554e4ee71SNavdeep Parhar uint32_t ctrl; /* used in many unrelated places */ 470654e4ee71SNavdeep Parhar uint64_t ctrl1; 47077951040fSNavdeep Parhar int len16, ndesc, pktlen, nsegs; 470854e4ee71SNavdeep Parhar caddr_t dst; 470954e4ee71SNavdeep Parhar 471054e4ee71SNavdeep Parhar TXQ_LOCK_ASSERT_OWNED(txq); 47117951040fSNavdeep Parhar M_ASSERTPKTHDR(m0); 47127951040fSNavdeep Parhar MPASS(available > 0 && available < eq->sidx); 471354e4ee71SNavdeep Parhar 47147951040fSNavdeep Parhar len16 = mbuf_len16(m0); 47157951040fSNavdeep Parhar nsegs = mbuf_nsegs(m0); 47167951040fSNavdeep Parhar pktlen = m0->m_pkthdr.len; 471754e4ee71SNavdeep Parhar ctrl = sizeof(struct cpl_tx_pkt_core); 47187951040fSNavdeep Parhar if (needs_tso(m0)) 47192a5f6b0eSNavdeep Parhar ctrl += sizeof(struct cpl_tx_pkt_lso_core); 47207951040fSNavdeep Parhar else if (pktlen <= imm_payload(2) && available >= 2) { 47217951040fSNavdeep Parhar /* Immediate data. Recalculate len16 and set nsegs to 0. */ 4722ecb79ca4SNavdeep Parhar ctrl += pktlen; 47237951040fSNavdeep Parhar len16 = howmany(sizeof(struct fw_eth_tx_pkt_wr) + 47247951040fSNavdeep Parhar sizeof(struct cpl_tx_pkt_core) + pktlen, 16); 47257951040fSNavdeep Parhar nsegs = 0; 472654e4ee71SNavdeep Parhar } 47277951040fSNavdeep Parhar ndesc = howmany(len16, EQ_ESIZE / 16); 47287951040fSNavdeep Parhar MPASS(ndesc <= available); 472954e4ee71SNavdeep Parhar 473054e4ee71SNavdeep Parhar /* Firmware work request header */ 47317951040fSNavdeep Parhar MPASS(wr == (void *)&eq->desc[eq->pidx]); 473254e4ee71SNavdeep Parhar wr->op_immdlen = htobe32(V_FW_WR_OP(FW_ETH_TX_PKT_WR) | 4733733b9277SNavdeep Parhar V_FW_ETH_TX_PKT_WR_IMMDLEN(ctrl)); 47346b49a4ecSNavdeep Parhar 47357951040fSNavdeep Parhar ctrl = V_FW_WR_LEN16(len16); 473654e4ee71SNavdeep Parhar wr->equiq_to_len16 = htobe32(ctrl); 473754e4ee71SNavdeep Parhar wr->r3 = 0; 473854e4ee71SNavdeep Parhar 47397951040fSNavdeep Parhar if (needs_tso(m0)) { 47402a5f6b0eSNavdeep Parhar struct cpl_tx_pkt_lso_core *lso = (void *)(wr + 1); 47417951040fSNavdeep Parhar 47427951040fSNavdeep Parhar KASSERT(m0->m_pkthdr.l2hlen > 0 && m0->m_pkthdr.l3hlen > 0 && 47437951040fSNavdeep Parhar m0->m_pkthdr.l4hlen > 0, 47447951040fSNavdeep Parhar ("%s: mbuf %p needs TSO but missing header lengths", 47457951040fSNavdeep Parhar __func__, m0)); 474654e4ee71SNavdeep Parhar 474754e4ee71SNavdeep Parhar ctrl = V_LSO_OPCODE(CPL_TX_PKT_LSO) | F_LSO_FIRST_SLICE | 47487951040fSNavdeep Parhar F_LSO_LAST_SLICE | V_LSO_IPHDR_LEN(m0->m_pkthdr.l3hlen >> 2) 47497951040fSNavdeep Parhar | V_LSO_TCPHDR_LEN(m0->m_pkthdr.l4hlen >> 2); 47507951040fSNavdeep Parhar if (m0->m_pkthdr.l2hlen == sizeof(struct ether_vlan_header)) 475154e4ee71SNavdeep Parhar ctrl |= V_LSO_ETHHDR_LEN(1); 47527951040fSNavdeep Parhar if (m0->m_pkthdr.l3hlen == sizeof(struct ip6_hdr)) 4753a1ea9a82SNavdeep Parhar ctrl |= F_LSO_IPV6; 475454e4ee71SNavdeep Parhar 475554e4ee71SNavdeep Parhar lso->lso_ctrl = htobe32(ctrl); 475654e4ee71SNavdeep Parhar lso->ipid_ofst = htobe16(0); 47577951040fSNavdeep Parhar lso->mss = htobe16(m0->m_pkthdr.tso_segsz); 475854e4ee71SNavdeep Parhar lso->seqno_offset = htobe32(0); 4759ecb79ca4SNavdeep Parhar lso->len = htobe32(pktlen); 476054e4ee71SNavdeep Parhar 476154e4ee71SNavdeep Parhar cpl = (void *)(lso + 1); 476254e4ee71SNavdeep Parhar 476354e4ee71SNavdeep Parhar txq->tso_wrs++; 476454e4ee71SNavdeep Parhar } else 476554e4ee71SNavdeep Parhar cpl = (void *)(wr + 1); 476654e4ee71SNavdeep Parhar 476754e4ee71SNavdeep Parhar /* Checksum offload */ 476854e4ee71SNavdeep Parhar ctrl1 = 0; 47697951040fSNavdeep Parhar if (needs_l3_csum(m0) == 0) 477054e4ee71SNavdeep Parhar ctrl1 |= F_TXPKT_IPCSUM_DIS; 47717951040fSNavdeep Parhar if (needs_l4_csum(m0) == 0) 477254e4ee71SNavdeep Parhar ctrl1 |= F_TXPKT_L4CSUM_DIS; 47737951040fSNavdeep Parhar if (m0->m_pkthdr.csum_flags & (CSUM_IP | CSUM_TCP | CSUM_UDP | 4774b8531380SNavdeep Parhar CSUM_UDP_IPV6 | CSUM_TCP_IPV6 | CSUM_TSO)) 477554e4ee71SNavdeep Parhar txq->txcsum++; /* some hardware assistance provided */ 477654e4ee71SNavdeep Parhar 477754e4ee71SNavdeep Parhar /* VLAN tag insertion */ 47787951040fSNavdeep Parhar if (needs_vlan_insertion(m0)) { 47797951040fSNavdeep Parhar ctrl1 |= F_TXPKT_VLAN_VLD | V_TXPKT_VLAN(m0->m_pkthdr.ether_vtag); 478054e4ee71SNavdeep Parhar txq->vlan_insertion++; 478154e4ee71SNavdeep Parhar } 478254e4ee71SNavdeep Parhar 478354e4ee71SNavdeep Parhar /* CPL header */ 47847951040fSNavdeep Parhar cpl->ctrl0 = txq->cpl_ctrl0; 478554e4ee71SNavdeep Parhar cpl->pack = 0; 4786ecb79ca4SNavdeep Parhar cpl->len = htobe16(pktlen); 478754e4ee71SNavdeep Parhar cpl->ctrl1 = htobe64(ctrl1); 478854e4ee71SNavdeep Parhar 478954e4ee71SNavdeep Parhar /* SGL */ 479054e4ee71SNavdeep Parhar dst = (void *)(cpl + 1); 47917951040fSNavdeep Parhar if (nsegs > 0) { 47927951040fSNavdeep Parhar 47937951040fSNavdeep Parhar write_gl_to_txd(txq, m0, &dst, eq->sidx - ndesc < eq->pidx); 479454e4ee71SNavdeep Parhar txq->sgl_wrs++; 479554e4ee71SNavdeep Parhar } else { 47967951040fSNavdeep Parhar struct mbuf *m; 47977951040fSNavdeep Parhar 47987951040fSNavdeep Parhar for (m = m0; m != NULL; m = m->m_next) { 479954e4ee71SNavdeep Parhar copy_to_txd(eq, mtod(m, caddr_t), &dst, m->m_len); 4800ecb79ca4SNavdeep Parhar #ifdef INVARIANTS 4801ecb79ca4SNavdeep Parhar pktlen -= m->m_len; 4802ecb79ca4SNavdeep Parhar #endif 480354e4ee71SNavdeep Parhar } 4804ecb79ca4SNavdeep Parhar #ifdef INVARIANTS 4805ecb79ca4SNavdeep Parhar KASSERT(pktlen == 0, ("%s: %d bytes left.", __func__, pktlen)); 4806ecb79ca4SNavdeep Parhar #endif 48077951040fSNavdeep Parhar txq->imm_wrs++; 480854e4ee71SNavdeep Parhar } 480954e4ee71SNavdeep Parhar 481054e4ee71SNavdeep Parhar txq->txpkt_wrs++; 481154e4ee71SNavdeep Parhar 4812f7dfe243SNavdeep Parhar txsd = &txq->sdesc[eq->pidx]; 48137951040fSNavdeep Parhar txsd->m = m0; 481454e4ee71SNavdeep Parhar txsd->desc_used = ndesc; 481554e4ee71SNavdeep Parhar 48167951040fSNavdeep Parhar return (ndesc); 481754e4ee71SNavdeep Parhar } 481854e4ee71SNavdeep Parhar 48197951040fSNavdeep Parhar static int 48207951040fSNavdeep Parhar try_txpkts(struct mbuf *m, struct mbuf *n, struct txpkts *txp, u_int available) 482154e4ee71SNavdeep Parhar { 48227951040fSNavdeep Parhar u_int needed, nsegs1, nsegs2, l1, l2; 48237951040fSNavdeep Parhar 48247951040fSNavdeep Parhar if (cannot_use_txpkts(m) || cannot_use_txpkts(n)) 48257951040fSNavdeep Parhar return (1); 48267951040fSNavdeep Parhar 48277951040fSNavdeep Parhar nsegs1 = mbuf_nsegs(m); 48287951040fSNavdeep Parhar nsegs2 = mbuf_nsegs(n); 48297951040fSNavdeep Parhar if (nsegs1 + nsegs2 == 2) { 48307951040fSNavdeep Parhar txp->wr_type = 1; 48317951040fSNavdeep Parhar l1 = l2 = txpkts1_len16(); 48327951040fSNavdeep Parhar } else { 48337951040fSNavdeep Parhar txp->wr_type = 0; 48347951040fSNavdeep Parhar l1 = txpkts0_len16(nsegs1); 48357951040fSNavdeep Parhar l2 = txpkts0_len16(nsegs2); 48367951040fSNavdeep Parhar } 48377951040fSNavdeep Parhar txp->len16 = howmany(sizeof(struct fw_eth_tx_pkts_wr), 16) + l1 + l2; 48387951040fSNavdeep Parhar needed = howmany(txp->len16, EQ_ESIZE / 16); 48397951040fSNavdeep Parhar if (needed > SGE_MAX_WR_NDESC || needed > available) 48407951040fSNavdeep Parhar return (1); 48417951040fSNavdeep Parhar 48427951040fSNavdeep Parhar txp->plen = m->m_pkthdr.len + n->m_pkthdr.len; 48437951040fSNavdeep Parhar if (txp->plen > 65535) 48447951040fSNavdeep Parhar return (1); 48457951040fSNavdeep Parhar 48467951040fSNavdeep Parhar txp->npkt = 2; 48477951040fSNavdeep Parhar set_mbuf_len16(m, l1); 48487951040fSNavdeep Parhar set_mbuf_len16(n, l2); 48497951040fSNavdeep Parhar 48507951040fSNavdeep Parhar return (0); 48517951040fSNavdeep Parhar } 48527951040fSNavdeep Parhar 48537951040fSNavdeep Parhar static int 48547951040fSNavdeep Parhar add_to_txpkts(struct mbuf *m, struct txpkts *txp, u_int available) 48557951040fSNavdeep Parhar { 48567951040fSNavdeep Parhar u_int plen, len16, needed, nsegs; 48577951040fSNavdeep Parhar 48587951040fSNavdeep Parhar MPASS(txp->wr_type == 0 || txp->wr_type == 1); 48597951040fSNavdeep Parhar 48607890b5c1SJohn Baldwin if (cannot_use_txpkts(m)) 48617890b5c1SJohn Baldwin return (1); 48627890b5c1SJohn Baldwin 48637951040fSNavdeep Parhar nsegs = mbuf_nsegs(m); 48647890b5c1SJohn Baldwin if (txp->wr_type == 1 && nsegs != 1) 48657951040fSNavdeep Parhar return (1); 48667951040fSNavdeep Parhar 48677951040fSNavdeep Parhar plen = txp->plen + m->m_pkthdr.len; 48687951040fSNavdeep Parhar if (plen > 65535) 48697951040fSNavdeep Parhar return (1); 48707951040fSNavdeep Parhar 48717951040fSNavdeep Parhar if (txp->wr_type == 0) 48727951040fSNavdeep Parhar len16 = txpkts0_len16(nsegs); 48737951040fSNavdeep Parhar else 48747951040fSNavdeep Parhar len16 = txpkts1_len16(); 48757951040fSNavdeep Parhar needed = howmany(txp->len16 + len16, EQ_ESIZE / 16); 48767951040fSNavdeep Parhar if (needed > SGE_MAX_WR_NDESC || needed > available) 48777951040fSNavdeep Parhar return (1); 48787951040fSNavdeep Parhar 48797951040fSNavdeep Parhar txp->npkt++; 48807951040fSNavdeep Parhar txp->plen = plen; 48817951040fSNavdeep Parhar txp->len16 += len16; 48827951040fSNavdeep Parhar set_mbuf_len16(m, len16); 48837951040fSNavdeep Parhar 48847951040fSNavdeep Parhar return (0); 48857951040fSNavdeep Parhar } 48867951040fSNavdeep Parhar 48877951040fSNavdeep Parhar /* 48887951040fSNavdeep Parhar * Write a txpkts WR for the packets in txp to the hardware descriptors, update 48897951040fSNavdeep Parhar * the software descriptor, and advance the pidx. It is guaranteed that enough 48907951040fSNavdeep Parhar * descriptors are available. 48917951040fSNavdeep Parhar * 48927951040fSNavdeep Parhar * The return value is the # of hardware descriptors used. 48937951040fSNavdeep Parhar */ 48947951040fSNavdeep Parhar static u_int 48957951040fSNavdeep Parhar write_txpkts_wr(struct sge_txq *txq, struct fw_eth_tx_pkts_wr *wr, 48967951040fSNavdeep Parhar struct mbuf *m0, const struct txpkts *txp, u_int available) 48977951040fSNavdeep Parhar { 48987951040fSNavdeep Parhar struct sge_eq *eq = &txq->eq; 48997951040fSNavdeep Parhar struct tx_sdesc *txsd; 49007951040fSNavdeep Parhar struct cpl_tx_pkt_core *cpl; 49017951040fSNavdeep Parhar uint32_t ctrl; 49027951040fSNavdeep Parhar uint64_t ctrl1; 49037951040fSNavdeep Parhar int ndesc, checkwrap; 49047951040fSNavdeep Parhar struct mbuf *m; 49057951040fSNavdeep Parhar void *flitp; 49067951040fSNavdeep Parhar 49077951040fSNavdeep Parhar TXQ_LOCK_ASSERT_OWNED(txq); 49087951040fSNavdeep Parhar MPASS(txp->npkt > 0); 49097951040fSNavdeep Parhar MPASS(txp->plen < 65536); 49107951040fSNavdeep Parhar MPASS(m0 != NULL); 49117951040fSNavdeep Parhar MPASS(m0->m_nextpkt != NULL); 49127951040fSNavdeep Parhar MPASS(txp->len16 <= howmany(SGE_MAX_WR_LEN, 16)); 49137951040fSNavdeep Parhar MPASS(available > 0 && available < eq->sidx); 49147951040fSNavdeep Parhar 49157951040fSNavdeep Parhar ndesc = howmany(txp->len16, EQ_ESIZE / 16); 49167951040fSNavdeep Parhar MPASS(ndesc <= available); 49177951040fSNavdeep Parhar 49187951040fSNavdeep Parhar MPASS(wr == (void *)&eq->desc[eq->pidx]); 49197951040fSNavdeep Parhar wr->op_pkd = htobe32(V_FW_WR_OP(FW_ETH_TX_PKTS_WR)); 49207951040fSNavdeep Parhar ctrl = V_FW_WR_LEN16(txp->len16); 49217951040fSNavdeep Parhar wr->equiq_to_len16 = htobe32(ctrl); 49227951040fSNavdeep Parhar wr->plen = htobe16(txp->plen); 49237951040fSNavdeep Parhar wr->npkt = txp->npkt; 49247951040fSNavdeep Parhar wr->r3 = 0; 49257951040fSNavdeep Parhar wr->type = txp->wr_type; 49267951040fSNavdeep Parhar flitp = wr + 1; 49277951040fSNavdeep Parhar 49287951040fSNavdeep Parhar /* 49297951040fSNavdeep Parhar * At this point we are 16B into a hardware descriptor. If checkwrap is 49307951040fSNavdeep Parhar * set then we know the WR is going to wrap around somewhere. We'll 49317951040fSNavdeep Parhar * check for that at appropriate points. 49327951040fSNavdeep Parhar */ 49337951040fSNavdeep Parhar checkwrap = eq->sidx - ndesc < eq->pidx; 49347951040fSNavdeep Parhar for (m = m0; m != NULL; m = m->m_nextpkt) { 49357951040fSNavdeep Parhar if (txp->wr_type == 0) { 493654e4ee71SNavdeep Parhar struct ulp_txpkt *ulpmc; 493754e4ee71SNavdeep Parhar struct ulptx_idata *ulpsc; 493854e4ee71SNavdeep Parhar 49397951040fSNavdeep Parhar /* ULP master command */ 49407951040fSNavdeep Parhar ulpmc = flitp; 49417951040fSNavdeep Parhar ulpmc->cmd_dest = htobe32(V_ULPTX_CMD(ULP_TX_PKT) | 49427951040fSNavdeep Parhar V_ULP_TXPKT_DEST(0) | V_ULP_TXPKT_FID(eq->iqid)); 49437951040fSNavdeep Parhar ulpmc->len = htobe32(mbuf_len16(m)); 494454e4ee71SNavdeep Parhar 49457951040fSNavdeep Parhar /* ULP subcommand */ 49467951040fSNavdeep Parhar ulpsc = (void *)(ulpmc + 1); 49477951040fSNavdeep Parhar ulpsc->cmd_more = htobe32(V_ULPTX_CMD(ULP_TX_SC_IMM) | 49487951040fSNavdeep Parhar F_ULP_TX_SC_MORE); 49497951040fSNavdeep Parhar ulpsc->len = htobe32(sizeof(struct cpl_tx_pkt_core)); 49507951040fSNavdeep Parhar 49517951040fSNavdeep Parhar cpl = (void *)(ulpsc + 1); 49527951040fSNavdeep Parhar if (checkwrap && 49537951040fSNavdeep Parhar (uintptr_t)cpl == (uintptr_t)&eq->desc[eq->sidx]) 49547951040fSNavdeep Parhar cpl = (void *)&eq->desc[0]; 49557951040fSNavdeep Parhar } else { 49567951040fSNavdeep Parhar cpl = flitp; 49577951040fSNavdeep Parhar } 495854e4ee71SNavdeep Parhar 495954e4ee71SNavdeep Parhar /* Checksum offload */ 49607951040fSNavdeep Parhar ctrl1 = 0; 49617951040fSNavdeep Parhar if (needs_l3_csum(m) == 0) 49627951040fSNavdeep Parhar ctrl1 |= F_TXPKT_IPCSUM_DIS; 49637951040fSNavdeep Parhar if (needs_l4_csum(m) == 0) 49647951040fSNavdeep Parhar ctrl1 |= F_TXPKT_L4CSUM_DIS; 4965b8531380SNavdeep Parhar if (m->m_pkthdr.csum_flags & (CSUM_IP | CSUM_TCP | CSUM_UDP | 4966b8531380SNavdeep Parhar CSUM_UDP_IPV6 | CSUM_TCP_IPV6 | CSUM_TSO)) 496754e4ee71SNavdeep Parhar txq->txcsum++; /* some hardware assistance provided */ 496854e4ee71SNavdeep Parhar 496954e4ee71SNavdeep Parhar /* VLAN tag insertion */ 49707951040fSNavdeep Parhar if (needs_vlan_insertion(m)) { 49717951040fSNavdeep Parhar ctrl1 |= F_TXPKT_VLAN_VLD | 49727951040fSNavdeep Parhar V_TXPKT_VLAN(m->m_pkthdr.ether_vtag); 497354e4ee71SNavdeep Parhar txq->vlan_insertion++; 497454e4ee71SNavdeep Parhar } 497554e4ee71SNavdeep Parhar 49767951040fSNavdeep Parhar /* CPL header */ 49777951040fSNavdeep Parhar cpl->ctrl0 = txq->cpl_ctrl0; 497854e4ee71SNavdeep Parhar cpl->pack = 0; 497954e4ee71SNavdeep Parhar cpl->len = htobe16(m->m_pkthdr.len); 49807951040fSNavdeep Parhar cpl->ctrl1 = htobe64(ctrl1); 498154e4ee71SNavdeep Parhar 49827951040fSNavdeep Parhar flitp = cpl + 1; 49837951040fSNavdeep Parhar if (checkwrap && 49847951040fSNavdeep Parhar (uintptr_t)flitp == (uintptr_t)&eq->desc[eq->sidx]) 49857951040fSNavdeep Parhar flitp = (void *)&eq->desc[0]; 498654e4ee71SNavdeep Parhar 49877951040fSNavdeep Parhar write_gl_to_txd(txq, m, (caddr_t *)(&flitp), checkwrap); 498854e4ee71SNavdeep Parhar 49897951040fSNavdeep Parhar } 49907951040fSNavdeep Parhar 4991a59a1477SNavdeep Parhar if (txp->wr_type == 0) { 4992a59a1477SNavdeep Parhar txq->txpkts0_pkts += txp->npkt; 4993a59a1477SNavdeep Parhar txq->txpkts0_wrs++; 4994a59a1477SNavdeep Parhar } else { 4995a59a1477SNavdeep Parhar txq->txpkts1_pkts += txp->npkt; 4996a59a1477SNavdeep Parhar txq->txpkts1_wrs++; 4997a59a1477SNavdeep Parhar } 4998a59a1477SNavdeep Parhar 49997951040fSNavdeep Parhar txsd = &txq->sdesc[eq->pidx]; 50007951040fSNavdeep Parhar txsd->m = m0; 50017951040fSNavdeep Parhar txsd->desc_used = ndesc; 50027951040fSNavdeep Parhar 50037951040fSNavdeep Parhar return (ndesc); 500454e4ee71SNavdeep Parhar } 500554e4ee71SNavdeep Parhar 500654e4ee71SNavdeep Parhar /* 500754e4ee71SNavdeep Parhar * If the SGL ends on an address that is not 16 byte aligned, this function will 50087951040fSNavdeep Parhar * add a 0 filled flit at the end. 500954e4ee71SNavdeep Parhar */ 50107951040fSNavdeep Parhar static void 50117951040fSNavdeep Parhar write_gl_to_txd(struct sge_txq *txq, struct mbuf *m, caddr_t *to, int checkwrap) 501254e4ee71SNavdeep Parhar { 50137951040fSNavdeep Parhar struct sge_eq *eq = &txq->eq; 50147951040fSNavdeep Parhar struct sglist *gl = txq->gl; 50157951040fSNavdeep Parhar struct sglist_seg *seg; 50167951040fSNavdeep Parhar __be64 *flitp, *wrap; 501754e4ee71SNavdeep Parhar struct ulptx_sgl *usgl; 50187951040fSNavdeep Parhar int i, nflits, nsegs; 501954e4ee71SNavdeep Parhar 502054e4ee71SNavdeep Parhar KASSERT(((uintptr_t)(*to) & 0xf) == 0, 502154e4ee71SNavdeep Parhar ("%s: SGL must start at a 16 byte boundary: %p", __func__, *to)); 50227951040fSNavdeep Parhar MPASS((uintptr_t)(*to) >= (uintptr_t)&eq->desc[0]); 50237951040fSNavdeep Parhar MPASS((uintptr_t)(*to) < (uintptr_t)&eq->desc[eq->sidx]); 502454e4ee71SNavdeep Parhar 50257951040fSNavdeep Parhar get_pkt_gl(m, gl); 50267951040fSNavdeep Parhar nsegs = gl->sg_nseg; 50277951040fSNavdeep Parhar MPASS(nsegs > 0); 50287951040fSNavdeep Parhar 50297951040fSNavdeep Parhar nflits = (3 * (nsegs - 1)) / 2 + ((nsegs - 1) & 1) + 2; 503054e4ee71SNavdeep Parhar flitp = (__be64 *)(*to); 50317951040fSNavdeep Parhar wrap = (__be64 *)(&eq->desc[eq->sidx]); 50327951040fSNavdeep Parhar seg = &gl->sg_segs[0]; 503354e4ee71SNavdeep Parhar usgl = (void *)flitp; 503454e4ee71SNavdeep Parhar 503554e4ee71SNavdeep Parhar /* 503654e4ee71SNavdeep Parhar * We start at a 16 byte boundary somewhere inside the tx descriptor 503754e4ee71SNavdeep Parhar * ring, so we're at least 16 bytes away from the status page. There is 503854e4ee71SNavdeep Parhar * no chance of a wrap around in the middle of usgl (which is 16 bytes). 503954e4ee71SNavdeep Parhar */ 504054e4ee71SNavdeep Parhar 504154e4ee71SNavdeep Parhar usgl->cmd_nsge = htobe32(V_ULPTX_CMD(ULP_TX_SC_DSGL) | 50427951040fSNavdeep Parhar V_ULPTX_NSGE(nsegs)); 50437951040fSNavdeep Parhar usgl->len0 = htobe32(seg->ss_len); 50447951040fSNavdeep Parhar usgl->addr0 = htobe64(seg->ss_paddr); 504554e4ee71SNavdeep Parhar seg++; 504654e4ee71SNavdeep Parhar 50477951040fSNavdeep Parhar if (checkwrap == 0 || (uintptr_t)(flitp + nflits) <= (uintptr_t)wrap) { 504854e4ee71SNavdeep Parhar 504954e4ee71SNavdeep Parhar /* Won't wrap around at all */ 505054e4ee71SNavdeep Parhar 50517951040fSNavdeep Parhar for (i = 0; i < nsegs - 1; i++, seg++) { 50527951040fSNavdeep Parhar usgl->sge[i / 2].len[i & 1] = htobe32(seg->ss_len); 50537951040fSNavdeep Parhar usgl->sge[i / 2].addr[i & 1] = htobe64(seg->ss_paddr); 505454e4ee71SNavdeep Parhar } 505554e4ee71SNavdeep Parhar if (i & 1) 505654e4ee71SNavdeep Parhar usgl->sge[i / 2].len[1] = htobe32(0); 50577951040fSNavdeep Parhar flitp += nflits; 505854e4ee71SNavdeep Parhar } else { 505954e4ee71SNavdeep Parhar 506054e4ee71SNavdeep Parhar /* Will wrap somewhere in the rest of the SGL */ 506154e4ee71SNavdeep Parhar 506254e4ee71SNavdeep Parhar /* 2 flits already written, write the rest flit by flit */ 506354e4ee71SNavdeep Parhar flitp = (void *)(usgl + 1); 50647951040fSNavdeep Parhar for (i = 0; i < nflits - 2; i++) { 50657951040fSNavdeep Parhar if (flitp == wrap) 506654e4ee71SNavdeep Parhar flitp = (void *)eq->desc; 50677951040fSNavdeep Parhar *flitp++ = get_flit(seg, nsegs - 1, i); 506854e4ee71SNavdeep Parhar } 506954e4ee71SNavdeep Parhar } 507054e4ee71SNavdeep Parhar 50717951040fSNavdeep Parhar if (nflits & 1) { 50727951040fSNavdeep Parhar MPASS(((uintptr_t)flitp) & 0xf); 50737951040fSNavdeep Parhar *flitp++ = 0; 50747951040fSNavdeep Parhar } 507554e4ee71SNavdeep Parhar 50767951040fSNavdeep Parhar MPASS((((uintptr_t)flitp) & 0xf) == 0); 50777951040fSNavdeep Parhar if (__predict_false(flitp == wrap)) 507854e4ee71SNavdeep Parhar *to = (void *)eq->desc; 507954e4ee71SNavdeep Parhar else 50807951040fSNavdeep Parhar *to = (void *)flitp; 508154e4ee71SNavdeep Parhar } 508254e4ee71SNavdeep Parhar 508354e4ee71SNavdeep Parhar static inline void 508454e4ee71SNavdeep Parhar copy_to_txd(struct sge_eq *eq, caddr_t from, caddr_t *to, int len) 508554e4ee71SNavdeep Parhar { 50867951040fSNavdeep Parhar 50877951040fSNavdeep Parhar MPASS((uintptr_t)(*to) >= (uintptr_t)&eq->desc[0]); 50887951040fSNavdeep Parhar MPASS((uintptr_t)(*to) < (uintptr_t)&eq->desc[eq->sidx]); 50897951040fSNavdeep Parhar 50907951040fSNavdeep Parhar if (__predict_true((uintptr_t)(*to) + len <= 50917951040fSNavdeep Parhar (uintptr_t)&eq->desc[eq->sidx])) { 509254e4ee71SNavdeep Parhar bcopy(from, *to, len); 509354e4ee71SNavdeep Parhar (*to) += len; 509454e4ee71SNavdeep Parhar } else { 50957951040fSNavdeep Parhar int portion = (uintptr_t)&eq->desc[eq->sidx] - (uintptr_t)(*to); 509654e4ee71SNavdeep Parhar 509754e4ee71SNavdeep Parhar bcopy(from, *to, portion); 509854e4ee71SNavdeep Parhar from += portion; 509954e4ee71SNavdeep Parhar portion = len - portion; /* remaining */ 510054e4ee71SNavdeep Parhar bcopy(from, (void *)eq->desc, portion); 510154e4ee71SNavdeep Parhar (*to) = (caddr_t)eq->desc + portion; 510254e4ee71SNavdeep Parhar } 510354e4ee71SNavdeep Parhar } 510454e4ee71SNavdeep Parhar 510554e4ee71SNavdeep Parhar static inline void 51067951040fSNavdeep Parhar ring_eq_db(struct adapter *sc, struct sge_eq *eq, u_int n) 510754e4ee71SNavdeep Parhar { 51087951040fSNavdeep Parhar u_int db; 51097951040fSNavdeep Parhar 51107951040fSNavdeep Parhar MPASS(n > 0); 5111d14b0ac1SNavdeep Parhar 5112d14b0ac1SNavdeep Parhar db = eq->doorbells; 51137951040fSNavdeep Parhar if (n > 1) 511477ad3c41SNavdeep Parhar clrbit(&db, DOORBELL_WCWR); 5115d14b0ac1SNavdeep Parhar wmb(); 5116d14b0ac1SNavdeep Parhar 5117d14b0ac1SNavdeep Parhar switch (ffs(db) - 1) { 5118d14b0ac1SNavdeep Parhar case DOORBELL_UDB: 51197951040fSNavdeep Parhar *eq->udb = htole32(V_QID(eq->udb_qid) | V_PIDX(n)); 51207951040fSNavdeep Parhar break; 5121d14b0ac1SNavdeep Parhar 512277ad3c41SNavdeep Parhar case DOORBELL_WCWR: { 5123d14b0ac1SNavdeep Parhar volatile uint64_t *dst, *src; 5124d14b0ac1SNavdeep Parhar int i; 5125d14b0ac1SNavdeep Parhar 5126d14b0ac1SNavdeep Parhar /* 5127d14b0ac1SNavdeep Parhar * Queues whose 128B doorbell segment fits in the page do not 5128d14b0ac1SNavdeep Parhar * use relative qid (udb_qid is always 0). Only queues with 512977ad3c41SNavdeep Parhar * doorbell segments can do WCWR. 5130d14b0ac1SNavdeep Parhar */ 51317951040fSNavdeep Parhar KASSERT(eq->udb_qid == 0 && n == 1, 5132d14b0ac1SNavdeep Parhar ("%s: inappropriate doorbell (0x%x, %d, %d) for eq %p", 51337951040fSNavdeep Parhar __func__, eq->doorbells, n, eq->dbidx, eq)); 5134d14b0ac1SNavdeep Parhar 5135d14b0ac1SNavdeep Parhar dst = (volatile void *)((uintptr_t)eq->udb + UDBS_WR_OFFSET - 5136d14b0ac1SNavdeep Parhar UDBS_DB_OFFSET); 51377951040fSNavdeep Parhar i = eq->dbidx; 5138d14b0ac1SNavdeep Parhar src = (void *)&eq->desc[i]; 5139d14b0ac1SNavdeep Parhar while (src != (void *)&eq->desc[i + 1]) 5140d14b0ac1SNavdeep Parhar *dst++ = *src++; 5141d14b0ac1SNavdeep Parhar wmb(); 51427951040fSNavdeep Parhar break; 5143d14b0ac1SNavdeep Parhar } 5144d14b0ac1SNavdeep Parhar 5145d14b0ac1SNavdeep Parhar case DOORBELL_UDBWC: 51467951040fSNavdeep Parhar *eq->udb = htole32(V_QID(eq->udb_qid) | V_PIDX(n)); 5147d14b0ac1SNavdeep Parhar wmb(); 51487951040fSNavdeep Parhar break; 5149d14b0ac1SNavdeep Parhar 5150d14b0ac1SNavdeep Parhar case DOORBELL_KDB: 5151315048f2SJohn Baldwin t4_write_reg(sc, sc->sge_kdoorbell_reg, 51527951040fSNavdeep Parhar V_QID(eq->cntxt_id) | V_PIDX(n)); 51537951040fSNavdeep Parhar break; 515454e4ee71SNavdeep Parhar } 515554e4ee71SNavdeep Parhar 51567951040fSNavdeep Parhar IDXINCR(eq->dbidx, n, eq->sidx); 51577951040fSNavdeep Parhar } 51587951040fSNavdeep Parhar 51597951040fSNavdeep Parhar static inline u_int 51607951040fSNavdeep Parhar reclaimable_tx_desc(struct sge_eq *eq) 516154e4ee71SNavdeep Parhar { 51627951040fSNavdeep Parhar uint16_t hw_cidx; 516354e4ee71SNavdeep Parhar 51647951040fSNavdeep Parhar hw_cidx = read_hw_cidx(eq); 51657951040fSNavdeep Parhar return (IDXDIFF(hw_cidx, eq->cidx, eq->sidx)); 51667951040fSNavdeep Parhar } 516754e4ee71SNavdeep Parhar 51687951040fSNavdeep Parhar static inline u_int 51697951040fSNavdeep Parhar total_available_tx_desc(struct sge_eq *eq) 51707951040fSNavdeep Parhar { 51717951040fSNavdeep Parhar uint16_t hw_cidx, pidx; 51727951040fSNavdeep Parhar 51737951040fSNavdeep Parhar hw_cidx = read_hw_cidx(eq); 51747951040fSNavdeep Parhar pidx = eq->pidx; 51757951040fSNavdeep Parhar 51767951040fSNavdeep Parhar if (pidx == hw_cidx) 51777951040fSNavdeep Parhar return (eq->sidx - 1); 517854e4ee71SNavdeep Parhar else 51797951040fSNavdeep Parhar return (IDXDIFF(hw_cidx, pidx, eq->sidx) - 1); 51807951040fSNavdeep Parhar } 51817951040fSNavdeep Parhar 51827951040fSNavdeep Parhar static inline uint16_t 51837951040fSNavdeep Parhar read_hw_cidx(struct sge_eq *eq) 51847951040fSNavdeep Parhar { 51857951040fSNavdeep Parhar struct sge_qstat *spg = (void *)&eq->desc[eq->sidx]; 51867951040fSNavdeep Parhar uint16_t cidx = spg->cidx; /* stable snapshot */ 51877951040fSNavdeep Parhar 51887951040fSNavdeep Parhar return (be16toh(cidx)); 5189e874ff7aSNavdeep Parhar } 519054e4ee71SNavdeep Parhar 5191e874ff7aSNavdeep Parhar /* 51927951040fSNavdeep Parhar * Reclaim 'n' descriptors approximately. 5193e874ff7aSNavdeep Parhar */ 51947951040fSNavdeep Parhar static u_int 51957951040fSNavdeep Parhar reclaim_tx_descs(struct sge_txq *txq, u_int n) 5196e874ff7aSNavdeep Parhar { 5197e874ff7aSNavdeep Parhar struct tx_sdesc *txsd; 5198f7dfe243SNavdeep Parhar struct sge_eq *eq = &txq->eq; 51997951040fSNavdeep Parhar u_int can_reclaim, reclaimed; 520054e4ee71SNavdeep Parhar 5201733b9277SNavdeep Parhar TXQ_LOCK_ASSERT_OWNED(txq); 52027951040fSNavdeep Parhar MPASS(n > 0); 5203e874ff7aSNavdeep Parhar 52047951040fSNavdeep Parhar reclaimed = 0; 52057951040fSNavdeep Parhar can_reclaim = reclaimable_tx_desc(eq); 52067951040fSNavdeep Parhar while (can_reclaim && reclaimed < n) { 520754e4ee71SNavdeep Parhar int ndesc; 52087951040fSNavdeep Parhar struct mbuf *m, *nextpkt; 520954e4ee71SNavdeep Parhar 5210f7dfe243SNavdeep Parhar txsd = &txq->sdesc[eq->cidx]; 521154e4ee71SNavdeep Parhar ndesc = txsd->desc_used; 521254e4ee71SNavdeep Parhar 521354e4ee71SNavdeep Parhar /* Firmware doesn't return "partial" credits. */ 521454e4ee71SNavdeep Parhar KASSERT(can_reclaim >= ndesc, 521554e4ee71SNavdeep Parhar ("%s: unexpected number of credits: %d, %d", 521654e4ee71SNavdeep Parhar __func__, can_reclaim, ndesc)); 5217dcd50a20SJohn Baldwin KASSERT(ndesc != 0, 5218dcd50a20SJohn Baldwin ("%s: descriptor with no credits: cidx %d", 5219dcd50a20SJohn Baldwin __func__, eq->cidx)); 522054e4ee71SNavdeep Parhar 52217951040fSNavdeep Parhar for (m = txsd->m; m != NULL; m = nextpkt) { 52227951040fSNavdeep Parhar nextpkt = m->m_nextpkt; 52237951040fSNavdeep Parhar m->m_nextpkt = NULL; 52247951040fSNavdeep Parhar m_freem(m); 52257951040fSNavdeep Parhar } 522654e4ee71SNavdeep Parhar reclaimed += ndesc; 522754e4ee71SNavdeep Parhar can_reclaim -= ndesc; 52287951040fSNavdeep Parhar IDXINCR(eq->cidx, ndesc, eq->sidx); 522954e4ee71SNavdeep Parhar } 523054e4ee71SNavdeep Parhar 523154e4ee71SNavdeep Parhar return (reclaimed); 523254e4ee71SNavdeep Parhar } 523354e4ee71SNavdeep Parhar 523454e4ee71SNavdeep Parhar static void 52357951040fSNavdeep Parhar tx_reclaim(void *arg, int n) 523654e4ee71SNavdeep Parhar { 52377951040fSNavdeep Parhar struct sge_txq *txq = arg; 52387951040fSNavdeep Parhar struct sge_eq *eq = &txq->eq; 523954e4ee71SNavdeep Parhar 52407951040fSNavdeep Parhar do { 52417951040fSNavdeep Parhar if (TXQ_TRYLOCK(txq) == 0) 52427951040fSNavdeep Parhar break; 52437951040fSNavdeep Parhar n = reclaim_tx_descs(txq, 32); 52447951040fSNavdeep Parhar if (eq->cidx == eq->pidx) 52457951040fSNavdeep Parhar eq->equeqidx = eq->pidx; 52467951040fSNavdeep Parhar TXQ_UNLOCK(txq); 52477951040fSNavdeep Parhar } while (n > 0); 524854e4ee71SNavdeep Parhar } 524954e4ee71SNavdeep Parhar 525054e4ee71SNavdeep Parhar static __be64 52517951040fSNavdeep Parhar get_flit(struct sglist_seg *segs, int nsegs, int idx) 525254e4ee71SNavdeep Parhar { 525354e4ee71SNavdeep Parhar int i = (idx / 3) * 2; 525454e4ee71SNavdeep Parhar 525554e4ee71SNavdeep Parhar switch (idx % 3) { 525654e4ee71SNavdeep Parhar case 0: { 5257f078ecf6SWojciech Macek uint64_t rc; 525854e4ee71SNavdeep Parhar 5259f078ecf6SWojciech Macek rc = (uint64_t)segs[i].ss_len << 32; 526054e4ee71SNavdeep Parhar if (i + 1 < nsegs) 5261f078ecf6SWojciech Macek rc |= (uint64_t)(segs[i + 1].ss_len); 526254e4ee71SNavdeep Parhar 5263f078ecf6SWojciech Macek return (htobe64(rc)); 526454e4ee71SNavdeep Parhar } 526554e4ee71SNavdeep Parhar case 1: 52667951040fSNavdeep Parhar return (htobe64(segs[i].ss_paddr)); 526754e4ee71SNavdeep Parhar case 2: 52687951040fSNavdeep Parhar return (htobe64(segs[i + 1].ss_paddr)); 526954e4ee71SNavdeep Parhar } 527054e4ee71SNavdeep Parhar 527154e4ee71SNavdeep Parhar return (0); 527254e4ee71SNavdeep Parhar } 527354e4ee71SNavdeep Parhar 527454e4ee71SNavdeep Parhar static void 527538035ed6SNavdeep Parhar find_best_refill_source(struct adapter *sc, struct sge_fl *fl, int maxp) 527654e4ee71SNavdeep Parhar { 527738035ed6SNavdeep Parhar int8_t zidx, hwidx, idx; 527838035ed6SNavdeep Parhar uint16_t region1, region3; 527938035ed6SNavdeep Parhar int spare, spare_needed, n; 528038035ed6SNavdeep Parhar struct sw_zone_info *swz; 528138035ed6SNavdeep Parhar struct hw_buf_info *hwb, *hwb_list = &sc->sge.hw_buf_info[0]; 528254e4ee71SNavdeep Parhar 528338035ed6SNavdeep Parhar /* 528438035ed6SNavdeep Parhar * Buffer Packing: Look for PAGE_SIZE or larger zone which has a bufsize 528538035ed6SNavdeep Parhar * large enough for the max payload and cluster metadata. Otherwise 528638035ed6SNavdeep Parhar * settle for the largest bufsize that leaves enough room in the cluster 528738035ed6SNavdeep Parhar * for metadata. 528838035ed6SNavdeep Parhar * 528938035ed6SNavdeep Parhar * Without buffer packing: Look for the smallest zone which has a 529038035ed6SNavdeep Parhar * bufsize large enough for the max payload. Settle for the largest 529138035ed6SNavdeep Parhar * bufsize available if there's nothing big enough for max payload. 529238035ed6SNavdeep Parhar */ 529338035ed6SNavdeep Parhar spare_needed = fl->flags & FL_BUF_PACKING ? CL_METADATA_SIZE : 0; 529438035ed6SNavdeep Parhar swz = &sc->sge.sw_zone_info[0]; 529538035ed6SNavdeep Parhar hwidx = -1; 529638035ed6SNavdeep Parhar for (zidx = 0; zidx < SW_ZONE_SIZES; zidx++, swz++) { 529738035ed6SNavdeep Parhar if (swz->size > largest_rx_cluster) { 529838035ed6SNavdeep Parhar if (__predict_true(hwidx != -1)) 529938035ed6SNavdeep Parhar break; 530038035ed6SNavdeep Parhar 530138035ed6SNavdeep Parhar /* 530238035ed6SNavdeep Parhar * This is a misconfiguration. largest_rx_cluster is 530338035ed6SNavdeep Parhar * preventing us from finding a refill source. See 530438035ed6SNavdeep Parhar * dev.t5nex.<n>.buffer_sizes to figure out why. 530538035ed6SNavdeep Parhar */ 530638035ed6SNavdeep Parhar device_printf(sc->dev, "largest_rx_cluster=%u leaves no" 530738035ed6SNavdeep Parhar " refill source for fl %p (dma %u). Ignored.\n", 530838035ed6SNavdeep Parhar largest_rx_cluster, fl, maxp); 530938035ed6SNavdeep Parhar } 531038035ed6SNavdeep Parhar for (idx = swz->head_hwidx; idx != -1; idx = hwb->next) { 531138035ed6SNavdeep Parhar hwb = &hwb_list[idx]; 531238035ed6SNavdeep Parhar spare = swz->size - hwb->size; 531338035ed6SNavdeep Parhar if (spare < spare_needed) 531438035ed6SNavdeep Parhar continue; 531538035ed6SNavdeep Parhar 531638035ed6SNavdeep Parhar hwidx = idx; /* best option so far */ 531738035ed6SNavdeep Parhar if (hwb->size >= maxp) { 531838035ed6SNavdeep Parhar 531938035ed6SNavdeep Parhar if ((fl->flags & FL_BUF_PACKING) == 0) 532038035ed6SNavdeep Parhar goto done; /* stop looking (not packing) */ 532138035ed6SNavdeep Parhar 532238035ed6SNavdeep Parhar if (swz->size >= safest_rx_cluster) 532338035ed6SNavdeep Parhar goto done; /* stop looking (packing) */ 532438035ed6SNavdeep Parhar } 532538035ed6SNavdeep Parhar break; /* keep looking, next zone */ 532638035ed6SNavdeep Parhar } 532738035ed6SNavdeep Parhar } 532838035ed6SNavdeep Parhar done: 532938035ed6SNavdeep Parhar /* A usable hwidx has been located. */ 533038035ed6SNavdeep Parhar MPASS(hwidx != -1); 533138035ed6SNavdeep Parhar hwb = &hwb_list[hwidx]; 533238035ed6SNavdeep Parhar zidx = hwb->zidx; 533338035ed6SNavdeep Parhar swz = &sc->sge.sw_zone_info[zidx]; 533438035ed6SNavdeep Parhar region1 = 0; 533538035ed6SNavdeep Parhar region3 = swz->size - hwb->size; 533638035ed6SNavdeep Parhar 533738035ed6SNavdeep Parhar /* 533838035ed6SNavdeep Parhar * Stay within this zone and see if there is a better match when mbuf 533938035ed6SNavdeep Parhar * inlining is allowed. Remember that the hwidx's are sorted in 534038035ed6SNavdeep Parhar * decreasing order of size (so in increasing order of spare area). 534138035ed6SNavdeep Parhar */ 534238035ed6SNavdeep Parhar for (idx = hwidx; idx != -1; idx = hwb->next) { 534338035ed6SNavdeep Parhar hwb = &hwb_list[idx]; 534438035ed6SNavdeep Parhar spare = swz->size - hwb->size; 534538035ed6SNavdeep Parhar 534638035ed6SNavdeep Parhar if (allow_mbufs_in_cluster == 0 || hwb->size < maxp) 534738035ed6SNavdeep Parhar break; 5348e3207e19SNavdeep Parhar 5349e3207e19SNavdeep Parhar /* 5350e3207e19SNavdeep Parhar * Do not inline mbufs if doing so would violate the pad/pack 5351e3207e19SNavdeep Parhar * boundary alignment requirement. 5352e3207e19SNavdeep Parhar */ 535390e7434aSNavdeep Parhar if (fl_pad && (MSIZE % sc->params.sge.pad_boundary) != 0) 5354e3207e19SNavdeep Parhar continue; 5355e3207e19SNavdeep Parhar if (fl->flags & FL_BUF_PACKING && 535690e7434aSNavdeep Parhar (MSIZE % sc->params.sge.pack_boundary) != 0) 5357e3207e19SNavdeep Parhar continue; 5358e3207e19SNavdeep Parhar 535938035ed6SNavdeep Parhar if (spare < CL_METADATA_SIZE + MSIZE) 536038035ed6SNavdeep Parhar continue; 536138035ed6SNavdeep Parhar n = (spare - CL_METADATA_SIZE) / MSIZE; 536238035ed6SNavdeep Parhar if (n > howmany(hwb->size, maxp)) 536338035ed6SNavdeep Parhar break; 536438035ed6SNavdeep Parhar 536538035ed6SNavdeep Parhar hwidx = idx; 53661458bff9SNavdeep Parhar if (fl->flags & FL_BUF_PACKING) { 536738035ed6SNavdeep Parhar region1 = n * MSIZE; 536838035ed6SNavdeep Parhar region3 = spare - region1; 536938035ed6SNavdeep Parhar } else { 537038035ed6SNavdeep Parhar region1 = MSIZE; 537138035ed6SNavdeep Parhar region3 = spare - region1; 537238035ed6SNavdeep Parhar break; 537338035ed6SNavdeep Parhar } 537438035ed6SNavdeep Parhar } 537538035ed6SNavdeep Parhar 537638035ed6SNavdeep Parhar KASSERT(zidx >= 0 && zidx < SW_ZONE_SIZES, 537738035ed6SNavdeep Parhar ("%s: bad zone %d for fl %p, maxp %d", __func__, zidx, fl, maxp)); 537838035ed6SNavdeep Parhar KASSERT(hwidx >= 0 && hwidx <= SGE_FLBUF_SIZES, 537938035ed6SNavdeep Parhar ("%s: bad hwidx %d for fl %p, maxp %d", __func__, hwidx, fl, maxp)); 538038035ed6SNavdeep Parhar KASSERT(region1 + sc->sge.hw_buf_info[hwidx].size + region3 == 538138035ed6SNavdeep Parhar sc->sge.sw_zone_info[zidx].size, 538238035ed6SNavdeep Parhar ("%s: bad buffer layout for fl %p, maxp %d. " 538338035ed6SNavdeep Parhar "cl %d; r1 %d, payload %d, r3 %d", __func__, fl, maxp, 538438035ed6SNavdeep Parhar sc->sge.sw_zone_info[zidx].size, region1, 538538035ed6SNavdeep Parhar sc->sge.hw_buf_info[hwidx].size, region3)); 538638035ed6SNavdeep Parhar if (fl->flags & FL_BUF_PACKING || region1 > 0) { 538738035ed6SNavdeep Parhar KASSERT(region3 >= CL_METADATA_SIZE, 538838035ed6SNavdeep Parhar ("%s: no room for metadata. fl %p, maxp %d; " 538938035ed6SNavdeep Parhar "cl %d; r1 %d, payload %d, r3 %d", __func__, fl, maxp, 539038035ed6SNavdeep Parhar sc->sge.sw_zone_info[zidx].size, region1, 539138035ed6SNavdeep Parhar sc->sge.hw_buf_info[hwidx].size, region3)); 539238035ed6SNavdeep Parhar KASSERT(region1 % MSIZE == 0, 539338035ed6SNavdeep Parhar ("%s: bad mbuf region for fl %p, maxp %d. " 539438035ed6SNavdeep Parhar "cl %d; r1 %d, payload %d, r3 %d", __func__, fl, maxp, 539538035ed6SNavdeep Parhar sc->sge.sw_zone_info[zidx].size, region1, 539638035ed6SNavdeep Parhar sc->sge.hw_buf_info[hwidx].size, region3)); 539738035ed6SNavdeep Parhar } 539838035ed6SNavdeep Parhar 539938035ed6SNavdeep Parhar fl->cll_def.zidx = zidx; 540038035ed6SNavdeep Parhar fl->cll_def.hwidx = hwidx; 540138035ed6SNavdeep Parhar fl->cll_def.region1 = region1; 540238035ed6SNavdeep Parhar fl->cll_def.region3 = region3; 540338035ed6SNavdeep Parhar } 540438035ed6SNavdeep Parhar 540538035ed6SNavdeep Parhar static void 540638035ed6SNavdeep Parhar find_safe_refill_source(struct adapter *sc, struct sge_fl *fl) 540738035ed6SNavdeep Parhar { 540838035ed6SNavdeep Parhar struct sge *s = &sc->sge; 540938035ed6SNavdeep Parhar struct hw_buf_info *hwb; 541038035ed6SNavdeep Parhar struct sw_zone_info *swz; 541138035ed6SNavdeep Parhar int spare; 541238035ed6SNavdeep Parhar int8_t hwidx; 541338035ed6SNavdeep Parhar 541438035ed6SNavdeep Parhar if (fl->flags & FL_BUF_PACKING) 541538035ed6SNavdeep Parhar hwidx = s->safe_hwidx2; /* with room for metadata */ 541638035ed6SNavdeep Parhar else if (allow_mbufs_in_cluster && s->safe_hwidx2 != -1) { 541738035ed6SNavdeep Parhar hwidx = s->safe_hwidx2; 541838035ed6SNavdeep Parhar hwb = &s->hw_buf_info[hwidx]; 541938035ed6SNavdeep Parhar swz = &s->sw_zone_info[hwb->zidx]; 542038035ed6SNavdeep Parhar spare = swz->size - hwb->size; 542138035ed6SNavdeep Parhar 542238035ed6SNavdeep Parhar /* no good if there isn't room for an mbuf as well */ 542338035ed6SNavdeep Parhar if (spare < CL_METADATA_SIZE + MSIZE) 542438035ed6SNavdeep Parhar hwidx = s->safe_hwidx1; 542538035ed6SNavdeep Parhar } else 542638035ed6SNavdeep Parhar hwidx = s->safe_hwidx1; 542738035ed6SNavdeep Parhar 542838035ed6SNavdeep Parhar if (hwidx == -1) { 542938035ed6SNavdeep Parhar /* No fallback source */ 543038035ed6SNavdeep Parhar fl->cll_alt.hwidx = -1; 543138035ed6SNavdeep Parhar fl->cll_alt.zidx = -1; 543238035ed6SNavdeep Parhar 54331458bff9SNavdeep Parhar return; 543454e4ee71SNavdeep Parhar } 543554e4ee71SNavdeep Parhar 543638035ed6SNavdeep Parhar hwb = &s->hw_buf_info[hwidx]; 543738035ed6SNavdeep Parhar swz = &s->sw_zone_info[hwb->zidx]; 543838035ed6SNavdeep Parhar spare = swz->size - hwb->size; 543938035ed6SNavdeep Parhar fl->cll_alt.hwidx = hwidx; 544038035ed6SNavdeep Parhar fl->cll_alt.zidx = hwb->zidx; 5441e3207e19SNavdeep Parhar if (allow_mbufs_in_cluster && 544290e7434aSNavdeep Parhar (fl_pad == 0 || (MSIZE % sc->params.sge.pad_boundary) == 0)) 544338035ed6SNavdeep Parhar fl->cll_alt.region1 = ((spare - CL_METADATA_SIZE) / MSIZE) * MSIZE; 54441458bff9SNavdeep Parhar else 544538035ed6SNavdeep Parhar fl->cll_alt.region1 = 0; 544638035ed6SNavdeep Parhar fl->cll_alt.region3 = spare - fl->cll_alt.region1; 544754e4ee71SNavdeep Parhar } 5448ecb79ca4SNavdeep Parhar 5449733b9277SNavdeep Parhar static void 5450733b9277SNavdeep Parhar add_fl_to_sfl(struct adapter *sc, struct sge_fl *fl) 5451ecb79ca4SNavdeep Parhar { 5452733b9277SNavdeep Parhar mtx_lock(&sc->sfl_lock); 5453733b9277SNavdeep Parhar FL_LOCK(fl); 5454733b9277SNavdeep Parhar if ((fl->flags & FL_DOOMED) == 0) { 5455733b9277SNavdeep Parhar fl->flags |= FL_STARVING; 5456733b9277SNavdeep Parhar TAILQ_INSERT_TAIL(&sc->sfl, fl, link); 5457733b9277SNavdeep Parhar callout_reset(&sc->sfl_callout, hz / 5, refill_sfl, sc); 5458733b9277SNavdeep Parhar } 5459733b9277SNavdeep Parhar FL_UNLOCK(fl); 5460733b9277SNavdeep Parhar mtx_unlock(&sc->sfl_lock); 5461733b9277SNavdeep Parhar } 5462ecb79ca4SNavdeep Parhar 54637951040fSNavdeep Parhar static void 54647951040fSNavdeep Parhar handle_wrq_egr_update(struct adapter *sc, struct sge_eq *eq) 54657951040fSNavdeep Parhar { 54667951040fSNavdeep Parhar struct sge_wrq *wrq = (void *)eq; 54677951040fSNavdeep Parhar 54687951040fSNavdeep Parhar atomic_readandclear_int(&eq->equiq); 54697951040fSNavdeep Parhar taskqueue_enqueue(sc->tq[eq->tx_chan], &wrq->wrq_tx_task); 54707951040fSNavdeep Parhar } 54717951040fSNavdeep Parhar 54727951040fSNavdeep Parhar static void 54737951040fSNavdeep Parhar handle_eth_egr_update(struct adapter *sc, struct sge_eq *eq) 54747951040fSNavdeep Parhar { 54757951040fSNavdeep Parhar struct sge_txq *txq = (void *)eq; 54767951040fSNavdeep Parhar 54777951040fSNavdeep Parhar MPASS((eq->flags & EQ_TYPEMASK) == EQ_ETH); 54787951040fSNavdeep Parhar 54797951040fSNavdeep Parhar atomic_readandclear_int(&eq->equiq); 54807951040fSNavdeep Parhar mp_ring_check_drainage(txq->r, 0); 54817951040fSNavdeep Parhar taskqueue_enqueue(sc->tq[eq->tx_chan], &txq->tx_reclaim_task); 54827951040fSNavdeep Parhar } 54837951040fSNavdeep Parhar 5484733b9277SNavdeep Parhar static int 5485733b9277SNavdeep Parhar handle_sge_egr_update(struct sge_iq *iq, const struct rss_header *rss, 5486733b9277SNavdeep Parhar struct mbuf *m) 5487733b9277SNavdeep Parhar { 5488733b9277SNavdeep Parhar const struct cpl_sge_egr_update *cpl = (const void *)(rss + 1); 5489733b9277SNavdeep Parhar unsigned int qid = G_EGR_QID(ntohl(cpl->opcode_qid)); 5490733b9277SNavdeep Parhar struct adapter *sc = iq->adapter; 5491733b9277SNavdeep Parhar struct sge *s = &sc->sge; 5492733b9277SNavdeep Parhar struct sge_eq *eq; 54937951040fSNavdeep Parhar static void (*h[])(struct adapter *, struct sge_eq *) = {NULL, 54947951040fSNavdeep Parhar &handle_wrq_egr_update, &handle_eth_egr_update, 54957951040fSNavdeep Parhar &handle_wrq_egr_update}; 5496733b9277SNavdeep Parhar 5497733b9277SNavdeep Parhar KASSERT(m == NULL, ("%s: payload with opcode %02x", __func__, 5498733b9277SNavdeep Parhar rss->opcode)); 5499733b9277SNavdeep Parhar 5500ec55567cSJohn Baldwin eq = s->eqmap[qid - s->eq_start - s->eq_base]; 55017951040fSNavdeep Parhar (*h[eq->flags & EQ_TYPEMASK])(sc, eq); 5502ecb79ca4SNavdeep Parhar 5503ecb79ca4SNavdeep Parhar return (0); 5504ecb79ca4SNavdeep Parhar } 5505f7dfe243SNavdeep Parhar 55060abd31e2SNavdeep Parhar /* handle_fw_msg works for both fw4_msg and fw6_msg because this is valid */ 55070abd31e2SNavdeep Parhar CTASSERT(offsetof(struct cpl_fw4_msg, data) == \ 55080abd31e2SNavdeep Parhar offsetof(struct cpl_fw6_msg, data)); 55090abd31e2SNavdeep Parhar 5510733b9277SNavdeep Parhar static int 55111b4cc91fSNavdeep Parhar handle_fw_msg(struct sge_iq *iq, const struct rss_header *rss, struct mbuf *m) 551256599263SNavdeep Parhar { 55131b4cc91fSNavdeep Parhar struct adapter *sc = iq->adapter; 551456599263SNavdeep Parhar const struct cpl_fw6_msg *cpl = (const void *)(rss + 1); 551556599263SNavdeep Parhar 5516733b9277SNavdeep Parhar KASSERT(m == NULL, ("%s: payload with opcode %02x", __func__, 5517733b9277SNavdeep Parhar rss->opcode)); 5518733b9277SNavdeep Parhar 55190abd31e2SNavdeep Parhar if (cpl->type == FW_TYPE_RSSCPL || cpl->type == FW6_TYPE_RSSCPL) { 55200abd31e2SNavdeep Parhar const struct rss_header *rss2; 55210abd31e2SNavdeep Parhar 55220abd31e2SNavdeep Parhar rss2 = (const struct rss_header *)&cpl->data[0]; 5523671bf2b8SNavdeep Parhar return (t4_cpl_handler[rss2->opcode](iq, rss2, m)); 55240abd31e2SNavdeep Parhar } 55250abd31e2SNavdeep Parhar 5526671bf2b8SNavdeep Parhar return (t4_fw_msg_handler[cpl->type](sc, &cpl->data[0])); 5527f7dfe243SNavdeep Parhar } 5528af49c942SNavdeep Parhar 5529069af0ebSJohn Baldwin /** 5530069af0ebSJohn Baldwin * t4_handle_wrerr_rpl - process a FW work request error message 5531069af0ebSJohn Baldwin * @adap: the adapter 5532069af0ebSJohn Baldwin * @rpl: start of the FW message 5533069af0ebSJohn Baldwin */ 5534069af0ebSJohn Baldwin static int 5535069af0ebSJohn Baldwin t4_handle_wrerr_rpl(struct adapter *adap, const __be64 *rpl) 5536069af0ebSJohn Baldwin { 5537069af0ebSJohn Baldwin u8 opcode = *(const u8 *)rpl; 5538069af0ebSJohn Baldwin const struct fw_error_cmd *e = (const void *)rpl; 5539069af0ebSJohn Baldwin unsigned int i; 5540069af0ebSJohn Baldwin 5541069af0ebSJohn Baldwin if (opcode != FW_ERROR_CMD) { 5542069af0ebSJohn Baldwin log(LOG_ERR, 5543069af0ebSJohn Baldwin "%s: Received WRERR_RPL message with opcode %#x\n", 5544069af0ebSJohn Baldwin device_get_nameunit(adap->dev), opcode); 5545069af0ebSJohn Baldwin return (EINVAL); 5546069af0ebSJohn Baldwin } 5547069af0ebSJohn Baldwin log(LOG_ERR, "%s: FW_ERROR (%s) ", device_get_nameunit(adap->dev), 5548069af0ebSJohn Baldwin G_FW_ERROR_CMD_FATAL(be32toh(e->op_to_type)) ? "fatal" : 5549069af0ebSJohn Baldwin "non-fatal"); 5550069af0ebSJohn Baldwin switch (G_FW_ERROR_CMD_TYPE(be32toh(e->op_to_type))) { 5551069af0ebSJohn Baldwin case FW_ERROR_TYPE_EXCEPTION: 5552069af0ebSJohn Baldwin log(LOG_ERR, "exception info:\n"); 5553069af0ebSJohn Baldwin for (i = 0; i < nitems(e->u.exception.info); i++) 5554069af0ebSJohn Baldwin log(LOG_ERR, "%s%08x", i == 0 ? "\t" : " ", 5555069af0ebSJohn Baldwin be32toh(e->u.exception.info[i])); 5556069af0ebSJohn Baldwin log(LOG_ERR, "\n"); 5557069af0ebSJohn Baldwin break; 5558069af0ebSJohn Baldwin case FW_ERROR_TYPE_HWMODULE: 5559069af0ebSJohn Baldwin log(LOG_ERR, "HW module regaddr %08x regval %08x\n", 5560069af0ebSJohn Baldwin be32toh(e->u.hwmodule.regaddr), 5561069af0ebSJohn Baldwin be32toh(e->u.hwmodule.regval)); 5562069af0ebSJohn Baldwin break; 5563069af0ebSJohn Baldwin case FW_ERROR_TYPE_WR: 5564069af0ebSJohn Baldwin log(LOG_ERR, "WR cidx %d PF %d VF %d eqid %d hdr:\n", 5565069af0ebSJohn Baldwin be16toh(e->u.wr.cidx), 5566069af0ebSJohn Baldwin G_FW_ERROR_CMD_PFN(be16toh(e->u.wr.pfn_vfn)), 5567069af0ebSJohn Baldwin G_FW_ERROR_CMD_VFN(be16toh(e->u.wr.pfn_vfn)), 5568069af0ebSJohn Baldwin be32toh(e->u.wr.eqid)); 5569069af0ebSJohn Baldwin for (i = 0; i < nitems(e->u.wr.wrhdr); i++) 5570069af0ebSJohn Baldwin log(LOG_ERR, "%s%02x", i == 0 ? "\t" : " ", 5571069af0ebSJohn Baldwin e->u.wr.wrhdr[i]); 5572069af0ebSJohn Baldwin log(LOG_ERR, "\n"); 5573069af0ebSJohn Baldwin break; 5574069af0ebSJohn Baldwin case FW_ERROR_TYPE_ACL: 5575069af0ebSJohn Baldwin log(LOG_ERR, "ACL cidx %d PF %d VF %d eqid %d %s", 5576069af0ebSJohn Baldwin be16toh(e->u.acl.cidx), 5577069af0ebSJohn Baldwin G_FW_ERROR_CMD_PFN(be16toh(e->u.acl.pfn_vfn)), 5578069af0ebSJohn Baldwin G_FW_ERROR_CMD_VFN(be16toh(e->u.acl.pfn_vfn)), 5579069af0ebSJohn Baldwin be32toh(e->u.acl.eqid), 5580069af0ebSJohn Baldwin G_FW_ERROR_CMD_MV(be16toh(e->u.acl.mv_pkd)) ? "vlanid" : 5581069af0ebSJohn Baldwin "MAC"); 5582069af0ebSJohn Baldwin for (i = 0; i < nitems(e->u.acl.val); i++) 5583069af0ebSJohn Baldwin log(LOG_ERR, " %02x", e->u.acl.val[i]); 5584069af0ebSJohn Baldwin log(LOG_ERR, "\n"); 5585069af0ebSJohn Baldwin break; 5586069af0ebSJohn Baldwin default: 5587069af0ebSJohn Baldwin log(LOG_ERR, "type %#x\n", 5588069af0ebSJohn Baldwin G_FW_ERROR_CMD_TYPE(be32toh(e->op_to_type))); 5589069af0ebSJohn Baldwin return (EINVAL); 5590069af0ebSJohn Baldwin } 5591069af0ebSJohn Baldwin return (0); 5592069af0ebSJohn Baldwin } 5593069af0ebSJohn Baldwin 5594af49c942SNavdeep Parhar static int 559556599263SNavdeep Parhar sysctl_uint16(SYSCTL_HANDLER_ARGS) 5596af49c942SNavdeep Parhar { 5597af49c942SNavdeep Parhar uint16_t *id = arg1; 5598af49c942SNavdeep Parhar int i = *id; 5599af49c942SNavdeep Parhar 5600af49c942SNavdeep Parhar return sysctl_handle_int(oidp, &i, 0, req); 5601af49c942SNavdeep Parhar } 560238035ed6SNavdeep Parhar 560338035ed6SNavdeep Parhar static int 560438035ed6SNavdeep Parhar sysctl_bufsizes(SYSCTL_HANDLER_ARGS) 560538035ed6SNavdeep Parhar { 560638035ed6SNavdeep Parhar struct sge *s = arg1; 560738035ed6SNavdeep Parhar struct hw_buf_info *hwb = &s->hw_buf_info[0]; 560838035ed6SNavdeep Parhar struct sw_zone_info *swz = &s->sw_zone_info[0]; 560938035ed6SNavdeep Parhar int i, rc; 561038035ed6SNavdeep Parhar struct sbuf sb; 561138035ed6SNavdeep Parhar char c; 561238035ed6SNavdeep Parhar 561338035ed6SNavdeep Parhar sbuf_new(&sb, NULL, 32, SBUF_AUTOEXTEND); 561438035ed6SNavdeep Parhar for (i = 0; i < SGE_FLBUF_SIZES; i++, hwb++) { 561538035ed6SNavdeep Parhar if (hwb->zidx >= 0 && swz[hwb->zidx].size <= largest_rx_cluster) 561638035ed6SNavdeep Parhar c = '*'; 561738035ed6SNavdeep Parhar else 561838035ed6SNavdeep Parhar c = '\0'; 561938035ed6SNavdeep Parhar 562038035ed6SNavdeep Parhar sbuf_printf(&sb, "%u%c ", hwb->size, c); 562138035ed6SNavdeep Parhar } 562238035ed6SNavdeep Parhar sbuf_trim(&sb); 562338035ed6SNavdeep Parhar sbuf_finish(&sb); 562438035ed6SNavdeep Parhar rc = sysctl_handle_string(oidp, sbuf_data(&sb), sbuf_len(&sb), req); 562538035ed6SNavdeep Parhar sbuf_delete(&sb); 562638035ed6SNavdeep Parhar return (rc); 562738035ed6SNavdeep Parhar } 562802f972e8SNavdeep Parhar 5629786099deSNavdeep Parhar #ifdef RATELIMIT 5630786099deSNavdeep Parhar /* 5631786099deSNavdeep Parhar * len16 for a txpkt WR with a GL. Includes the firmware work request header. 5632786099deSNavdeep Parhar */ 5633786099deSNavdeep Parhar static inline u_int 5634786099deSNavdeep Parhar txpkt_eo_len16(u_int nsegs, u_int immhdrs, u_int tso) 5635786099deSNavdeep Parhar { 5636786099deSNavdeep Parhar u_int n; 5637786099deSNavdeep Parhar 5638786099deSNavdeep Parhar MPASS(immhdrs > 0); 5639786099deSNavdeep Parhar 5640786099deSNavdeep Parhar n = roundup2(sizeof(struct fw_eth_tx_eo_wr) + 5641786099deSNavdeep Parhar sizeof(struct cpl_tx_pkt_core) + immhdrs, 16); 5642786099deSNavdeep Parhar if (__predict_false(nsegs == 0)) 5643786099deSNavdeep Parhar goto done; 5644786099deSNavdeep Parhar 5645786099deSNavdeep Parhar nsegs--; /* first segment is part of ulptx_sgl */ 5646786099deSNavdeep Parhar n += sizeof(struct ulptx_sgl) + 8 * ((3 * nsegs) / 2 + (nsegs & 1)); 5647786099deSNavdeep Parhar if (tso) 5648786099deSNavdeep Parhar n += sizeof(struct cpl_tx_pkt_lso_core); 5649786099deSNavdeep Parhar 5650786099deSNavdeep Parhar done: 5651786099deSNavdeep Parhar return (howmany(n, 16)); 5652786099deSNavdeep Parhar } 5653786099deSNavdeep Parhar 5654786099deSNavdeep Parhar #define ETID_FLOWC_NPARAMS 6 5655786099deSNavdeep Parhar #define ETID_FLOWC_LEN (roundup2((sizeof(struct fw_flowc_wr) + \ 5656786099deSNavdeep Parhar ETID_FLOWC_NPARAMS * sizeof(struct fw_flowc_mnemval)), 16)) 5657786099deSNavdeep Parhar #define ETID_FLOWC_LEN16 (howmany(ETID_FLOWC_LEN, 16)) 5658786099deSNavdeep Parhar 5659786099deSNavdeep Parhar static int 5660786099deSNavdeep Parhar send_etid_flowc_wr(struct cxgbe_snd_tag *cst, struct port_info *pi, 5661786099deSNavdeep Parhar struct vi_info *vi) 5662786099deSNavdeep Parhar { 5663786099deSNavdeep Parhar struct wrq_cookie cookie; 5664edb518f4SNavdeep Parhar u_int pfvf = pi->adapter->pf << S_FW_VIID_PFN; 5665786099deSNavdeep Parhar struct fw_flowc_wr *flowc; 5666786099deSNavdeep Parhar 5667786099deSNavdeep Parhar mtx_assert(&cst->lock, MA_OWNED); 5668786099deSNavdeep Parhar MPASS((cst->flags & (EO_FLOWC_PENDING | EO_FLOWC_RPL_PENDING)) == 5669786099deSNavdeep Parhar EO_FLOWC_PENDING); 5670786099deSNavdeep Parhar 5671786099deSNavdeep Parhar flowc = start_wrq_wr(cst->eo_txq, ETID_FLOWC_LEN16, &cookie); 5672786099deSNavdeep Parhar if (__predict_false(flowc == NULL)) 5673786099deSNavdeep Parhar return (ENOMEM); 5674786099deSNavdeep Parhar 5675786099deSNavdeep Parhar bzero(flowc, ETID_FLOWC_LEN); 5676786099deSNavdeep Parhar flowc->op_to_nparams = htobe32(V_FW_WR_OP(FW_FLOWC_WR) | 5677786099deSNavdeep Parhar V_FW_FLOWC_WR_NPARAMS(ETID_FLOWC_NPARAMS) | V_FW_WR_COMPL(0)); 5678786099deSNavdeep Parhar flowc->flowid_len16 = htonl(V_FW_WR_LEN16(ETID_FLOWC_LEN16) | 5679786099deSNavdeep Parhar V_FW_WR_FLOWID(cst->etid)); 5680786099deSNavdeep Parhar flowc->mnemval[0].mnemonic = FW_FLOWC_MNEM_PFNVFN; 5681786099deSNavdeep Parhar flowc->mnemval[0].val = htobe32(pfvf); 5682786099deSNavdeep Parhar flowc->mnemval[1].mnemonic = FW_FLOWC_MNEM_CH; 5683786099deSNavdeep Parhar flowc->mnemval[1].val = htobe32(pi->tx_chan); 5684786099deSNavdeep Parhar flowc->mnemval[2].mnemonic = FW_FLOWC_MNEM_PORT; 5685786099deSNavdeep Parhar flowc->mnemval[2].val = htobe32(pi->tx_chan); 5686786099deSNavdeep Parhar flowc->mnemval[3].mnemonic = FW_FLOWC_MNEM_IQID; 5687786099deSNavdeep Parhar flowc->mnemval[3].val = htobe32(cst->iqid); 5688786099deSNavdeep Parhar flowc->mnemval[4].mnemonic = FW_FLOWC_MNEM_EOSTATE; 5689786099deSNavdeep Parhar flowc->mnemval[4].val = htobe32(FW_FLOWC_MNEM_EOSTATE_ESTABLISHED); 5690786099deSNavdeep Parhar flowc->mnemval[5].mnemonic = FW_FLOWC_MNEM_SCHEDCLASS; 5691786099deSNavdeep Parhar flowc->mnemval[5].val = htobe32(cst->schedcl); 5692786099deSNavdeep Parhar 5693786099deSNavdeep Parhar commit_wrq_wr(cst->eo_txq, flowc, &cookie); 5694786099deSNavdeep Parhar 5695786099deSNavdeep Parhar cst->flags &= ~EO_FLOWC_PENDING; 5696786099deSNavdeep Parhar cst->flags |= EO_FLOWC_RPL_PENDING; 5697786099deSNavdeep Parhar MPASS(cst->tx_credits >= ETID_FLOWC_LEN16); /* flowc is first WR. */ 5698786099deSNavdeep Parhar cst->tx_credits -= ETID_FLOWC_LEN16; 5699786099deSNavdeep Parhar 5700786099deSNavdeep Parhar return (0); 5701786099deSNavdeep Parhar } 5702786099deSNavdeep Parhar 5703786099deSNavdeep Parhar #define ETID_FLUSH_LEN16 (howmany(sizeof (struct fw_flowc_wr), 16)) 5704786099deSNavdeep Parhar 5705786099deSNavdeep Parhar void 5706786099deSNavdeep Parhar send_etid_flush_wr(struct cxgbe_snd_tag *cst) 5707786099deSNavdeep Parhar { 5708786099deSNavdeep Parhar struct fw_flowc_wr *flowc; 5709786099deSNavdeep Parhar struct wrq_cookie cookie; 5710786099deSNavdeep Parhar 5711786099deSNavdeep Parhar mtx_assert(&cst->lock, MA_OWNED); 5712786099deSNavdeep Parhar 5713786099deSNavdeep Parhar flowc = start_wrq_wr(cst->eo_txq, ETID_FLUSH_LEN16, &cookie); 5714786099deSNavdeep Parhar if (__predict_false(flowc == NULL)) 5715786099deSNavdeep Parhar CXGBE_UNIMPLEMENTED(__func__); 5716786099deSNavdeep Parhar 5717786099deSNavdeep Parhar bzero(flowc, ETID_FLUSH_LEN16 * 16); 5718786099deSNavdeep Parhar flowc->op_to_nparams = htobe32(V_FW_WR_OP(FW_FLOWC_WR) | 5719786099deSNavdeep Parhar V_FW_FLOWC_WR_NPARAMS(0) | F_FW_WR_COMPL); 5720786099deSNavdeep Parhar flowc->flowid_len16 = htobe32(V_FW_WR_LEN16(ETID_FLUSH_LEN16) | 5721786099deSNavdeep Parhar V_FW_WR_FLOWID(cst->etid)); 5722786099deSNavdeep Parhar 5723786099deSNavdeep Parhar commit_wrq_wr(cst->eo_txq, flowc, &cookie); 5724786099deSNavdeep Parhar 5725786099deSNavdeep Parhar cst->flags |= EO_FLUSH_RPL_PENDING; 5726786099deSNavdeep Parhar MPASS(cst->tx_credits >= ETID_FLUSH_LEN16); 5727786099deSNavdeep Parhar cst->tx_credits -= ETID_FLUSH_LEN16; 5728786099deSNavdeep Parhar cst->ncompl++; 5729786099deSNavdeep Parhar } 5730786099deSNavdeep Parhar 5731786099deSNavdeep Parhar static void 5732786099deSNavdeep Parhar write_ethofld_wr(struct cxgbe_snd_tag *cst, struct fw_eth_tx_eo_wr *wr, 5733786099deSNavdeep Parhar struct mbuf *m0, int compl) 5734786099deSNavdeep Parhar { 5735786099deSNavdeep Parhar struct cpl_tx_pkt_core *cpl; 5736786099deSNavdeep Parhar uint64_t ctrl1; 5737786099deSNavdeep Parhar uint32_t ctrl; /* used in many unrelated places */ 5738786099deSNavdeep Parhar int len16, pktlen, nsegs, immhdrs; 5739786099deSNavdeep Parhar caddr_t dst; 5740786099deSNavdeep Parhar uintptr_t p; 5741786099deSNavdeep Parhar struct ulptx_sgl *usgl; 5742786099deSNavdeep Parhar struct sglist sg; 5743786099deSNavdeep Parhar struct sglist_seg segs[38]; /* XXX: find real limit. XXX: get off the stack */ 5744786099deSNavdeep Parhar 5745786099deSNavdeep Parhar mtx_assert(&cst->lock, MA_OWNED); 5746786099deSNavdeep Parhar M_ASSERTPKTHDR(m0); 5747786099deSNavdeep Parhar KASSERT(m0->m_pkthdr.l2hlen > 0 && m0->m_pkthdr.l3hlen > 0 && 5748786099deSNavdeep Parhar m0->m_pkthdr.l4hlen > 0, 5749786099deSNavdeep Parhar ("%s: ethofld mbuf %p is missing header lengths", __func__, m0)); 5750786099deSNavdeep Parhar 5751786099deSNavdeep Parhar len16 = mbuf_eo_len16(m0); 5752786099deSNavdeep Parhar nsegs = mbuf_eo_nsegs(m0); 5753786099deSNavdeep Parhar pktlen = m0->m_pkthdr.len; 5754786099deSNavdeep Parhar ctrl = sizeof(struct cpl_tx_pkt_core); 5755786099deSNavdeep Parhar if (needs_tso(m0)) 5756786099deSNavdeep Parhar ctrl += sizeof(struct cpl_tx_pkt_lso_core); 5757786099deSNavdeep Parhar immhdrs = m0->m_pkthdr.l2hlen + m0->m_pkthdr.l3hlen + m0->m_pkthdr.l4hlen; 5758786099deSNavdeep Parhar ctrl += immhdrs; 5759786099deSNavdeep Parhar 5760786099deSNavdeep Parhar wr->op_immdlen = htobe32(V_FW_WR_OP(FW_ETH_TX_EO_WR) | 5761786099deSNavdeep Parhar V_FW_ETH_TX_EO_WR_IMMDLEN(ctrl) | V_FW_WR_COMPL(!!compl)); 5762786099deSNavdeep Parhar wr->equiq_to_len16 = htobe32(V_FW_WR_LEN16(len16) | 5763786099deSNavdeep Parhar V_FW_WR_FLOWID(cst->etid)); 5764786099deSNavdeep Parhar wr->r3 = 0; 57656933902dSNavdeep Parhar if (needs_udp_csum(m0)) { 57666933902dSNavdeep Parhar wr->u.udpseg.type = FW_ETH_TX_EO_TYPE_UDPSEG; 57676933902dSNavdeep Parhar wr->u.udpseg.ethlen = m0->m_pkthdr.l2hlen; 57686933902dSNavdeep Parhar wr->u.udpseg.iplen = htobe16(m0->m_pkthdr.l3hlen); 57696933902dSNavdeep Parhar wr->u.udpseg.udplen = m0->m_pkthdr.l4hlen; 57706933902dSNavdeep Parhar wr->u.udpseg.rtplen = 0; 57716933902dSNavdeep Parhar wr->u.udpseg.r4 = 0; 57726933902dSNavdeep Parhar wr->u.udpseg.mss = htobe16(pktlen - immhdrs); 57736933902dSNavdeep Parhar wr->u.udpseg.schedpktsize = wr->u.udpseg.mss; 57746933902dSNavdeep Parhar wr->u.udpseg.plen = htobe32(pktlen - immhdrs); 57756933902dSNavdeep Parhar cpl = (void *)(wr + 1); 57766933902dSNavdeep Parhar } else { 57776933902dSNavdeep Parhar MPASS(needs_tcp_csum(m0)); 5778786099deSNavdeep Parhar wr->u.tcpseg.type = FW_ETH_TX_EO_TYPE_TCPSEG; 5779786099deSNavdeep Parhar wr->u.tcpseg.ethlen = m0->m_pkthdr.l2hlen; 5780786099deSNavdeep Parhar wr->u.tcpseg.iplen = htobe16(m0->m_pkthdr.l3hlen); 5781786099deSNavdeep Parhar wr->u.tcpseg.tcplen = m0->m_pkthdr.l4hlen; 5782786099deSNavdeep Parhar wr->u.tcpseg.tsclk_tsoff = mbuf_eo_tsclk_tsoff(m0); 5783786099deSNavdeep Parhar wr->u.tcpseg.r4 = 0; 5784786099deSNavdeep Parhar wr->u.tcpseg.r5 = 0; 5785786099deSNavdeep Parhar wr->u.tcpseg.plen = htobe32(pktlen - immhdrs); 5786786099deSNavdeep Parhar 5787786099deSNavdeep Parhar if (needs_tso(m0)) { 5788786099deSNavdeep Parhar struct cpl_tx_pkt_lso_core *lso = (void *)(wr + 1); 5789786099deSNavdeep Parhar 5790786099deSNavdeep Parhar wr->u.tcpseg.mss = htobe16(m0->m_pkthdr.tso_segsz); 5791786099deSNavdeep Parhar 57926933902dSNavdeep Parhar ctrl = V_LSO_OPCODE(CPL_TX_PKT_LSO) | 57936933902dSNavdeep Parhar F_LSO_FIRST_SLICE | F_LSO_LAST_SLICE | 57946933902dSNavdeep Parhar V_LSO_IPHDR_LEN(m0->m_pkthdr.l3hlen >> 2) | 57956933902dSNavdeep Parhar V_LSO_TCPHDR_LEN(m0->m_pkthdr.l4hlen >> 2); 5796786099deSNavdeep Parhar if (m0->m_pkthdr.l2hlen == sizeof(struct ether_vlan_header)) 5797786099deSNavdeep Parhar ctrl |= V_LSO_ETHHDR_LEN(1); 5798786099deSNavdeep Parhar if (m0->m_pkthdr.l3hlen == sizeof(struct ip6_hdr)) 5799786099deSNavdeep Parhar ctrl |= F_LSO_IPV6; 5800786099deSNavdeep Parhar lso->lso_ctrl = htobe32(ctrl); 5801786099deSNavdeep Parhar lso->ipid_ofst = htobe16(0); 5802786099deSNavdeep Parhar lso->mss = htobe16(m0->m_pkthdr.tso_segsz); 5803786099deSNavdeep Parhar lso->seqno_offset = htobe32(0); 5804786099deSNavdeep Parhar lso->len = htobe32(pktlen); 5805786099deSNavdeep Parhar 5806786099deSNavdeep Parhar cpl = (void *)(lso + 1); 5807786099deSNavdeep Parhar } else { 5808786099deSNavdeep Parhar wr->u.tcpseg.mss = htobe16(0xffff); 5809786099deSNavdeep Parhar cpl = (void *)(wr + 1); 5810786099deSNavdeep Parhar } 58116933902dSNavdeep Parhar } 5812786099deSNavdeep Parhar 5813786099deSNavdeep Parhar /* Checksum offload must be requested for ethofld. */ 5814786099deSNavdeep Parhar ctrl1 = 0; 5815786099deSNavdeep Parhar MPASS(needs_l4_csum(m0)); 5816786099deSNavdeep Parhar 5817786099deSNavdeep Parhar /* VLAN tag insertion */ 5818786099deSNavdeep Parhar if (needs_vlan_insertion(m0)) { 5819786099deSNavdeep Parhar ctrl1 |= F_TXPKT_VLAN_VLD | 5820786099deSNavdeep Parhar V_TXPKT_VLAN(m0->m_pkthdr.ether_vtag); 5821786099deSNavdeep Parhar } 5822786099deSNavdeep Parhar 5823786099deSNavdeep Parhar /* CPL header */ 5824786099deSNavdeep Parhar cpl->ctrl0 = cst->ctrl0; 5825786099deSNavdeep Parhar cpl->pack = 0; 5826786099deSNavdeep Parhar cpl->len = htobe16(pktlen); 5827786099deSNavdeep Parhar cpl->ctrl1 = htobe64(ctrl1); 5828786099deSNavdeep Parhar 58296933902dSNavdeep Parhar /* Copy Ethernet, IP & TCP/UDP hdrs as immediate data */ 5830786099deSNavdeep Parhar p = (uintptr_t)(cpl + 1); 5831786099deSNavdeep Parhar m_copydata(m0, 0, immhdrs, (void *)p); 5832786099deSNavdeep Parhar 5833786099deSNavdeep Parhar /* SGL */ 5834786099deSNavdeep Parhar dst = (void *)(cpl + 1); 5835786099deSNavdeep Parhar if (nsegs > 0) { 5836786099deSNavdeep Parhar int i, pad; 5837786099deSNavdeep Parhar 5838786099deSNavdeep Parhar /* zero-pad upto next 16Byte boundary, if not 16Byte aligned */ 5839786099deSNavdeep Parhar p += immhdrs; 5840786099deSNavdeep Parhar pad = 16 - (immhdrs & 0xf); 5841786099deSNavdeep Parhar bzero((void *)p, pad); 5842786099deSNavdeep Parhar 5843786099deSNavdeep Parhar usgl = (void *)(p + pad); 5844786099deSNavdeep Parhar usgl->cmd_nsge = htobe32(V_ULPTX_CMD(ULP_TX_SC_DSGL) | 5845786099deSNavdeep Parhar V_ULPTX_NSGE(nsegs)); 5846786099deSNavdeep Parhar 5847786099deSNavdeep Parhar sglist_init(&sg, nitems(segs), segs); 5848786099deSNavdeep Parhar for (; m0 != NULL; m0 = m0->m_next) { 5849786099deSNavdeep Parhar if (__predict_false(m0->m_len == 0)) 5850786099deSNavdeep Parhar continue; 5851786099deSNavdeep Parhar if (immhdrs >= m0->m_len) { 5852786099deSNavdeep Parhar immhdrs -= m0->m_len; 5853786099deSNavdeep Parhar continue; 5854786099deSNavdeep Parhar } 5855786099deSNavdeep Parhar 5856786099deSNavdeep Parhar sglist_append(&sg, mtod(m0, char *) + immhdrs, 5857786099deSNavdeep Parhar m0->m_len - immhdrs); 5858786099deSNavdeep Parhar immhdrs = 0; 5859786099deSNavdeep Parhar } 5860786099deSNavdeep Parhar MPASS(sg.sg_nseg == nsegs); 5861786099deSNavdeep Parhar 5862786099deSNavdeep Parhar /* 5863786099deSNavdeep Parhar * Zero pad last 8B in case the WR doesn't end on a 16B 5864786099deSNavdeep Parhar * boundary. 5865786099deSNavdeep Parhar */ 5866786099deSNavdeep Parhar *(uint64_t *)((char *)wr + len16 * 16 - 8) = 0; 5867786099deSNavdeep Parhar 5868786099deSNavdeep Parhar usgl->len0 = htobe32(segs[0].ss_len); 5869786099deSNavdeep Parhar usgl->addr0 = htobe64(segs[0].ss_paddr); 5870786099deSNavdeep Parhar for (i = 0; i < nsegs - 1; i++) { 5871786099deSNavdeep Parhar usgl->sge[i / 2].len[i & 1] = htobe32(segs[i + 1].ss_len); 5872786099deSNavdeep Parhar usgl->sge[i / 2].addr[i & 1] = htobe64(segs[i + 1].ss_paddr); 5873786099deSNavdeep Parhar } 5874786099deSNavdeep Parhar if (i & 1) 5875786099deSNavdeep Parhar usgl->sge[i / 2].len[1] = htobe32(0); 5876786099deSNavdeep Parhar } 5877786099deSNavdeep Parhar 5878786099deSNavdeep Parhar } 5879786099deSNavdeep Parhar 5880786099deSNavdeep Parhar static void 5881786099deSNavdeep Parhar ethofld_tx(struct cxgbe_snd_tag *cst) 5882786099deSNavdeep Parhar { 5883786099deSNavdeep Parhar struct mbuf *m; 5884786099deSNavdeep Parhar struct wrq_cookie cookie; 5885786099deSNavdeep Parhar int next_credits, compl; 5886786099deSNavdeep Parhar struct fw_eth_tx_eo_wr *wr; 5887786099deSNavdeep Parhar 5888786099deSNavdeep Parhar mtx_assert(&cst->lock, MA_OWNED); 5889786099deSNavdeep Parhar 5890786099deSNavdeep Parhar while ((m = mbufq_first(&cst->pending_tx)) != NULL) { 5891786099deSNavdeep Parhar M_ASSERTPKTHDR(m); 5892786099deSNavdeep Parhar 5893786099deSNavdeep Parhar /* How many len16 credits do we need to send this mbuf. */ 5894786099deSNavdeep Parhar next_credits = mbuf_eo_len16(m); 5895786099deSNavdeep Parhar MPASS(next_credits > 0); 5896786099deSNavdeep Parhar if (next_credits > cst->tx_credits) { 5897786099deSNavdeep Parhar /* 5898786099deSNavdeep Parhar * Tx will make progress eventually because there is at 5899786099deSNavdeep Parhar * least one outstanding fw4_ack that will return 5900786099deSNavdeep Parhar * credits and kick the tx. 5901786099deSNavdeep Parhar */ 5902786099deSNavdeep Parhar MPASS(cst->ncompl > 0); 5903786099deSNavdeep Parhar return; 5904786099deSNavdeep Parhar } 5905786099deSNavdeep Parhar wr = start_wrq_wr(cst->eo_txq, next_credits, &cookie); 5906786099deSNavdeep Parhar if (__predict_false(wr == NULL)) { 5907786099deSNavdeep Parhar /* XXX: wishful thinking, not a real assertion. */ 5908786099deSNavdeep Parhar MPASS(cst->ncompl > 0); 5909786099deSNavdeep Parhar return; 5910786099deSNavdeep Parhar } 5911786099deSNavdeep Parhar cst->tx_credits -= next_credits; 5912786099deSNavdeep Parhar cst->tx_nocompl += next_credits; 5913786099deSNavdeep Parhar compl = cst->ncompl == 0 || cst->tx_nocompl >= cst->tx_total / 2; 5914786099deSNavdeep Parhar ETHER_BPF_MTAP(cst->com.ifp, m); 5915786099deSNavdeep Parhar write_ethofld_wr(cst, wr, m, compl); 5916786099deSNavdeep Parhar commit_wrq_wr(cst->eo_txq, wr, &cookie); 5917786099deSNavdeep Parhar if (compl) { 5918786099deSNavdeep Parhar cst->ncompl++; 5919786099deSNavdeep Parhar cst->tx_nocompl = 0; 5920786099deSNavdeep Parhar } 5921786099deSNavdeep Parhar (void) mbufq_dequeue(&cst->pending_tx); 5922786099deSNavdeep Parhar mbufq_enqueue(&cst->pending_fwack, m); 5923786099deSNavdeep Parhar } 5924786099deSNavdeep Parhar } 5925786099deSNavdeep Parhar 5926786099deSNavdeep Parhar int 5927786099deSNavdeep Parhar ethofld_transmit(struct ifnet *ifp, struct mbuf *m0) 5928786099deSNavdeep Parhar { 5929786099deSNavdeep Parhar struct cxgbe_snd_tag *cst; 5930786099deSNavdeep Parhar int rc; 5931786099deSNavdeep Parhar 5932786099deSNavdeep Parhar MPASS(m0->m_nextpkt == NULL); 5933786099deSNavdeep Parhar MPASS(m0->m_pkthdr.snd_tag != NULL); 5934786099deSNavdeep Parhar cst = mst_to_cst(m0->m_pkthdr.snd_tag); 5935786099deSNavdeep Parhar 5936786099deSNavdeep Parhar mtx_lock(&cst->lock); 5937786099deSNavdeep Parhar MPASS(cst->flags & EO_SND_TAG_REF); 5938786099deSNavdeep Parhar 5939786099deSNavdeep Parhar if (__predict_false(cst->flags & EO_FLOWC_PENDING)) { 5940786099deSNavdeep Parhar struct vi_info *vi = ifp->if_softc; 5941786099deSNavdeep Parhar struct port_info *pi = vi->pi; 5942786099deSNavdeep Parhar struct adapter *sc = pi->adapter; 5943786099deSNavdeep Parhar const uint32_t rss_mask = vi->rss_size - 1; 5944786099deSNavdeep Parhar uint32_t rss_hash; 5945786099deSNavdeep Parhar 5946786099deSNavdeep Parhar cst->eo_txq = &sc->sge.ofld_txq[vi->first_ofld_txq]; 5947786099deSNavdeep Parhar if (M_HASHTYPE_ISHASH(m0)) 5948786099deSNavdeep Parhar rss_hash = m0->m_pkthdr.flowid; 5949786099deSNavdeep Parhar else 5950786099deSNavdeep Parhar rss_hash = arc4random(); 5951786099deSNavdeep Parhar /* We assume RSS hashing */ 5952786099deSNavdeep Parhar cst->iqid = vi->rss[rss_hash & rss_mask]; 5953786099deSNavdeep Parhar cst->eo_txq += rss_hash % vi->nofldtxq; 5954786099deSNavdeep Parhar rc = send_etid_flowc_wr(cst, pi, vi); 5955786099deSNavdeep Parhar if (rc != 0) 5956786099deSNavdeep Parhar goto done; 5957786099deSNavdeep Parhar } 5958786099deSNavdeep Parhar 5959786099deSNavdeep Parhar if (__predict_false(cst->plen + m0->m_pkthdr.len > eo_max_backlog)) { 5960786099deSNavdeep Parhar rc = ENOBUFS; 5961786099deSNavdeep Parhar goto done; 5962786099deSNavdeep Parhar } 5963786099deSNavdeep Parhar 5964786099deSNavdeep Parhar mbufq_enqueue(&cst->pending_tx, m0); 5965786099deSNavdeep Parhar cst->plen += m0->m_pkthdr.len; 5966786099deSNavdeep Parhar 5967786099deSNavdeep Parhar ethofld_tx(cst); 5968786099deSNavdeep Parhar rc = 0; 5969786099deSNavdeep Parhar done: 5970786099deSNavdeep Parhar mtx_unlock(&cst->lock); 5971786099deSNavdeep Parhar if (__predict_false(rc != 0)) 5972786099deSNavdeep Parhar m_freem(m0); 5973786099deSNavdeep Parhar return (rc); 5974786099deSNavdeep Parhar } 5975786099deSNavdeep Parhar 5976786099deSNavdeep Parhar static int 5977786099deSNavdeep Parhar ethofld_fw4_ack(struct sge_iq *iq, const struct rss_header *rss, struct mbuf *m0) 5978786099deSNavdeep Parhar { 5979786099deSNavdeep Parhar struct adapter *sc = iq->adapter; 5980786099deSNavdeep Parhar const struct cpl_fw4_ack *cpl = (const void *)(rss + 1); 5981786099deSNavdeep Parhar struct mbuf *m; 5982786099deSNavdeep Parhar u_int etid = G_CPL_FW4_ACK_FLOWID(be32toh(OPCODE_TID(cpl))); 5983786099deSNavdeep Parhar struct cxgbe_snd_tag *cst; 5984786099deSNavdeep Parhar uint8_t credits = cpl->credits; 5985786099deSNavdeep Parhar 5986786099deSNavdeep Parhar cst = lookup_etid(sc, etid); 5987786099deSNavdeep Parhar mtx_lock(&cst->lock); 5988786099deSNavdeep Parhar if (__predict_false(cst->flags & EO_FLOWC_RPL_PENDING)) { 5989786099deSNavdeep Parhar MPASS(credits >= ETID_FLOWC_LEN16); 5990786099deSNavdeep Parhar credits -= ETID_FLOWC_LEN16; 5991786099deSNavdeep Parhar cst->flags &= ~EO_FLOWC_RPL_PENDING; 5992786099deSNavdeep Parhar } 5993786099deSNavdeep Parhar 5994786099deSNavdeep Parhar KASSERT(cst->ncompl > 0, 5995786099deSNavdeep Parhar ("%s: etid %u (%p) wasn't expecting completion.", 5996786099deSNavdeep Parhar __func__, etid, cst)); 5997786099deSNavdeep Parhar cst->ncompl--; 5998786099deSNavdeep Parhar 5999786099deSNavdeep Parhar while (credits > 0) { 6000786099deSNavdeep Parhar m = mbufq_dequeue(&cst->pending_fwack); 6001786099deSNavdeep Parhar if (__predict_false(m == NULL)) { 6002786099deSNavdeep Parhar /* 6003786099deSNavdeep Parhar * The remaining credits are for the final flush that 6004786099deSNavdeep Parhar * was issued when the tag was freed by the kernel. 6005786099deSNavdeep Parhar */ 6006786099deSNavdeep Parhar MPASS((cst->flags & 6007786099deSNavdeep Parhar (EO_FLUSH_RPL_PENDING | EO_SND_TAG_REF)) == 6008786099deSNavdeep Parhar EO_FLUSH_RPL_PENDING); 6009786099deSNavdeep Parhar MPASS(credits == ETID_FLUSH_LEN16); 6010786099deSNavdeep Parhar MPASS(cst->tx_credits + cpl->credits == cst->tx_total); 6011786099deSNavdeep Parhar MPASS(cst->ncompl == 0); 6012786099deSNavdeep Parhar 6013786099deSNavdeep Parhar cst->flags &= ~EO_FLUSH_RPL_PENDING; 6014786099deSNavdeep Parhar cst->tx_credits += cpl->credits; 6015786099deSNavdeep Parhar freetag: 6016786099deSNavdeep Parhar cxgbe_snd_tag_free_locked(cst); 6017786099deSNavdeep Parhar return (0); /* cst is gone. */ 6018786099deSNavdeep Parhar } 6019786099deSNavdeep Parhar KASSERT(m != NULL, 6020786099deSNavdeep Parhar ("%s: too many credits (%u, %u)", __func__, cpl->credits, 6021786099deSNavdeep Parhar credits)); 6022786099deSNavdeep Parhar KASSERT(credits >= mbuf_eo_len16(m), 6023786099deSNavdeep Parhar ("%s: too few credits (%u, %u, %u)", __func__, 6024786099deSNavdeep Parhar cpl->credits, credits, mbuf_eo_len16(m))); 6025786099deSNavdeep Parhar credits -= mbuf_eo_len16(m); 6026786099deSNavdeep Parhar cst->plen -= m->m_pkthdr.len; 6027786099deSNavdeep Parhar m_freem(m); 6028786099deSNavdeep Parhar } 6029786099deSNavdeep Parhar 6030786099deSNavdeep Parhar cst->tx_credits += cpl->credits; 6031786099deSNavdeep Parhar MPASS(cst->tx_credits <= cst->tx_total); 6032786099deSNavdeep Parhar 6033786099deSNavdeep Parhar m = mbufq_first(&cst->pending_tx); 6034786099deSNavdeep Parhar if (m != NULL && cst->tx_credits >= mbuf_eo_len16(m)) 6035786099deSNavdeep Parhar ethofld_tx(cst); 6036786099deSNavdeep Parhar 6037786099deSNavdeep Parhar if (__predict_false((cst->flags & EO_SND_TAG_REF) == 0) && 6038786099deSNavdeep Parhar cst->ncompl == 0) { 6039786099deSNavdeep Parhar if (cst->tx_credits == cst->tx_total) 6040786099deSNavdeep Parhar goto freetag; 6041786099deSNavdeep Parhar else { 6042786099deSNavdeep Parhar MPASS((cst->flags & EO_FLUSH_RPL_PENDING) == 0); 6043786099deSNavdeep Parhar send_etid_flush_wr(cst); 6044786099deSNavdeep Parhar } 6045786099deSNavdeep Parhar } 6046786099deSNavdeep Parhar 6047786099deSNavdeep Parhar mtx_unlock(&cst->lock); 6048786099deSNavdeep Parhar 6049786099deSNavdeep Parhar return (0); 6050786099deSNavdeep Parhar } 6051786099deSNavdeep Parhar #endif 6052