if_tsec.h revision 259235
1/*- 2 * Copyright (C) 2006-2007 Semihalf, Piotr Kruszynski 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions 7 * are met: 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 14 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 15 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 16 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN 17 * NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 18 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED 19 * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR 20 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF 21 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING 22 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS 23 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 24 * 25 * $FreeBSD: stable/10/sys/dev/tsec/if_tsec.h 259235 2013-12-11 22:36:20Z andreast $ 26 */ 27 28#ifndef _IF_TSEC_H 29#define _IF_TSEC_H 30 31#include <dev/ofw/openfirm.h> 32 33#define TSEC_RX_NUM_DESC 256 34#define TSEC_TX_NUM_DESC 256 35 36/* Interrupt Coalescing types */ 37#define TSEC_IC_RX 0 38#define TSEC_IC_TX 1 39 40/* eTSEC ID */ 41#define TSEC_ETSEC_ID 0x0124 42 43/* Frame sizes */ 44#define TSEC_MIN_FRAME_SIZE 64 45#define TSEC_MAX_FRAME_SIZE 9600 46 47struct tsec_softc { 48 /* XXX MII bus requires that struct ifnet is first!!! */ 49 struct ifnet *tsec_ifp; 50 51 struct mtx transmit_lock; /* transmitter lock */ 52 struct mtx receive_lock; /* receiver lock */ 53 54 phandle_t node; 55 device_t dev; 56 device_t tsec_miibus; 57 struct mii_data *tsec_mii; /* MII media control */ 58 int tsec_link; 59 60 bus_dma_tag_t tsec_tx_dtag; /* TX descriptors tag */ 61 bus_dmamap_t tsec_tx_dmap; /* TX descriptors map */ 62 struct tsec_desc *tsec_tx_vaddr;/* vadress of TX descriptors */ 63 uint32_t tsec_tx_raddr; /* real adress of TX descriptors */ 64 65 bus_dma_tag_t tsec_rx_dtag; /* RX descriptors tag */ 66 bus_dmamap_t tsec_rx_dmap; /* RX descriptors map */ 67 struct tsec_desc *tsec_rx_vaddr; /* vadress of RX descriptors */ 68 uint32_t tsec_rx_raddr; /* real adress of RX descriptors */ 69 70 bus_dma_tag_t tsec_tx_mtag; /* TX mbufs tag */ 71 bus_dma_tag_t tsec_rx_mtag; /* TX mbufs tag */ 72 73 struct rx_data_type { 74 bus_dmamap_t map; /* mbuf map */ 75 struct mbuf *mbuf; 76 uint32_t paddr; /* DMA addres of buffer */ 77 } rx_data[TSEC_RX_NUM_DESC]; 78 79 uint32_t tx_cur_desc_cnt; 80 uint32_t tx_dirty_desc_cnt; 81 uint32_t rx_cur_desc_cnt; 82 83 struct resource *sc_rres; /* register resource */ 84 int sc_rrid; /* register rid */ 85 struct { 86 bus_space_tag_t bst; 87 bus_space_handle_t bsh; 88 } sc_bas; 89 90 struct resource *sc_transmit_ires; 91 void *sc_transmit_ihand; 92 int sc_transmit_irid; 93 struct resource *sc_receive_ires; 94 void *sc_receive_ihand; 95 int sc_receive_irid; 96 struct resource *sc_error_ires; 97 void *sc_error_ihand; 98 int sc_error_irid; 99 100 int tsec_if_flags; 101 int is_etsec; 102 103 /* Watchdog and MII tick related */ 104 struct callout tsec_callout; 105 int tsec_watchdog; 106 107 /* TX maps */ 108 bus_dmamap_t tx_map_data[TSEC_TX_NUM_DESC]; 109 110 /* unused TX maps data */ 111 uint32_t tx_map_unused_get_cnt; 112 uint32_t tx_map_unused_put_cnt; 113 bus_dmamap_t *tx_map_unused_data[TSEC_TX_NUM_DESC]; 114 115 /* used TX maps data */ 116 uint32_t tx_map_used_get_cnt; 117 uint32_t tx_map_used_put_cnt; 118 bus_dmamap_t *tx_map_used_data[TSEC_TX_NUM_DESC]; 119 120 /* mbufs in TX queue */ 121 uint32_t tx_mbuf_used_get_cnt; 122 uint32_t tx_mbuf_used_put_cnt; 123 struct mbuf *tx_mbuf_used_data[TSEC_TX_NUM_DESC]; 124 125 /* interrupt coalescing */ 126 struct mtx ic_lock; 127 uint32_t rx_ic_time; /* RW, valid values 0..65535 */ 128 uint32_t rx_ic_count; /* RW, valid values 0..255 */ 129 uint32_t tx_ic_time; 130 uint32_t tx_ic_count; 131 132 /* currently received frame */ 133 struct mbuf *frame; 134 135 int phyaddr; 136 bus_space_tag_t phy_bst; 137 bus_space_handle_t phy_bsh; 138}; 139 140/* interface to get/put generic objects */ 141#define TSEC_CNT_INIT(cnt, wrap) ((cnt) = ((wrap) - 1)) 142 143#define TSEC_INC(count, wrap) (count = ((count) + 1) & ((wrap) - 1)) 144 145#define TSEC_GET_GENERIC(hand, tab, count, wrap) \ 146 ((hand)->tab[TSEC_INC((hand)->count, wrap)]) 147 148#define TSEC_PUT_GENERIC(hand, tab, count, wrap, val) \ 149 ((hand)->tab[TSEC_INC((hand)->count, wrap)] = val) 150 151#define TSEC_BACK_GENERIC(sc, count, wrap) do { \ 152 if ((sc)->count > 0) \ 153 (sc)->count--; \ 154 else \ 155 (sc)->count = (wrap) - 1; \ 156} while (0) 157 158/* TX maps interface */ 159#define TSEC_TX_MAP_CNT_INIT(sc) do { \ 160 TSEC_CNT_INIT((sc)->tx_map_unused_get_cnt, TSEC_TX_NUM_DESC); \ 161 TSEC_CNT_INIT((sc)->tx_map_unused_put_cnt, TSEC_TX_NUM_DESC); \ 162 TSEC_CNT_INIT((sc)->tx_map_used_get_cnt, TSEC_TX_NUM_DESC); \ 163 TSEC_CNT_INIT((sc)->tx_map_used_put_cnt, TSEC_TX_NUM_DESC); \ 164} while (0) 165 166/* interface to get/put unused TX maps */ 167#define TSEC_ALLOC_TX_MAP(sc) \ 168 TSEC_GET_GENERIC(sc, tx_map_unused_data, tx_map_unused_get_cnt, \ 169 TSEC_TX_NUM_DESC) 170 171#define TSEC_FREE_TX_MAP(sc, val) \ 172 TSEC_PUT_GENERIC(sc, tx_map_unused_data, tx_map_unused_put_cnt, \ 173 TSEC_TX_NUM_DESC, val) 174 175/* interface to get/put used TX maps */ 176#define TSEC_GET_TX_MAP(sc) \ 177 TSEC_GET_GENERIC(sc, tx_map_used_data, tx_map_used_get_cnt, \ 178 TSEC_TX_NUM_DESC) 179 180#define TSEC_PUT_TX_MAP(sc, val) \ 181 TSEC_PUT_GENERIC(sc, tx_map_used_data, tx_map_used_put_cnt, \ 182 TSEC_TX_NUM_DESC, val) 183 184/* interface to get/put TX mbufs in send queue */ 185#define TSEC_TX_MBUF_CNT_INIT(sc) do { \ 186 TSEC_CNT_INIT((sc)->tx_mbuf_used_get_cnt, TSEC_TX_NUM_DESC); \ 187 TSEC_CNT_INIT((sc)->tx_mbuf_used_put_cnt, TSEC_TX_NUM_DESC); \ 188} while (0) 189 190#define TSEC_GET_TX_MBUF(sc) \ 191 TSEC_GET_GENERIC(sc, tx_mbuf_used_data, tx_mbuf_used_get_cnt, \ 192 TSEC_TX_NUM_DESC) 193 194#define TSEC_PUT_TX_MBUF(sc, val) \ 195 TSEC_PUT_GENERIC(sc, tx_mbuf_used_data, tx_mbuf_used_put_cnt, \ 196 TSEC_TX_NUM_DESC, val) 197 198#define TSEC_EMPTYQ_TX_MBUF(sc) \ 199 ((sc)->tx_mbuf_used_get_cnt == (sc)->tx_mbuf_used_put_cnt) 200 201/* interface for manage tx tsec_desc */ 202#define TSEC_TX_DESC_CNT_INIT(sc) do { \ 203 TSEC_CNT_INIT((sc)->tx_cur_desc_cnt, TSEC_TX_NUM_DESC); \ 204 TSEC_CNT_INIT((sc)->tx_dirty_desc_cnt, TSEC_TX_NUM_DESC); \ 205} while (0) 206 207#define TSEC_GET_CUR_TX_DESC(sc) \ 208 &TSEC_GET_GENERIC(sc, tsec_tx_vaddr, tx_cur_desc_cnt, \ 209 TSEC_TX_NUM_DESC) 210 211#define TSEC_GET_DIRTY_TX_DESC(sc) \ 212 &TSEC_GET_GENERIC(sc, tsec_tx_vaddr, tx_dirty_desc_cnt, \ 213 TSEC_TX_NUM_DESC) 214 215#define TSEC_BACK_DIRTY_TX_DESC(sc) \ 216 TSEC_BACK_GENERIC(sc, tx_dirty_desc_cnt, TSEC_TX_NUM_DESC) 217 218#define TSEC_CUR_DIFF_DIRTY_TX_DESC(sc) \ 219 ((sc)->tx_cur_desc_cnt != (sc)->tx_dirty_desc_cnt) 220 221#define TSEC_FREE_TX_DESC(sc) \ 222 (((sc)->tx_cur_desc_cnt < (sc)->tx_dirty_desc_cnt) ? \ 223 ((sc)->tx_dirty_desc_cnt - (sc)->tx_cur_desc_cnt - 1) \ 224 : \ 225 (TSEC_TX_NUM_DESC - (sc)->tx_cur_desc_cnt \ 226 + (sc)->tx_dirty_desc_cnt - 1)) 227 228/* interface for manage rx tsec_desc */ 229#define TSEC_RX_DESC_CNT_INIT(sc) do { \ 230 TSEC_CNT_INIT((sc)->rx_cur_desc_cnt, TSEC_RX_NUM_DESC); \ 231} while (0) 232 233#define TSEC_GET_CUR_RX_DESC(sc) \ 234 &TSEC_GET_GENERIC(sc, tsec_rx_vaddr, rx_cur_desc_cnt, \ 235 TSEC_RX_NUM_DESC) 236 237#define TSEC_BACK_CUR_RX_DESC(sc) \ 238 TSEC_BACK_GENERIC(sc, rx_cur_desc_cnt, TSEC_RX_NUM_DESC) 239 240#define TSEC_GET_CUR_RX_DESC_CNT(sc) \ 241 ((sc)->rx_cur_desc_cnt) 242 243/* init all counters (for init only!) */ 244#define TSEC_TX_RX_COUNTERS_INIT(sc) do { \ 245 TSEC_TX_MAP_CNT_INIT(sc); \ 246 TSEC_TX_MBUF_CNT_INIT(sc); \ 247 TSEC_TX_DESC_CNT_INIT(sc); \ 248 TSEC_RX_DESC_CNT_INIT(sc); \ 249} while (0) 250 251/* read/write bus functions */ 252#define TSEC_READ(sc, reg) \ 253 bus_space_read_4((sc)->sc_bas.bst, (sc)->sc_bas.bsh, (reg)) 254#define TSEC_WRITE(sc, reg, val) \ 255 bus_space_write_4((sc)->sc_bas.bst, (sc)->sc_bas.bsh, (reg), (val)) 256 257extern struct mtx tsec_phy_mtx; 258#define TSEC_PHY_LOCK(sc) mtx_lock(&tsec_phy_mtx) 259#define TSEC_PHY_UNLOCK(sc) mtx_unlock(&tsec_phy_mtx) 260#define TSEC_PHY_READ(sc, reg) \ 261 bus_space_read_4((sc)->phy_bst, (sc)->phy_bsh, (reg)) 262#define TSEC_PHY_WRITE(sc, reg, val) \ 263 bus_space_write_4((sc)->phy_bst, (sc)->phy_bsh, (reg), (val)) 264 265/* Lock for transmitter */ 266#define TSEC_TRANSMIT_LOCK(sc) do { \ 267 mtx_assert(&(sc)->receive_lock, MA_NOTOWNED); \ 268 mtx_lock(&(sc)->transmit_lock); \ 269} while (0) 270 271#define TSEC_TRANSMIT_UNLOCK(sc) mtx_unlock(&(sc)->transmit_lock) 272#define TSEC_TRANSMIT_LOCK_ASSERT(sc) mtx_assert(&(sc)->transmit_lock, MA_OWNED) 273 274/* Lock for receiver */ 275#define TSEC_RECEIVE_LOCK(sc) do { \ 276 mtx_assert(&(sc)->transmit_lock, MA_NOTOWNED); \ 277 mtx_lock(&(sc)->receive_lock); \ 278} while (0) 279 280#define TSEC_RECEIVE_UNLOCK(sc) mtx_unlock(&(sc)->receive_lock) 281#define TSEC_RECEIVE_LOCK_ASSERT(sc) mtx_assert(&(sc)->receive_lock, MA_OWNED) 282 283/* Lock for interrupts coalescing */ 284#define TSEC_IC_LOCK(sc) do { \ 285 mtx_assert(&(sc)->ic_lock, MA_NOTOWNED); \ 286 mtx_lock(&(sc)->ic_lock); \ 287} while (0) 288 289#define TSEC_IC_UNLOCK(sc) mtx_unlock(&(sc)->ic_lock) 290#define TSEC_IC_LOCK_ASSERT(sc) mtx_assert(&(sc)->ic_lock, MA_OWNED) 291 292/* Global tsec lock (with all locks) */ 293#define TSEC_GLOBAL_LOCK(sc) do { \ 294 if ((mtx_owned(&(sc)->transmit_lock) ? 1 : 0) != \ 295 (mtx_owned(&(sc)->receive_lock) ? 1 : 0)) { \ 296 panic("tsec deadlock possibility detection!"); \ 297 } \ 298 mtx_lock(&(sc)->transmit_lock); \ 299 mtx_lock(&(sc)->receive_lock); \ 300} while (0) 301 302#define TSEC_GLOBAL_UNLOCK(sc) do { \ 303 TSEC_RECEIVE_UNLOCK(sc); \ 304 TSEC_TRANSMIT_UNLOCK(sc); \ 305} while (0) 306 307#define TSEC_GLOBAL_LOCK_ASSERT(sc) do { \ 308 TSEC_TRANSMIT_LOCK_ASSERT(sc); \ 309 TSEC_RECEIVE_LOCK_ASSERT(sc); \ 310} while (0) 311 312/* From global to {transmit,receive} */ 313#define TSEC_GLOBAL_TO_TRANSMIT_LOCK(sc) do { \ 314 mtx_unlock(&(sc)->receive_lock);\ 315} while (0) 316 317#define TSEC_GLOBAL_TO_RECEIVE_LOCK(sc) do { \ 318 mtx_unlock(&(sc)->transmit_lock);\ 319} while (0) 320 321struct tsec_desc { 322 volatile uint16_t flags; /* descriptor flags */ 323 volatile uint16_t length; /* buffer length */ 324 volatile uint32_t bufptr; /* buffer pointer */ 325}; 326 327#define TSEC_READ_RETRY 10000 328#define TSEC_READ_DELAY 100 329 330/* Structures and defines for TCP/IP Off-load */ 331struct tsec_tx_fcb { 332 volatile uint16_t flags; 333 volatile uint8_t l4_offset; 334 volatile uint8_t l3_offset; 335 volatile uint16_t ph_chsum; 336 volatile uint16_t vlan; 337}; 338 339struct tsec_rx_fcb { 340 volatile uint16_t flags; 341 volatile uint8_t rq_index; 342 volatile uint8_t protocol; 343 volatile uint16_t unused; 344 volatile uint16_t vlan; 345}; 346 347#define TSEC_CHECKSUM_FEATURES (CSUM_IP | CSUM_TCP | CSUM_UDP) 348 349#define TSEC_TX_FCB_IP4 TSEC_TX_FCB_L3_IS_IP 350#define TSEC_TX_FCB_IP6 (TSEC_TX_FCB_L3_IS_IP | TSEC_TX_FCB_L3_IS_IP6) 351 352#define TSEC_TX_FCB_TCP TSEC_TX_FCB_L4_IS_TCP_UDP 353#define TSEC_TX_FCB_UDP (TSEC_TX_FCB_L4_IS_TCP_UDP | TSEC_TX_FCB_L4_IS_UDP) 354 355#define TSEC_RX_FCB_IP_CSUM_CHECKED(flags) \ 356 ((flags & (TSEC_RX_FCB_IP_FOUND | TSEC_RX_FCB_IP6_FOUND | \ 357 TSEC_RX_FCB_IP_CSUM | TSEC_RX_FCB_PARSE_ERROR)) \ 358 == (TSEC_RX_FCB_IP_FOUND | TSEC_RX_FCB_IP_CSUM)) 359 360#define TSEC_RX_FCB_TCP_UDP_CSUM_CHECKED(flags) \ 361 ((flags & (TSEC_RX_FCB_TCP_UDP_FOUND | TSEC_RX_FCB_TCP_UDP_CSUM \ 362 | TSEC_RX_FCB_PARSE_ERROR)) \ 363 == (TSEC_RX_FCB_TCP_UDP_FOUND | TSEC_RX_FCB_TCP_UDP_CSUM)) 364 365/* Prototypes */ 366extern devclass_t tsec_devclass; 367 368int tsec_attach(struct tsec_softc *sc); 369int tsec_detach(struct tsec_softc *sc); 370 371void tsec_error_intr(void *arg); 372void tsec_receive_intr(void *arg); 373void tsec_transmit_intr(void *arg); 374 375int tsec_miibus_readreg(device_t dev, int phy, int reg); 376int tsec_miibus_writereg(device_t dev, int phy, int reg, int value); 377void tsec_miibus_statchg(device_t dev); 378int tsec_resume(device_t dev); /* XXX */ 379int tsec_shutdown(device_t dev); 380int tsec_suspend(device_t dev); /* XXX */ 381 382void tsec_get_hwaddr(struct tsec_softc *sc, uint8_t *addr); 383 384#endif /* _IF_TSEC_H */ 385