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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: release/9.1.0/sys/dev/cxgbe/adapter.h 238302 2012-07-09 17:25:56Z np $ * */ #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/malloc.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_media.h> #include <netinet/in.h> #include <netinet/tcp_lro.h> #include "offload.h" #include "firmware/t4fw_interface.h" #define T4_CFGNAME "t4fw_cfg" #define T4_FWNAME "t4fw" 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 #ifdef __amd64__ /* XXX: need systemwide bus_space_read_8/bus_space_write_8 */ static __inline uint64_t t4_bus_space_read_8(bus_space_tag_t tag, bus_space_handle_t handle, bus_size_t offset) { KASSERT(tag == X86_BUS_SPACE_MEM, ("%s: can only handle mem space", __func__)); return (*(volatile uint64_t *)(handle + offset)); } static __inline void t4_bus_space_write_8(bus_space_tag_t tag, bus_space_handle_t bsh, bus_size_t offset, uint64_t value) { KASSERT(tag == X86_BUS_SPACE_MEM, ("%s: can only handle mem space", __func__)); *(volatile uint64_t *)(bsh + offset) = value; } #else static __inline uint64_t t4_bus_space_read_8(bus_space_tag_t tag, bus_space_handle_t handle, bus_size_t offset) { return (uint64_t)bus_space_read_4(tag, handle, offset) + ((uint64_t)bus_space_read_4(tag, handle, offset + 4) << 32); } static __inline void t4_bus_space_write_8(bus_space_tag_t tag, bus_space_handle_t bsh, bus_size_t offset, uint64_t value) { bus_space_write_4(tag, bsh, offset, value); bus_space_write_4(tag, bsh, offset + 4, value >> 32); } #endif struct adapter; typedef struct adapter adapter_t; enum { FW_IQ_QSIZE = 256, FW_IQ_ESIZE = 64, /* At least 64 mandated by the firmware spec */ RX_IQ_QSIZE = 1024, RX_IQ_ESIZE = 64, /* At least 64 so CPL_RX_PKT will fit */ EQ_ESIZE = 64, /* All egress queues use this entry size */ RX_FL_ESIZE = EQ_ESIZE, /* 8 64bit addresses */ #if MJUMPAGESIZE != MCLBYTES FL_BUF_SIZES = 4, /* cluster, jumbop, jumbo9k, jumbo16k */ #else FL_BUF_SIZES = 3, /* cluster, jumbo9k, jumbo16k */ #endif CTRL_EQ_QSIZE = 128, TX_EQ_QSIZE = 1024, TX_SGL_SEGS = 36, 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 { /* adapter flags */ FULL_INIT_DONE = (1 << 0), FW_OK = (1 << 1), INTR_DIRECT = (1 << 2), /* direct interrupts for everything */ MASTER_PF = (1 << 3), ADAP_SYSCTL_CTX = (1 << 4), TOM_INIT_DONE = (1 << 5), CXGBE_BUSY = (1 << 9), /* port flags */ DOOMED = (1 << 0), PORT_INIT_DONE = (1 << 1), PORT_SYSCTL_CTX = (1 << 2), }; #define IS_DOOMED(pi) (pi->flags & DOOMED) #define SET_DOOMED(pi) do {pi->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 port_info { device_t dev; struct adapter *adapter; struct ifnet *ifp; struct ifmedia media; struct mtx pi_lock; char lockname[16]; unsigned long flags; int if_flags; 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 */ 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; /* 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 nrxq; /* # of rx queues */ int first_rxq; /* index of first rx queue */ #ifdef TCP_OFFLOAD 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 */ #endif int tmr_idx; int pktc_idx; int qsize_rxq; int qsize_txq; struct link_config link_cfg; struct port_stats stats; eventhandler_tag vlan_c; 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 fl_sdesc { struct mbuf *m; bus_dmamap_t map; caddr_t cl; uint8_t tag_idx; /* the sc->fl_tag this map comes from */ #ifdef INVARIANTS __be64 ba_tag; #endif }; struct tx_desc { __be64 flit[8]; }; struct tx_map { struct mbuf *m; bus_dmamap_t map; }; /* DMA maps used for tx */ struct tx_maps { struct tx_map *maps; uint32_t map_total; /* # of DMA maps */ uint32_t map_pidx; /* next map to be used */ uint32_t map_cidx; /* reclaimed up to this index */ uint32_t map_avail; /* # of available maps */ }; struct tx_sdesc { uint8_t desc_used; /* # of hardware descriptors used by the WR */ uint8_t credits; /* NIC txq: # of frames sent out in the WR */ }; enum { /* iq flags */ IQ_ALLOCATED = (1 << 0), /* firmware resources allocated */ IQ_HAS_FL = (1 << 1), /* iq associated with a freelist */ IQ_INTR = (1 << 2), /* iq takes direct interrupt */ IQ_LRO_ENABLED = (1 << 3), /* iq is an eth rxq with LRO enabled */ /* iq state */ IQS_DISABLED = 0, IQS_BUSY = 1, IQS_IDLE = 2, }; /* * Ingress Queue: T4 is producer, driver is consumer. */ struct sge_iq { bus_dma_tag_t desc_tag; bus_dmamap_t desc_map; bus_addr_t ba; /* bus address of descriptor ring */ char lockname[16]; uint32_t flags; uint16_t abs_id; /* absolute SGE id for the iq */ int8_t intr_pktc_idx; /* packet count threshold index */ int8_t pad0; __be64 *desc; /* KVA of descriptor ring */ volatile int state; struct adapter *adapter; const __be64 *cdesc; /* current descriptor */ uint8_t gen; /* generation bit */ uint8_t intr_params; /* interrupt holdoff parameters */ uint8_t intr_next; /* XXX: holdoff for next interrupt */ uint8_t esize; /* size (bytes) of each entry in the queue */ uint16_t qsize; /* size (# of entries) of the queue */ uint16_t cidx; /* consumer index */ uint16_t cntxt_id; /* SGE context id for the iq */ STAILQ_ENTRY(sge_iq) link; }; enum { EQ_CTRL = 1, EQ_ETH = 2, #ifdef TCP_OFFLOAD EQ_OFLD = 3, #endif /* eq flags */ EQ_TYPEMASK = 7, /* 3 lsbits hold the type */ EQ_ALLOCATED = (1 << 3), /* firmware resources allocated */ EQ_DOOMED = (1 << 4), /* about to be destroyed */ EQ_CRFLUSHED = (1 << 5), /* expecting an update from SGE */ EQ_STALLED = (1 << 6), /* out of hw descriptors or dmamaps */ }; /* * 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 */ bus_dma_tag_t desc_tag; bus_dmamap_t desc_map; char lockname[16]; struct mtx eq_lock; struct tx_desc *desc; /* KVA of descriptor ring */ bus_addr_t ba; /* bus address of descriptor ring */ struct sge_qstat *spg; /* status page, for convenience */ uint16_t cap; /* max # of desc, for convenience */ uint16_t avail; /* available descriptors, for convenience */ uint16_t qsize; /* size (# of entries) of the queue */ uint16_t cidx; /* consumer idx (desc idx) */ uint16_t pidx; /* producer idx (desc idx) */ uint16_t pending; /* # of descriptors used since last doorbell */ uint16_t iqid; /* iq that gets egr_update for the eq */ uint8_t tx_chan; /* tx channel used by the eq */ struct task tx_task; struct callout tx_callout; /* stats */ uint32_t egr_update; /* # of SGE_EGR_UPDATE notifications for eq */ uint32_t unstalled; /* recovered from stall */ }; enum { FL_STARVING = (1 << 0), /* on the adapter's list of starving fl's */ FL_DOOMED = (1 << 1), /* about to be destroyed */ }; #define FL_RUNNING_LOW(fl) (fl->cap - fl->needed <= fl->lowat) #define FL_NOT_RUNNING_LOW(fl) (fl->cap - fl->needed >= 2 * fl->lowat) struct sge_fl { bus_dma_tag_t desc_tag; bus_dmamap_t desc_map; bus_dma_tag_t tag[FL_BUF_SIZES]; uint8_t tag_idx; struct mtx fl_lock; char lockname[16]; int flags; __be64 *desc; /* KVA of descriptor ring, ptr to addresses */ bus_addr_t ba; /* bus address of descriptor ring */ struct fl_sdesc *sdesc; /* KVA of software descriptor ring */ uint32_t cap; /* max # of buffers, for convenience */ uint16_t qsize; /* size (# of entries) of the queue */ uint16_t cntxt_id; /* SGE context id for the freelist */ uint32_t cidx; /* consumer idx (buffer idx, NOT hw desc idx) */ uint32_t pidx; /* producer idx (buffer idx, NOT hw desc idx) */ uint32_t needed; /* # of buffers needed to fill up fl. */ uint32_t lowat; /* # of buffers <= this means fl needs help */ uint32_t pending; /* # of bufs allocated since last doorbell */ unsigned int dmamap_failed; TAILQ_ENTRY(sge_fl) link; /* All starving freelists */ }; /* 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 */ bus_dma_tag_t tx_tag; /* tag for transmit buffers */ struct buf_ring *br; /* tx buffer ring */ struct tx_sdesc *sdesc; /* KVA of software descriptor ring */ struct mbuf *m; /* held up due to temporary resource shortage */ struct tx_maps txmaps; /* 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 txpkts_wrs; /* # of coalesced tx work requests */ uint64_t txpkts_pkts; /* # of frames in coalesced tx work requests */ /* stats for not-that-common events */ uint32_t no_dmamap; /* no DMA map to load the mbuf */ uint32_t no_desc; /* out of hardware descriptors */ } __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 (member2struct(sge_rxq, iq, iq)); } #ifdef TCP_OFFLOAD /* 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 (member2struct(sge_ofld_rxq, iq, iq)); } #endif struct wrqe { STAILQ_ENTRY(wrqe) link; struct sge_wrq *wrq; int wr_len; uint64_t wr[] __aligned(16); }; /* * 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; /* List of WRs held up due to lack of tx descriptors */ STAILQ_HEAD(, wrqe) wr_list; /* stats for common events first */ uint64_t tx_wrs; /* # of tx work requests */ /* stats for not-that-common events */ uint32_t no_desc; /* out of hardware descriptors */ } __aligned(CACHE_LINE_SIZE); struct sge { int timer_val[SGE_NTIMERS]; int counter_val[SGE_NCOUNTERS]; int fl_starve_threshold; int nrxq; /* total # of Ethernet rx queues */ int ntxq; /* total # of Ethernet tx tx queues */ #ifdef TCP_OFFLOAD int nofldrxq; /* total # of TOE rx queues */ int nofldtxq; /* total # of TOE tx queues */ #endif 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 */ #ifdef TCP_OFFLOAD struct sge_wrq *ofld_txq; /* TOE tx queues */ struct sge_ofld_rxq *ofld_rxq; /* TOE rx queues */ #endif uint16_t iq_start; int eq_start; struct sge_iq **iqmap; /* iq->cntxt_id to iq mapping */ struct sge_eq **eqmap; /* eq->cntxt_id to eq mapping */ }; 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 *); struct adapter { SLIST_ENTRY(adapter) link; device_t dev; struct cdev *cdev; /* 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; unsigned int pf; unsigned int mbox; /* Interrupt information */ int intr_type; int intr_count; struct irq { struct resource *res; int rid; void *tag; } *irq; bus_dma_tag_t dmat; /* Parent DMA tag */ struct sge sge; struct taskqueue *tq[NCHAN]; /* taskqueues that flush data out */ struct port_info *port[MAX_NPORTS]; uint8_t chan_map[NCHAN]; uint32_t filter_mode; #ifdef TCP_OFFLOAD void *tom_softc; /* (struct tom_data *) */ struct tom_tunables tt; #endif struct l2t_data *l2t; /* L2 table */ struct tid_info tids; int open_device_map; #ifdef TCP_OFFLOAD int offload_map; #endif int flags; char fw_version[32]; unsigned int cfcsum; struct adapter_params params; struct t4_virt_res vres; uint16_t linkcaps; uint16_t niccaps; uint16_t toecaps; uint16_t rdmacaps; 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; an_handler_t an_handler __aligned(CACHE_LINE_SIZE); cpl_handler_t cpl_handler[256]; }; #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 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 for_each_txq(pi, iter, txq) \ txq = &pi->adapter->sge.txq[pi->first_txq]; \ for (iter = 0; iter < pi->ntxq; ++iter, ++txq) #define for_each_rxq(pi, iter, rxq) \ rxq = &pi->adapter->sge.rxq[pi->first_rxq]; \ for (iter = 0; iter < pi->nrxq; ++iter, ++rxq) #define for_each_ofld_txq(pi, iter, ofld_txq) \ ofld_txq = &pi->adapter->sge.ofld_txq[pi->first_ofld_txq]; \ for (iter = 0; iter < pi->nofldtxq; ++iter, ++ofld_txq) #define for_each_ofld_rxq(pi, iter, ofld_rxq) \ ofld_rxq = &pi->adapter->sge.ofld_rxq[pi->first_ofld_rxq]; \ for (iter = 0; iter < pi->nofldrxq; ++iter, ++ofld_rxq) /* One for errors, one for firmware events */ #define T4_EXTRA_INTR 2 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) { return t4_bus_space_read_8(sc->bt, sc->bh, reg); } static inline void t4_write_reg64(struct adapter *sc, uint32_t reg, uint64_t val) { t4_bus_space_write_8(sc->bt, sc->bh, reg, val); } 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 adapter *sc, int idx, uint8_t hw_addr[]) { bcopy(hw_addr, sc->port[idx]->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 int tx_resume_threshold(struct sge_eq *eq) { return (eq->qsize / 4); } /* t4_main.c */ void t4_tx_task(void *, int); void t4_tx_callout(void *); 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(const struct adapter *, int); void t4_os_link_changed(struct adapter *, int, int); void t4_iterate(void (*)(struct adapter *, void *), void *); int t4_register_cpl_handler(struct adapter *, int, cpl_handler_t); int t4_register_an_handler(struct adapter *, an_handler_t); /* t4_sge.c */ void t4_sge_modload(void); int t4_sge_init(struct adapter *); int t4_create_dma_tag(struct adapter *); int t4_destroy_dma_tag(struct adapter *); int t4_setup_adapter_queues(struct adapter *); int t4_teardown_adapter_queues(struct adapter *); int t4_setup_port_queues(struct port_info *); int t4_teardown_port_queues(struct port_info *); int t4_alloc_tx_maps(struct tx_maps *, bus_dma_tag_t, int, int); void t4_free_tx_maps(struct tx_maps *, bus_dma_tag_t); void t4_intr_all(void *); void t4_intr(void *); void t4_intr_err(void *); void t4_intr_evt(void *); void t4_wrq_tx_locked(struct adapter *, struct sge_wrq *, struct wrqe *); int t4_eth_tx(struct ifnet *, struct sge_txq *, struct mbuf *); void t4_update_fl_bufsize(struct ifnet *); int can_resume_tx(struct sge_eq *); 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