efa.c revision 1.1
1 1.1 rkujawa /* $NetBSD: efa.c,v 1.1 2011/10/27 22:12:23 rkujawa Exp $ */ 2 1.1 rkujawa 3 1.1 rkujawa /*- 4 1.1 rkujawa * Copyright (c) 2011 The NetBSD Foundation, Inc. 5 1.1 rkujawa * All rights reserved. 6 1.1 rkujawa * 7 1.1 rkujawa * This code is derived from software contributed to The NetBSD Foundation 8 1.1 rkujawa * by Radoslaw Kujawa. 9 1.1 rkujawa * 10 1.1 rkujawa * Redistribution and use in source and binary forms, with or without 11 1.1 rkujawa * modification, are permitted provided that the following conditions 12 1.1 rkujawa * are met: 13 1.1 rkujawa * 1. Redistributions of source code must retain the above copyright 14 1.1 rkujawa * notice, this list of conditions and the following disclaimer. 15 1.1 rkujawa * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 rkujawa * notice, this list of conditions and the following disclaimer in the 17 1.1 rkujawa * documentation and/or other materials provided with the distribution. 18 1.1 rkujawa * 19 1.1 rkujawa * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 rkujawa * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 rkujawa * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 rkujawa * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 rkujawa * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 rkujawa * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 rkujawa * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 rkujawa * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 rkujawa * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 rkujawa * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 rkujawa * POSSIBILITY OF SUCH DAMAGE. 30 1.1 rkujawa */ 31 1.1 rkujawa 32 1.1 rkujawa /* 33 1.1 rkujawa * Driver for FastATA 1200 EIDE controller, manufactured by ELBOX Computer. 34 1.1 rkujawa * 35 1.1 rkujawa * Gayle-related stuff inspired by wdc_amiga.c written by Michael L. Hitch 36 1.1 rkujawa * and Aymeric Vincent. 37 1.1 rkujawa */ 38 1.1 rkujawa 39 1.1 rkujawa #include <sys/cdefs.h> 40 1.1 rkujawa 41 1.1 rkujawa #include <sys/types.h> 42 1.1 rkujawa #include <sys/param.h> 43 1.1 rkujawa #include <sys/systm.h> 44 1.1 rkujawa #include <sys/malloc.h> 45 1.1 rkujawa #include <sys/device.h> 46 1.1 rkujawa #include <sys/bus.h> 47 1.1 rkujawa #include <sys/proc.h> 48 1.1 rkujawa #include <sys/kernel.h> 49 1.1 rkujawa #include <sys/kthread.h> 50 1.1 rkujawa 51 1.1 rkujawa #include <machine/cpu.h> 52 1.1 rkujawa #include <machine/intr.h> 53 1.1 rkujawa #include <sys/bswap.h> 54 1.1 rkujawa 55 1.1 rkujawa #include <amiga/amiga/cia.h> 56 1.1 rkujawa #include <amiga/amiga/custom.h> 57 1.1 rkujawa #include <amiga/amiga/device.h> 58 1.1 rkujawa #include <amiga/amiga/gayle.h> 59 1.1 rkujawa #include <amiga/dev/zbusvar.h> 60 1.1 rkujawa 61 1.1 rkujawa #include <dev/ata/atavar.h> 62 1.1 rkujawa #include <dev/ic/wdcvar.h> 63 1.1 rkujawa 64 1.1 rkujawa #include <amiga/dev/efareg.h> 65 1.1 rkujawa #include <amiga/dev/efavar.h> 66 1.1 rkujawa 67 1.1 rkujawa /* #define EFA_32BIT_IO 1 */ 68 1.1 rkujawa /* #define EFA_NO_INTR 1 */ 69 1.1 rkujawa /* #define EFA_DEBUG 1 */ 70 1.1 rkujawa 71 1.1 rkujawa int efa_probe(device_t, cfdata_t, void *); 72 1.1 rkujawa void efa_attach(device_t, device_t, void *); 73 1.1 rkujawa int efa_intr(void *); 74 1.1 rkujawa int efa_intr_soft(void *arg); 75 1.1 rkujawa static void efa_set_opts(struct efa_softc *sc); 76 1.1 rkujawa static bool efa_mapbase(struct efa_softc *sc); 77 1.1 rkujawa static bool efa_mapreg_gayle(struct efa_softc *sc); 78 1.1 rkujawa static bool efa_mapreg_native(struct efa_softc *sc); 79 1.1 rkujawa static void efa_fata_subregion_pio0(struct wdc_regs *wdr_fata); 80 1.1 rkujawa static void efa_fata_subregion_pion(struct wdc_regs *wdr_fata, bool data32); 81 1.1 rkujawa static void efa_setup_channel(struct ata_channel *chp); 82 1.1 rkujawa static void efa_attach_channel(struct efa_softc *sc, int i); 83 1.1 rkujawa static void efa_select_regset(struct efa_softc *sc, int chnum, 84 1.1 rkujawa uint8_t piomode); 85 1.1 rkujawa static void efa_poll_kthread(void *arg); 86 1.1 rkujawa #ifdef EFA_DEBUG 87 1.1 rkujawa static void efa_debug_print_regmapping(struct wdc_regs *wdr_fata); 88 1.1 rkujawa #endif /* EFA_DEBUG */ 89 1.1 rkujawa 90 1.1 rkujawa CFATTACH_DECL_NEW(efa, sizeof(struct efa_softc), 91 1.1 rkujawa efa_probe, efa_attach, NULL, NULL); 92 1.1 rkujawa 93 1.1 rkujawa #define PIO_NSUPP 0xFFFFFFFF 94 1.1 rkujawa 95 1.1 rkujawa static const bus_addr_t pio_offsets[] = 96 1.1 rkujawa { FATA1_PIO0_OFF, PIO_NSUPP, PIO_NSUPP, FATA1_PIO3_OFF, FATA1_PIO4_OFF, 97 1.1 rkujawa FATA1_PIO5_OFF }; 98 1.1 rkujawa static const unsigned int wdr_offsets_pio0[] = 99 1.1 rkujawa { FATA1_PIO0_OFF_DATA, FATA1_PIO0_OFF_ERROR, FATA1_PIO0_OFF_SECCNT, 100 1.1 rkujawa FATA1_PIO0_OFF_SECTOR, FATA1_PIO0_OFF_CYL_LO, FATA1_PIO0_OFF_CYL_HI, 101 1.1 rkujawa FATA1_PIO0_OFF_SDH, FATA1_PIO0_OFF_COMMAND }; 102 1.1 rkujawa static const unsigned int wdr_offsets_pion[] = 103 1.1 rkujawa { FATA1_PION_OFF_DATA, FATA1_PION_OFF_ERROR, FATA1_PION_OFF_SECCNT, 104 1.1 rkujawa FATA1_PION_OFF_SECTOR, FATA1_PION_OFF_CYL_LO, FATA1_PION_OFF_CYL_HI, 105 1.1 rkujawa FATA1_PION_OFF_SDH, FATA1_PION_OFF_COMMAND }; 106 1.1 rkujawa static const unsigned int wdr_offsets_pion32[] = 107 1.1 rkujawa { FATA1_PION_OFF_DATA32, FATA1_PION_OFF_ERROR, FATA1_PION_OFF_SECCNT, 108 1.1 rkujawa FATA1_PION_OFF_SECTOR, FATA1_PION_OFF_CYL_LO, FATA1_PION_OFF_CYL_HI, 109 1.1 rkujawa FATA1_PION_OFF_SDH, FATA1_PION_OFF_COMMAND }; 110 1.1 rkujawa 111 1.1 rkujawa int 112 1.1 rkujawa efa_probe(device_t parent, cfdata_t cfp, void *aux) 113 1.1 rkujawa { 114 1.1 rkujawa /* FastATA 1200 uses portions of Gayle IDE interface, and efa driver 115 1.1 rkujawa * can't coexist with wdc_amiga. Match "wdc" on an A1200, because 116 1.1 rkujawa * FastATA 1200 does not autoconfigure. */ 117 1.1 rkujawa if( !matchname(aux, "wdc") || !is_a1200() ) 118 1.1 rkujawa return(0); 119 1.1 rkujawa 120 1.1 rkujawa return 100; 121 1.1 rkujawa } 122 1.1 rkujawa 123 1.1 rkujawa void 124 1.1 rkujawa efa_attach(device_t parent, device_t self, void *aux) 125 1.1 rkujawa { 126 1.1 rkujawa int i; 127 1.1 rkujawa struct efa_softc *sc = device_private(self); 128 1.1 rkujawa 129 1.1 rkujawa aprint_normal(": ELBOX FastATA 1200\n"); 130 1.1 rkujawa 131 1.1 rkujawa gayle_init(); 132 1.1 rkujawa 133 1.1 rkujawa sc->sc_dev = self; 134 1.1 rkujawa 135 1.1 rkujawa efa_set_opts(sc); 136 1.1 rkujawa 137 1.1 rkujawa if(!efa_mapbase(sc)) { 138 1.1 rkujawa aprint_error_dev(self, "couldn't map base addresses\n"); 139 1.1 rkujawa return; 140 1.1 rkujawa } 141 1.1 rkujawa if(!efa_mapreg_gayle(sc)) { 142 1.1 rkujawa aprint_error_dev(self, "couldn't map Gayle registers\n"); 143 1.1 rkujawa return; 144 1.1 rkujawa } 145 1.1 rkujawa if(!efa_mapreg_native(sc)) { 146 1.1 rkujawa aprint_error_dev(self, "couldn't map FastATA regsters\n"); 147 1.1 rkujawa return; 148 1.1 rkujawa } 149 1.1 rkujawa 150 1.1 rkujawa sc->sc_wdcdev.sc_atac.atac_pio_cap = 5; 151 1.1 rkujawa sc->sc_wdcdev.sc_atac.atac_nchannels = FATA1_CHANNELS; 152 1.1 rkujawa sc->sc_wdcdev.sc_atac.atac_set_modes = efa_setup_channel; 153 1.1 rkujawa sc->sc_wdcdev.sc_atac.atac_dev = self; 154 1.1 rkujawa sc->sc_wdcdev.sc_atac.atac_channels = sc->sc_chanlist; 155 1.1 rkujawa 156 1.1 rkujawa if(sc->sc_32bit_io) 157 1.1 rkujawa sc->sc_wdcdev.sc_atac.atac_cap = ATAC_CAP_DATA32; 158 1.1 rkujawa else 159 1.1 rkujawa sc->sc_wdcdev.sc_atac.atac_cap = ATAC_CAP_DATA16; 160 1.1 rkujawa /* 161 1.1 rkujawa * The following should work for polling mode, but it does not. 162 1.1 rkujawa * if(sc->sc_no_intr) 163 1.1 rkujawa * sc->sc_wdcdev.sc_atac.atac_cap |= ATAC_CAP_NOIRQ; 164 1.1 rkujawa */ 165 1.1 rkujawa 166 1.1 rkujawa wdc_allocate_regs(&sc->sc_wdcdev); 167 1.1 rkujawa 168 1.1 rkujawa sc->sc_intreg = &gayle.intreq; 169 1.1 rkujawa 170 1.1 rkujawa for(i = 0; i < FATA1_CHANNELS; i++) { 171 1.1 rkujawa efa_attach_channel(sc, i); 172 1.1 rkujawa } 173 1.1 rkujawa 174 1.1 rkujawa if(sc->sc_no_intr) { 175 1.1 rkujawa sc->sc_fata_softintr = softint_establish(SOFTINT_BIO, 176 1.1 rkujawa (void (*)(void *))efa_intr_soft, sc); 177 1.1 rkujawa if (sc->sc_fata_softintr == NULL) { 178 1.1 rkujawa aprint_error_dev(self, "couldn't create soft intr\n"); 179 1.1 rkujawa return; 180 1.1 rkujawa } 181 1.1 rkujawa if (kthread_create(PRI_NONE, 0, NULL, efa_poll_kthread, sc, 182 1.1 rkujawa NULL, "efa")) { 183 1.1 rkujawa aprint_error_dev(self, "couldn't create kthread\n"); 184 1.1 rkujawa return; 185 1.1 rkujawa } 186 1.1 rkujawa } else { 187 1.1 rkujawa sc->sc_isr.isr_intr = efa_intr; 188 1.1 rkujawa sc->sc_isr.isr_arg = sc; 189 1.1 rkujawa sc->sc_isr.isr_ipl = 2; 190 1.1 rkujawa add_isr (&sc->sc_isr); 191 1.1 rkujawa gayle.intena |= GAYLE_INT_IDE; 192 1.1 rkujawa } 193 1.1 rkujawa 194 1.1 rkujawa } 195 1.1 rkujawa 196 1.1 rkujawa static void 197 1.1 rkujawa efa_attach_channel(struct efa_softc *sc, int chnum) 198 1.1 rkujawa { 199 1.1 rkujawa sc->sc_chanlist[chnum] = &sc->sc_ports[chnum].chan; 200 1.1 rkujawa 201 1.1 rkujawa sc->sc_ports[chnum].chan.ch_channel = chnum; 202 1.1 rkujawa sc->sc_ports[chnum].chan.ch_atac = &sc->sc_wdcdev.sc_atac; 203 1.1 rkujawa sc->sc_ports[chnum].chan.ch_queue = &sc->sc_ports[chnum].queue; 204 1.1 rkujawa sc->sc_ports[chnum].chan.ch_ndrive = 2; 205 1.1 rkujawa 206 1.1 rkujawa if(!sc->sc_32bit_io) 207 1.1 rkujawa efa_select_regset(sc, chnum, 0); /* Start in PIO0. */ 208 1.1 rkujawa else 209 1.1 rkujawa efa_select_regset(sc, chnum, 3); 210 1.1 rkujawa 211 1.1 rkujawa wdc_init_shadow_regs(&sc->sc_ports[chnum].chan); 212 1.1 rkujawa 213 1.1 rkujawa wdcattach(&sc->sc_ports[chnum].chan); 214 1.1 rkujawa 215 1.1 rkujawa #ifdef EFA_DEBUG 216 1.1 rkujawa aprint_normal_dev(sc->sc_dev, "done init for channel %d\n", chnum); 217 1.1 rkujawa #endif 218 1.1 rkujawa 219 1.1 rkujawa } 220 1.1 rkujawa 221 1.1 rkujawa /* TODO: convert to callout(9) */ 222 1.1 rkujawa static void 223 1.1 rkujawa efa_poll_kthread(void *arg) 224 1.1 rkujawa { 225 1.1 rkujawa struct efa_softc *sc = arg; 226 1.1 rkujawa 227 1.1 rkujawa for(;;) { 228 1.1 rkujawa /* TODO: actually check if interrupt status register is set */ 229 1.1 rkujawa softint_schedule(sc->sc_fata_softintr); 230 1.1 rkujawa /* TODO: convert to kpause */ 231 1.1 rkujawa tsleep(arg, PWAIT, "efa_poll", hz); 232 1.1 rkujawa } 233 1.1 rkujawa } 234 1.1 rkujawa 235 1.1 rkujawa static void 236 1.1 rkujawa efa_set_opts(struct efa_softc *sc) 237 1.1 rkujawa { 238 1.1 rkujawa #ifdef EFA_32BIT_IO 239 1.1 rkujawa sc->sc_32bit_io = true; /* XXX: bus_space_read_multi_stream_4 */ 240 1.1 rkujawa #else 241 1.1 rkujawa sc->sc_32bit_io = false; 242 1.1 rkujawa #endif /* EFA_32BIT_IO */ 243 1.1 rkujawa 244 1.1 rkujawa #ifdef EFA_NO_INTR 245 1.1 rkujawa sc->sc_no_intr = true; /* XXX: not yet! */ 246 1.1 rkujawa #else 247 1.1 rkujawa sc->sc_no_intr = false; 248 1.1 rkujawa #endif /* EFA_NO_INTR */ 249 1.1 rkujawa 250 1.1 rkujawa if(sc->sc_no_intr) 251 1.1 rkujawa aprint_verbose_dev(sc->sc_dev, "hardware interrupt disabled\n"); 252 1.1 rkujawa 253 1.1 rkujawa if(sc->sc_32bit_io) 254 1.1 rkujawa aprint_verbose_dev(sc->sc_dev, "32-bit I/O enabled\n"); 255 1.1 rkujawa } 256 1.1 rkujawa 257 1.1 rkujawa int 258 1.1 rkujawa efa_intr_soft(void *arg) 259 1.1 rkujawa { 260 1.1 rkujawa int ret = 0; 261 1.1 rkujawa struct efa_softc *sc = (struct efa_softc *)arg; 262 1.1 rkujawa 263 1.1 rkujawa /* TODO: check which channel needs servicing */ 264 1.1 rkujawa /* 265 1.1 rkujawa uint8_t fataintreq; 266 1.1 rkujawa fataintreq = bus_space_read_1(sc->sc_ports[0].wdr[piom].cmd_iot, 267 1.1 rkujawa sc->sc_ports[chnum].intst[piom], 0); 268 1.1 rkujawa */ 269 1.1 rkujawa 270 1.1 rkujawa ret = wdcintr(&sc->sc_ports[0].chan); 271 1.1 rkujawa ret = wdcintr(&sc->sc_ports[1].chan); 272 1.1 rkujawa 273 1.1 rkujawa return ret; 274 1.1 rkujawa } 275 1.1 rkujawa 276 1.1 rkujawa int 277 1.1 rkujawa efa_intr(void *arg) 278 1.1 rkujawa { 279 1.1 rkujawa struct efa_softc *sc = (struct efa_softc *)arg; 280 1.1 rkujawa int r1, r2; 281 1.1 rkujawa 282 1.1 rkujawa u_char intreq = *sc->sc_intreg; 283 1.1 rkujawa int ret = 0; 284 1.1 rkujawa 285 1.1 rkujawa if (intreq & GAYLE_INT_IDE) { 286 1.1 rkujawa gayle.intreq = 0x7c | (intreq & 0x03); 287 1.1 rkujawa /* How to check which channel caused interrupt? 288 1.1 rkujawa * Interrupt status register is not very useful here. */ 289 1.1 rkujawa r1 = wdcintr(&sc->sc_ports[0].chan); 290 1.1 rkujawa r2 = wdcintr(&sc->sc_ports[1].chan); 291 1.1 rkujawa ret = r1 | r2; 292 1.1 rkujawa } 293 1.1 rkujawa 294 1.1 rkujawa return ret; 295 1.1 rkujawa } 296 1.1 rkujawa 297 1.1 rkujawa static bool 298 1.1 rkujawa efa_mapbase(struct efa_softc *sc) 299 1.1 rkujawa { 300 1.1 rkujawa int i, j; 301 1.1 rkujawa static struct bus_space_tag fata_cmd_iot; 302 1.1 rkujawa static struct bus_space_tag gayle_cmd_iot; 303 1.1 rkujawa 304 1.1 rkujawa gayle_cmd_iot.base = (bus_addr_t) ztwomap(GAYLE_IDE_BASE + 2); 305 1.1 rkujawa gayle_cmd_iot.absm = &amiga_bus_stride_4swap; 306 1.1 rkujawa fata_cmd_iot.base = (bus_addr_t) ztwomap(FATA1_BASE); 307 1.1 rkujawa fata_cmd_iot.absm = &amiga_bus_stride_4swap; 308 1.1 rkujawa 309 1.1 rkujawa #ifdef EFA_DEBUG 310 1.1 rkujawa aprint_normal_dev(sc->sc_dev, "Gayle %x -> %x, FastATA %x -> %x\n", 311 1.1 rkujawa GAYLE_IDE_BASE, gayle_cmd_iot.base, FATA1_BASE, fata_cmd_iot.base); 312 1.1 rkujawa #endif 313 1.1 rkujawa 314 1.1 rkujawa if(!gayle_cmd_iot.base) 315 1.1 rkujawa return false; 316 1.1 rkujawa if(!fata_cmd_iot.base) 317 1.1 rkujawa return false; 318 1.1 rkujawa 319 1.1 rkujawa sc->sc_gayle_wdc_regs.cmd_iot = &gayle_cmd_iot; 320 1.1 rkujawa sc->sc_gayle_wdc_regs.ctl_iot = &gayle_cmd_iot; 321 1.1 rkujawa 322 1.1 rkujawa for(i = 0; i < FATA1_CHANNELS; i++) { 323 1.1 rkujawa for(j = 0; j < PIO_COUNT; j++) { 324 1.1 rkujawa sc->sc_ports[i].wdr[j].cmd_iot = &fata_cmd_iot; 325 1.1 rkujawa sc->sc_ports[i].wdr[j].ctl_iot = &gayle_cmd_iot; 326 1.1 rkujawa } 327 1.1 rkujawa } 328 1.1 rkujawa 329 1.1 rkujawa return true; 330 1.1 rkujawa } 331 1.1 rkujawa 332 1.1 rkujawa 333 1.1 rkujawa /* Gayle IDE register mapping, we need it anyway. */ 334 1.1 rkujawa static bool 335 1.1 rkujawa efa_mapreg_gayle(struct efa_softc *sc) 336 1.1 rkujawa { 337 1.1 rkujawa int i; 338 1.1 rkujawa 339 1.1 rkujawa struct wdc_regs *wdr = &sc->sc_gayle_wdc_regs; 340 1.1 rkujawa 341 1.1 rkujawa if (bus_space_map(wdr->cmd_iot, 0, 0x40, 0, 342 1.1 rkujawa &wdr->cmd_baseioh)) { 343 1.1 rkujawa return false; 344 1.1 rkujawa } 345 1.1 rkujawa 346 1.1 rkujawa for (i = 0; i < WDC_NREG; i++) { 347 1.1 rkujawa if (bus_space_subregion(wdr->cmd_iot, 348 1.1 rkujawa wdr->cmd_baseioh, i, i == 0 ? 4 : 1, 349 1.1 rkujawa &wdr->cmd_iohs[i]) != 0) { 350 1.1 rkujawa 351 1.1 rkujawa bus_space_unmap(wdr->cmd_iot, 352 1.1 rkujawa wdr->cmd_baseioh, 0x40); 353 1.1 rkujawa return false; 354 1.1 rkujawa } 355 1.1 rkujawa } 356 1.1 rkujawa 357 1.1 rkujawa if (bus_space_subregion(wdr->cmd_iot, 358 1.1 rkujawa wdr->cmd_baseioh, 0x406, 1, &wdr->ctl_ioh)) 359 1.1 rkujawa return false; 360 1.1 rkujawa 361 1.1 rkujawa return true; 362 1.1 rkujawa } 363 1.1 rkujawa 364 1.1 rkujawa /* Native FastATA register mapping, suitable for PIO modes 0 to 5. */ 365 1.1 rkujawa static bool 366 1.1 rkujawa efa_mapreg_native(struct efa_softc *sc) { 367 1.1 rkujawa int i,j; 368 1.1 rkujawa struct wdc_regs *wdr_gayle = &sc->sc_gayle_wdc_regs; 369 1.1 rkujawa struct wdc_regs *wdr_fata; 370 1.1 rkujawa 371 1.1 rkujawa for(i = 0; i < FATA1_CHANNELS; i++) { 372 1.1 rkujawa 373 1.1 rkujawa for(j = 0; j < PIO_COUNT; j++) { 374 1.1 rkujawa 375 1.1 rkujawa wdr_fata = &sc->sc_ports[i].wdr[j]; 376 1.1 rkujawa sc->sc_ports[i].mode_ok[j] = false; 377 1.1 rkujawa 378 1.1 rkujawa if(pio_offsets[j] == PIO_NSUPP) { 379 1.1 rkujawa #ifdef EFA_DEBUG 380 1.1 rkujawa aprint_normal_dev(sc->sc_dev, 381 1.1 rkujawa "Skipping mapping for PIO mode %x\n", j); 382 1.1 rkujawa #endif 383 1.1 rkujawa continue; 384 1.1 rkujawa } 385 1.1 rkujawa 386 1.1 rkujawa if(bus_space_map(wdr_fata->cmd_iot, 387 1.1 rkujawa pio_offsets[j] + FATA1_CHAN_SIZE * i, 388 1.1 rkujawa FATA1_CHAN_SIZE, 0, &wdr_fata->cmd_baseioh)) { 389 1.1 rkujawa return false; 390 1.1 rkujawa } 391 1.1 rkujawa #ifdef EFA_DEBUG 392 1.1 rkujawa aprint_normal_dev(sc->sc_dev, 393 1.1 rkujawa "Chan %x PIO mode %x mapped %x -> %x\n", 394 1.1 rkujawa i, j, (bus_addr_t) kvtop((void*) 395 1.1 rkujawa wdr_fata->cmd_baseioh), (unsigned int) 396 1.1 rkujawa wdr_fata->cmd_baseioh); 397 1.1 rkujawa #endif 398 1.1 rkujawa 399 1.1 rkujawa sc->sc_ports[i].mode_ok[j] = true; 400 1.1 rkujawa 401 1.1 rkujawa if(j == 0) 402 1.1 rkujawa efa_fata_subregion_pio0(wdr_fata); 403 1.1 rkujawa else { 404 1.1 rkujawa if(sc->sc_32bit_io) 405 1.1 rkujawa efa_fata_subregion_pion(wdr_fata, 406 1.1 rkujawa true); 407 1.1 rkujawa else 408 1.1 rkujawa efa_fata_subregion_pion(wdr_fata, 409 1.1 rkujawa false); 410 1.1 rkujawa 411 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, 412 1.1 rkujawa wdr_fata->cmd_baseioh, FATA1_PION_OFF_INTST, 413 1.1 rkujawa 1, &sc->sc_ports[i].intst[j]); 414 1.1 rkujawa } 415 1.1 rkujawa 416 1.1 rkujawa /* No 32-bit register for PIO0 ... */ 417 1.1 rkujawa if(j == 0 && sc->sc_32bit_io) 418 1.1 rkujawa sc->sc_ports[i].mode_ok[j] = false; 419 1.1 rkujawa 420 1.1 rkujawa wdr_fata->ctl_ioh = wdr_gayle->ctl_ioh; 421 1.1 rkujawa }; 422 1.1 rkujawa } 423 1.1 rkujawa return true; 424 1.1 rkujawa } 425 1.1 rkujawa 426 1.1 rkujawa 427 1.1 rkujawa static void 428 1.1 rkujawa efa_fata_subregion_pio0(struct wdc_regs *wdr_fata) 429 1.1 rkujawa { 430 1.1 rkujawa 431 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 432 1.1 rkujawa FATA1_PIO0_OFF_DATA, 4, &wdr_fata->cmd_iohs[wd_data]); 433 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 434 1.1 rkujawa FATA1_PIO0_OFF_ERROR, 1, &wdr_fata->cmd_iohs[wd_error]); 435 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 436 1.1 rkujawa FATA1_PIO0_OFF_SECCNT, 1, &wdr_fata->cmd_iohs[wd_seccnt]); 437 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 438 1.1 rkujawa FATA1_PIO0_OFF_SECTOR, 1, &wdr_fata->cmd_iohs[wd_sector]); 439 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 440 1.1 rkujawa FATA1_PIO0_OFF_CYL_LO, 1, &wdr_fata->cmd_iohs[wd_cyl_lo]); 441 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 442 1.1 rkujawa FATA1_PIO0_OFF_CYL_HI, 1, &wdr_fata->cmd_iohs[wd_cyl_hi]); 443 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 444 1.1 rkujawa FATA1_PIO0_OFF_SDH, 1, &wdr_fata->cmd_iohs[wd_sdh]); 445 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 446 1.1 rkujawa FATA1_PIO0_OFF_COMMAND, 1, &wdr_fata->cmd_iohs[wd_command]); 447 1.1 rkujawa } 448 1.1 rkujawa 449 1.1 rkujawa static void 450 1.1 rkujawa efa_fata_subregion_pion(struct wdc_regs *wdr_fata, bool data32) 451 1.1 rkujawa { 452 1.1 rkujawa if(data32) 453 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 454 1.1 rkujawa FATA1_PION_OFF_DATA32, 8, &wdr_fata->cmd_iohs[wd_data]); 455 1.1 rkujawa else 456 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 457 1.1 rkujawa FATA1_PION_OFF_DATA, 4, &wdr_fata->cmd_iohs[wd_data]); 458 1.1 rkujawa 459 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 460 1.1 rkujawa FATA1_PION_OFF_ERROR, 1, &wdr_fata->cmd_iohs[wd_error]); 461 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 462 1.1 rkujawa FATA1_PION_OFF_SECCNT, 1, &wdr_fata->cmd_iohs[wd_seccnt]); 463 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 464 1.1 rkujawa FATA1_PION_OFF_SECTOR, 1, &wdr_fata->cmd_iohs[wd_sector]); 465 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 466 1.1 rkujawa FATA1_PION_OFF_CYL_LO, 1, &wdr_fata->cmd_iohs[wd_cyl_lo]); 467 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 468 1.1 rkujawa FATA1_PION_OFF_CYL_HI, 1, &wdr_fata->cmd_iohs[wd_cyl_hi]); 469 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 470 1.1 rkujawa FATA1_PION_OFF_SDH, 1, &wdr_fata->cmd_iohs[wd_sdh]); 471 1.1 rkujawa bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh, 472 1.1 rkujawa FATA1_PION_OFF_COMMAND, 1, &wdr_fata->cmd_iohs[wd_command]); 473 1.1 rkujawa } 474 1.1 rkujawa 475 1.1 rkujawa static void 476 1.1 rkujawa efa_setup_channel(struct ata_channel *chp) 477 1.1 rkujawa { 478 1.1 rkujawa int drive, chnum; 479 1.1 rkujawa uint8_t mode; 480 1.1 rkujawa struct atac_softc *atac; 481 1.1 rkujawa struct ata_drive_datas *drvp; 482 1.1 rkujawa struct efa_softc *sc; 483 1.1 rkujawa int ipl; 484 1.1 rkujawa 485 1.1 rkujawa chnum = chp->ch_channel; 486 1.1 rkujawa atac = chp->ch_atac; 487 1.1 rkujawa sc = device_private(atac->atac_dev); 488 1.1 rkujawa 489 1.1 rkujawa mode = 5; /* start with fastest possible setting */ 490 1.1 rkujawa 491 1.1 rkujawa #ifdef EFA_DEBUG 492 1.1 rkujawa aprint_normal_dev(sc->sc_dev, "efa_setup_channel for ch %d\n", 493 1.1 rkujawa chnum); 494 1.1 rkujawa #endif /* EFA_DEBUG */ 495 1.1 rkujawa 496 1.1 rkujawa /* We might be in the middle of something... so raise IPL. */ 497 1.1 rkujawa ipl = splvm(); 498 1.1 rkujawa 499 1.1 rkujawa for (drive = 0; drive < 2; drive++) { 500 1.1 rkujawa drvp = &chp->ch_drive[drive]; 501 1.1 rkujawa 502 1.1 rkujawa if ((drvp->drive_flags & DRIVE) == 0) 503 1.1 rkujawa continue; /* nothing to see here */ 504 1.1 rkujawa 505 1.1 rkujawa if(drvp->PIO_cap < mode); 506 1.1 rkujawa mode = drvp->PIO_cap; 507 1.1 rkujawa 508 1.1 rkujawa /* TODO: check if sc_ports->mode_ok */ 509 1.1 rkujawa 510 1.1 rkujawa #ifdef EFA_DEBUG 511 1.1 rkujawa aprint_normal_dev(sc->sc_dev, "drive %d supports %d\n", 512 1.1 rkujawa drive, drvp->PIO_cap); 513 1.1 rkujawa #endif /* EFA_DEBUG */ 514 1.1 rkujawa 515 1.1 rkujawa drvp->PIO_mode = mode; 516 1.1 rkujawa } 517 1.1 rkujawa 518 1.1 rkujawa /* Change FastATA register set. */ 519 1.1 rkujawa efa_select_regset(sc, chnum, mode); 520 1.1 rkujawa /* re-init shadow regs */ 521 1.1 rkujawa wdc_init_shadow_regs(&sc->sc_ports[chnum].chan); 522 1.1 rkujawa 523 1.1 rkujawa splx(ipl); 524 1.1 rkujawa } 525 1.1 rkujawa 526 1.1 rkujawa static void 527 1.1 rkujawa efa_select_regset(struct efa_softc *sc, int chnum, uint8_t piomode) 528 1.1 rkujawa { 529 1.1 rkujawa struct wdc_softc *wdc; 530 1.1 rkujawa 531 1.1 rkujawa wdc = CHAN_TO_WDC(&sc->sc_ports[chnum].chan); 532 1.1 rkujawa wdc->regs[chnum] = sc->sc_ports[chnum].wdr[piomode]; 533 1.1 rkujawa 534 1.1 rkujawa #ifdef EFA_DEBUG 535 1.1 rkujawa aprint_normal_dev(sc->sc_dev, "switched ch %d to PIO %d\n", 536 1.1 rkujawa chnum, piomode); 537 1.1 rkujawa 538 1.1 rkujawa efa_debug_print_regmapping(&wdc->regs[chnum]); 539 1.1 rkujawa #endif /* EFA_DEBUG */ 540 1.1 rkujawa } 541 1.1 rkujawa 542 1.1 rkujawa #ifdef EFA_DEBUG 543 1.1 rkujawa static void 544 1.1 rkujawa efa_debug_print_regmapping(struct wdc_regs *wdr_fata) 545 1.1 rkujawa { 546 1.1 rkujawa int i; 547 1.1 rkujawa aprint_normal("base %x->%x", 548 1.1 rkujawa (bus_addr_t) kvtop((void*) wdr_fata->cmd_baseioh), 549 1.1 rkujawa (bus_addr_t) wdr_fata->cmd_baseioh); 550 1.1 rkujawa for (i = 0; i < WDC_NREG; i++) { 551 1.1 rkujawa aprint_normal("reg %x, %x->%x, ", i, 552 1.1 rkujawa (bus_addr_t) kvtop((void*) wdr_fata->cmd_iohs[i]), 553 1.1 rkujawa (bus_addr_t) wdr_fata->cmd_iohs[i]); 554 1.1 rkujawa } 555 1.1 rkujawa aprint_normal("\n"); 556 1.1 rkujawa } 557 1.1 rkujawa #endif /* EFA_DEBUG */ 558 1.1 rkujawa 559
Indexes created Tue Sep 30 20:09:53 GMT 2025