1 /*- 2 * Copyright (C) 2001 Eduardo Horvath. 3 * Copyright (c) 2008 Marius Strobl <marius@FreeBSD.org> 4 * All rights reserved. 5 * 6 * Redistribution and use in source and binary forms, with or without 7 * modification, are permitted provided that the following conditions 8 * are met: 9 * 1. Redistributions of source code must retain the above copyright 10 * notice, this list of conditions and the following disclaimer. 11 * 2. Redistributions in binary form must reproduce the above copyright 12 * notice, this list of conditions and the following disclaimer in the 13 * documentation and/or other materials provided with the distribution. 14 * 15 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND 16 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE 19 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25 * SUCH DAMAGE. 26 * 27 * from: NetBSD: gemvar.h,v 1.8 2002/05/15 02:36:12 matt Exp 28 * from: FreeBSD: if_gemvar.h 177560 2008-03-24 17:23:53Z marius 29 * 30 * $FreeBSD$ 31 */ 32 33 #ifndef _IF_CASVAR_H 34 #define _IF_CASVAR_H 35 36 /* 37 * The page size is configurable, but needs to be at least 8k (the 38 * default) in order to also support jumbo buffers. 39 */ 40 #define CAS_PAGE_SIZE 8192 41 42 /* 43 * Transmit descriptor ring size - this is arbitrary, but allocate 44 * enough descriptors for 64 pending transmissions and 16 segments 45 * per packet. This limit is not actually enforced (packets with 46 * more segments can be sent, depending on the busdma backend); it 47 * is however used as an estimate for the TX window size. 48 */ 49 #define CAS_NTXSEGS 16 50 51 #define CAS_TXQUEUELEN 64 52 #define CAS_NTXDESC (CAS_TXQUEUELEN * CAS_NTXSEGS) 53 #define CAS_MAXTXFREE (CAS_NTXDESC - 1) 54 #define CAS_NTXDESC_MASK (CAS_NTXDESC - 1) 55 #define CAS_NEXTTX(x) ((x + 1) & CAS_NTXDESC_MASK) 56 57 /* 58 * Receive completion ring size - we have one completion per 59 * incoming packet (though the opposite isn't necesarrily true), 60 * so this logic is a little simpler. 61 */ 62 #define CAS_NRXCOMP 4096 63 #define CAS_NRXCOMP_MASK (CAS_NRXCOMP - 1) 64 #define CAS_NEXTRXCOMP(x) ((x + 1) & CAS_NRXCOMP_MASK) 65 66 /* 67 * Receive descriptor ring sizes - for Cassini+ and Saturn both 68 * rings must be at least initialized. 69 */ 70 #define CAS_NRXDESC 1024 71 #define CAS_NRXDESC_MASK (CAS_NRXDESC - 1) 72 #define CAS_NEXTRXDESC(x) ((x + 1) & CAS_NRXDESC_MASK) 73 #define CAS_NRXDESC2 32 74 #define CAS_NRXDESC2_MASK (CAS_NRXDESC2 - 1) 75 #define CAS_NEXTRXDESC2(x) ((x + 1) & CAS_NRXDESC2_MASK) 76 77 /* 78 * How many ticks to wait until to retry on a RX descriptor that is 79 * still owned by the hardware. 80 */ 81 #define CAS_RXOWN_TICKS (hz / 50) 82 83 /* 84 * Control structures are DMA'd to the chip. We allocate them 85 * in a single clump that maps to a single DMA segment to make 86 * several things easier. 87 */ 88 struct cas_control_data { 89 struct cas_desc ccd_txdescs[CAS_NTXDESC]; /* TX descriptors */ 90 struct cas_rx_comp ccd_rxcomps[CAS_NRXCOMP]; /* RX completions */ 91 struct cas_desc ccd_rxdescs[CAS_NRXDESC]; /* RX descriptors */ 92 struct cas_desc ccd_rxdescs2[CAS_NRXDESC2]; /* RX descriptors 2 */ 93 }; 94 95 #define CAS_CDOFF(x) offsetof(struct cas_control_data, x) 96 #define CAS_CDTXDOFF(x) CAS_CDOFF(ccd_txdescs[(x)]) 97 #define CAS_CDRXCOFF(x) CAS_CDOFF(ccd_rxcomps[(x)]) 98 #define CAS_CDRXDOFF(x) CAS_CDOFF(ccd_rxdescs[(x)]) 99 #define CAS_CDRXD2OFF(x) CAS_CDOFF(ccd_rxdescs2[(x)]) 100 101 /* 102 * software state for transmit job mbufs (may be elements of mbuf chains) 103 */ 104 struct cas_txsoft { 105 struct mbuf *txs_mbuf; /* head of our mbuf chain */ 106 bus_dmamap_t txs_dmamap; /* our DMA map */ 107 u_int txs_firstdesc; /* first descriptor in packet */ 108 u_int txs_lastdesc; /* last descriptor in packet */ 109 u_int txs_ndescs; /* number of descriptors */ 110 STAILQ_ENTRY(cas_txsoft) txs_q; 111 }; 112 113 STAILQ_HEAD(cas_txsq, cas_txsoft); 114 115 /* 116 * software state for receive descriptors 117 */ 118 struct cas_rxdsoft { 119 void *rxds_buf; /* receive buffer */ 120 bus_dmamap_t rxds_dmamap; /* our DMA map */ 121 bus_addr_t rxds_paddr; /* physical address of the segment */ 122 #if __FreeBSD_version < 800016 123 struct cas_softc *rxds_sc; /* softc pointer */ 124 u_int rxds_idx; /* our index */ 125 #endif 126 u_int rxds_refcount; /* hardware + mbuf references */ 127 }; 128 129 /* 130 * software state per device 131 */ 132 struct cas_softc { 133 struct ifnet *sc_ifp; 134 struct mtx sc_mtx; 135 device_t sc_miibus; 136 struct mii_data *sc_mii; /* MII media control */ 137 device_t sc_dev; /* generic device information */ 138 u_char sc_enaddr[ETHER_ADDR_LEN]; 139 struct callout sc_tick_ch; /* tick callout */ 140 struct callout sc_rx_ch; /* delayed RX callout */ 141 struct task sc_intr_task; 142 struct task sc_tx_task; 143 struct taskqueue *sc_tq; 144 u_int sc_wdog_timer; /* watchdog timer */ 145 146 void *sc_ih; 147 struct resource *sc_res[2]; 148 #define CAS_RES_INTR 0 149 #define CAS_RES_MEM 1 150 151 bus_dma_tag_t sc_pdmatag; /* parent bus DMA tag */ 152 bus_dma_tag_t sc_rdmatag; /* RX bus DMA tag */ 153 bus_dma_tag_t sc_tdmatag; /* TX bus DMA tag */ 154 bus_dma_tag_t sc_cdmatag; /* control data bus DMA tag */ 155 bus_dmamap_t sc_dmamap; /* bus DMA handle */ 156 157 u_int sc_variant; 158 #define CAS_UNKNOWN 0 /* don't know */ 159 #define CAS_CAS 1 /* Sun Cassini */ 160 #define CAS_CASPLUS 2 /* Sun Cassini+ */ 161 #define CAS_SATURN 3 /* National Semiconductor Saturn */ 162 163 u_int sc_flags; 164 #define CAS_INITED (1 << 0) /* reset persistent regs init'ed */ 165 #define CAS_NO_CSUM (1 << 1) /* don't use hardware checksumming */ 166 #define CAS_LINK (1 << 2) /* link is up */ 167 #define CAS_REG_PLUS (1 << 3) /* has Cassini+ registers */ 168 #define CAS_SERDES (1 << 4) /* use the SERDES */ 169 #define CAS_TABORT (1 << 5) /* has target abort issues */ 170 171 bus_dmamap_t sc_cddmamap; /* control data DMA map */ 172 bus_addr_t sc_cddma; 173 174 /* 175 * software state for transmit and receive descriptors 176 */ 177 struct cas_txsoft sc_txsoft[CAS_TXQUEUELEN]; 178 struct cas_rxdsoft sc_rxdsoft[CAS_NRXDESC]; 179 180 /* 181 * control data structures 182 */ 183 struct cas_control_data *sc_control_data; 184 #define sc_txdescs sc_control_data->ccd_txdescs 185 #define sc_rxcomps sc_control_data->ccd_rxcomps 186 #define sc_rxdescs sc_control_data->ccd_rxdescs 187 #define sc_rxdescs2 sc_control_data->ccd_rxdescs2 188 189 u_int sc_txfree; /* number of free TX descriptors */ 190 u_int sc_txnext; /* next ready TX descriptor */ 191 u_int sc_txwin; /* TX desc. since last TX intr. */ 192 193 struct cas_txsq sc_txfreeq; /* free software TX descriptors */ 194 struct cas_txsq sc_txdirtyq; /* dirty software TX descriptors */ 195 196 u_int sc_rxcptr; /* next ready RX completion */ 197 u_int sc_rxdptr; /* next ready RX descriptor */ 198 199 uint32_t sc_mac_rxcfg; /* RX MAC conf. % CAS_MAC_RX_CONF_EN */ 200 201 int sc_ifflags; 202 }; 203 204 #define CAS_BARRIER(sc, offs, len, flags) \ 205 bus_barrier((sc)->sc_res[CAS_RES_MEM], (offs), (len), (flags)) 206 207 #define CAS_READ_N(n, sc, offs) \ 208 bus_read_ ## n((sc)->sc_res[CAS_RES_MEM], (offs)) 209 #define CAS_READ_1(sc, offs) CAS_READ_N(1, (sc), (offs)) 210 #define CAS_READ_2(sc, offs) CAS_READ_N(2, (sc), (offs)) 211 #define CAS_READ_4(sc, offs) CAS_READ_N(4, (sc), (offs)) 212 213 #define CAS_WRITE_N(n, sc, offs, v) \ 214 bus_write_ ## n((sc)->sc_res[CAS_RES_MEM], (offs), (v)) 215 #define CAS_WRITE_1(sc, offs, v) CAS_WRITE_N(1, (sc), (offs), (v)) 216 #define CAS_WRITE_2(sc, offs, v) CAS_WRITE_N(2, (sc), (offs), (v)) 217 #define CAS_WRITE_4(sc, offs, v) CAS_WRITE_N(4, (sc), (offs), (v)) 218 219 #define CAS_CDTXDADDR(sc, x) ((sc)->sc_cddma + CAS_CDTXDOFF((x))) 220 #define CAS_CDRXCADDR(sc, x) ((sc)->sc_cddma + CAS_CDRXCOFF((x))) 221 #define CAS_CDRXDADDR(sc, x) ((sc)->sc_cddma + CAS_CDRXDOFF((x))) 222 #define CAS_CDRXD2ADDR(sc, x) ((sc)->sc_cddma + CAS_CDRXD2OFF((x))) 223 224 #define CAS_CDSYNC(sc, ops) \ 225 bus_dmamap_sync((sc)->sc_cdmatag, (sc)->sc_cddmamap, (ops)); 226 227 #define __CAS_UPDATE_RXDESC(rxd, rxds, s) \ 228 do { \ 229 \ 230 refcount_init(&(rxds)->rxds_refcount, 1); \ 231 (rxd)->cd_buf_ptr = htole64((rxds)->rxds_paddr); \ 232 KASSERT((s) < CAS_RD_BUF_INDEX_MASK >> CAS_RD_BUF_INDEX_SHFT, \ 233 ("%s: RX buffer index too large!", __func__)); \ 234 (rxd)->cd_flags = \ 235 htole64((uint64_t)((s) << CAS_RD_BUF_INDEX_SHFT)); \ 236 } while (0) 237 238 #define CAS_UPDATE_RXDESC(sc, d, s) \ 239 __CAS_UPDATE_RXDESC(&(sc)->sc_rxdescs[(d)], \ 240 &(sc)->sc_rxdsoft[(s)], (s)) 241 242 #if __FreeBSD_version < 800016 243 #define CAS_INIT_RXDESC(sc, d, s) \ 244 do { \ 245 struct cas_rxdsoft *__rxds = &(sc)->sc_rxdsoft[(s)]; \ 246 \ 247 __rxds->rxds_sc = (sc); \ 248 __rxds->rxds_idx = (s); \ 249 __CAS_UPDATE_RXDESC(&(sc)->sc_rxdescs[(d)], __rxds, (s)); \ 250 } while (0) 251 #else 252 #define CAS_INIT_RXDESC(sc, d, s) CAS_UPDATE_RXDESC(sc, d, s) 253 #endif 254 255 #define CAS_LOCK_INIT(_sc, _name) \ 256 mtx_init(&(_sc)->sc_mtx, _name, MTX_NETWORK_LOCK, MTX_DEF) 257 #define CAS_LOCK(_sc) mtx_lock(&(_sc)->sc_mtx) 258 #define CAS_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_mtx) 259 #define CAS_LOCK_ASSERT(_sc, _what) mtx_assert(&(_sc)->sc_mtx, (_what)) 260 #define CAS_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_mtx) 261 #define CAS_LOCK_OWNED(_sc) mtx_owned(&(_sc)->sc_mtx) 262 263 #endif 264