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/*-
* Copyright (c) 2011 Chelsio Communications, Inc.
* All rights reserved.
* Written by: Navdeep Parhar <np@FreeBSD.org>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*
*/
#ifndef __T4_ADAPTER_H__
#define __T4_ADAPTER_H__
#include <sys/kernel.h>
#include <sys/bus.h>
#include <sys/rman.h>
#include <sys/types.h>
#include <sys/lock.h>
#include <sys/malloc.h>
#include <sys/rwlock.h>
#include <sys/sx.h>
#include <vm/uma.h>
#include <dev/pci/pcivar.h>
#include <dev/pci/pcireg.h>
#include <machine/bus.h>
#include <sys/socket.h>
#include <sys/sysctl.h>
#include <net/ethernet.h>
#include <net/if.h>
#include <net/if_var.h>
#include <net/if_media.h>
#include <netinet/in.h>
#include <netinet/tcp_lro.h>
#include "offload.h"
#include "t4_ioctl.h"
#include "common/t4_msg.h"
#include "firmware/t4fw_interface.h"
#define KTR_CXGBE KTR_SPARE3
MALLOC_DECLARE(M_CXGBE);
#define CXGBE_UNIMPLEMENTED(s) \
panic("%s (%s, line %d) not implemented yet.", s, __FILE__, __LINE__)
#if defined(__i386__) || defined(__amd64__)
static __inline void
prefetch(void *x)
{
__asm volatile("prefetcht0 %0" :: "m" (*(unsigned long *)x));
}
#else
#define prefetch(x)
#endif
#ifndef SYSCTL_ADD_UQUAD
#define SYSCTL_ADD_UQUAD SYSCTL_ADD_QUAD
#define sysctl_handle_64 sysctl_handle_quad
#define CTLTYPE_U64 CTLTYPE_QUAD
#endif
#if (__FreeBSD_version >= 900030) || \
((__FreeBSD_version >= 802507) && (__FreeBSD_version < 900000))
#define SBUF_DRAIN 1
#endif
struct adapter;
typedef struct adapter adapter_t;
enum {
/*
* All ingress queues use this entry size. Note that the firmware event
* queue and any iq expecting CPL_RX_PKT in the descriptor needs this to
* be at least 64.
*/
IQ_ESIZE = 64,
/* Default queue sizes for all kinds of ingress queues */
FW_IQ_QSIZE = 256,
RX_IQ_QSIZE = 1024,
/* All egress queues use this entry size */
EQ_ESIZE = 64,
/* Default queue sizes for all kinds of egress queues */
CTRL_EQ_QSIZE = 128,
TX_EQ_QSIZE = 1024,
#if MJUMPAGESIZE != MCLBYTES
SW_ZONE_SIZES = 4, /* cluster, jumbop, jumbo9k, jumbo16k */
#else
SW_ZONE_SIZES = 3, /* cluster, jumbo9k, jumbo16k */
#endif
CL_METADATA_SIZE = CACHE_LINE_SIZE,
SGE_MAX_WR_NDESC = SGE_MAX_WR_LEN / EQ_ESIZE, /* max WR size in desc */
TX_SGL_SEGS = 39,
TX_SGL_SEGS_TSO = 38,
TX_WR_FLITS = SGE_MAX_WR_LEN / 8
};
enum {
/* adapter intr_type */
INTR_INTX = (1 << 0),
INTR_MSI = (1 << 1),
INTR_MSIX = (1 << 2)
};
enum {
XGMAC_MTU = (1 << 0),
XGMAC_PROMISC = (1 << 1),
XGMAC_ALLMULTI = (1 << 2),
XGMAC_VLANEX = (1 << 3),
XGMAC_UCADDR = (1 << 4),
XGMAC_MCADDRS = (1 << 5),
XGMAC_ALL = 0xffff
};
enum {
/* flags understood by begin_synchronized_op */
HOLD_LOCK = (1 << 0),
SLEEP_OK = (1 << 1),
INTR_OK = (1 << 2),
/* flags understood by end_synchronized_op */
LOCK_HELD = HOLD_LOCK,
};
enum {
/* adapter flags */
FULL_INIT_DONE = (1 << 0),
FW_OK = (1 << 1),
CHK_MBOX_ACCESS = (1 << 2),
MASTER_PF = (1 << 3),
ADAP_SYSCTL_CTX = (1 << 4),
/* TOM_INIT_DONE= (1 << 5), No longer used */
BUF_PACKING_OK = (1 << 6),
IS_VF = (1 << 7),
CXGBE_BUSY = (1 << 9),
/* port flags */
HAS_TRACEQ = (1 << 3),
FIXED_IFMEDIA = (1 << 4), /* ifmedia list doesn't change. */
/* VI flags */
DOOMED = (1 << 0),
VI_INIT_DONE = (1 << 1),
VI_SYSCTL_CTX = (1 << 2),
/* adapter debug_flags */
DF_DUMP_MBOX = (1 << 0), /* Log all mbox cmd/rpl. */
DF_LOAD_FW_ANYTIME = (1 << 1), /* Allow LOAD_FW after init */
DF_DISABLE_TCB_CACHE = (1 << 2), /* Disable TCB cache (T6+) */
};
#define IS_DOOMED(vi) ((vi)->flags & DOOMED)
#define SET_DOOMED(vi) do {(vi)->flags |= DOOMED;} while (0)
#define IS_BUSY(sc) ((sc)->flags & CXGBE_BUSY)
#define SET_BUSY(sc) do {(sc)->flags |= CXGBE_BUSY;} while (0)
#define CLR_BUSY(sc) do {(sc)->flags &= ~CXGBE_BUSY;} while (0)
struct vi_info {
device_t dev;
struct port_info *pi;
struct ifnet *ifp;
unsigned long flags;
int if_flags;
uint16_t *rss, *nm_rss;
int smt_idx; /* for convenience */
uint16_t viid;
int16_t xact_addr_filt;/* index of exact MAC address filter */
uint16_t rss_size; /* size of VI's RSS table slice */
uint16_t rss_base; /* start of VI's RSS table slice */
eventhandler_tag vlan_c;
int nintr;
int first_intr;
/* These need to be int as they are used in sysctl */
int ntxq; /* # of tx queues */
int first_txq; /* index of first tx queue */
int rsrv_noflowq; /* Reserve queue 0 for non-flowid packets */
int nrxq; /* # of rx queues */
int first_rxq; /* index of first rx queue */
int nofldtxq; /* # of offload tx queues */
int first_ofld_txq; /* index of first offload tx queue */
int nofldrxq; /* # of offload rx queues */
int first_ofld_rxq; /* index of first offload rx queue */
int nnmtxq;
int first_nm_txq;
int nnmrxq;
int first_nm_rxq;
int tmr_idx;
int ofld_tmr_idx;
int pktc_idx;
int ofld_pktc_idx;
int qsize_rxq;
int qsize_txq;
struct timeval last_refreshed;
struct fw_vi_stats_vf stats;
struct callout tick;
struct sysctl_ctx_list ctx; /* from ifconfig up to driver detach */
uint8_t hw_addr[ETHER_ADDR_LEN]; /* factory MAC address, won't change */
};
struct tx_ch_rl_params {
enum fw_sched_params_rate ratemode; /* %port (REL) or kbps (ABS) */
uint32_t maxrate;
};
enum {
TX_CLRL_REFRESH = (1 << 0), /* Need to update hardware state. */
TX_CLRL_ERROR = (1 << 1), /* Error, hardware state unknown. */
};
struct tx_cl_rl_params {
int refcount;
u_int flags;
enum fw_sched_params_rate ratemode; /* %port REL or ABS value */
enum fw_sched_params_unit rateunit; /* kbps or pps (when ABS) */
enum fw_sched_params_mode mode; /* aggr or per-flow */
uint32_t maxrate;
uint16_t pktsize;
};
/* Tx scheduler parameters for a channel/port */
struct tx_sched_params {
/* Channel Rate Limiter */
struct tx_ch_rl_params ch_rl;
/* Class WRR */
/* XXX */
/* Class Rate Limiter */
struct tx_cl_rl_params cl_rl[];
};
struct port_info {
device_t dev;
struct adapter *adapter;
struct vi_info *vi;
int nvi;
int up_vis;
int uld_vis;
struct tx_sched_params *sched_params;
struct mtx pi_lock;
char lockname[16];
unsigned long flags;
uint8_t lport; /* associated offload logical port */
int8_t mdio_addr;
uint8_t port_type;
uint8_t mod_type;
uint8_t port_id;
uint8_t tx_chan;
uint8_t mps_bg_map; /* rx MPS buffer group bitmap */
uint8_t rx_e_chan_map; /* rx TP e-channel bitmap */
struct link_config link_cfg;
struct link_config old_link_cfg;
struct ifmedia media;
struct timeval last_refreshed;
struct port_stats stats;
u_int tnl_cong_drops;
u_int tx_parse_error;
struct callout tick;
};
#define IS_MAIN_VI(vi) ((vi) == &((vi)->pi->vi[0]))
/* Where the cluster came from, how it has been carved up. */
struct cluster_layout {
int8_t zidx;
int8_t hwidx;
uint16_t region1; /* mbufs laid out within this region */
/* region2 is the DMA region */
uint16_t region3; /* cluster_metadata within this region */
};
struct cluster_metadata {
u_int refcount;
struct fl_sdesc *sd; /* For debug only. Could easily be stale */
};
struct fl_sdesc {
caddr_t cl;
uint16_t nmbuf; /* # of driver originated mbufs with ref on cluster */
struct cluster_layout cll;
};
struct tx_desc {
__be64 flit[8];
};
struct tx_sdesc {
struct mbuf *m; /* m_nextpkt linked chain of frames */
uint8_t desc_used; /* # of hardware descriptors used by the WR */
};
#define IQ_PAD (IQ_ESIZE - sizeof(struct rsp_ctrl) - sizeof(struct rss_header))
struct iq_desc {
struct rss_header rss;
uint8_t cpl[IQ_PAD];
struct rsp_ctrl rsp;
};
#undef IQ_PAD
CTASSERT(sizeof(struct iq_desc) == IQ_ESIZE);
enum {
/* iq flags */
IQ_ALLOCATED = (1 << 0), /* firmware resources allocated */
IQ_HAS_FL = (1 << 1), /* iq associated with a freelist */
/* 1 << 2 Used to be IQ_INTR */
IQ_LRO_ENABLED = (1 << 3), /* iq is an eth rxq with LRO enabled */
IQ_ADJ_CREDIT = (1 << 4), /* hw is off by 1 credit for this iq */
/* iq state */
IQS_DISABLED = 0,
IQS_BUSY = 1,
IQS_IDLE = 2,
/* netmap related flags */
NM_OFF = 0,
NM_ON = 1,
NM_BUSY = 2,
};
struct sge_iq;
struct rss_header;
typedef int (*cpl_handler_t)(struct sge_iq *, const struct rss_header *,
struct mbuf *);
typedef int (*an_handler_t)(struct sge_iq *, const struct rsp_ctrl *);
typedef int (*fw_msg_handler_t)(struct adapter *, const __be64 *);
/*
* Ingress Queue: T4 is producer, driver is consumer.
*/
struct sge_iq {
uint32_t flags;
volatile int state;
struct adapter *adapter;
cpl_handler_t set_tcb_rpl;
cpl_handler_t l2t_write_rpl;
struct iq_desc *desc; /* KVA of descriptor ring */
int8_t intr_pktc_idx; /* packet count threshold index */
uint8_t gen; /* generation bit */
uint8_t intr_params; /* interrupt holdoff parameters */
uint8_t intr_next; /* XXX: holdoff for next interrupt */
uint16_t qsize; /* size (# of entries) of the queue */
uint16_t sidx; /* index of the entry with the status page */
uint16_t cidx; /* consumer index */
uint16_t cntxt_id; /* SGE context id for the iq */
uint16_t abs_id; /* absolute SGE id for the iq */
STAILQ_ENTRY(sge_iq) link;
bus_dma_tag_t desc_tag;
bus_dmamap_t desc_map;
bus_addr_t ba; /* bus address of descriptor ring */
};
enum {
EQ_CTRL = 1,
EQ_ETH = 2,
EQ_OFLD = 3,
/* eq flags */
EQ_TYPEMASK = 0x3, /* 2 lsbits hold the type (see above) */
EQ_ALLOCATED = (1 << 2), /* firmware resources allocated */
EQ_ENABLED = (1 << 3), /* open for business */
EQ_QFLUSH = (1 << 4), /* if_qflush in progress */
};
/* Listed in order of preference. Update t4_sysctls too if you change these */
enum {DOORBELL_UDB, DOORBELL_WCWR, DOORBELL_UDBWC, DOORBELL_KDB};
/*
* Egress Queue: driver is producer, T4 is consumer.
*
* Note: A free list is an egress queue (driver produces the buffers and T4
* consumes them) but it's special enough to have its own struct (see sge_fl).
*/
struct sge_eq {
unsigned int flags; /* MUST be first */
unsigned int cntxt_id; /* SGE context id for the eq */
unsigned int abs_id; /* absolute SGE id for the eq */
struct mtx eq_lock;
struct tx_desc *desc; /* KVA of descriptor ring */
uint16_t doorbells;
volatile uint32_t *udb; /* KVA of doorbell (lies within BAR2) */
u_int udb_qid; /* relative qid within the doorbell page */
uint16_t sidx; /* index of the entry with the status page */
uint16_t cidx; /* consumer idx (desc idx) */
uint16_t pidx; /* producer idx (desc idx) */
uint16_t equeqidx; /* EQUEQ last requested at this pidx */
uint16_t dbidx; /* pidx of the most recent doorbell */
uint16_t iqid; /* iq that gets egr_update for the eq */
uint8_t tx_chan; /* tx channel used by the eq */
volatile u_int equiq; /* EQUIQ outstanding */
bus_dma_tag_t desc_tag;
bus_dmamap_t desc_map;
bus_addr_t ba; /* bus address of descriptor ring */
char lockname[16];
};
struct sw_zone_info {
uma_zone_t zone; /* zone that this cluster comes from */
int size; /* size of cluster: 2K, 4K, 9K, 16K, etc. */
int type; /* EXT_xxx type of the cluster */
int8_t head_hwidx;
int8_t tail_hwidx;
};
struct hw_buf_info {
int8_t zidx; /* backpointer to zone; -ve means unused */
int8_t next; /* next hwidx for this zone; -1 means no more */
int size;
};
enum {
NUM_MEMWIN = 3,
MEMWIN0_APERTURE = 2048,
MEMWIN0_BASE = 0x1b800,
MEMWIN1_APERTURE = 32768,
MEMWIN1_BASE = 0x28000,
MEMWIN2_APERTURE_T4 = 65536,
MEMWIN2_BASE_T4 = 0x30000,
MEMWIN2_APERTURE_T5 = 128 * 1024,
MEMWIN2_BASE_T5 = 0x60000,
};
struct memwin {
struct rwlock mw_lock __aligned(CACHE_LINE_SIZE);
uint32_t mw_base; /* constant after setup_memwin */
uint32_t mw_aperture; /* ditto */
uint32_t mw_curpos; /* protected by mw_lock */
};
enum {
FL_STARVING = (1 << 0), /* on the adapter's list of starving fl's */
FL_DOOMED = (1 << 1), /* about to be destroyed */
FL_BUF_PACKING = (1 << 2), /* buffer packing enabled */
FL_BUF_RESUME = (1 << 3), /* resume from the middle of the frame */
};
#define FL_RUNNING_LOW(fl) \
(IDXDIFF(fl->dbidx * 8, fl->cidx, fl->sidx * 8) <= fl->lowat)
#define FL_NOT_RUNNING_LOW(fl) \
(IDXDIFF(fl->dbidx * 8, fl->cidx, fl->sidx * 8) >= 2 * fl->lowat)
struct sge_fl {
struct mtx fl_lock;
__be64 *desc; /* KVA of descriptor ring, ptr to addresses */
struct fl_sdesc *sdesc; /* KVA of software descriptor ring */
struct cluster_layout cll_def; /* default refill zone, layout */
uint16_t lowat; /* # of buffers <= this means fl needs help */
int flags;
uint16_t buf_boundary;
/* The 16b idx all deal with hw descriptors */
uint16_t dbidx; /* hw pidx after last doorbell */
uint16_t sidx; /* index of status page */
volatile uint16_t hw_cidx;
/* The 32b idx are all buffer idx, not hardware descriptor idx */
uint32_t cidx; /* consumer index */
uint32_t pidx; /* producer index */
uint32_t dbval;
u_int rx_offset; /* offset in fl buf (when buffer packing) */
volatile uint32_t *udb;
uint64_t mbuf_allocated;/* # of mbuf allocated from zone_mbuf */
uint64_t mbuf_inlined; /* # of mbuf created within clusters */
uint64_t cl_allocated; /* # of clusters allocated */
uint64_t cl_recycled; /* # of clusters recycled */
uint64_t cl_fast_recycled; /* # of clusters recycled (fast) */
/* These 3 are valid when FL_BUF_RESUME is set, stale otherwise. */
struct mbuf *m0;
struct mbuf **pnext;
u_int remaining;
uint16_t qsize; /* # of hw descriptors (status page included) */
uint16_t cntxt_id; /* SGE context id for the freelist */
TAILQ_ENTRY(sge_fl) link; /* All starving freelists */
bus_dma_tag_t desc_tag;
bus_dmamap_t desc_map;
char lockname[16];
bus_addr_t ba; /* bus address of descriptor ring */
struct cluster_layout cll_alt; /* alternate refill zone, layout */
};
struct mp_ring;
/* txq: SGE egress queue + what's needed for Ethernet NIC */
struct sge_txq {
struct sge_eq eq; /* MUST be first */
struct ifnet *ifp; /* the interface this txq belongs to */
struct mp_ring *r; /* tx software ring */
struct tx_sdesc *sdesc; /* KVA of software descriptor ring */
struct sglist *gl;
__be32 cpl_ctrl0; /* for convenience */
int tc_idx; /* traffic class */
struct task tx_reclaim_task;
/* stats for common events first */
uint64_t txcsum; /* # of times hardware assisted with checksum */
uint64_t tso_wrs; /* # of TSO work requests */
uint64_t vlan_insertion;/* # of times VLAN tag was inserted */
uint64_t imm_wrs; /* # of work requests with immediate data */
uint64_t sgl_wrs; /* # of work requests with direct SGL */
uint64_t txpkt_wrs; /* # of txpkt work requests (not coalesced) */
uint64_t txpkts0_wrs; /* # of type0 coalesced tx work requests */
uint64_t txpkts1_wrs; /* # of type1 coalesced tx work requests */
uint64_t txpkts0_pkts; /* # of frames in type0 coalesced tx WRs */
uint64_t txpkts1_pkts; /* # of frames in type1 coalesced tx WRs */
/* stats for not-that-common events */
} __aligned(CACHE_LINE_SIZE);
/* rxq: SGE ingress queue + SGE free list + miscellaneous items */
struct sge_rxq {
struct sge_iq iq; /* MUST be first */
struct sge_fl fl; /* MUST follow iq */
struct ifnet *ifp; /* the interface this rxq belongs to */
#if defined(INET) || defined(INET6)
struct lro_ctrl lro; /* LRO state */
#endif
/* stats for common events first */
uint64_t rxcsum; /* # of times hardware assisted with checksum */
uint64_t vlan_extraction;/* # of times VLAN tag was extracted */
/* stats for not-that-common events */
} __aligned(CACHE_LINE_SIZE);
static inline struct sge_rxq *
iq_to_rxq(struct sge_iq *iq)
{
return (__containerof(iq, struct sge_rxq, iq));
}
/* ofld_rxq: SGE ingress queue + SGE free list + miscellaneous items */
struct sge_ofld_rxq {
struct sge_iq iq; /* MUST be first */
struct sge_fl fl; /* MUST follow iq */
} __aligned(CACHE_LINE_SIZE);
static inline struct sge_ofld_rxq *
iq_to_ofld_rxq(struct sge_iq *iq)
{
return (__containerof(iq, struct sge_ofld_rxq, iq));
}
struct wrqe {
STAILQ_ENTRY(wrqe) link;
struct sge_wrq *wrq;
int wr_len;
char wr[] __aligned(16);
};
struct wrq_cookie {
TAILQ_ENTRY(wrq_cookie) link;
int ndesc;
int pidx;
};
/*
* wrq: SGE egress queue that is given prebuilt work requests. Both the control
* and offload tx queues are of this type.
*/
struct sge_wrq {
struct sge_eq eq; /* MUST be first */
struct adapter *adapter;
struct task wrq_tx_task;
/* Tx desc reserved but WR not "committed" yet. */
TAILQ_HEAD(wrq_incomplete_wrs , wrq_cookie) incomplete_wrs;
/* List of WRs ready to go out as soon as descriptors are available. */
STAILQ_HEAD(, wrqe) wr_list;
u_int nwr_pending;
u_int ndesc_needed;
/* stats for common events first */
uint64_t tx_wrs_direct; /* # of WRs written directly to desc ring. */
uint64_t tx_wrs_ss; /* # of WRs copied from scratch space. */
uint64_t tx_wrs_copied; /* # of WRs queued and copied to desc ring. */
/* stats for not-that-common events */
/*
* Scratch space for work requests that wrap around after reaching the
* status page, and some information about the last WR that used it.
*/
uint16_t ss_pidx;
uint16_t ss_len;
uint8_t ss[SGE_MAX_WR_LEN];
} __aligned(CACHE_LINE_SIZE);
struct sge_nm_rxq {
struct vi_info *vi;
struct iq_desc *iq_desc;
uint16_t iq_abs_id;
uint16_t iq_cntxt_id;
uint16_t iq_cidx;
uint16_t iq_sidx;
uint8_t iq_gen;
__be64 *fl_desc;
uint16_t fl_cntxt_id;
uint32_t fl_cidx;
uint32_t fl_pidx;
uint32_t fl_sidx;
uint32_t fl_db_val;
u_int fl_hwidx:4;
u_int nid; /* netmap ring # for this queue */
/* infrequently used items after this */
bus_dma_tag_t iq_desc_tag;
bus_dmamap_t iq_desc_map;
bus_addr_t iq_ba;
int intr_idx;
bus_dma_tag_t fl_desc_tag;
bus_dmamap_t fl_desc_map;
bus_addr_t fl_ba;
} __aligned(CACHE_LINE_SIZE);
struct sge_nm_txq {
struct tx_desc *desc;
uint16_t cidx;
uint16_t pidx;
uint16_t sidx;
uint16_t equiqidx; /* EQUIQ last requested at this pidx */
uint16_t equeqidx; /* EQUEQ last requested at this pidx */
uint16_t dbidx; /* pidx of the most recent doorbell */
uint16_t doorbells;
volatile uint32_t *udb;
u_int udb_qid;
u_int cntxt_id;
__be32 cpl_ctrl0; /* for convenience */
u_int nid; /* netmap ring # for this queue */
/* infrequently used items after this */
bus_dma_tag_t desc_tag;
bus_dmamap_t desc_map;
bus_addr_t ba;
int iqidx;
} __aligned(CACHE_LINE_SIZE);
struct sge {
int nrxq; /* total # of Ethernet rx queues */
int ntxq; /* total # of Ethernet tx queues */
int nofldrxq; /* total # of TOE rx queues */
int nofldtxq; /* total # of TOE tx queues */
int nnmrxq; /* total # of netmap rx queues */
int nnmtxq; /* total # of netmap tx queues */
int niq; /* total # of ingress queues */
int neq; /* total # of egress queues */
struct sge_iq fwq; /* Firmware event queue */
struct sge_wrq mgmtq; /* Management queue (control queue) */
struct sge_wrq *ctrlq; /* Control queues */
struct sge_txq *txq; /* NIC tx queues */
struct sge_rxq *rxq; /* NIC rx queues */
struct sge_wrq *ofld_txq; /* TOE tx queues */
struct sge_ofld_rxq *ofld_rxq; /* TOE rx queues */
struct sge_nm_txq *nm_txq; /* netmap tx queues */
struct sge_nm_rxq *nm_rxq; /* netmap rx queues */
uint16_t iq_start; /* first cntxt_id */
uint16_t iq_base; /* first abs_id */
int eq_start; /* first cntxt_id */
int eq_base; /* first abs_id */
struct sge_iq **iqmap; /* iq->cntxt_id to iq mapping */
struct sge_eq **eqmap; /* eq->cntxt_id to eq mapping */
int8_t safe_hwidx1; /* may not have room for metadata */
int8_t safe_hwidx2; /* with room for metadata and maybe more */
struct sw_zone_info sw_zone_info[SW_ZONE_SIZES];
struct hw_buf_info hw_buf_info[SGE_FLBUF_SIZES];
};
struct devnames {
const char *nexus_name;
const char *ifnet_name;
const char *vi_ifnet_name;
const char *pf03_drv_name;
const char *vf_nexus_name;
const char *vf_ifnet_name;
};
struct adapter {
SLIST_ENTRY(adapter) link;
device_t dev;
struct cdev *cdev;
const struct devnames *names;
/* PCIe register resources */
int regs_rid;
struct resource *regs_res;
int msix_rid;
struct resource *msix_res;
bus_space_handle_t bh;
bus_space_tag_t bt;
bus_size_t mmio_len;
int udbs_rid;
struct resource *udbs_res;
volatile uint8_t *udbs_base;
unsigned int pf;
unsigned int mbox;
unsigned int vpd_busy;
unsigned int vpd_flag;
/* Interrupt information */
int intr_type;
int intr_count;
struct irq {
struct resource *res;
int rid;
volatile int nm_state; /* NM_OFF, NM_ON, or NM_BUSY */
void *tag;
struct sge_rxq *rxq;
struct sge_nm_rxq *nm_rxq;
} __aligned(CACHE_LINE_SIZE) *irq;
int sge_gts_reg;
int sge_kdoorbell_reg;
bus_dma_tag_t dmat; /* Parent DMA tag */
struct sge sge;
int lro_timeout;
int sc_do_rxcopy;
struct taskqueue *tq[MAX_NCHAN]; /* General purpose taskqueues */
struct port_info *port[MAX_NPORTS];
uint8_t chan_map[MAX_NCHAN]; /* channel -> port */
void *tom_softc; /* (struct tom_data *) */
struct tom_tunables tt;
struct iw_tunables iwt;
void *iwarp_softc; /* (struct c4iw_dev *) */
void *iscsi_ulp_softc; /* (struct cxgbei_data *) */
struct l2t_data *l2t; /* L2 table */
struct tid_info tids;
uint16_t doorbells;
int offload_map; /* ports with IFCAP_TOE enabled */
int active_ulds; /* ULDs activated on this adapter */
int flags;
int debug_flags;
char ifp_lockname[16];
struct mtx ifp_lock;
struct ifnet *ifp; /* tracer ifp */
struct ifmedia media;
int traceq; /* iq used by all tracers, -1 if none */
int tracer_valid; /* bitmap of valid tracers */
int tracer_enabled; /* bitmap of enabled tracers */
char fw_version[16];
char tp_version[16];
char er_version[16];
char bs_version[16];
char cfg_file[32];
u_int cfcsum;
struct adapter_params params;
const struct chip_params *chip_params;
struct t4_virt_res vres;
uint16_t nbmcaps;
uint16_t linkcaps;
uint16_t switchcaps;
uint16_t niccaps;
uint16_t toecaps;
uint16_t rdmacaps;
uint16_t cryptocaps;
uint16_t iscsicaps;
uint16_t fcoecaps;
struct sysctl_ctx_list ctx; /* from adapter_full_init to full_uninit */
struct mtx sc_lock;
char lockname[16];
/* Starving free lists */
struct mtx sfl_lock; /* same cache-line as sc_lock? but that's ok */
TAILQ_HEAD(, sge_fl) sfl;
struct callout sfl_callout;
struct mtx reg_lock; /* for indirect register access */
struct memwin memwin[NUM_MEMWIN]; /* memory windows */
struct mtx tc_lock;
struct task tc_task;
const char *last_op;
const void *last_op_thr;
int last_op_flags;
};
#define ADAPTER_LOCK(sc) mtx_lock(&(sc)->sc_lock)
#define ADAPTER_UNLOCK(sc) mtx_unlock(&(sc)->sc_lock)
#define ADAPTER_LOCK_ASSERT_OWNED(sc) mtx_assert(&(sc)->sc_lock, MA_OWNED)
#define ADAPTER_LOCK_ASSERT_NOTOWNED(sc) mtx_assert(&(sc)->sc_lock, MA_NOTOWNED)
#define ASSERT_SYNCHRONIZED_OP(sc) \
KASSERT(IS_BUSY(sc) && \
(mtx_owned(&(sc)->sc_lock) || sc->last_op_thr == curthread), \
("%s: operation not synchronized.", __func__))
#define PORT_LOCK(pi) mtx_lock(&(pi)->pi_lock)
#define PORT_UNLOCK(pi) mtx_unlock(&(pi)->pi_lock)
#define PORT_LOCK_ASSERT_OWNED(pi) mtx_assert(&(pi)->pi_lock, MA_OWNED)
#define PORT_LOCK_ASSERT_NOTOWNED(pi) mtx_assert(&(pi)->pi_lock, MA_NOTOWNED)
#define FL_LOCK(fl) mtx_lock(&(fl)->fl_lock)
#define FL_TRYLOCK(fl) mtx_trylock(&(fl)->fl_lock)
#define FL_UNLOCK(fl) mtx_unlock(&(fl)->fl_lock)
#define FL_LOCK_ASSERT_OWNED(fl) mtx_assert(&(fl)->fl_lock, MA_OWNED)
#define FL_LOCK_ASSERT_NOTOWNED(fl) mtx_assert(&(fl)->fl_lock, MA_NOTOWNED)
#define RXQ_FL_LOCK(rxq) FL_LOCK(&(rxq)->fl)
#define RXQ_FL_UNLOCK(rxq) FL_UNLOCK(&(rxq)->fl)
#define RXQ_FL_LOCK_ASSERT_OWNED(rxq) FL_LOCK_ASSERT_OWNED(&(rxq)->fl)
#define RXQ_FL_LOCK_ASSERT_NOTOWNED(rxq) FL_LOCK_ASSERT_NOTOWNED(&(rxq)->fl)
#define EQ_LOCK(eq) mtx_lock(&(eq)->eq_lock)
#define EQ_TRYLOCK(eq) mtx_trylock(&(eq)->eq_lock)
#define EQ_UNLOCK(eq) mtx_unlock(&(eq)->eq_lock)
#define EQ_LOCK_ASSERT_OWNED(eq) mtx_assert(&(eq)->eq_lock, MA_OWNED)
#define EQ_LOCK_ASSERT_NOTOWNED(eq) mtx_assert(&(eq)->eq_lock, MA_NOTOWNED)
#define TXQ_LOCK(txq) EQ_LOCK(&(txq)->eq)
#define TXQ_TRYLOCK(txq) EQ_TRYLOCK(&(txq)->eq)
#define TXQ_UNLOCK(txq) EQ_UNLOCK(&(txq)->eq)
#define TXQ_LOCK_ASSERT_OWNED(txq) EQ_LOCK_ASSERT_OWNED(&(txq)->eq)
#define TXQ_LOCK_ASSERT_NOTOWNED(txq) EQ_LOCK_ASSERT_NOTOWNED(&(txq)->eq)
#define CH_DUMP_MBOX(sc, mbox, data_reg) \
do { \
if (sc->debug_flags & DF_DUMP_MBOX) { \
log(LOG_NOTICE, \
"%s mbox %u: %016llx %016llx %016llx %016llx " \
"%016llx %016llx %016llx %016llx\n", \
device_get_nameunit(sc->dev), mbox, \
(unsigned long long)t4_read_reg64(sc, data_reg), \
(unsigned long long)t4_read_reg64(sc, data_reg + 8), \
(unsigned long long)t4_read_reg64(sc, data_reg + 16), \
(unsigned long long)t4_read_reg64(sc, data_reg + 24), \
(unsigned long long)t4_read_reg64(sc, data_reg + 32), \
(unsigned long long)t4_read_reg64(sc, data_reg + 40), \
(unsigned long long)t4_read_reg64(sc, data_reg + 48), \
(unsigned long long)t4_read_reg64(sc, data_reg + 56)); \
} \
} while (0)
#define for_each_txq(vi, iter, q) \
for (q = &vi->pi->adapter->sge.txq[vi->first_txq], iter = 0; \
iter < vi->ntxq; ++iter, ++q)
#define for_each_rxq(vi, iter, q) \
for (q = &vi->pi->adapter->sge.rxq[vi->first_rxq], iter = 0; \
iter < vi->nrxq; ++iter, ++q)
#define for_each_ofld_txq(vi, iter, q) \
for (q = &vi->pi->adapter->sge.ofld_txq[vi->first_ofld_txq], iter = 0; \
iter < vi->nofldtxq; ++iter, ++q)
#define for_each_ofld_rxq(vi, iter, q) \
for (q = &vi->pi->adapter->sge.ofld_rxq[vi->first_ofld_rxq], iter = 0; \
iter < vi->nofldrxq; ++iter, ++q)
#define for_each_nm_txq(vi, iter, q) \
for (q = &vi->pi->adapter->sge.nm_txq[vi->first_nm_txq], iter = 0; \
iter < vi->nnmtxq; ++iter, ++q)
#define for_each_nm_rxq(vi, iter, q) \
for (q = &vi->pi->adapter->sge.nm_rxq[vi->first_nm_rxq], iter = 0; \
iter < vi->nnmrxq; ++iter, ++q)
#define for_each_vi(_pi, _iter, _vi) \
for ((_vi) = (_pi)->vi, (_iter) = 0; (_iter) < (_pi)->nvi; \
++(_iter), ++(_vi))
#define IDXINCR(idx, incr, wrap) do { \
idx = wrap - idx > incr ? idx + incr : incr - (wrap - idx); \
} while (0)
#define IDXDIFF(head, tail, wrap) \
((head) >= (tail) ? (head) - (tail) : (wrap) - (tail) + (head))
/* One for errors, one for firmware events */
#define T4_EXTRA_INTR 2
/* One for firmware events */
#define T4VF_EXTRA_INTR 1
static inline int
forwarding_intr_to_fwq(struct adapter *sc)
{
return (sc->intr_count == 1);
}
static inline uint32_t
t4_read_reg(struct adapter *sc, uint32_t reg)
{
return bus_space_read_4(sc->bt, sc->bh, reg);
}
static inline void
t4_write_reg(struct adapter *sc, uint32_t reg, uint32_t val)
{
bus_space_write_4(sc->bt, sc->bh, reg, val);
}
static inline uint64_t
t4_read_reg64(struct adapter *sc, uint32_t reg)
{
#ifdef __LP64__
return bus_space_read_8(sc->bt, sc->bh, reg);
#else
return (uint64_t)bus_space_read_4(sc->bt, sc->bh, reg) +
((uint64_t)bus_space_read_4(sc->bt, sc->bh, reg + 4) << 32);
#endif
}
static inline void
t4_write_reg64(struct adapter *sc, uint32_t reg, uint64_t val)
{
#ifdef __LP64__
bus_space_write_8(sc->bt, sc->bh, reg, val);
#else
bus_space_write_4(sc->bt, sc->bh, reg, val);
bus_space_write_4(sc->bt, sc->bh, reg + 4, val>> 32);
#endif
}
static inline void
t4_os_pci_read_cfg1(struct adapter *sc, int reg, uint8_t *val)
{
*val = pci_read_config(sc->dev, reg, 1);
}
static inline void
t4_os_pci_write_cfg1(struct adapter *sc, int reg, uint8_t val)
{
pci_write_config(sc->dev, reg, val, 1);
}
static inline void
t4_os_pci_read_cfg2(struct adapter *sc, int reg, uint16_t *val)
{
*val = pci_read_config(sc->dev, reg, 2);
}
static inline void
t4_os_pci_write_cfg2(struct adapter *sc, int reg, uint16_t val)
{
pci_write_config(sc->dev, reg, val, 2);
}
static inline void
t4_os_pci_read_cfg4(struct adapter *sc, int reg, uint32_t *val)
{
*val = pci_read_config(sc->dev, reg, 4);
}
static inline void
t4_os_pci_write_cfg4(struct adapter *sc, int reg, uint32_t val)
{
pci_write_config(sc->dev, reg, val, 4);
}
static inline struct port_info *
adap2pinfo(struct adapter *sc, int idx)
{
return (sc->port[idx]);
}
static inline void
t4_os_set_hw_addr(struct port_info *pi, uint8_t hw_addr[])
{
bcopy(hw_addr, pi->vi[0].hw_addr, ETHER_ADDR_LEN);
}
static inline bool
is_10G_port(const struct port_info *pi)
{
return ((pi->link_cfg.supported & FW_PORT_CAP_SPEED_10G) != 0);
}
static inline bool
is_25G_port(const struct port_info *pi)
{
return ((pi->link_cfg.supported & FW_PORT_CAP_SPEED_25G) != 0);
}
static inline bool
is_40G_port(const struct port_info *pi)
{
return ((pi->link_cfg.supported & FW_PORT_CAP_SPEED_40G) != 0);
}
static inline bool
is_100G_port(const struct port_info *pi)
{
return ((pi->link_cfg.supported & FW_PORT_CAP_SPEED_100G) != 0);
}
static inline int
port_top_speed(const struct port_info *pi)
{
if (pi->link_cfg.supported & FW_PORT_CAP_SPEED_100G)
return (100);
if (pi->link_cfg.supported & FW_PORT_CAP_SPEED_40G)
return (40);
if (pi->link_cfg.supported & FW_PORT_CAP_SPEED_25G)
return (25);
if (pi->link_cfg.supported & FW_PORT_CAP_SPEED_10G)
return (10);
if (pi->link_cfg.supported & FW_PORT_CAP_SPEED_1G)
return (1);
return (0);
}
static inline int
tx_resume_threshold(struct sge_eq *eq)
{
/* not quite the same as qsize / 4, but this will do. */
return (eq->sidx / 4);
}
static inline int
t4_use_ldst(struct adapter *sc)
{
#ifdef notyet
return (sc->flags & FW_OK || !sc->use_bd);
#else
return (0);
#endif
}
/* t4_main.c */
extern int t4_ntxq;
extern int t4_nrxq;
extern int t4_intr_types;
extern int t4_tmr_idx;
extern int t4_pktc_idx;
extern unsigned int t4_qsize_rxq;
extern unsigned int t4_qsize_txq;
extern device_method_t cxgbe_methods[];
int t4_os_find_pci_capability(struct adapter *, int);
int t4_os_pci_save_state(struct adapter *);
int t4_os_pci_restore_state(struct adapter *);
void t4_os_portmod_changed(struct port_info *);
void t4_os_link_changed(struct port_info *);
void t4_iterate(void (*)(struct adapter *, void *), void *);
void t4_init_devnames(struct adapter *);
void t4_add_adapter(struct adapter *);
int t4_detach_common(device_t);
int t4_filter_rpl(struct sge_iq *, const struct rss_header *, struct mbuf *);
int t4_map_bars_0_and_4(struct adapter *);
int t4_map_bar_2(struct adapter *);
int t4_setup_intr_handlers(struct adapter *);
void t4_sysctls(struct adapter *);
int begin_synchronized_op(struct adapter *, struct vi_info *, int, char *);
void doom_vi(struct adapter *, struct vi_info *);
void end_synchronized_op(struct adapter *, int);
int update_mac_settings(struct ifnet *, int);
int adapter_full_init(struct adapter *);
int adapter_full_uninit(struct adapter *);
uint64_t cxgbe_get_counter(struct ifnet *, ift_counter);
int vi_full_init(struct vi_info *);
int vi_full_uninit(struct vi_info *);
void vi_sysctls(struct vi_info *);
void vi_tick(void *);
#ifdef DEV_NETMAP
/* t4_netmap.c */
void cxgbe_nm_attach(struct vi_info *);
void cxgbe_nm_detach(struct vi_info *);
void t4_nm_intr(void *);
#endif
/* t4_sge.c */
void t4_sge_modload(void);
void t4_sge_modunload(void);
uint64_t t4_sge_extfree_refs(void);
void t4_tweak_chip_settings(struct adapter *);
int t4_read_chip_settings(struct adapter *);
int t4_create_dma_tag(struct adapter *);
void t4_sge_sysctls(struct adapter *, struct sysctl_ctx_list *,
struct sysctl_oid_list *);
int t4_destroy_dma_tag(struct adapter *);
int t4_setup_adapter_queues(struct adapter *);
int t4_teardown_adapter_queues(struct adapter *);
int t4_setup_vi_queues(struct vi_info *);
int t4_teardown_vi_queues(struct vi_info *);
void t4_intr_all(void *);
void t4_intr(void *);
void t4_vi_intr(void *);
void t4_intr_err(void *);
void t4_intr_evt(void *);
void t4_wrq_tx_locked(struct adapter *, struct sge_wrq *, struct wrqe *);
void t4_update_fl_bufsize(struct ifnet *);
int parse_pkt(struct adapter *, struct mbuf **);
void *start_wrq_wr(struct sge_wrq *, int, struct wrq_cookie *);
void commit_wrq_wr(struct sge_wrq *, void *, struct wrq_cookie *);
int tnl_cong(struct port_info *, int);
int t4_register_an_handler(an_handler_t);
int t4_register_fw_msg_handler(int, fw_msg_handler_t);
int t4_register_cpl_handler(int, cpl_handler_t);
/* t4_tracer.c */
struct t4_tracer;
void t4_tracer_modload(void);
void t4_tracer_modunload(void);
void t4_tracer_port_detach(struct adapter *);
int t4_get_tracer(struct adapter *, struct t4_tracer *);
int t4_set_tracer(struct adapter *, struct t4_tracer *);
int t4_trace_pkt(struct sge_iq *, const struct rss_header *, struct mbuf *);
int t5_trace_pkt(struct sge_iq *, const struct rss_header *, struct mbuf *);
/* t4_sched.c */
int t4_set_sched_class(struct adapter *, struct t4_sched_params *);
int t4_set_sched_queue(struct adapter *, struct t4_sched_queue *);
int t4_init_tx_sched(struct adapter *);
int t4_free_tx_sched(struct adapter *);
void t4_update_tx_sched(struct adapter *);
int t4_reserve_cl_rl_kbps(struct adapter *, int, u_int, int *);
void t4_release_cl_rl_kbps(struct adapter *, int, int);
static inline struct wrqe *
alloc_wrqe(int wr_len, struct sge_wrq *wrq)
{
int len = offsetof(struct wrqe, wr) + wr_len;
struct wrqe *wr;
wr = malloc(len, M_CXGBE, M_NOWAIT);
if (__predict_false(wr == NULL))
return (NULL);
wr->wr_len = wr_len;
wr->wrq = wrq;
return (wr);
}
static inline void *
wrtod(struct wrqe *wr)
{
return (&wr->wr[0]);
}
static inline void
free_wrqe(struct wrqe *wr)
{
free(wr, M_CXGBE);
}
static inline void
t4_wrq_tx(struct adapter *sc, struct wrqe *wr)
{
struct sge_wrq *wrq = wr->wrq;
TXQ_LOCK(wrq);
t4_wrq_tx_locked(sc, wrq, wr);
TXQ_UNLOCK(wrq);
}
#endif
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