ninjaata32.c revision 1.6.2.5 1 1.6.2.5 yamt /* $NetBSD: ninjaata32.c,v 1.6.2.5 2008/03/24 09:38:50 yamt Exp $ */
2 1.6.2.2 yamt
3 1.6.2.2 yamt /*
4 1.6.2.2 yamt * Copyright (c) 2006 ITOH Yasufumi <itohy (at) NetBSD.org>.
5 1.6.2.2 yamt * All rights reserved.
6 1.6.2.2 yamt *
7 1.6.2.2 yamt * Redistribution and use in source and binary forms, with or without
8 1.6.2.2 yamt * modification, are permitted provided that the following conditions
9 1.6.2.2 yamt * are met:
10 1.6.2.2 yamt * 1. Redistributions of source code must retain the above copyright
11 1.6.2.2 yamt * notice, this list of conditions and the following disclaimer.
12 1.6.2.2 yamt * 2. Redistributions in binary form must reproduce the above copyright
13 1.6.2.2 yamt * notice, this list of conditions and the following disclaimer in the
14 1.6.2.2 yamt * documentation and/or other materials provided with the distribution.
15 1.6.2.2 yamt *
16 1.6.2.2 yamt * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS''
17 1.6.2.2 yamt * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
18 1.6.2.2 yamt * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
19 1.6.2.2 yamt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS
20 1.6.2.2 yamt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
21 1.6.2.2 yamt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
22 1.6.2.2 yamt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
23 1.6.2.2 yamt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
24 1.6.2.2 yamt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
25 1.6.2.2 yamt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
26 1.6.2.2 yamt * THE POSSIBILITY OF SUCH DAMAGE.
27 1.6.2.2 yamt */
28 1.6.2.2 yamt
29 1.6.2.2 yamt #include <sys/cdefs.h>
30 1.6.2.5 yamt __KERNEL_RCSID(0, "$NetBSD: ninjaata32.c,v 1.6.2.5 2008/03/24 09:38:50 yamt Exp $");
31 1.6.2.2 yamt
32 1.6.2.2 yamt #include <sys/param.h>
33 1.6.2.2 yamt #include <sys/kernel.h>
34 1.6.2.2 yamt #include <sys/device.h>
35 1.6.2.3 yamt #include <sys/proc.h>
36 1.6.2.2 yamt
37 1.6.2.4 yamt #include <sys/bus.h>
38 1.6.2.4 yamt #include <sys/intr.h>
39 1.6.2.2 yamt
40 1.6.2.2 yamt #include <uvm/uvm_extern.h>
41 1.6.2.2 yamt
42 1.6.2.2 yamt #include <dev/ata/atavar.h>
43 1.6.2.2 yamt #include <dev/ic/wdcreg.h>
44 1.6.2.2 yamt #include <dev/ic/wdcvar.h>
45 1.6.2.2 yamt
46 1.6.2.2 yamt #include <dev/ic/ninjaata32reg.h>
47 1.6.2.2 yamt #include <dev/ic/ninjaata32var.h>
48 1.6.2.2 yamt
49 1.6.2.2 yamt #ifdef NJATA32_DEBUG
50 1.6.2.2 yamt #define DPRINTF(x) printf x
51 1.6.2.2 yamt #else
52 1.6.2.2 yamt #define DPRINTF(x)
53 1.6.2.2 yamt #endif
54 1.6.2.2 yamt
55 1.6.2.2 yamt static void njata32_init(struct njata32_softc *, int nosleep);
56 1.6.2.2 yamt static void njata32_irqack(struct ata_channel *);
57 1.6.2.2 yamt static void njata32_clearirq(struct ata_channel *, int);
58 1.6.2.2 yamt static void njata32_setup_channel(struct ata_channel *);
59 1.6.2.2 yamt static int njata32_dma_init(void *, int channel, int drive,
60 1.6.2.2 yamt void *databuf, size_t datalen, int flags);
61 1.6.2.2 yamt static void njata32_piobm_start(void *, int channel, int drive, int skip,
62 1.6.2.2 yamt int xferlen, int flags);
63 1.6.2.2 yamt static int njata32_dma_finish(void *, int channel, int drive, int force);
64 1.6.2.2 yamt static void njata32_piobm_done(void *, int channel, int drive);
65 1.6.2.2 yamt
66 1.6.2.2 yamt #if 0 /* ATA DMA is currently unused */
67 1.6.2.2 yamt static const uint8_t njata32_timing_dma[NJATA32_MODE_MAX_DMA + 1] = {
68 1.6.2.2 yamt NJATA32_TIMING_DMA0, NJATA32_TIMING_DMA1, NJATA32_TIMING_DMA2
69 1.6.2.2 yamt };
70 1.6.2.2 yamt #endif
71 1.6.2.2 yamt static const uint8_t njata32_timing_pio[NJATA32_MODE_MAX_PIO + 1] = {
72 1.6.2.2 yamt NJATA32_TIMING_PIO0, NJATA32_TIMING_PIO1, NJATA32_TIMING_PIO2,
73 1.6.2.2 yamt NJATA32_TIMING_PIO3, NJATA32_TIMING_PIO4
74 1.6.2.2 yamt };
75 1.6.2.2 yamt
76 1.6.2.2 yamt static void
77 1.6.2.5 yamt njata32_init(struct njata32_softc *sc, int nosleep)
78 1.6.2.2 yamt {
79 1.6.2.2 yamt
80 1.6.2.2 yamt /* disable interrupts */
81 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
82 1.6.2.2 yamt NJATA32_REG_IRQ_SELECT, 0);
83 1.6.2.2 yamt
84 1.6.2.2 yamt /* bus reset */
85 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_AS,
86 1.6.2.2 yamt NJATA32_AS_WAIT0 | NJATA32_AS_BUS_RESET);
87 1.6.2.2 yamt if (nosleep)
88 1.6.2.2 yamt delay(50000);
89 1.6.2.2 yamt else
90 1.6.2.2 yamt tsleep(sc, PRIBIO, "njaini", mstohz(50));
91 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_AS,
92 1.6.2.2 yamt NJATA32_AS_WAIT0);
93 1.6.2.2 yamt
94 1.6.2.2 yamt /* initial transfer speed */
95 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
96 1.6.2.2 yamt NJATA32_REG_TIMING, NJATA32_TIMING_PIO0 + sc->sc_atawait);
97 1.6.2.2 yamt
98 1.6.2.2 yamt /* setup busmaster mode */
99 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_IOBM,
100 1.6.2.2 yamt NJATA32_IOBM_DEFAULT);
101 1.6.2.2 yamt
102 1.6.2.2 yamt /* enable interrupts */
103 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
104 1.6.2.2 yamt NJATA32_REG_IRQ_SELECT, NJATA32_IRQ_XFER | NJATA32_IRQ_DEV);
105 1.6.2.2 yamt }
106 1.6.2.2 yamt
107 1.6.2.2 yamt void
108 1.6.2.5 yamt njata32_attach(struct njata32_softc *sc)
109 1.6.2.2 yamt {
110 1.6.2.2 yamt bus_addr_t dmaaddr;
111 1.6.2.2 yamt int i, devno, error;
112 1.6.2.2 yamt struct wdc_regs *wdr;
113 1.6.2.2 yamt
114 1.6.2.2 yamt /*
115 1.6.2.2 yamt * allocate DMA resource
116 1.6.2.2 yamt */
117 1.6.2.2 yamt if ((error = bus_dmamem_alloc(sc->sc_dmat,
118 1.6.2.2 yamt sizeof(struct njata32_dma_page), PAGE_SIZE, 0,
119 1.6.2.2 yamt &sc->sc_sgt_seg, 1, &sc->sc_sgt_nsegs, BUS_DMA_NOWAIT)) != 0) {
120 1.6.2.5 yamt aprint_error("%s: unable to allocate sgt page, error = %d\n",
121 1.6.2.2 yamt NJATA32NAME(sc), error);
122 1.6.2.2 yamt return;
123 1.6.2.2 yamt }
124 1.6.2.2 yamt if ((error = bus_dmamem_map(sc->sc_dmat, &sc->sc_sgt_seg,
125 1.6.2.2 yamt sc->sc_sgt_nsegs, sizeof(struct njata32_dma_page),
126 1.6.2.3 yamt (void **)&sc->sc_sgtpg,
127 1.6.2.2 yamt BUS_DMA_NOWAIT | BUS_DMA_COHERENT)) != 0) {
128 1.6.2.5 yamt aprint_error("%s: unable to map sgt page, error = %d\n",
129 1.6.2.2 yamt NJATA32NAME(sc), error);
130 1.6.2.2 yamt goto fail1;
131 1.6.2.2 yamt }
132 1.6.2.2 yamt if ((error = bus_dmamap_create(sc->sc_dmat,
133 1.6.2.2 yamt sizeof(struct njata32_dma_page), 1,
134 1.6.2.2 yamt sizeof(struct njata32_dma_page), 0, BUS_DMA_NOWAIT,
135 1.6.2.2 yamt &sc->sc_dmamap_sgt)) != 0) {
136 1.6.2.5 yamt aprint_error("%s: unable to create sgt DMA map, error = %d\n",
137 1.6.2.2 yamt NJATA32NAME(sc), error);
138 1.6.2.2 yamt goto fail2;
139 1.6.2.2 yamt }
140 1.6.2.2 yamt if ((error = bus_dmamap_load(sc->sc_dmat, sc->sc_dmamap_sgt,
141 1.6.2.2 yamt sc->sc_sgtpg, sizeof(struct njata32_dma_page),
142 1.6.2.2 yamt NULL, BUS_DMA_NOWAIT)) != 0) {
143 1.6.2.5 yamt aprint_error("%s: unable to load sgt DMA map, error = %d\n",
144 1.6.2.2 yamt NJATA32NAME(sc), error);
145 1.6.2.2 yamt goto fail3;
146 1.6.2.2 yamt }
147 1.6.2.2 yamt
148 1.6.2.2 yamt dmaaddr = sc->sc_dmamap_sgt->dm_segs[0].ds_addr;
149 1.6.2.2 yamt
150 1.6.2.2 yamt for (devno = 0; devno < NJATA32_NUM_DEV; devno++) {
151 1.6.2.2 yamt sc->sc_dev[devno].d_sgt = sc->sc_sgtpg->dp_sg[devno];
152 1.6.2.2 yamt sc->sc_dev[devno].d_sgt_dma = dmaaddr +
153 1.6.2.2 yamt offsetof(struct njata32_dma_page, dp_sg[devno]);
154 1.6.2.2 yamt
155 1.6.2.2 yamt error = bus_dmamap_create(sc->sc_dmat,
156 1.6.2.2 yamt NJATA32_MAX_XFER, /* max total map size */
157 1.6.2.2 yamt NJATA32_NUM_SG, /* max number of segments */
158 1.6.2.2 yamt NJATA32_SGT_MAXSEGLEN, /* max size of a segment */
159 1.6.2.2 yamt 0, /* boundary */
160 1.6.2.2 yamt BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW,
161 1.6.2.2 yamt &sc->sc_dev[devno].d_dmamap_xfer);
162 1.6.2.2 yamt if (error) {
163 1.6.2.5 yamt aprint_error("%s: failed to create DMA map "
164 1.6.2.5 yamt "(error = %d)\n", NJATA32NAME(sc), error);
165 1.6.2.2 yamt goto fail4;
166 1.6.2.2 yamt }
167 1.6.2.2 yamt }
168 1.6.2.2 yamt
169 1.6.2.2 yamt /* device properties */
170 1.6.2.2 yamt sc->sc_wdcdev.sc_atac.atac_cap =
171 1.6.2.2 yamt ATAC_CAP_DATA16 | ATAC_CAP_DATA32 | ATAC_CAP_PIOBM;
172 1.6.2.2 yamt sc->sc_wdcdev.irqack = njata32_irqack;
173 1.6.2.2 yamt sc->sc_wdcdev.sc_atac.atac_channels = sc->sc_wdc_chanarray;
174 1.6.2.2 yamt sc->sc_wdcdev.sc_atac.atac_nchannels = NJATA32_NCHAN; /* 1 */
175 1.6.2.2 yamt sc->sc_wdcdev.sc_atac.atac_pio_cap = NJATA32_MODE_MAX_PIO;
176 1.6.2.2 yamt #if 0 /* ATA DMA is currently unused */
177 1.6.2.2 yamt sc->sc_wdcdev.sc_atac.atac_dma_cap = NJATA32_MODE_MAX_DMA;
178 1.6.2.2 yamt #endif
179 1.6.2.2 yamt sc->sc_wdcdev.sc_atac.atac_set_modes = njata32_setup_channel;
180 1.6.2.2 yamt
181 1.6.2.2 yamt /* DMA control functions */
182 1.6.2.2 yamt sc->sc_wdcdev.dma_arg = sc;
183 1.6.2.2 yamt sc->sc_wdcdev.dma_init = njata32_dma_init;
184 1.6.2.2 yamt sc->sc_wdcdev.piobm_start = njata32_piobm_start;
185 1.6.2.2 yamt sc->sc_wdcdev.dma_finish = njata32_dma_finish;
186 1.6.2.2 yamt sc->sc_wdcdev.piobm_done = njata32_piobm_done;
187 1.6.2.2 yamt
188 1.6.2.2 yamt sc->sc_wdcdev.cap |= WDC_CAPABILITY_NO_EXTRA_RESETS;
189 1.6.2.2 yamt
190 1.6.2.2 yamt sc->sc_wdcdev.regs = wdr = &sc->sc_wdc_regs;
191 1.6.2.2 yamt
192 1.6.2.2 yamt /* only one channel */
193 1.6.2.2 yamt sc->sc_wdc_chanarray[0] = &sc->sc_ch[0].ch_ata_channel;
194 1.6.2.2 yamt sc->sc_ch[0].ch_ata_channel.ch_channel = 0;
195 1.6.2.2 yamt sc->sc_ch[0].ch_ata_channel.ch_atac = &sc->sc_wdcdev.sc_atac;
196 1.6.2.2 yamt sc->sc_ch[0].ch_ata_channel.ch_queue = &sc->sc_wdc_chqueue;
197 1.6.2.2 yamt sc->sc_ch[0].ch_ata_channel.ch_ndrive = 2; /* max number of drives */
198 1.6.2.2 yamt
199 1.6.2.2 yamt /* map ATA registers */
200 1.6.2.2 yamt for (i = 0; i < WDC_NREG; i++) {
201 1.6.2.2 yamt if (bus_space_subregion(NJATA32_REGT(sc), NJATA32_REGH(sc),
202 1.6.2.2 yamt NJATA32_OFFSET_WDCREGS + i,
203 1.6.2.2 yamt i == wd_data ? 4 : 1, &wdr->cmd_iohs[i]) != 0) {
204 1.6.2.2 yamt aprint_error("%s: couldn't subregion cmd regs\n",
205 1.6.2.2 yamt NJATA32NAME(sc));
206 1.6.2.2 yamt goto fail4;
207 1.6.2.2 yamt }
208 1.6.2.2 yamt }
209 1.6.2.2 yamt wdc_init_shadow_regs(&sc->sc_ch[0].ch_ata_channel);
210 1.6.2.2 yamt wdr->data32iot = NJATA32_REGT(sc);
211 1.6.2.2 yamt wdr->data32ioh = wdr->cmd_iohs[wd_data];
212 1.6.2.2 yamt
213 1.6.2.2 yamt /* map ATA ctl reg */
214 1.6.2.2 yamt wdr->ctl_iot = NJATA32_REGT(sc);
215 1.6.2.2 yamt if (bus_space_subregion(NJATA32_REGT(sc), NJATA32_REGH(sc),
216 1.6.2.2 yamt NJATA32_REG_WD_ALTSTATUS, 1, &wdr->ctl_ioh) != 0) {
217 1.6.2.2 yamt aprint_error("%s: couldn't subregion ctl regs\n",
218 1.6.2.2 yamt NJATA32NAME(sc));
219 1.6.2.2 yamt goto fail4;
220 1.6.2.2 yamt }
221 1.6.2.2 yamt
222 1.6.2.2 yamt sc->sc_flags |= NJATA32_CMDPG_MAPPED;
223 1.6.2.2 yamt
224 1.6.2.2 yamt /* use flags value as busmaster wait */
225 1.6.2.2 yamt if ((sc->sc_atawait =
226 1.6.2.5 yamt (uint8_t)device_cfdata(sc->sc_wdcdev.sc_atac.atac_dev)->cf_flags))
227 1.6.2.2 yamt aprint_normal("%s: ATA wait = %#x\n",
228 1.6.2.2 yamt NJATA32NAME(sc), sc->sc_atawait);
229 1.6.2.2 yamt
230 1.6.2.2 yamt njata32_init(sc, cold);
231 1.6.2.2 yamt
232 1.6.2.2 yamt wdcattach(&sc->sc_ch[0].ch_ata_channel);
233 1.6.2.2 yamt
234 1.6.2.2 yamt return;
235 1.6.2.2 yamt
236 1.6.2.2 yamt /*
237 1.6.2.2 yamt * cleanup
238 1.6.2.2 yamt */
239 1.6.2.2 yamt fail4: while (--devno >= 0) {
240 1.6.2.2 yamt bus_dmamap_destroy(sc->sc_dmat,
241 1.6.2.2 yamt sc->sc_dev[devno].d_dmamap_xfer);
242 1.6.2.2 yamt }
243 1.6.2.2 yamt bus_dmamap_unload(sc->sc_dmat, sc->sc_dmamap_sgt);
244 1.6.2.2 yamt fail3: bus_dmamap_destroy(sc->sc_dmat, sc->sc_dmamap_sgt);
245 1.6.2.3 yamt fail2: bus_dmamem_unmap(sc->sc_dmat, (void *)sc->sc_sgtpg,
246 1.6.2.2 yamt sizeof(struct njata32_dma_page));
247 1.6.2.2 yamt fail1: bus_dmamem_free(sc->sc_dmat, &sc->sc_sgt_seg, sc->sc_sgt_nsegs);
248 1.6.2.2 yamt }
249 1.6.2.2 yamt
250 1.6.2.2 yamt int
251 1.6.2.5 yamt njata32_detach(struct njata32_softc *sc, int flags)
252 1.6.2.2 yamt {
253 1.6.2.2 yamt int rv, devno;
254 1.6.2.2 yamt
255 1.6.2.2 yamt if (sc->sc_flags & NJATA32_CMDPG_MAPPED) {
256 1.6.2.5 yamt if ((rv = wdcdetach(sc->sc_wdcdev.sc_atac.atac_dev, flags)))
257 1.6.2.2 yamt return rv;
258 1.6.2.2 yamt
259 1.6.2.2 yamt /* free DMA resource */
260 1.6.2.2 yamt for (devno = 0; devno < NJATA32_NUM_DEV; devno++) {
261 1.6.2.2 yamt bus_dmamap_destroy(sc->sc_dmat,
262 1.6.2.2 yamt sc->sc_dev[devno].d_dmamap_xfer);
263 1.6.2.2 yamt }
264 1.6.2.2 yamt bus_dmamap_unload(sc->sc_dmat, sc->sc_dmamap_sgt);
265 1.6.2.2 yamt bus_dmamap_destroy(sc->sc_dmat, sc->sc_dmamap_sgt);
266 1.6.2.3 yamt bus_dmamem_unmap(sc->sc_dmat, (void *)sc->sc_sgtpg,
267 1.6.2.2 yamt sizeof(struct njata32_dma_page));
268 1.6.2.2 yamt bus_dmamem_free(sc->sc_dmat, &sc->sc_sgt_seg, sc->sc_sgt_nsegs);
269 1.6.2.2 yamt }
270 1.6.2.2 yamt
271 1.6.2.2 yamt return 0;
272 1.6.2.2 yamt }
273 1.6.2.2 yamt
274 1.6.2.2 yamt static void
275 1.6.2.5 yamt njata32_irqack(struct ata_channel *chp)
276 1.6.2.2 yamt {
277 1.6.2.2 yamt struct njata32_softc *sc = (void *)chp->ch_atac;
278 1.6.2.2 yamt
279 1.6.2.2 yamt /* disable busmaster */
280 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
281 1.6.2.2 yamt NJATA32_REG_BM, NJATA32_BM_WAIT0);
282 1.6.2.2 yamt }
283 1.6.2.2 yamt
284 1.6.2.2 yamt static void
285 1.6.2.5 yamt njata32_clearirq(struct ata_channel *chp, int irq)
286 1.6.2.2 yamt {
287 1.6.2.2 yamt struct njata32_softc *sc = (void *)chp->ch_atac;
288 1.6.2.2 yamt
289 1.6.2.5 yamt aprint_error("%s: unhandled intr: irq %#x, bm %#x, ",
290 1.6.2.2 yamt NJATA32NAME(sc), irq,
291 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
292 1.6.2.2 yamt NJATA32_REG_BM));
293 1.6.2.2 yamt
294 1.6.2.2 yamt /* disable busmaster */
295 1.6.2.2 yamt njata32_irqack(chp);
296 1.6.2.2 yamt
297 1.6.2.2 yamt /* clear device interrupt */
298 1.6.2.5 yamt aprint_normal("err %#x, seccnt %#x, cyl %#x, sdh %#x, ",
299 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
300 1.6.2.2 yamt NJATA32_REG_WD_ERROR),
301 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
302 1.6.2.2 yamt NJATA32_REG_WD_SECCNT),
303 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
304 1.6.2.2 yamt NJATA32_REG_WD_CYL_LO) |
305 1.6.2.2 yamt (bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
306 1.6.2.2 yamt NJATA32_REG_WD_CYL_HI) << 8),
307 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
308 1.6.2.2 yamt NJATA32_REG_WD_SDH));
309 1.6.2.5 yamt aprint_normal("status %#x\n",
310 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
311 1.6.2.2 yamt NJATA32_REG_WD_STATUS));
312 1.6.2.2 yamt }
313 1.6.2.2 yamt
314 1.6.2.2 yamt static void
315 1.6.2.5 yamt njata32_setup_channel(struct ata_channel *chp)
316 1.6.2.2 yamt {
317 1.6.2.2 yamt struct njata32_softc *sc = (void *)chp->ch_atac;
318 1.6.2.2 yamt struct ata_drive_datas *drvp;
319 1.6.2.2 yamt int drive;
320 1.6.2.2 yamt uint8_t mode;
321 1.6.2.2 yamt
322 1.6.2.2 yamt KASSERT(chp->ch_ndrive != 0);
323 1.6.2.2 yamt
324 1.6.2.2 yamt sc->sc_timing_pio = 0;
325 1.6.2.2 yamt #if 0 /* ATA DMA is currently unused */
326 1.6.2.2 yamt sc->sc_timing_dma = 0;
327 1.6.2.2 yamt #endif
328 1.6.2.2 yamt
329 1.6.2.2 yamt for (drive = 0; drive < chp->ch_ndrive; drive++) {
330 1.6.2.2 yamt drvp = &chp->ch_drive[drive];
331 1.6.2.2 yamt if ((drvp->drive_flags & DRIVE) == 0)
332 1.6.2.2 yamt continue; /* no drive */
333 1.6.2.2 yamt
334 1.6.2.2 yamt #if 0 /* ATA DMA is currently unused */
335 1.6.2.2 yamt if ((drvp->drive_flags & DRIVE_DMA) != 0) {
336 1.6.2.2 yamt /*
337 1.6.2.2 yamt * Multiword DMA
338 1.6.2.2 yamt */
339 1.6.2.2 yamt if ((mode = drvp->DMA_mode) > NJATA32_MODE_MAX_DMA)
340 1.6.2.2 yamt mode = NJATA32_MODE_MAX_DMA;
341 1.6.2.2 yamt if (sc->sc_timing_dma < njata32_timing_dma[mode])
342 1.6.2.2 yamt sc->sc_timing_dma = njata32_timing_dma[mode];
343 1.6.2.2 yamt }
344 1.6.2.2 yamt #endif
345 1.6.2.2 yamt /*
346 1.6.2.2 yamt * PIO
347 1.6.2.2 yamt */
348 1.6.2.2 yamt if ((mode = drvp->PIO_mode) > NJATA32_MODE_MAX_PIO)
349 1.6.2.2 yamt mode = NJATA32_MODE_MAX_PIO;
350 1.6.2.2 yamt if (sc->sc_timing_pio < njata32_timing_pio[mode])
351 1.6.2.2 yamt sc->sc_timing_pio = njata32_timing_pio[mode];
352 1.6.2.2 yamt }
353 1.6.2.2 yamt
354 1.6.2.2 yamt sc->sc_timing_pio += sc->sc_atawait;
355 1.6.2.2 yamt
356 1.6.2.2 yamt /* set timing for PIO */
357 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
358 1.6.2.2 yamt NJATA32_REG_TIMING, sc->sc_timing_pio);
359 1.6.2.2 yamt }
360 1.6.2.2 yamt
361 1.6.2.2 yamt /*
362 1.6.2.2 yamt * map DMA buffer
363 1.6.2.2 yamt */
364 1.6.2.2 yamt int
365 1.6.2.2 yamt njata32_dma_init(void *v, int channel, int drive, void *databuf,
366 1.6.2.2 yamt size_t datalen, int flags)
367 1.6.2.2 yamt {
368 1.6.2.2 yamt struct njata32_softc *sc = v;
369 1.6.2.2 yamt int error;
370 1.6.2.2 yamt struct njata32_device *dev = &sc->sc_dev[drive];
371 1.6.2.2 yamt
372 1.6.2.2 yamt KASSERT(channel == 0);
373 1.6.2.2 yamt KASSERT((dev->d_flags & NJATA32_DEV_DMA_MAPPED) == 0);
374 1.6.2.2 yamt KASSERT((dev->d_flags & NJATA32_DEV_DMA_STARTED) == 0);
375 1.6.2.2 yamt
376 1.6.2.2 yamt KASSERT(flags & (WDC_DMA_PIOBM_ATA | WDC_DMA_PIOBM_ATAPI));
377 1.6.2.2 yamt
378 1.6.2.2 yamt /* use PIO for short transfer */
379 1.6.2.2 yamt if (datalen < 64 /* needs tune */) {
380 1.6.2.2 yamt DPRINTF(("%s: njata32_dma_init: short transfer (%u)\n",
381 1.6.2.2 yamt NJATA32NAME(sc), (unsigned)datalen));
382 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
383 1.6.2.2 yamt NJATA32_REG_TIMING, sc->sc_timing_pio);
384 1.6.2.2 yamt return EINVAL;
385 1.6.2.2 yamt }
386 1.6.2.2 yamt
387 1.6.2.2 yamt /* use PIO for unaligned transfer (word alignment seems OK) */
388 1.6.2.2 yamt if (((uintptr_t)databuf & 1) || (datalen & 1)) {
389 1.6.2.2 yamt DPRINTF(("%s: njata32_dma_init: unaligned: buf %p, len %u\n",
390 1.6.2.2 yamt NJATA32NAME(sc), databuf, (unsigned)datalen));
391 1.6.2.2 yamt return EINVAL;
392 1.6.2.2 yamt }
393 1.6.2.2 yamt
394 1.6.2.2 yamt DPRINTF(("%s: njata32_dma_init: %s: databuf %p, datalen %u\n",
395 1.6.2.2 yamt NJATA32NAME(sc), (flags & WDC_DMA_READ) ? "read" : "write",
396 1.6.2.2 yamt databuf, (unsigned)datalen));
397 1.6.2.2 yamt
398 1.6.2.2 yamt error = bus_dmamap_load(sc->sc_dmat, dev->d_dmamap_xfer,
399 1.6.2.2 yamt databuf, datalen, NULL, BUS_DMA_NOWAIT | BUS_DMA_STREAMING |
400 1.6.2.2 yamt ((flags & WDC_DMA_READ) ? BUS_DMA_READ : BUS_DMA_WRITE));
401 1.6.2.2 yamt if (error) {
402 1.6.2.2 yamt printf("%s: load xfer failed, error %d\n",
403 1.6.2.2 yamt NJATA32NAME(sc), error);
404 1.6.2.2 yamt return error;
405 1.6.2.2 yamt }
406 1.6.2.2 yamt
407 1.6.2.2 yamt bus_dmamap_sync(sc->sc_dmat, dev->d_dmamap_xfer, 0,
408 1.6.2.2 yamt dev->d_dmamap_xfer->dm_mapsize,
409 1.6.2.2 yamt (flags & WDC_DMA_READ) ?
410 1.6.2.2 yamt BUS_DMASYNC_PREREAD : BUS_DMASYNC_PREWRITE);
411 1.6.2.2 yamt
412 1.6.2.2 yamt dev->d_flags =
413 1.6.2.2 yamt ((flags & WDC_DMA_READ) ? NJATA32_DEV_DMA_READ : 0) |
414 1.6.2.2 yamt ((flags & WDC_DMA_PIOBM_ATAPI) ? NJATA32_DEV_DMA_ATAPI : 0) |
415 1.6.2.2 yamt NJATA32_DEV_DMA_MAPPED;
416 1.6.2.2 yamt
417 1.6.2.2 yamt return 0;
418 1.6.2.2 yamt }
419 1.6.2.2 yamt
420 1.6.2.2 yamt /*
421 1.6.2.2 yamt * start DMA
422 1.6.2.2 yamt *
423 1.6.2.2 yamt * top: databuf + skip
424 1.6.2.2 yamt * size: xferlen
425 1.6.2.2 yamt */
426 1.6.2.2 yamt void
427 1.6.2.2 yamt njata32_piobm_start(void *v, int channel, int drive,
428 1.6.2.2 yamt int skip, int xferlen, int flags)
429 1.6.2.2 yamt {
430 1.6.2.2 yamt struct njata32_softc *sc = v;
431 1.6.2.2 yamt struct njata32_device *dev = &sc->sc_dev[drive];
432 1.6.2.2 yamt int i, nsegs, seglen;
433 1.6.2.2 yamt uint8_t bmreg;
434 1.6.2.2 yamt
435 1.6.2.2 yamt DPRINTF(("%s: njata32_piobm_start: ch%d, dv%d, skip %d, xferlen %d\n",
436 1.6.2.2 yamt NJATA32NAME(sc), channel, drive, skip, xferlen));
437 1.6.2.2 yamt
438 1.6.2.2 yamt KASSERT(channel == 0);
439 1.6.2.2 yamt KASSERT(dev->d_flags & NJATA32_DEV_DMA_MAPPED);
440 1.6.2.2 yamt KASSERT((dev->d_flags & NJATA32_DEV_DMA_STARTED) == 0);
441 1.6.2.2 yamt
442 1.6.2.2 yamt /*
443 1.6.2.2 yamt * create scatter/gather table
444 1.6.2.2 yamt * XXX this code may be slow
445 1.6.2.2 yamt */
446 1.6.2.2 yamt for (i = nsegs = 0;
447 1.6.2.2 yamt i < dev->d_dmamap_xfer->dm_nsegs && xferlen > 0; i++) {
448 1.6.2.2 yamt if (dev->d_dmamap_xfer->dm_segs[i].ds_len <= skip) {
449 1.6.2.2 yamt skip -= dev->d_dmamap_xfer->dm_segs[i].ds_len;
450 1.6.2.2 yamt continue;
451 1.6.2.2 yamt }
452 1.6.2.2 yamt
453 1.6.2.2 yamt seglen = dev->d_dmamap_xfer->dm_segs[i].ds_len - skip;
454 1.6.2.2 yamt if (seglen > xferlen)
455 1.6.2.2 yamt seglen = xferlen;
456 1.6.2.2 yamt
457 1.6.2.2 yamt dev->d_sgt[nsegs].sg_addr =
458 1.6.2.2 yamt htole32(dev->d_dmamap_xfer->dm_segs[i].ds_addr + skip);
459 1.6.2.2 yamt dev->d_sgt[nsegs].sg_len = htole32(seglen);
460 1.6.2.2 yamt
461 1.6.2.2 yamt xferlen -= seglen;
462 1.6.2.2 yamt nsegs++;
463 1.6.2.2 yamt skip = 0;
464 1.6.2.2 yamt }
465 1.6.2.2 yamt sc->sc_piobm_nsegs = nsegs;
466 1.6.2.2 yamt /* end mark */
467 1.6.2.2 yamt dev->d_sgt[nsegs - 1].sg_len |= htole32(NJATA32_SGT_ENDMARK);
468 1.6.2.2 yamt
469 1.6.2.2 yamt #ifdef DIAGNOSTIC
470 1.6.2.2 yamt if (xferlen)
471 1.6.2.2 yamt panic("%s: njata32_piobm_start: xferlen residue %d\n",
472 1.6.2.2 yamt NJATA32NAME(sc), xferlen);
473 1.6.2.2 yamt #endif
474 1.6.2.2 yamt
475 1.6.2.2 yamt bus_dmamap_sync(sc->sc_dmat, sc->sc_dmamap_sgt,
476 1.6.2.2 yamt (char *)dev->d_sgt - (char *)sc->sc_sgtpg,
477 1.6.2.2 yamt sizeof(struct njata32_sgtable) * nsegs,
478 1.6.2.2 yamt BUS_DMASYNC_PREWRITE);
479 1.6.2.2 yamt
480 1.6.2.2 yamt /* set timing for PIO */
481 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
482 1.6.2.2 yamt NJATA32_REG_TIMING, sc->sc_timing_pio);
483 1.6.2.2 yamt
484 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_IOBM,
485 1.6.2.2 yamt NJATA32_IOBM_DEFAULT);
486 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_AS,
487 1.6.2.2 yamt NJATA32_AS_WAIT0);
488 1.6.2.2 yamt
489 1.6.2.2 yamt /*
490 1.6.2.2 yamt * interrupt configuration
491 1.6.2.2 yamt */
492 1.6.2.2 yamt if ((dev->d_flags & (NJATA32_DEV_DMA_READ | NJATA32_DEV_DMA_ATAPI)) ==
493 1.6.2.2 yamt NJATA32_DEV_DMA_READ) {
494 1.6.2.2 yamt /*
495 1.6.2.2 yamt * ATA piobm read is executed while device interrupt is active,
496 1.6.2.2 yamt * so disable device interrupt here
497 1.6.2.2 yamt */
498 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
499 1.6.2.2 yamt NJATA32_REG_IRQ_SELECT, NJATA32_IRQ_XFER);
500 1.6.2.2 yamt }
501 1.6.2.2 yamt
502 1.6.2.2 yamt /* enable scatter/gather busmaster transfer */
503 1.6.2.2 yamt bmreg = NJATA32_BM_EN | NJATA32_BM_SG | NJATA32_BM_WAIT0 |
504 1.6.2.2 yamt ((dev->d_flags & NJATA32_DEV_DMA_READ) ? NJATA32_BM_RD : 0);
505 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_BM,
506 1.6.2.2 yamt bmreg);
507 1.6.2.2 yamt
508 1.6.2.2 yamt /* load scatter/gather table */
509 1.6.2.2 yamt bus_space_write_4(NJATA32_REGT(sc), NJATA32_REGH(sc),
510 1.6.2.2 yamt NJATA32_REG_DMAADDR, dev->d_sgt_dma);
511 1.6.2.2 yamt bus_space_write_4(NJATA32_REGT(sc), NJATA32_REGH(sc),
512 1.6.2.2 yamt NJATA32_REG_DMALENGTH, sizeof(struct njata32_sgtable) * nsegs);
513 1.6.2.2 yamt
514 1.6.2.2 yamt /* start transfer */
515 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_BM,
516 1.6.2.2 yamt (bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
517 1.6.2.2 yamt NJATA32_REG_BM)
518 1.6.2.2 yamt & ~(NJATA32_BM_RD|NJATA32_BM_SG|NJATA32_BM_WAIT_MASK)) |
519 1.6.2.2 yamt bmreg | NJATA32_BM_GO);
520 1.6.2.2 yamt
521 1.6.2.2 yamt sc->sc_devflags = dev->d_flags;
522 1.6.2.2 yamt if (flags & WDC_PIOBM_XFER_IRQ)
523 1.6.2.2 yamt sc->sc_devflags |= NJATA32_DEV_XFER_INTR;
524 1.6.2.2 yamt #ifdef DIAGNOSTIC
525 1.6.2.2 yamt dev->d_flags |= NJATA32_DEV_DMA_STARTED;
526 1.6.2.2 yamt #endif
527 1.6.2.2 yamt }
528 1.6.2.2 yamt
529 1.6.2.2 yamt /*
530 1.6.2.2 yamt * end of DMA
531 1.6.2.2 yamt */
532 1.6.2.2 yamt int
533 1.6.2.2 yamt njata32_dma_finish(void *v, int channel, int drive,
534 1.6.2.2 yamt int force)
535 1.6.2.2 yamt {
536 1.6.2.2 yamt struct njata32_softc *sc = v;
537 1.6.2.2 yamt struct njata32_device *dev = &sc->sc_dev[drive];
538 1.6.2.2 yamt int bm;
539 1.6.2.2 yamt int error = 0;
540 1.6.2.2 yamt
541 1.6.2.2 yamt DPRINTF(("%s: njata32_dma_finish: bm = %#x\n", NJATA32NAME(sc),
542 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
543 1.6.2.2 yamt NJATA32_REG_BM)));
544 1.6.2.2 yamt
545 1.6.2.2 yamt KASSERT(channel == 0);
546 1.6.2.2 yamt KASSERT(dev->d_flags & NJATA32_DEV_DMA_MAPPED);
547 1.6.2.2 yamt KASSERT(dev->d_flags & NJATA32_DEV_DMA_STARTED);
548 1.6.2.2 yamt
549 1.6.2.2 yamt bm = bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
550 1.6.2.2 yamt NJATA32_REG_BM);
551 1.6.2.2 yamt
552 1.6.2.2 yamt #ifdef NJATA32_DEBUG
553 1.6.2.2 yamt printf("%s: irq %#x, bm %#x, 18 %#x, 1c %#x\n", NJATA32NAME(sc),
554 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
555 1.6.2.2 yamt NJATA32_REG_IRQ_STAT),
556 1.6.2.2 yamt bm,
557 1.6.2.2 yamt bus_space_read_4(NJATA32_REGT(sc), NJATA32_REGH(sc), 0x18),
558 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc), 0x1c));
559 1.6.2.2 yamt #endif
560 1.6.2.2 yamt
561 1.6.2.2 yamt bus_dmamap_sync(sc->sc_dmat, sc->sc_dmamap_sgt,
562 1.6.2.2 yamt (char *)dev->d_sgt - (char *)sc->sc_sgtpg,
563 1.6.2.2 yamt sizeof(struct njata32_sgtable) * sc->sc_piobm_nsegs,
564 1.6.2.2 yamt BUS_DMASYNC_POSTWRITE);
565 1.6.2.2 yamt
566 1.6.2.2 yamt /* check if DMA is active */
567 1.6.2.2 yamt if (bm & NJATA32_BM_GO) {
568 1.6.2.2 yamt error = WDC_DMAST_NOIRQ;
569 1.6.2.2 yamt
570 1.6.2.2 yamt switch (force) {
571 1.6.2.2 yamt case WDC_DMAEND_END:
572 1.6.2.2 yamt return error;
573 1.6.2.2 yamt
574 1.6.2.2 yamt case WDC_DMAEND_ABRT:
575 1.6.2.2 yamt printf("%s: aborting DMA\n", NJATA32NAME(sc));
576 1.6.2.2 yamt break;
577 1.6.2.2 yamt }
578 1.6.2.2 yamt }
579 1.6.2.2 yamt
580 1.6.2.2 yamt /*
581 1.6.2.2 yamt * ???
582 1.6.2.2 yamt * For unknown reason, PIOBM transfer sometimes fails in the middle,
583 1.6.2.2 yamt * in which case the bit #7 of BM register becomes 0.
584 1.6.2.2 yamt * Increasing the wait value seems to improve the situation.
585 1.6.2.2 yamt *
586 1.6.2.2 yamt * XXX
587 1.6.2.2 yamt * PIO transfer may also fail, but it seems it can't be detected.
588 1.6.2.2 yamt */
589 1.6.2.2 yamt if ((bm & NJATA32_BM_DONE) == 0) {
590 1.6.2.2 yamt error |= WDC_DMAST_ERR;
591 1.6.2.2 yamt printf("%s: busmaster error", NJATA32NAME(sc));
592 1.6.2.2 yamt if (sc->sc_atawait < 0x11) {
593 1.6.2.2 yamt if ((sc->sc_atawait & 0xf) == 0)
594 1.6.2.2 yamt sc->sc_atawait++;
595 1.6.2.2 yamt else
596 1.6.2.2 yamt sc->sc_atawait += 0x10;
597 1.6.2.2 yamt printf(", new ATA wait = %#x", sc->sc_atawait);
598 1.6.2.2 yamt njata32_setup_channel(&sc->sc_ch[0].ch_ata_channel);
599 1.6.2.2 yamt }
600 1.6.2.2 yamt printf("\n");
601 1.6.2.2 yamt }
602 1.6.2.2 yamt
603 1.6.2.2 yamt /* stop command */
604 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_AS,
605 1.6.2.2 yamt NJATA32_AS_WAIT0);
606 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc), NJATA32_REG_BM,
607 1.6.2.2 yamt NJATA32_BM_WAIT0);
608 1.6.2.2 yamt
609 1.6.2.2 yamt /* set timing for PIO */
610 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
611 1.6.2.2 yamt NJATA32_REG_TIMING, sc->sc_timing_pio);
612 1.6.2.2 yamt
613 1.6.2.2 yamt /*
614 1.6.2.2 yamt * reenable device interrupt in case it was disabled for
615 1.6.2.2 yamt * this transfer
616 1.6.2.2 yamt */
617 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
618 1.6.2.2 yamt NJATA32_REG_IRQ_SELECT, NJATA32_IRQ_XFER | NJATA32_IRQ_DEV);
619 1.6.2.2 yamt
620 1.6.2.2 yamt #if 1 /* should be? */
621 1.6.2.2 yamt if ((sc->sc_devflags & NJATA32_DEV_GOT_XFER_INTR) == 0)
622 1.6.2.2 yamt error |= WDC_DMAST_ERR;
623 1.6.2.2 yamt #endif
624 1.6.2.2 yamt sc->sc_devflags = 0;
625 1.6.2.2 yamt
626 1.6.2.2 yamt #ifdef DIAGNOSTIC
627 1.6.2.2 yamt dev->d_flags &= ~NJATA32_DEV_DMA_STARTED;
628 1.6.2.2 yamt #endif
629 1.6.2.2 yamt
630 1.6.2.2 yamt return error;
631 1.6.2.2 yamt }
632 1.6.2.2 yamt
633 1.6.2.2 yamt /*
634 1.6.2.2 yamt * unmap DMA buffer
635 1.6.2.2 yamt */
636 1.6.2.2 yamt void
637 1.6.2.2 yamt njata32_piobm_done(void *v, int channel, int drive)
638 1.6.2.2 yamt {
639 1.6.2.2 yamt struct njata32_softc *sc = v;
640 1.6.2.2 yamt struct njata32_device *dev = &sc->sc_dev[drive];
641 1.6.2.2 yamt
642 1.6.2.2 yamt DPRINTF(("%s: njata32_piobm_done: ch%d dv%d\n",
643 1.6.2.2 yamt NJATA32NAME(sc), channel, drive));
644 1.6.2.2 yamt
645 1.6.2.2 yamt KASSERT(channel == 0);
646 1.6.2.2 yamt KASSERT(dev->d_flags & NJATA32_DEV_DMA_MAPPED);
647 1.6.2.2 yamt KASSERT((dev->d_flags & NJATA32_DEV_DMA_STARTED) == 0);
648 1.6.2.2 yamt
649 1.6.2.2 yamt /* unload dma map */
650 1.6.2.2 yamt bus_dmamap_sync(sc->sc_dmat, dev->d_dmamap_xfer,
651 1.6.2.2 yamt 0, dev->d_dmamap_xfer->dm_mapsize,
652 1.6.2.2 yamt (dev->d_flags & NJATA32_DEV_DMA_READ) ?
653 1.6.2.2 yamt BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE);
654 1.6.2.2 yamt
655 1.6.2.2 yamt bus_dmamap_unload(sc->sc_dmat, dev->d_dmamap_xfer);
656 1.6.2.2 yamt dev->d_flags &= ~NJATA32_DEV_DMA_MAPPED;
657 1.6.2.2 yamt }
658 1.6.2.2 yamt
659 1.6.2.2 yamt int
660 1.6.2.2 yamt njata32_intr(arg)
661 1.6.2.2 yamt void *arg;
662 1.6.2.2 yamt {
663 1.6.2.2 yamt struct njata32_softc *sc = arg;
664 1.6.2.2 yamt struct ata_channel *chp;
665 1.6.2.2 yamt int irq;
666 1.6.2.2 yamt
667 1.6.2.2 yamt irq = bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
668 1.6.2.2 yamt NJATA32_REG_IRQ_STAT);
669 1.6.2.2 yamt if ((irq & (NJATA32_IRQ_XFER | NJATA32_IRQ_DEV)) == 0)
670 1.6.2.2 yamt return 0; /* not mine */
671 1.6.2.2 yamt
672 1.6.2.2 yamt DPRINTF(("%s: njata32_intr: irq = %#x, altstatus = %#x\n",
673 1.6.2.2 yamt NJATA32NAME(sc), irq,
674 1.6.2.2 yamt bus_space_read_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
675 1.6.2.2 yamt NJATA32_REG_WD_ALTSTATUS)));
676 1.6.2.2 yamt
677 1.6.2.2 yamt chp = &sc->sc_ch[0].ch_ata_channel;
678 1.6.2.2 yamt
679 1.6.2.2 yamt if (irq & NJATA32_IRQ_XFER)
680 1.6.2.2 yamt sc->sc_devflags |= NJATA32_DEV_GOT_XFER_INTR;
681 1.6.2.2 yamt
682 1.6.2.2 yamt if ((irq & (NJATA32_IRQ_XFER | NJATA32_IRQ_DEV)) == NJATA32_IRQ_XFER &&
683 1.6.2.2 yamt (sc->sc_devflags & NJATA32_DEV_XFER_INTR) == 0) {
684 1.6.2.2 yamt /*
685 1.6.2.2 yamt * transfer done, wait for device interrupt
686 1.6.2.2 yamt */
687 1.6.2.2 yamt bus_space_write_1(NJATA32_REGT(sc), NJATA32_REGH(sc),
688 1.6.2.2 yamt NJATA32_REG_BM, NJATA32_BM_WAIT0);
689 1.6.2.2 yamt return 1;
690 1.6.2.2 yamt }
691 1.6.2.2 yamt
692 1.6.2.2 yamt /*
693 1.6.2.2 yamt * If both transfer done interrupt and device interrupt are
694 1.6.2.2 yamt * active for ATAPI transfer, call wdcintr() twice.
695 1.6.2.2 yamt */
696 1.6.2.2 yamt if ((sc->sc_devflags & NJATA32_DEV_DMA_ATAPI) &&
697 1.6.2.2 yamt (irq & (NJATA32_IRQ_XFER | NJATA32_IRQ_DEV)) ==
698 1.6.2.2 yamt (NJATA32_IRQ_XFER | NJATA32_IRQ_DEV) &&
699 1.6.2.2 yamt (sc->sc_devflags & NJATA32_DEV_XFER_INTR)) {
700 1.6.2.2 yamt if (wdcintr(chp) == 0) {
701 1.6.2.2 yamt njata32_clearirq(&sc->sc_ch[0].ch_ata_channel, irq);
702 1.6.2.2 yamt }
703 1.6.2.2 yamt }
704 1.6.2.2 yamt
705 1.6.2.2 yamt if (wdcintr(chp) == 0) {
706 1.6.2.2 yamt njata32_clearirq(&sc->sc_ch[0].ch_ata_channel, irq);
707 1.6.2.2 yamt }
708 1.6.2.2 yamt
709 1.6.2.2 yamt return 1;
710 1.6.2.2 yamt }
711