1098ca2bdSWarner Losh /*- 2*718cf2ccSPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD 3*718cf2ccSPedro F. Giffuni * 4fe1a5d1cSSeigo Tanimura * Copyright (c) 1999 Seigo Tanimura 5fe1a5d1cSSeigo Tanimura * All rights reserved. 6fe1a5d1cSSeigo Tanimura * 77012990aSSeigo Tanimura * Portions of this source are based on cwcealdr.cpp and dhwiface.cpp in 87012990aSSeigo Tanimura * cwcealdr1.zip, the sample sources by Crystal Semiconductor. 97012990aSSeigo Tanimura * Copyright (c) 1996-1998 Crystal Semiconductor Corp. 107012990aSSeigo Tanimura * 11fe1a5d1cSSeigo Tanimura * Redistribution and use in source and binary forms, with or without 12fe1a5d1cSSeigo Tanimura * modification, are permitted provided that the following conditions 13fe1a5d1cSSeigo Tanimura * are met: 14fe1a5d1cSSeigo Tanimura * 1. Redistributions of source code must retain the above copyright 15fe1a5d1cSSeigo Tanimura * notice, this list of conditions and the following disclaimer. 16fe1a5d1cSSeigo Tanimura * 2. Redistributions in binary form must reproduce the above copyright 17fe1a5d1cSSeigo Tanimura * notice, this list of conditions and the following disclaimer in the 18fe1a5d1cSSeigo Tanimura * documentation and/or other materials provided with the distribution. 19fe1a5d1cSSeigo Tanimura * 20fe1a5d1cSSeigo Tanimura * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 21fe1a5d1cSSeigo Tanimura * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 22fe1a5d1cSSeigo Tanimura * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 23fe1a5d1cSSeigo Tanimura * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 24fe1a5d1cSSeigo Tanimura * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 25fe1a5d1cSSeigo Tanimura * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 26fe1a5d1cSSeigo Tanimura * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 27fe1a5d1cSSeigo Tanimura * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 28fe1a5d1cSSeigo Tanimura * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 29fe1a5d1cSSeigo Tanimura * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 30fe1a5d1cSSeigo Tanimura * SUCH DAMAGE. 31fe1a5d1cSSeigo Tanimura */ 32fe1a5d1cSSeigo Tanimura 33fe1a5d1cSSeigo Tanimura #include <sys/param.h> 34fe1a5d1cSSeigo Tanimura #include <sys/systm.h> 35fe1a5d1cSSeigo Tanimura #include <sys/kernel.h> 36fe1a5d1cSSeigo Tanimura #include <sys/bus.h> 37fe1a5d1cSSeigo Tanimura #include <sys/malloc.h> 38fe1a5d1cSSeigo Tanimura #include <sys/module.h> 39fe1a5d1cSSeigo Tanimura #include <machine/resource.h> 40fe1a5d1cSSeigo Tanimura #include <machine/bus.h> 41fe1a5d1cSSeigo Tanimura #include <sys/rman.h> 4290da2b28SAriff Abdullah 4390da2b28SAriff Abdullah #ifdef HAVE_KERNEL_OPTION_HEADERS 4490da2b28SAriff Abdullah #include "opt_snd.h" 4590da2b28SAriff Abdullah #endif 4690da2b28SAriff Abdullah 47f314f3daSCameron Grant #include <dev/sound/pcm/sound.h> 48fe1a5d1cSSeigo Tanimura #include <dev/sound/chip.h> 49fe1a5d1cSSeigo Tanimura #include <dev/sound/pci/csareg.h> 50fe1a5d1cSSeigo Tanimura #include <dev/sound/pci/csavar.h> 51fe1a5d1cSSeigo Tanimura 5290cf0136SWarner Losh #include <dev/pci/pcireg.h> 5390cf0136SWarner Losh #include <dev/pci/pcivar.h> 54fe1a5d1cSSeigo Tanimura 557106ed25SPedro F. Giffuni #include <dev/sound/pci/cs461x_dsp.h> 5620ac1df7SCameron Grant 5767b1dce3SCameron Grant SND_DECLARE_FILE("$FreeBSD$"); 5867b1dce3SCameron Grant 5920ac1df7SCameron Grant /* This is the pci device id. */ 6020ac1df7SCameron Grant #define CS4610_PCI_ID 0x60011013 6120ac1df7SCameron Grant #define CS4614_PCI_ID 0x60031013 6220ac1df7SCameron Grant #define CS4615_PCI_ID 0x60041013 63fe1a5d1cSSeigo Tanimura 64fe1a5d1cSSeigo Tanimura /* Here is the parameter structure per a device. */ 65fe1a5d1cSSeigo Tanimura struct csa_softc { 66fe1a5d1cSSeigo Tanimura device_t dev; /* device */ 67fe1a5d1cSSeigo Tanimura csa_res res; /* resources */ 68fe1a5d1cSSeigo Tanimura 69fe1a5d1cSSeigo Tanimura device_t pcm; /* pcm device */ 70fe1a5d1cSSeigo Tanimura driver_intr_t* pcmintr; /* pcm intr */ 71fe1a5d1cSSeigo Tanimura void *pcmintr_arg; /* pcm intr arg */ 72fe1a5d1cSSeigo Tanimura device_t midi; /* midi device */ 73fe1a5d1cSSeigo Tanimura driver_intr_t* midiintr; /* midi intr */ 74fe1a5d1cSSeigo Tanimura void *midiintr_arg; /* midi intr arg */ 75fe1a5d1cSSeigo Tanimura void *ih; /* cookie */ 76f259d7eeSSeigo Tanimura 7720ac1df7SCameron Grant struct csa_card *card; 78f259d7eeSSeigo Tanimura struct csa_bridgeinfo binfo; /* The state of this bridge. */ 79fe1a5d1cSSeigo Tanimura }; 80fe1a5d1cSSeigo Tanimura 81fe1a5d1cSSeigo Tanimura typedef struct csa_softc *sc_p; 82fe1a5d1cSSeigo Tanimura 83fe1a5d1cSSeigo Tanimura static int csa_probe(device_t dev); 84fe1a5d1cSSeigo Tanimura static int csa_attach(device_t dev); 85fe1a5d1cSSeigo Tanimura static struct resource *csa_alloc_resource(device_t bus, device_t child, int type, int *rid, 862dd1bdf1SJustin Hibbits rman_res_t start, rman_res_t end, 872dd1bdf1SJustin Hibbits rman_res_t count, u_int flags); 88fe1a5d1cSSeigo Tanimura static int csa_release_resource(device_t bus, device_t child, int type, int rid, 89fe1a5d1cSSeigo Tanimura struct resource *r); 90f259d7eeSSeigo Tanimura static int csa_setup_intr(device_t bus, device_t child, 91f259d7eeSSeigo Tanimura struct resource *irq, int flags, 922cc08b74SAriff Abdullah driver_filter_t *filter, 932cc08b74SAriff Abdullah driver_intr_t *intr, void *arg, void **cookiep); 94f259d7eeSSeigo Tanimura static int csa_teardown_intr(device_t bus, device_t child, 95f259d7eeSSeigo Tanimura struct resource *irq, void *cookie); 96f259d7eeSSeigo Tanimura static driver_intr_t csa_intr; 97fe1a5d1cSSeigo Tanimura static int csa_initialize(sc_p scp); 98fe1a5d1cSSeigo Tanimura static int csa_downloadimage(csa_res *resp); 997106ed25SPedro F. Giffuni static int csa_transferimage(csa_res *resp, u_int32_t *src, u_long dest, u_long len); 100fe1a5d1cSSeigo Tanimura 101fe1a5d1cSSeigo Tanimura static devclass_t csa_devclass; 102fe1a5d1cSSeigo Tanimura 10320ac1df7SCameron Grant static void 10420ac1df7SCameron Grant amp_none(void) 10520ac1df7SCameron Grant { 10620ac1df7SCameron Grant } 10720ac1df7SCameron Grant 10820ac1df7SCameron Grant static void 10920ac1df7SCameron Grant amp_voyetra(void) 11020ac1df7SCameron Grant { 11120ac1df7SCameron Grant } 11220ac1df7SCameron Grant 11320ac1df7SCameron Grant static int 11420ac1df7SCameron Grant clkrun_hack(int run) 11520ac1df7SCameron Grant { 11620ac1df7SCameron Grant #ifdef __i386__ 11720ac1df7SCameron Grant devclass_t pci_devclass; 11820ac1df7SCameron Grant device_t *pci_devices, *pci_children, *busp, *childp; 11920ac1df7SCameron Grant int pci_count = 0, pci_childcount = 0; 12020ac1df7SCameron Grant int i, j, port; 12120ac1df7SCameron Grant u_int16_t control; 12220ac1df7SCameron Grant bus_space_tag_t btag; 12320ac1df7SCameron Grant 12420ac1df7SCameron Grant if ((pci_devclass = devclass_find("pci")) == NULL) { 12520ac1df7SCameron Grant return ENXIO; 12620ac1df7SCameron Grant } 12720ac1df7SCameron Grant 12820ac1df7SCameron Grant devclass_get_devices(pci_devclass, &pci_devices, &pci_count); 12920ac1df7SCameron Grant 13020ac1df7SCameron Grant for (i = 0, busp = pci_devices; i < pci_count; i++, busp++) { 13120ac1df7SCameron Grant pci_childcount = 0; 132a4e1d2d2SWarner Losh if (device_get_children(*busp, &pci_children, &pci_childcount)) 133a4e1d2d2SWarner Losh continue; 13420ac1df7SCameron Grant for (j = 0, childp = pci_children; j < pci_childcount; j++, childp++) { 13520ac1df7SCameron Grant if (pci_get_vendor(*childp) == 0x8086 && pci_get_device(*childp) == 0x7113) { 13620ac1df7SCameron Grant port = (pci_read_config(*childp, 0x41, 1) << 8) + 0x10; 13720ac1df7SCameron Grant /* XXX */ 13881bd5041STijl Coosemans btag = X86_BUS_SPACE_IO; 13920ac1df7SCameron Grant 14020ac1df7SCameron Grant control = bus_space_read_2(btag, 0x0, port); 14120ac1df7SCameron Grant control &= ~0x2000; 14220ac1df7SCameron Grant control |= run? 0 : 0x2000; 14320ac1df7SCameron Grant bus_space_write_2(btag, 0x0, port, control); 144b30d1156SCameron Grant free(pci_devices, M_TEMP); 145b30d1156SCameron Grant free(pci_children, M_TEMP); 14620ac1df7SCameron Grant return 0; 14720ac1df7SCameron Grant } 14820ac1df7SCameron Grant } 149b30d1156SCameron Grant free(pci_children, M_TEMP); 15020ac1df7SCameron Grant } 15120ac1df7SCameron Grant 15220ac1df7SCameron Grant free(pci_devices, M_TEMP); 15320ac1df7SCameron Grant return ENXIO; 15420ac1df7SCameron Grant #else 15520ac1df7SCameron Grant return 0; 15620ac1df7SCameron Grant #endif 15720ac1df7SCameron Grant } 15820ac1df7SCameron Grant 15920ac1df7SCameron Grant static struct csa_card cards_4610[] = { 1608e81760bSCameron Grant {0, 0, "Unknown/invalid SSID (CS4610)", NULL, NULL, NULL, 0}, 16120ac1df7SCameron Grant }; 16220ac1df7SCameron Grant 16320ac1df7SCameron Grant static struct csa_card cards_4614[] = { 1648e81760bSCameron Grant {0x1489, 0x7001, "Genius Soundmaker 128 value", amp_none, NULL, NULL, 0}, 1658e81760bSCameron Grant {0x5053, 0x3357, "Turtle Beach Santa Cruz", amp_voyetra, NULL, NULL, 1}, 1668e81760bSCameron Grant {0x1071, 0x6003, "Mitac MI6020/21", amp_voyetra, NULL, NULL, 0}, 1678e81760bSCameron Grant {0x14AF, 0x0050, "Hercules Game Theatre XP", NULL, NULL, NULL, 0}, 1688e81760bSCameron Grant {0x1681, 0x0050, "Hercules Game Theatre XP", NULL, NULL, NULL, 0}, 16941425f4fSJeroen Ruigrok van der Werven {0x1014, 0x0132, "Thinkpad 570", amp_none, NULL, NULL, 0}, 1708e81760bSCameron Grant {0x1014, 0x0153, "Thinkpad 600X/A20/T20", amp_none, NULL, clkrun_hack, 0}, 1718e81760bSCameron Grant {0x1014, 0x1010, "Thinkpad 600E (unsupported)", NULL, NULL, NULL, 0}, 1728e81760bSCameron Grant {0, 0, "Unknown/invalid SSID (CS4614)", NULL, NULL, NULL, 0}, 17320ac1df7SCameron Grant }; 17420ac1df7SCameron Grant 17520ac1df7SCameron Grant static struct csa_card cards_4615[] = { 1768e81760bSCameron Grant {0, 0, "Unknown/invalid SSID (CS4615)", NULL, NULL, NULL, 0}, 17720ac1df7SCameron Grant }; 17820ac1df7SCameron Grant 1798e81760bSCameron Grant static struct csa_card nocard = {0, 0, "unknown", NULL, NULL, NULL, 0}; 18020ac1df7SCameron Grant 18120ac1df7SCameron Grant struct card_type { 18220ac1df7SCameron Grant u_int32_t devid; 18320ac1df7SCameron Grant char *name; 18420ac1df7SCameron Grant struct csa_card *cards; 18520ac1df7SCameron Grant }; 18620ac1df7SCameron Grant 18720ac1df7SCameron Grant static struct card_type cards[] = { 18820ac1df7SCameron Grant {CS4610_PCI_ID, "CS4610/CS4611", cards_4610}, 18920ac1df7SCameron Grant {CS4614_PCI_ID, "CS4280/CS4614/CS4622/CS4624/CS4630", cards_4614}, 19020ac1df7SCameron Grant {CS4615_PCI_ID, "CS4615", cards_4615}, 19120ac1df7SCameron Grant {0, NULL, NULL}, 19220ac1df7SCameron Grant }; 19320ac1df7SCameron Grant 19420ac1df7SCameron Grant static struct card_type * 19520ac1df7SCameron Grant csa_findcard(device_t dev) 19620ac1df7SCameron Grant { 19720ac1df7SCameron Grant int i; 19820ac1df7SCameron Grant 19920ac1df7SCameron Grant i = 0; 20020ac1df7SCameron Grant while (cards[i].devid != 0) { 20120ac1df7SCameron Grant if (pci_get_devid(dev) == cards[i].devid) 20220ac1df7SCameron Grant return &cards[i]; 20320ac1df7SCameron Grant i++; 20420ac1df7SCameron Grant } 20520ac1df7SCameron Grant return NULL; 20620ac1df7SCameron Grant } 20720ac1df7SCameron Grant 20820ac1df7SCameron Grant struct csa_card * 20920ac1df7SCameron Grant csa_findsubcard(device_t dev) 21020ac1df7SCameron Grant { 21120ac1df7SCameron Grant int i; 21220ac1df7SCameron Grant struct card_type *card; 21320ac1df7SCameron Grant struct csa_card *subcard; 21420ac1df7SCameron Grant 21520ac1df7SCameron Grant card = csa_findcard(dev); 21620ac1df7SCameron Grant if (card == NULL) 21720ac1df7SCameron Grant return &nocard; 21820ac1df7SCameron Grant subcard = card->cards; 21920ac1df7SCameron Grant i = 0; 22020ac1df7SCameron Grant while (subcard[i].subvendor != 0) { 22120ac1df7SCameron Grant if (pci_get_subvendor(dev) == subcard[i].subvendor 22220ac1df7SCameron Grant && pci_get_subdevice(dev) == subcard[i].subdevice) { 22320ac1df7SCameron Grant return &subcard[i]; 22420ac1df7SCameron Grant } 22520ac1df7SCameron Grant i++; 22620ac1df7SCameron Grant } 22720ac1df7SCameron Grant return &subcard[i]; 22820ac1df7SCameron Grant } 22920ac1df7SCameron Grant 230fe1a5d1cSSeigo Tanimura static int 231fe1a5d1cSSeigo Tanimura csa_probe(device_t dev) 232fe1a5d1cSSeigo Tanimura { 23320ac1df7SCameron Grant struct card_type *card; 234fe1a5d1cSSeigo Tanimura 23520ac1df7SCameron Grant card = csa_findcard(dev); 23620ac1df7SCameron Grant if (card) { 23720ac1df7SCameron Grant device_set_desc(dev, card->name); 238d2b677bbSWarner Losh return BUS_PROBE_DEFAULT; 239fe1a5d1cSSeigo Tanimura } 24020ac1df7SCameron Grant return ENXIO; 241fe1a5d1cSSeigo Tanimura } 242fe1a5d1cSSeigo Tanimura 243fe1a5d1cSSeigo Tanimura static int 244fe1a5d1cSSeigo Tanimura csa_attach(device_t dev) 245fe1a5d1cSSeigo Tanimura { 246fe1a5d1cSSeigo Tanimura sc_p scp; 247fe1a5d1cSSeigo Tanimura csa_res *resp; 248f259d7eeSSeigo Tanimura struct sndcard_func *func; 249916076feSThomas Moestl int error = ENXIO; 250fe1a5d1cSSeigo Tanimura 251fe1a5d1cSSeigo Tanimura scp = device_get_softc(dev); 252fe1a5d1cSSeigo Tanimura 253fe1a5d1cSSeigo Tanimura /* Fill in the softc. */ 254fe1a5d1cSSeigo Tanimura bzero(scp, sizeof(*scp)); 255fe1a5d1cSSeigo Tanimura scp->dev = dev; 256fe1a5d1cSSeigo Tanimura 257c68534f1SScott Long pci_enable_busmaster(dev); 258fe1a5d1cSSeigo Tanimura 259fe1a5d1cSSeigo Tanimura /* Allocate the resources. */ 260fe1a5d1cSSeigo Tanimura resp = &scp->res; 26120ac1df7SCameron Grant scp->card = csa_findsubcard(dev); 26220ac1df7SCameron Grant scp->binfo.card = scp->card; 26320ac1df7SCameron Grant printf("csa: card is %s\n", scp->card->name); 264e27951b2SJohn Baldwin resp->io_rid = PCIR_BAR(0); 2655f96beb9SNate Lawson resp->io = bus_alloc_resource_any(dev, SYS_RES_MEMORY, 2665f96beb9SNate Lawson &resp->io_rid, RF_ACTIVE); 267fe1a5d1cSSeigo Tanimura if (resp->io == NULL) 268fe1a5d1cSSeigo Tanimura return (ENXIO); 269e27951b2SJohn Baldwin resp->mem_rid = PCIR_BAR(1); 2705f96beb9SNate Lawson resp->mem = bus_alloc_resource_any(dev, SYS_RES_MEMORY, 2715f96beb9SNate Lawson &resp->mem_rid, RF_ACTIVE); 272916076feSThomas Moestl if (resp->mem == NULL) 273916076feSThomas Moestl goto err_io; 274fe1a5d1cSSeigo Tanimura resp->irq_rid = 0; 2755f96beb9SNate Lawson resp->irq = bus_alloc_resource_any(dev, SYS_RES_IRQ, 2765f96beb9SNate Lawson &resp->irq_rid, RF_ACTIVE | RF_SHAREABLE); 277916076feSThomas Moestl if (resp->irq == NULL) 278916076feSThomas Moestl goto err_mem; 279fe1a5d1cSSeigo Tanimura 280f259d7eeSSeigo Tanimura /* Enable interrupt. */ 2818fb9a995SBrian Feldman if (snd_setup_intr(dev, resp->irq, 0, csa_intr, scp, &scp->ih)) 282916076feSThomas Moestl goto err_intr; 28320ac1df7SCameron Grant #if 0 284f259d7eeSSeigo Tanimura if ((csa_readio(resp, BA0_HISR) & HISR_INTENA) == 0) 285f259d7eeSSeigo Tanimura csa_writeio(resp, BA0_HICR, HICR_IEV | HICR_CHGM); 28620ac1df7SCameron Grant #endif 287f259d7eeSSeigo Tanimura 288fe1a5d1cSSeigo Tanimura /* Initialize the chip. */ 289916076feSThomas Moestl if (csa_initialize(scp)) 290916076feSThomas Moestl goto err_teardown; 291fe1a5d1cSSeigo Tanimura 292fe1a5d1cSSeigo Tanimura /* Reset the Processor. */ 293fe1a5d1cSSeigo Tanimura csa_resetdsp(resp); 294fe1a5d1cSSeigo Tanimura 295fe1a5d1cSSeigo Tanimura /* Download the Processor Image to the processor. */ 296916076feSThomas Moestl if (csa_downloadimage(resp)) 297916076feSThomas Moestl goto err_teardown; 298fe1a5d1cSSeigo Tanimura 299f259d7eeSSeigo Tanimura /* Attach the children. */ 300f259d7eeSSeigo Tanimura 301f259d7eeSSeigo Tanimura /* PCM Audio */ 302733a4ea7SGeorge C A Reid func = malloc(sizeof(struct sndcard_func), M_DEVBUF, M_NOWAIT | M_ZERO); 303916076feSThomas Moestl if (func == NULL) { 304916076feSThomas Moestl error = ENOMEM; 305916076feSThomas Moestl goto err_teardown; 306916076feSThomas Moestl } 307f259d7eeSSeigo Tanimura func->varinfo = &scp->binfo; 308f259d7eeSSeigo Tanimura func->func = SCF_PCM; 309f259d7eeSSeigo Tanimura scp->pcm = device_add_child(dev, "pcm", -1); 310f259d7eeSSeigo Tanimura device_set_ivars(scp->pcm, func); 311f259d7eeSSeigo Tanimura 312f259d7eeSSeigo Tanimura /* Midi Interface */ 313733a4ea7SGeorge C A Reid func = malloc(sizeof(struct sndcard_func), M_DEVBUF, M_NOWAIT | M_ZERO); 314916076feSThomas Moestl if (func == NULL) { 315916076feSThomas Moestl error = ENOMEM; 316916076feSThomas Moestl goto err_teardown; 317916076feSThomas Moestl } 318f259d7eeSSeigo Tanimura func->varinfo = &scp->binfo; 319f259d7eeSSeigo Tanimura func->func = SCF_MIDI; 320f259d7eeSSeigo Tanimura scp->midi = device_add_child(dev, "midi", -1); 321f259d7eeSSeigo Tanimura device_set_ivars(scp->midi, func); 322f259d7eeSSeigo Tanimura 323fe1a5d1cSSeigo Tanimura bus_generic_attach(dev); 324fe1a5d1cSSeigo Tanimura 325fe1a5d1cSSeigo Tanimura return (0); 326916076feSThomas Moestl 327916076feSThomas Moestl err_teardown: 328916076feSThomas Moestl bus_teardown_intr(dev, resp->irq, scp->ih); 329916076feSThomas Moestl err_intr: 330916076feSThomas Moestl bus_release_resource(dev, SYS_RES_IRQ, resp->irq_rid, resp->irq); 331916076feSThomas Moestl err_mem: 332916076feSThomas Moestl bus_release_resource(dev, SYS_RES_MEMORY, resp->mem_rid, resp->mem); 333916076feSThomas Moestl err_io: 334916076feSThomas Moestl bus_release_resource(dev, SYS_RES_MEMORY, resp->io_rid, resp->io); 335916076feSThomas Moestl return (error); 336fe1a5d1cSSeigo Tanimura } 337fe1a5d1cSSeigo Tanimura 33820ac1df7SCameron Grant static int 33920ac1df7SCameron Grant csa_detach(device_t dev) 34020ac1df7SCameron Grant { 34152eb6afdSCameron Grant csa_res *resp; 34220ac1df7SCameron Grant sc_p scp; 343d2ea76feSAriff Abdullah struct sndcard_func *func; 34452eb6afdSCameron Grant int err; 34520ac1df7SCameron Grant 34620ac1df7SCameron Grant scp = device_get_softc(dev); 34752eb6afdSCameron Grant resp = &scp->res; 34852eb6afdSCameron Grant 349d2ea76feSAriff Abdullah if (scp->midi != NULL) { 350d2ea76feSAriff Abdullah func = device_get_ivars(scp->midi); 35152eb6afdSCameron Grant err = device_delete_child(dev, scp->midi); 352d2ea76feSAriff Abdullah if (err != 0) 35352eb6afdSCameron Grant return err; 354d2ea76feSAriff Abdullah if (func != NULL) 355d2ea76feSAriff Abdullah free(func, M_DEVBUF); 35652eb6afdSCameron Grant scp->midi = NULL; 357d2ea76feSAriff Abdullah } 35852eb6afdSCameron Grant 359d2ea76feSAriff Abdullah if (scp->pcm != NULL) { 360d2ea76feSAriff Abdullah func = device_get_ivars(scp->pcm); 36152eb6afdSCameron Grant err = device_delete_child(dev, scp->pcm); 362d2ea76feSAriff Abdullah if (err != 0) 36352eb6afdSCameron Grant return err; 364d2ea76feSAriff Abdullah if (func != NULL) 365d2ea76feSAriff Abdullah free(func, M_DEVBUF); 36652eb6afdSCameron Grant scp->pcm = NULL; 367d2ea76feSAriff Abdullah } 36852eb6afdSCameron Grant 36952eb6afdSCameron Grant bus_teardown_intr(dev, resp->irq, scp->ih); 37052eb6afdSCameron Grant bus_release_resource(dev, SYS_RES_IRQ, resp->irq_rid, resp->irq); 37152eb6afdSCameron Grant bus_release_resource(dev, SYS_RES_MEMORY, resp->mem_rid, resp->mem); 37252eb6afdSCameron Grant bus_release_resource(dev, SYS_RES_MEMORY, resp->io_rid, resp->io); 37352eb6afdSCameron Grant 37420ac1df7SCameron Grant return bus_generic_detach(dev); 37520ac1df7SCameron Grant } 37620ac1df7SCameron Grant 377fed38951SDoug Ambrisko static int 378fed38951SDoug Ambrisko csa_resume(device_t dev) 379fed38951SDoug Ambrisko { 380961478afSGleb Smirnoff csa_res *resp; 381961478afSGleb Smirnoff sc_p scp; 382961478afSGleb Smirnoff 383961478afSGleb Smirnoff scp = device_get_softc(dev); 384961478afSGleb Smirnoff resp = &scp->res; 385961478afSGleb Smirnoff 386961478afSGleb Smirnoff /* Initialize the chip. */ 387961478afSGleb Smirnoff if (csa_initialize(scp)) 388961478afSGleb Smirnoff return (ENXIO); 389961478afSGleb Smirnoff 390961478afSGleb Smirnoff /* Reset the Processor. */ 391961478afSGleb Smirnoff csa_resetdsp(resp); 392961478afSGleb Smirnoff 393961478afSGleb Smirnoff /* Download the Processor Image to the processor. */ 394961478afSGleb Smirnoff if (csa_downloadimage(resp)) 395961478afSGleb Smirnoff return (ENXIO); 396961478afSGleb Smirnoff 397961478afSGleb Smirnoff return (bus_generic_resume(dev)); 398fed38951SDoug Ambrisko } 399fed38951SDoug Ambrisko 400fe1a5d1cSSeigo Tanimura static struct resource * 401fe1a5d1cSSeigo Tanimura csa_alloc_resource(device_t bus, device_t child, int type, int *rid, 4022dd1bdf1SJustin Hibbits rman_res_t start, rman_res_t end, rman_res_t count, u_int flags) 403fe1a5d1cSSeigo Tanimura { 404fe1a5d1cSSeigo Tanimura sc_p scp; 405fe1a5d1cSSeigo Tanimura csa_res *resp; 406fe1a5d1cSSeigo Tanimura struct resource *res; 407fe1a5d1cSSeigo Tanimura 408fe1a5d1cSSeigo Tanimura scp = device_get_softc(bus); 409fe1a5d1cSSeigo Tanimura resp = &scp->res; 410fe1a5d1cSSeigo Tanimura switch (type) { 411fe1a5d1cSSeigo Tanimura case SYS_RES_IRQ: 412fe1a5d1cSSeigo Tanimura if (*rid != 0) 413fe1a5d1cSSeigo Tanimura return (NULL); 414fe1a5d1cSSeigo Tanimura res = resp->irq; 415fe1a5d1cSSeigo Tanimura break; 416fe1a5d1cSSeigo Tanimura case SYS_RES_MEMORY: 417fe1a5d1cSSeigo Tanimura switch (*rid) { 418e27951b2SJohn Baldwin case PCIR_BAR(0): 419fe1a5d1cSSeigo Tanimura res = resp->io; 420fe1a5d1cSSeigo Tanimura break; 421e27951b2SJohn Baldwin case PCIR_BAR(1): 422fe1a5d1cSSeigo Tanimura res = resp->mem; 423fe1a5d1cSSeigo Tanimura break; 424fe1a5d1cSSeigo Tanimura default: 425fe1a5d1cSSeigo Tanimura return (NULL); 426fe1a5d1cSSeigo Tanimura } 427fe1a5d1cSSeigo Tanimura break; 428fe1a5d1cSSeigo Tanimura default: 429fe1a5d1cSSeigo Tanimura return (NULL); 430fe1a5d1cSSeigo Tanimura } 431fe1a5d1cSSeigo Tanimura 432fe1a5d1cSSeigo Tanimura return res; 433fe1a5d1cSSeigo Tanimura } 434fe1a5d1cSSeigo Tanimura 435fe1a5d1cSSeigo Tanimura static int 436fe1a5d1cSSeigo Tanimura csa_release_resource(device_t bus, device_t child, int type, int rid, 437fe1a5d1cSSeigo Tanimura struct resource *r) 438fe1a5d1cSSeigo Tanimura { 439fe1a5d1cSSeigo Tanimura return (0); 440fe1a5d1cSSeigo Tanimura } 441fe1a5d1cSSeigo Tanimura 442f259d7eeSSeigo Tanimura /* 443f259d7eeSSeigo Tanimura * The following three functions deal with interrupt handling. 444f259d7eeSSeigo Tanimura * An interrupt is primarily handled by the bridge driver. 445f259d7eeSSeigo Tanimura * The bridge driver then determines the child devices to pass 446f259d7eeSSeigo Tanimura * the interrupt. Certain information of the device can be read 447f259d7eeSSeigo Tanimura * only once(eg the value of HISR). The bridge driver is responsible 448f259d7eeSSeigo Tanimura * to pass such the information to the children. 449f259d7eeSSeigo Tanimura */ 450f259d7eeSSeigo Tanimura 451f259d7eeSSeigo Tanimura static int 452f259d7eeSSeigo Tanimura csa_setup_intr(device_t bus, device_t child, 453f259d7eeSSeigo Tanimura struct resource *irq, int flags, 4542cc08b74SAriff Abdullah driver_filter_t *filter, 4552cc08b74SAriff Abdullah driver_intr_t *intr, void *arg, void **cookiep) 456f259d7eeSSeigo Tanimura { 457f259d7eeSSeigo Tanimura sc_p scp; 458f259d7eeSSeigo Tanimura csa_res *resp; 459f259d7eeSSeigo Tanimura struct sndcard_func *func; 460f259d7eeSSeigo Tanimura 461ef544f63SPaolo Pisati if (filter != NULL) { 462ef544f63SPaolo Pisati printf("ata-csa.c: we cannot use a filter here\n"); 463ef544f63SPaolo Pisati return (EINVAL); 464ef544f63SPaolo Pisati } 465f259d7eeSSeigo Tanimura scp = device_get_softc(bus); 466f259d7eeSSeigo Tanimura resp = &scp->res; 467f259d7eeSSeigo Tanimura 468f259d7eeSSeigo Tanimura /* 469f259d7eeSSeigo Tanimura * Look at the function code of the child to determine 470f259d7eeSSeigo Tanimura * the appropriate hander for it. 471f259d7eeSSeigo Tanimura */ 472f259d7eeSSeigo Tanimura func = device_get_ivars(child); 473f259d7eeSSeigo Tanimura if (func == NULL || irq != resp->irq) 474f259d7eeSSeigo Tanimura return (EINVAL); 475f259d7eeSSeigo Tanimura 476f259d7eeSSeigo Tanimura switch (func->func) { 477f259d7eeSSeigo Tanimura case SCF_PCM: 478f259d7eeSSeigo Tanimura scp->pcmintr = intr; 479f259d7eeSSeigo Tanimura scp->pcmintr_arg = arg; 480f259d7eeSSeigo Tanimura break; 481f259d7eeSSeigo Tanimura 482f259d7eeSSeigo Tanimura case SCF_MIDI: 483f259d7eeSSeigo Tanimura scp->midiintr = intr; 484f259d7eeSSeigo Tanimura scp->midiintr_arg = arg; 485f259d7eeSSeigo Tanimura break; 486f259d7eeSSeigo Tanimura 487f259d7eeSSeigo Tanimura default: 488f259d7eeSSeigo Tanimura return (EINVAL); 489f259d7eeSSeigo Tanimura } 490f259d7eeSSeigo Tanimura *cookiep = scp; 491f259d7eeSSeigo Tanimura if ((csa_readio(resp, BA0_HISR) & HISR_INTENA) == 0) 492f259d7eeSSeigo Tanimura csa_writeio(resp, BA0_HICR, HICR_IEV | HICR_CHGM); 493f259d7eeSSeigo Tanimura 494f259d7eeSSeigo Tanimura return (0); 495f259d7eeSSeigo Tanimura } 496f259d7eeSSeigo Tanimura 497f259d7eeSSeigo Tanimura static int 498f259d7eeSSeigo Tanimura csa_teardown_intr(device_t bus, device_t child, 499f259d7eeSSeigo Tanimura struct resource *irq, void *cookie) 500f259d7eeSSeigo Tanimura { 501f259d7eeSSeigo Tanimura sc_p scp; 502f259d7eeSSeigo Tanimura csa_res *resp; 503f259d7eeSSeigo Tanimura struct sndcard_func *func; 504f259d7eeSSeigo Tanimura 505f259d7eeSSeigo Tanimura scp = device_get_softc(bus); 506f259d7eeSSeigo Tanimura resp = &scp->res; 507f259d7eeSSeigo Tanimura 508f259d7eeSSeigo Tanimura /* 509f259d7eeSSeigo Tanimura * Look at the function code of the child to determine 510f259d7eeSSeigo Tanimura * the appropriate hander for it. 511f259d7eeSSeigo Tanimura */ 512f259d7eeSSeigo Tanimura func = device_get_ivars(child); 513f259d7eeSSeigo Tanimura if (func == NULL || irq != resp->irq || cookie != scp) 514f259d7eeSSeigo Tanimura return (EINVAL); 515f259d7eeSSeigo Tanimura 516f259d7eeSSeigo Tanimura switch (func->func) { 517f259d7eeSSeigo Tanimura case SCF_PCM: 518f259d7eeSSeigo Tanimura scp->pcmintr = NULL; 519f259d7eeSSeigo Tanimura scp->pcmintr_arg = NULL; 520f259d7eeSSeigo Tanimura break; 521f259d7eeSSeigo Tanimura 522f259d7eeSSeigo Tanimura case SCF_MIDI: 523f259d7eeSSeigo Tanimura scp->midiintr = NULL; 524f259d7eeSSeigo Tanimura scp->midiintr_arg = NULL; 525f259d7eeSSeigo Tanimura break; 526f259d7eeSSeigo Tanimura 527f259d7eeSSeigo Tanimura default: 528f259d7eeSSeigo Tanimura return (EINVAL); 529f259d7eeSSeigo Tanimura } 530f259d7eeSSeigo Tanimura 531f259d7eeSSeigo Tanimura return (0); 532f259d7eeSSeigo Tanimura } 533f259d7eeSSeigo Tanimura 534f259d7eeSSeigo Tanimura /* The interrupt handler */ 535f259d7eeSSeigo Tanimura static void 536f259d7eeSSeigo Tanimura csa_intr(void *arg) 537f259d7eeSSeigo Tanimura { 538f259d7eeSSeigo Tanimura sc_p scp = arg; 539f259d7eeSSeigo Tanimura csa_res *resp; 540f259d7eeSSeigo Tanimura u_int32_t hisr; 541f259d7eeSSeigo Tanimura 542f259d7eeSSeigo Tanimura resp = &scp->res; 543f259d7eeSSeigo Tanimura 544f259d7eeSSeigo Tanimura /* Is this interrupt for us? */ 545f259d7eeSSeigo Tanimura hisr = csa_readio(resp, BA0_HISR); 54620ac1df7SCameron Grant if ((hisr & 0x7fffffff) == 0) { 547f259d7eeSSeigo Tanimura /* Throw an eoi. */ 548f259d7eeSSeigo Tanimura csa_writeio(resp, BA0_HICR, HICR_IEV | HICR_CHGM); 549f259d7eeSSeigo Tanimura return; 550f259d7eeSSeigo Tanimura } 551f259d7eeSSeigo Tanimura 552f259d7eeSSeigo Tanimura /* 553f259d7eeSSeigo Tanimura * Pass the value of HISR via struct csa_bridgeinfo. 554f259d7eeSSeigo Tanimura * The children get access through their ivars. 555f259d7eeSSeigo Tanimura */ 556f259d7eeSSeigo Tanimura scp->binfo.hisr = hisr; 557f259d7eeSSeigo Tanimura 558f259d7eeSSeigo Tanimura /* Invoke the handlers of the children. */ 55920ac1df7SCameron Grant if ((hisr & (HISR_VC0 | HISR_VC1)) != 0 && scp->pcmintr != NULL) { 560f259d7eeSSeigo Tanimura scp->pcmintr(scp->pcmintr_arg); 56120ac1df7SCameron Grant hisr &= ~(HISR_VC0 | HISR_VC1); 56220ac1df7SCameron Grant } 56320ac1df7SCameron Grant if ((hisr & HISR_MIDI) != 0 && scp->midiintr != NULL) { 564f259d7eeSSeigo Tanimura scp->midiintr(scp->midiintr_arg); 56520ac1df7SCameron Grant hisr &= ~HISR_MIDI; 56620ac1df7SCameron Grant } 567f259d7eeSSeigo Tanimura 568f259d7eeSSeigo Tanimura /* Throw an eoi. */ 569f259d7eeSSeigo Tanimura csa_writeio(resp, BA0_HICR, HICR_IEV | HICR_CHGM); 570f259d7eeSSeigo Tanimura } 571f259d7eeSSeigo Tanimura 572fe1a5d1cSSeigo Tanimura static int 573fe1a5d1cSSeigo Tanimura csa_initialize(sc_p scp) 574fe1a5d1cSSeigo Tanimura { 575fe1a5d1cSSeigo Tanimura int i; 576fe1a5d1cSSeigo Tanimura u_int32_t acsts, acisv; 577fe1a5d1cSSeigo Tanimura csa_res *resp; 578fe1a5d1cSSeigo Tanimura 579fe1a5d1cSSeigo Tanimura resp = &scp->res; 580fe1a5d1cSSeigo Tanimura 581fe1a5d1cSSeigo Tanimura /* 582fe1a5d1cSSeigo Tanimura * First, blast the clock control register to zero so that the PLL starts 583fe1a5d1cSSeigo Tanimura * out in a known state, and blast the master serial port control register 584fe1a5d1cSSeigo Tanimura * to zero so that the serial ports also start out in a known state. 585fe1a5d1cSSeigo Tanimura */ 586fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_CLKCR1, 0); 587fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERMC1, 0); 588fe1a5d1cSSeigo Tanimura 589fe1a5d1cSSeigo Tanimura /* 590fe1a5d1cSSeigo Tanimura * If we are in AC97 mode, then we must set the part to a host controlled 591fe1a5d1cSSeigo Tanimura * AC-link. Otherwise, we won't be able to bring up the link. 592fe1a5d1cSSeigo Tanimura */ 593fe1a5d1cSSeigo Tanimura #if 1 594fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERACC, SERACC_HSP | SERACC_CODEC_TYPE_1_03); /* 1.03 codec */ 595fe1a5d1cSSeigo Tanimura #else 596fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERACC, SERACC_HSP | SERACC_CODEC_TYPE_2_0); /* 2.0 codec */ 597fe1a5d1cSSeigo Tanimura #endif /* 1 */ 598fe1a5d1cSSeigo Tanimura 599fe1a5d1cSSeigo Tanimura /* 600fe1a5d1cSSeigo Tanimura * Drive the ARST# pin low for a minimum of 1uS (as defined in the AC97 601fe1a5d1cSSeigo Tanimura * spec) and then drive it high. This is done for non AC97 modes since 602fe1a5d1cSSeigo Tanimura * there might be logic external to the CS461x that uses the ARST# line 603fe1a5d1cSSeigo Tanimura * for a reset. 604fe1a5d1cSSeigo Tanimura */ 60520ac1df7SCameron Grant csa_writeio(resp, BA0_ACCTL, 1); 60620ac1df7SCameron Grant DELAY(50); 607fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCTL, 0); 60820ac1df7SCameron Grant DELAY(50); 609fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCTL, ACCTL_RSTN); 610fe1a5d1cSSeigo Tanimura 611fe1a5d1cSSeigo Tanimura /* 612fe1a5d1cSSeigo Tanimura * The first thing we do here is to enable sync generation. As soon 613fe1a5d1cSSeigo Tanimura * as we start receiving bit clock, we'll start producing the SYNC 614fe1a5d1cSSeigo Tanimura * signal. 615fe1a5d1cSSeigo Tanimura */ 616fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCTL, ACCTL_ESYN | ACCTL_RSTN); 617fe1a5d1cSSeigo Tanimura 618fe1a5d1cSSeigo Tanimura /* 619fe1a5d1cSSeigo Tanimura * Now wait for a short while to allow the AC97 part to start 620fe1a5d1cSSeigo Tanimura * generating bit clock (so we don't try to start the PLL without an 621fe1a5d1cSSeigo Tanimura * input clock). 622fe1a5d1cSSeigo Tanimura */ 623fe1a5d1cSSeigo Tanimura DELAY(50000); 624fe1a5d1cSSeigo Tanimura 625fe1a5d1cSSeigo Tanimura /* 626fe1a5d1cSSeigo Tanimura * Set the serial port timing configuration, so that 627fe1a5d1cSSeigo Tanimura * the clock control circuit gets its clock from the correct place. 628fe1a5d1cSSeigo Tanimura */ 629fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERMC1, SERMC1_PTC_AC97); 63020ac1df7SCameron Grant DELAY(700000); 631fe1a5d1cSSeigo Tanimura 632fe1a5d1cSSeigo Tanimura /* 633fe1a5d1cSSeigo Tanimura * Write the selected clock control setup to the hardware. Do not turn on 634fe1a5d1cSSeigo Tanimura * SWCE yet (if requested), so that the devices clocked by the output of 635fe1a5d1cSSeigo Tanimura * PLL are not clocked until the PLL is stable. 636fe1a5d1cSSeigo Tanimura */ 637fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_PLLCC, PLLCC_LPF_1050_2780_KHZ | PLLCC_CDR_73_104_MHZ); 638fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_PLLM, 0x3a); 639fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_CLKCR2, CLKCR2_PDIVS_8); 640fe1a5d1cSSeigo Tanimura 641fe1a5d1cSSeigo Tanimura /* 642fe1a5d1cSSeigo Tanimura * Power up the PLL. 643fe1a5d1cSSeigo Tanimura */ 644fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_CLKCR1, CLKCR1_PLLP); 645fe1a5d1cSSeigo Tanimura 646fe1a5d1cSSeigo Tanimura /* 647fe1a5d1cSSeigo Tanimura * Wait until the PLL has stabilized. 648fe1a5d1cSSeigo Tanimura */ 64920ac1df7SCameron Grant DELAY(5000); 650fe1a5d1cSSeigo Tanimura 651fe1a5d1cSSeigo Tanimura /* 652fe1a5d1cSSeigo Tanimura * Turn on clocking of the core so that we can setup the serial ports. 653fe1a5d1cSSeigo Tanimura */ 654fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_CLKCR1, csa_readio(resp, BA0_CLKCR1) | CLKCR1_SWCE); 655fe1a5d1cSSeigo Tanimura 656fe1a5d1cSSeigo Tanimura /* 657fe1a5d1cSSeigo Tanimura * Fill the serial port FIFOs with silence. 658fe1a5d1cSSeigo Tanimura */ 659fe1a5d1cSSeigo Tanimura csa_clearserialfifos(resp); 660fe1a5d1cSSeigo Tanimura 661fe1a5d1cSSeigo Tanimura /* 662fe1a5d1cSSeigo Tanimura * Set the serial port FIFO pointer to the first sample in the FIFO. 663fe1a5d1cSSeigo Tanimura */ 6643238c6bdSRuslan Ermilov #ifdef notdef 665fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERBSP, 0); 666fe1a5d1cSSeigo Tanimura #endif /* notdef */ 667fe1a5d1cSSeigo Tanimura 668fe1a5d1cSSeigo Tanimura /* 669fe1a5d1cSSeigo Tanimura * Write the serial port configuration to the part. The master 670fe1a5d1cSSeigo Tanimura * enable bit is not set until all other values have been written. 671fe1a5d1cSSeigo Tanimura */ 672fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERC1, SERC1_SO1F_AC97 | SERC1_SO1EN); 673fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERC2, SERC2_SI1F_AC97 | SERC1_SO1EN); 674fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERMC1, SERMC1_PTC_AC97 | SERMC1_MSPE); 675fe1a5d1cSSeigo Tanimura 676fe1a5d1cSSeigo Tanimura /* 677fe1a5d1cSSeigo Tanimura * Wait for the codec ready signal from the AC97 codec. 678fe1a5d1cSSeigo Tanimura */ 679fe1a5d1cSSeigo Tanimura acsts = 0; 680fe1a5d1cSSeigo Tanimura for (i = 0 ; i < 1000 ; i++) { 681fe1a5d1cSSeigo Tanimura /* 682fe1a5d1cSSeigo Tanimura * First, lets wait a short while to let things settle out a bit, 683fe1a5d1cSSeigo Tanimura * and to prevent retrying the read too quickly. 684fe1a5d1cSSeigo Tanimura */ 685f7e00c54SSeigo Tanimura DELAY(125); 686fe1a5d1cSSeigo Tanimura 687fe1a5d1cSSeigo Tanimura /* 688fe1a5d1cSSeigo Tanimura * Read the AC97 status register to see if we've seen a CODEC READY 689fe1a5d1cSSeigo Tanimura * signal from the AC97 codec. 690fe1a5d1cSSeigo Tanimura */ 691fe1a5d1cSSeigo Tanimura acsts = csa_readio(resp, BA0_ACSTS); 692fe1a5d1cSSeigo Tanimura if ((acsts & ACSTS_CRDY) != 0) 693fe1a5d1cSSeigo Tanimura break; 694fe1a5d1cSSeigo Tanimura } 695fe1a5d1cSSeigo Tanimura 696fe1a5d1cSSeigo Tanimura /* 697fe1a5d1cSSeigo Tanimura * Make sure we sampled CODEC READY. 698fe1a5d1cSSeigo Tanimura */ 699fe1a5d1cSSeigo Tanimura if ((acsts & ACSTS_CRDY) == 0) 700fe1a5d1cSSeigo Tanimura return (ENXIO); 701fe1a5d1cSSeigo Tanimura 702fe1a5d1cSSeigo Tanimura /* 703fe1a5d1cSSeigo Tanimura * Assert the vaid frame signal so that we can start sending commands 704fe1a5d1cSSeigo Tanimura * to the AC97 codec. 705fe1a5d1cSSeigo Tanimura */ 706fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCTL, ACCTL_VFRM | ACCTL_ESYN | ACCTL_RSTN); 707fe1a5d1cSSeigo Tanimura 708fe1a5d1cSSeigo Tanimura /* 709fe1a5d1cSSeigo Tanimura * Wait until we've sampled input slots 3 and 4 as valid, meaning that 710fe1a5d1cSSeigo Tanimura * the codec is pumping ADC data across the AC-link. 711fe1a5d1cSSeigo Tanimura */ 712fe1a5d1cSSeigo Tanimura acisv = 0; 713fe1a5d1cSSeigo Tanimura for (i = 0 ; i < 1000 ; i++) { 714fe1a5d1cSSeigo Tanimura /* 715fe1a5d1cSSeigo Tanimura * First, lets wait a short while to let things settle out a bit, 716fe1a5d1cSSeigo Tanimura * and to prevent retrying the read too quickly. 717fe1a5d1cSSeigo Tanimura */ 7183238c6bdSRuslan Ermilov #ifdef notdef 719fe1a5d1cSSeigo Tanimura DELAY(10000000L); /* clw */ 720fe1a5d1cSSeigo Tanimura #else 721f7e00c54SSeigo Tanimura DELAY(1000); 722fe1a5d1cSSeigo Tanimura #endif /* notdef */ 723fe1a5d1cSSeigo Tanimura /* 724fe1a5d1cSSeigo Tanimura * Read the input slot valid register and see if input slots 3 and 725fe1a5d1cSSeigo Tanimura * 4 are valid yet. 726fe1a5d1cSSeigo Tanimura */ 727fe1a5d1cSSeigo Tanimura acisv = csa_readio(resp, BA0_ACISV); 728fe1a5d1cSSeigo Tanimura if ((acisv & (ACISV_ISV3 | ACISV_ISV4)) == (ACISV_ISV3 | ACISV_ISV4)) 729fe1a5d1cSSeigo Tanimura break; 730fe1a5d1cSSeigo Tanimura } 731fe1a5d1cSSeigo Tanimura /* 732fe1a5d1cSSeigo Tanimura * Make sure we sampled valid input slots 3 and 4. If not, then return 733fe1a5d1cSSeigo Tanimura * an error. 734fe1a5d1cSSeigo Tanimura */ 735fe1a5d1cSSeigo Tanimura if ((acisv & (ACISV_ISV3 | ACISV_ISV4)) != (ACISV_ISV3 | ACISV_ISV4)) 736fe1a5d1cSSeigo Tanimura return (ENXIO); 737fe1a5d1cSSeigo Tanimura 738fe1a5d1cSSeigo Tanimura /* 739fe1a5d1cSSeigo Tanimura * Now, assert valid frame and the slot 3 and 4 valid bits. This will 740fe1a5d1cSSeigo Tanimura * commense the transfer of digital audio data to the AC97 codec. 741fe1a5d1cSSeigo Tanimura */ 742fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACOSV, ACOSV_SLV3 | ACOSV_SLV4); 743fe1a5d1cSSeigo Tanimura 744fe1a5d1cSSeigo Tanimura /* 745fe1a5d1cSSeigo Tanimura * Power down the DAC and ADC. We will power them up (if) when we need 746fe1a5d1cSSeigo Tanimura * them. 747fe1a5d1cSSeigo Tanimura */ 7483238c6bdSRuslan Ermilov #ifdef notdef 749fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_AC97_POWERDOWN, 0x300); 750fe1a5d1cSSeigo Tanimura #endif /* notdef */ 751fe1a5d1cSSeigo Tanimura 752fe1a5d1cSSeigo Tanimura /* 753fe1a5d1cSSeigo Tanimura * Turn off the Processor by turning off the software clock enable flag in 754fe1a5d1cSSeigo Tanimura * the clock control register. 755fe1a5d1cSSeigo Tanimura */ 7563238c6bdSRuslan Ermilov #ifdef notdef 757fe1a5d1cSSeigo Tanimura clkcr1 = csa_readio(resp, BA0_CLKCR1) & ~CLKCR1_SWCE; 758fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_CLKCR1, clkcr1); 759fe1a5d1cSSeigo Tanimura #endif /* notdef */ 760fe1a5d1cSSeigo Tanimura 761fe1a5d1cSSeigo Tanimura /* 762fe1a5d1cSSeigo Tanimura * Enable interrupts on the part. 763fe1a5d1cSSeigo Tanimura */ 76420ac1df7SCameron Grant #if 0 765fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_HICR, HICR_IEV | HICR_CHGM); 766fe1a5d1cSSeigo Tanimura #endif /* notdef */ 767fe1a5d1cSSeigo Tanimura 768fe1a5d1cSSeigo Tanimura return (0); 769fe1a5d1cSSeigo Tanimura } 770fe1a5d1cSSeigo Tanimura 771f259d7eeSSeigo Tanimura void 772fe1a5d1cSSeigo Tanimura csa_clearserialfifos(csa_res *resp) 773fe1a5d1cSSeigo Tanimura { 774fe1a5d1cSSeigo Tanimura int i, j, pwr; 775fe1a5d1cSSeigo Tanimura u_int8_t clkcr1, serbst; 776fe1a5d1cSSeigo Tanimura 777fe1a5d1cSSeigo Tanimura /* 778fe1a5d1cSSeigo Tanimura * See if the devices are powered down. If so, we must power them up first 779fe1a5d1cSSeigo Tanimura * or they will not respond. 780fe1a5d1cSSeigo Tanimura */ 781fe1a5d1cSSeigo Tanimura pwr = 1; 782fe1a5d1cSSeigo Tanimura clkcr1 = csa_readio(resp, BA0_CLKCR1); 783fe1a5d1cSSeigo Tanimura if ((clkcr1 & CLKCR1_SWCE) == 0) { 784fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_CLKCR1, clkcr1 | CLKCR1_SWCE); 785fe1a5d1cSSeigo Tanimura pwr = 0; 786fe1a5d1cSSeigo Tanimura } 787fe1a5d1cSSeigo Tanimura 788fe1a5d1cSSeigo Tanimura /* 789fe1a5d1cSSeigo Tanimura * We want to clear out the serial port FIFOs so we don't end up playing 790fe1a5d1cSSeigo Tanimura * whatever random garbage happens to be in them. We fill the sample FIFOs 791fe1a5d1cSSeigo Tanimura * with zero (silence). 792fe1a5d1cSSeigo Tanimura */ 793fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERBWP, 0); 794fe1a5d1cSSeigo Tanimura 795fe1a5d1cSSeigo Tanimura /* Fill all 256 sample FIFO locations. */ 796fe1a5d1cSSeigo Tanimura serbst = 0; 797fe1a5d1cSSeigo Tanimura for (i = 0 ; i < 256 ; i++) { 798fe1a5d1cSSeigo Tanimura /* Make sure the previous FIFO write operation has completed. */ 799fe1a5d1cSSeigo Tanimura for (j = 0 ; j < 5 ; j++) { 800f7e00c54SSeigo Tanimura DELAY(100); 801fe1a5d1cSSeigo Tanimura serbst = csa_readio(resp, BA0_SERBST); 802fe1a5d1cSSeigo Tanimura if ((serbst & SERBST_WBSY) == 0) 803fe1a5d1cSSeigo Tanimura break; 804fe1a5d1cSSeigo Tanimura } 805fe1a5d1cSSeigo Tanimura if ((serbst & SERBST_WBSY) != 0) { 806fe1a5d1cSSeigo Tanimura if (!pwr) 807fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_CLKCR1, clkcr1); 808fe1a5d1cSSeigo Tanimura } 809fe1a5d1cSSeigo Tanimura /* Write the serial port FIFO index. */ 810fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERBAD, i); 811fe1a5d1cSSeigo Tanimura /* Tell the serial port to load the new value into the FIFO location. */ 812fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_SERBCM, SERBCM_WRC); 813fe1a5d1cSSeigo Tanimura } 814fe1a5d1cSSeigo Tanimura /* 815fe1a5d1cSSeigo Tanimura * Now, if we powered up the devices, then power them back down again. 816fe1a5d1cSSeigo Tanimura * This is kinda ugly, but should never happen. 817fe1a5d1cSSeigo Tanimura */ 818fe1a5d1cSSeigo Tanimura if (!pwr) 819fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_CLKCR1, clkcr1); 820fe1a5d1cSSeigo Tanimura } 821fe1a5d1cSSeigo Tanimura 822961478afSGleb Smirnoff void 823fe1a5d1cSSeigo Tanimura csa_resetdsp(csa_res *resp) 824fe1a5d1cSSeigo Tanimura { 825fe1a5d1cSSeigo Tanimura int i; 826fe1a5d1cSSeigo Tanimura 827fe1a5d1cSSeigo Tanimura /* 828fe1a5d1cSSeigo Tanimura * Write the reset bit of the SP control register. 829fe1a5d1cSSeigo Tanimura */ 830fe1a5d1cSSeigo Tanimura csa_writemem(resp, BA1_SPCR, SPCR_RSTSP); 831fe1a5d1cSSeigo Tanimura 832fe1a5d1cSSeigo Tanimura /* 833fe1a5d1cSSeigo Tanimura * Write the control register. 834fe1a5d1cSSeigo Tanimura */ 835fe1a5d1cSSeigo Tanimura csa_writemem(resp, BA1_SPCR, SPCR_DRQEN); 836fe1a5d1cSSeigo Tanimura 837fe1a5d1cSSeigo Tanimura /* 838fe1a5d1cSSeigo Tanimura * Clear the trap registers. 839fe1a5d1cSSeigo Tanimura */ 840fe1a5d1cSSeigo Tanimura for (i = 0 ; i < 8 ; i++) { 841fe1a5d1cSSeigo Tanimura csa_writemem(resp, BA1_DREG, DREG_REGID_TRAP_SELECT + i); 842fe1a5d1cSSeigo Tanimura csa_writemem(resp, BA1_TWPR, 0xffff); 843fe1a5d1cSSeigo Tanimura } 844fe1a5d1cSSeigo Tanimura csa_writemem(resp, BA1_DREG, 0); 845fe1a5d1cSSeigo Tanimura 846fe1a5d1cSSeigo Tanimura /* 847fe1a5d1cSSeigo Tanimura * Set the frame timer to reflect the number of cycles per frame. 848fe1a5d1cSSeigo Tanimura */ 849fe1a5d1cSSeigo Tanimura csa_writemem(resp, BA1_FRMT, 0xadf); 850fe1a5d1cSSeigo Tanimura } 851fe1a5d1cSSeigo Tanimura 852fe1a5d1cSSeigo Tanimura static int 853fe1a5d1cSSeigo Tanimura csa_downloadimage(csa_res *resp) 854fe1a5d1cSSeigo Tanimura { 8557106ed25SPedro F. Giffuni int ret; 8567106ed25SPedro F. Giffuni u_long ul, offset; 857fe1a5d1cSSeigo Tanimura 8587106ed25SPedro F. Giffuni for (ul = 0, offset = 0 ; ul < INKY_MEMORY_COUNT ; ul++) { 8597106ed25SPedro F. Giffuni /* 8607106ed25SPedro F. Giffuni * DMA this block from host memory to the appropriate 8617106ed25SPedro F. Giffuni * memory on the CSDevice. 8627106ed25SPedro F. Giffuni */ 8637106ed25SPedro F. Giffuni ret = csa_transferimage(resp, 8647106ed25SPedro F. Giffuni cs461x_firmware.BA1Array + offset, 8657106ed25SPedro F. Giffuni cs461x_firmware.MemoryStat[ul].ulDestAddr, 8667106ed25SPedro F. Giffuni cs461x_firmware.MemoryStat[ul].ulSourceSize); 8677106ed25SPedro F. Giffuni if (ret) 8687106ed25SPedro F. Giffuni return (ret); 8697106ed25SPedro F. Giffuni offset += cs461x_firmware.MemoryStat[ul].ulSourceSize >> 2; 8707106ed25SPedro F. Giffuni } 8717106ed25SPedro F. Giffuni return (0); 872fe1a5d1cSSeigo Tanimura } 873fe1a5d1cSSeigo Tanimura 8747106ed25SPedro F. Giffuni static int 8757106ed25SPedro F. Giffuni csa_transferimage(csa_res *resp, u_int32_t *src, u_long dest, u_long len) 8767106ed25SPedro F. Giffuni { 8777106ed25SPedro F. Giffuni u_long ul; 878fe1a5d1cSSeigo Tanimura 8797106ed25SPedro F. Giffuni /* 8807106ed25SPedro F. Giffuni * We do not allow DMAs from host memory to host memory (although the DMA 8817106ed25SPedro F. Giffuni * can do it) and we do not allow DMAs which are not a multiple of 4 bytes 8827106ed25SPedro F. Giffuni * in size (because that DMA can not do that). Return an error if either 8837106ed25SPedro F. Giffuni * of these conditions exist. 8847106ed25SPedro F. Giffuni */ 8857106ed25SPedro F. Giffuni if ((len & 0x3) != 0) 8867106ed25SPedro F. Giffuni return (EINVAL); 8877106ed25SPedro F. Giffuni 8887106ed25SPedro F. Giffuni /* Check the destination address that it is a multiple of 4 */ 8897106ed25SPedro F. Giffuni if ((dest & 0x3) != 0) 8907106ed25SPedro F. Giffuni return (EINVAL); 8917106ed25SPedro F. Giffuni 8927106ed25SPedro F. Giffuni /* Write the buffer out. */ 8937106ed25SPedro F. Giffuni for (ul = 0 ; ul < len ; ul += 4) 8947106ed25SPedro F. Giffuni csa_writemem(resp, dest + ul, src[ul >> 2]); 895fe1a5d1cSSeigo Tanimura return (0); 896fe1a5d1cSSeigo Tanimura } 897fe1a5d1cSSeigo Tanimura 898fe1a5d1cSSeigo Tanimura int 899fe1a5d1cSSeigo Tanimura csa_readcodec(csa_res *resp, u_long offset, u_int32_t *data) 900fe1a5d1cSSeigo Tanimura { 901fe1a5d1cSSeigo Tanimura int i; 90290da2b28SAriff Abdullah u_int32_t acctl, acsts; 903fe1a5d1cSSeigo Tanimura 904fe1a5d1cSSeigo Tanimura /* 905fe1a5d1cSSeigo Tanimura * Make sure that there is not data sitting around from a previous 906fe1a5d1cSSeigo Tanimura * uncompleted access. ACSDA = Status Data Register = 47Ch 907fe1a5d1cSSeigo Tanimura */ 90890da2b28SAriff Abdullah csa_readio(resp, BA0_ACSDA); 909fe1a5d1cSSeigo Tanimura 910fe1a5d1cSSeigo Tanimura /* 911fe1a5d1cSSeigo Tanimura * Setup the AC97 control registers on the CS461x to send the 912fe1a5d1cSSeigo Tanimura * appropriate command to the AC97 to perform the read. 913fe1a5d1cSSeigo Tanimura * ACCAD = Command Address Register = 46Ch 914fe1a5d1cSSeigo Tanimura * ACCDA = Command Data Register = 470h 915fe1a5d1cSSeigo Tanimura * ACCTL = Control Register = 460h 916fe1a5d1cSSeigo Tanimura * set DCV - will clear when process completed 917fe1a5d1cSSeigo Tanimura * set CRW - Read command 918fe1a5d1cSSeigo Tanimura * set VFRM - valid frame enabled 919fe1a5d1cSSeigo Tanimura * set ESYN - ASYNC generation enabled 920fe1a5d1cSSeigo Tanimura * set RSTN - ARST# inactive, AC97 codec not reset 921fe1a5d1cSSeigo Tanimura */ 922fe1a5d1cSSeigo Tanimura 923fe1a5d1cSSeigo Tanimura /* 924fe1a5d1cSSeigo Tanimura * Get the actual AC97 register from the offset 925fe1a5d1cSSeigo Tanimura */ 926fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCAD, offset - BA0_AC97_RESET); 927fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCDA, 0); 928fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCTL, ACCTL_DCV | ACCTL_CRW | ACCTL_VFRM | ACCTL_ESYN | ACCTL_RSTN); 929fe1a5d1cSSeigo Tanimura 930fe1a5d1cSSeigo Tanimura /* 931fe1a5d1cSSeigo Tanimura * Wait for the read to occur. 932fe1a5d1cSSeigo Tanimura */ 933fe1a5d1cSSeigo Tanimura acctl = 0; 934fe1a5d1cSSeigo Tanimura for (i = 0 ; i < 10 ; i++) { 935fe1a5d1cSSeigo Tanimura /* 936fe1a5d1cSSeigo Tanimura * First, we want to wait for a short time. 937fe1a5d1cSSeigo Tanimura */ 938fe1a5d1cSSeigo Tanimura DELAY(25); 939fe1a5d1cSSeigo Tanimura 940fe1a5d1cSSeigo Tanimura /* 941fe1a5d1cSSeigo Tanimura * Now, check to see if the read has completed. 942fe1a5d1cSSeigo Tanimura * ACCTL = 460h, DCV should be reset by now and 460h = 17h 943fe1a5d1cSSeigo Tanimura */ 944fe1a5d1cSSeigo Tanimura acctl = csa_readio(resp, BA0_ACCTL); 945fe1a5d1cSSeigo Tanimura if ((acctl & ACCTL_DCV) == 0) 946fe1a5d1cSSeigo Tanimura break; 947fe1a5d1cSSeigo Tanimura } 948fe1a5d1cSSeigo Tanimura 949fe1a5d1cSSeigo Tanimura /* 950fe1a5d1cSSeigo Tanimura * Make sure the read completed. 951fe1a5d1cSSeigo Tanimura */ 952fe1a5d1cSSeigo Tanimura if ((acctl & ACCTL_DCV) != 0) 953fe1a5d1cSSeigo Tanimura return (EAGAIN); 954fe1a5d1cSSeigo Tanimura 955fe1a5d1cSSeigo Tanimura /* 956fe1a5d1cSSeigo Tanimura * Wait for the valid status bit to go active. 957fe1a5d1cSSeigo Tanimura */ 958fe1a5d1cSSeigo Tanimura acsts = 0; 959fe1a5d1cSSeigo Tanimura for (i = 0 ; i < 10 ; i++) { 960fe1a5d1cSSeigo Tanimura /* 961fe1a5d1cSSeigo Tanimura * Read the AC97 status register. 962fe1a5d1cSSeigo Tanimura * ACSTS = Status Register = 464h 963fe1a5d1cSSeigo Tanimura */ 964fe1a5d1cSSeigo Tanimura acsts = csa_readio(resp, BA0_ACSTS); 965fe1a5d1cSSeigo Tanimura /* 966fe1a5d1cSSeigo Tanimura * See if we have valid status. 967fe1a5d1cSSeigo Tanimura * VSTS - Valid Status 968fe1a5d1cSSeigo Tanimura */ 969fe1a5d1cSSeigo Tanimura if ((acsts & ACSTS_VSTS) != 0) 970fe1a5d1cSSeigo Tanimura break; 971fe1a5d1cSSeigo Tanimura /* 972fe1a5d1cSSeigo Tanimura * Wait for a short while. 973fe1a5d1cSSeigo Tanimura */ 974fe1a5d1cSSeigo Tanimura DELAY(25); 975fe1a5d1cSSeigo Tanimura } 976fe1a5d1cSSeigo Tanimura 977fe1a5d1cSSeigo Tanimura /* 978fe1a5d1cSSeigo Tanimura * Make sure we got valid status. 979fe1a5d1cSSeigo Tanimura */ 980fe1a5d1cSSeigo Tanimura if ((acsts & ACSTS_VSTS) == 0) 981fe1a5d1cSSeigo Tanimura return (EAGAIN); 982fe1a5d1cSSeigo Tanimura 983fe1a5d1cSSeigo Tanimura /* 984fe1a5d1cSSeigo Tanimura * Read the data returned from the AC97 register. 985fe1a5d1cSSeigo Tanimura * ACSDA = Status Data Register = 474h 986fe1a5d1cSSeigo Tanimura */ 987fe1a5d1cSSeigo Tanimura *data = csa_readio(resp, BA0_ACSDA); 988fe1a5d1cSSeigo Tanimura 989fe1a5d1cSSeigo Tanimura return (0); 990fe1a5d1cSSeigo Tanimura } 991fe1a5d1cSSeigo Tanimura 992fe1a5d1cSSeigo Tanimura int 993fe1a5d1cSSeigo Tanimura csa_writecodec(csa_res *resp, u_long offset, u_int32_t data) 994fe1a5d1cSSeigo Tanimura { 995fe1a5d1cSSeigo Tanimura int i; 996fe1a5d1cSSeigo Tanimura u_int32_t acctl; 997fe1a5d1cSSeigo Tanimura 998fe1a5d1cSSeigo Tanimura /* 999fe1a5d1cSSeigo Tanimura * Setup the AC97 control registers on the CS461x to send the 1000fe1a5d1cSSeigo Tanimura * appropriate command to the AC97 to perform the write. 1001fe1a5d1cSSeigo Tanimura * ACCAD = Command Address Register = 46Ch 1002fe1a5d1cSSeigo Tanimura * ACCDA = Command Data Register = 470h 1003fe1a5d1cSSeigo Tanimura * ACCTL = Control Register = 460h 1004fe1a5d1cSSeigo Tanimura * set DCV - will clear when process completed 1005fe1a5d1cSSeigo Tanimura * set VFRM - valid frame enabled 1006fe1a5d1cSSeigo Tanimura * set ESYN - ASYNC generation enabled 1007fe1a5d1cSSeigo Tanimura * set RSTN - ARST# inactive, AC97 codec not reset 1008fe1a5d1cSSeigo Tanimura */ 1009fe1a5d1cSSeigo Tanimura 1010fe1a5d1cSSeigo Tanimura /* 1011fe1a5d1cSSeigo Tanimura * Get the actual AC97 register from the offset 1012fe1a5d1cSSeigo Tanimura */ 1013fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCAD, offset - BA0_AC97_RESET); 1014fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCDA, data); 1015fe1a5d1cSSeigo Tanimura csa_writeio(resp, BA0_ACCTL, ACCTL_DCV | ACCTL_VFRM | ACCTL_ESYN | ACCTL_RSTN); 1016fe1a5d1cSSeigo Tanimura 1017fe1a5d1cSSeigo Tanimura /* 1018fe1a5d1cSSeigo Tanimura * Wait for the write to occur. 1019fe1a5d1cSSeigo Tanimura */ 1020fe1a5d1cSSeigo Tanimura acctl = 0; 1021fe1a5d1cSSeigo Tanimura for (i = 0 ; i < 10 ; i++) { 1022fe1a5d1cSSeigo Tanimura /* 1023fe1a5d1cSSeigo Tanimura * First, we want to wait for a short time. 1024fe1a5d1cSSeigo Tanimura */ 1025fe1a5d1cSSeigo Tanimura DELAY(25); 1026fe1a5d1cSSeigo Tanimura 1027fe1a5d1cSSeigo Tanimura /* 1028fe1a5d1cSSeigo Tanimura * Now, check to see if the read has completed. 1029fe1a5d1cSSeigo Tanimura * ACCTL = 460h, DCV should be reset by now and 460h = 17h 1030fe1a5d1cSSeigo Tanimura */ 1031fe1a5d1cSSeigo Tanimura acctl = csa_readio(resp, BA0_ACCTL); 1032fe1a5d1cSSeigo Tanimura if ((acctl & ACCTL_DCV) == 0) 1033fe1a5d1cSSeigo Tanimura break; 1034fe1a5d1cSSeigo Tanimura } 1035fe1a5d1cSSeigo Tanimura 1036fe1a5d1cSSeigo Tanimura /* 1037fe1a5d1cSSeigo Tanimura * Make sure the write completed. 1038fe1a5d1cSSeigo Tanimura */ 1039fe1a5d1cSSeigo Tanimura if ((acctl & ACCTL_DCV) != 0) 1040fe1a5d1cSSeigo Tanimura return (EAGAIN); 1041fe1a5d1cSSeigo Tanimura 1042fe1a5d1cSSeigo Tanimura return (0); 1043fe1a5d1cSSeigo Tanimura } 1044fe1a5d1cSSeigo Tanimura 1045fe1a5d1cSSeigo Tanimura u_int32_t 1046fe1a5d1cSSeigo Tanimura csa_readio(csa_res *resp, u_long offset) 1047fe1a5d1cSSeigo Tanimura { 1048fe1a5d1cSSeigo Tanimura u_int32_t ul; 1049fe1a5d1cSSeigo Tanimura 1050fe1a5d1cSSeigo Tanimura if (offset < BA0_AC97_RESET) 1051fe1a5d1cSSeigo Tanimura return bus_space_read_4(rman_get_bustag(resp->io), rman_get_bushandle(resp->io), offset) & 0xffffffff; 1052fe1a5d1cSSeigo Tanimura else { 1053fe1a5d1cSSeigo Tanimura if (csa_readcodec(resp, offset, &ul)) 1054fe1a5d1cSSeigo Tanimura ul = 0; 1055fe1a5d1cSSeigo Tanimura return (ul); 1056fe1a5d1cSSeigo Tanimura } 1057fe1a5d1cSSeigo Tanimura } 1058fe1a5d1cSSeigo Tanimura 1059fe1a5d1cSSeigo Tanimura void 1060fe1a5d1cSSeigo Tanimura csa_writeio(csa_res *resp, u_long offset, u_int32_t data) 1061fe1a5d1cSSeigo Tanimura { 1062fe1a5d1cSSeigo Tanimura if (offset < BA0_AC97_RESET) 1063fe1a5d1cSSeigo Tanimura bus_space_write_4(rman_get_bustag(resp->io), rman_get_bushandle(resp->io), offset, data); 1064fe1a5d1cSSeigo Tanimura else 1065fe1a5d1cSSeigo Tanimura csa_writecodec(resp, offset, data); 1066fe1a5d1cSSeigo Tanimura } 1067fe1a5d1cSSeigo Tanimura 1068fe1a5d1cSSeigo Tanimura u_int32_t 1069fe1a5d1cSSeigo Tanimura csa_readmem(csa_res *resp, u_long offset) 1070fe1a5d1cSSeigo Tanimura { 107120ac1df7SCameron Grant return bus_space_read_4(rman_get_bustag(resp->mem), rman_get_bushandle(resp->mem), offset); 1072fe1a5d1cSSeigo Tanimura } 1073fe1a5d1cSSeigo Tanimura 1074fe1a5d1cSSeigo Tanimura void 1075fe1a5d1cSSeigo Tanimura csa_writemem(csa_res *resp, u_long offset, u_int32_t data) 1076fe1a5d1cSSeigo Tanimura { 1077fe1a5d1cSSeigo Tanimura bus_space_write_4(rman_get_bustag(resp->mem), rman_get_bushandle(resp->mem), offset, data); 1078fe1a5d1cSSeigo Tanimura } 1079fe1a5d1cSSeigo Tanimura 1080fe1a5d1cSSeigo Tanimura static device_method_t csa_methods[] = { 1081fe1a5d1cSSeigo Tanimura /* Device interface */ 1082fe1a5d1cSSeigo Tanimura DEVMETHOD(device_probe, csa_probe), 1083fe1a5d1cSSeigo Tanimura DEVMETHOD(device_attach, csa_attach), 108420ac1df7SCameron Grant DEVMETHOD(device_detach, csa_detach), 1085fe1a5d1cSSeigo Tanimura DEVMETHOD(device_shutdown, bus_generic_shutdown), 1086fe1a5d1cSSeigo Tanimura DEVMETHOD(device_suspend, bus_generic_suspend), 1087fed38951SDoug Ambrisko DEVMETHOD(device_resume, csa_resume), 1088fe1a5d1cSSeigo Tanimura 1089fe1a5d1cSSeigo Tanimura /* Bus interface */ 1090fe1a5d1cSSeigo Tanimura DEVMETHOD(bus_alloc_resource, csa_alloc_resource), 1091fe1a5d1cSSeigo Tanimura DEVMETHOD(bus_release_resource, csa_release_resource), 1092fe1a5d1cSSeigo Tanimura DEVMETHOD(bus_activate_resource, bus_generic_activate_resource), 1093fe1a5d1cSSeigo Tanimura DEVMETHOD(bus_deactivate_resource, bus_generic_deactivate_resource), 1094f259d7eeSSeigo Tanimura DEVMETHOD(bus_setup_intr, csa_setup_intr), 1095f259d7eeSSeigo Tanimura DEVMETHOD(bus_teardown_intr, csa_teardown_intr), 1096fe1a5d1cSSeigo Tanimura 10974b7ec270SMarius Strobl DEVMETHOD_END 1098fe1a5d1cSSeigo Tanimura }; 1099fe1a5d1cSSeigo Tanimura 1100fe1a5d1cSSeigo Tanimura static driver_t csa_driver = { 1101fe1a5d1cSSeigo Tanimura "csa", 1102fe1a5d1cSSeigo Tanimura csa_methods, 1103fe1a5d1cSSeigo Tanimura sizeof(struct csa_softc), 1104fe1a5d1cSSeigo Tanimura }; 1105fe1a5d1cSSeigo Tanimura 1106fe1a5d1cSSeigo Tanimura /* 1107fe1a5d1cSSeigo Tanimura * csa can be attached to a pci bus. 1108fe1a5d1cSSeigo Tanimura */ 1109f314f3daSCameron Grant DRIVER_MODULE(snd_csa, pci, csa_driver, csa_devclass, 0, 0); 11100739ea1dSSeigo Tanimura MODULE_DEPEND(snd_csa, sound, SOUND_MINVER, SOUND_PREFVER, SOUND_MAXVER); 1111f314f3daSCameron Grant MODULE_VERSION(snd_csa, 1); 1112