/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * Purpose: Driver for the VIA8233/8235 AC97 audio controller */ /* * This file is part of Open Sound System * * Copyright (C) 4Front Technologies 1996-2008. * * This software is released under CDDL 1.0 source license. * See the COPYING file included in the main directory of this source * distribution for the license terms and conditions. */ #include #include #include #include #include #include #include #include #include #include #include "audiovia823x.h" static struct ddi_device_acc_attr dev_attr = { DDI_DEVICE_ATTR_V0, DDI_STRUCTURE_LE_ACC, DDI_STRICTORDER_ACC }; static struct ddi_device_acc_attr buf_attr = { DDI_DEVICE_ATTR_V0, DDI_NEVERSWAP_ACC, DDI_STRICTORDER_ACC }; static ddi_dma_attr_t dma_attr_sgd = { DMA_ATTR_V0, /* version number */ 0x00000000, /* low DMA address range */ 0xffffffff, /* high DMA address range */ 0x0000ffff, /* DMA counter register */ 8, /* DMA address alignment */ 0x3c, /* DMA burstsizes */ 8, /* min effective DMA size */ 0xffffffff, /* max DMA xfer size */ 0x00000fff, /* segment boundary */ 1, /* s/g length */ 8, /* granularity of device */ 0 /* Bus specific DMA flags */ }; static ddi_dma_attr_t dma_attr_buf = { DMA_ATTR_V0, /* version number */ 0x00000000, /* low DMA address range */ 0xffffffff, /* high DMA address range */ 0x0001fffe, /* DMA counter register */ 4, /* DMA address alignment */ 0x3c, /* DMA burstsizes */ 4, /* min effective DMA size */ 0x0001ffff, /* max DMA xfer size */ 0x0001ffff, /* segment boundary */ 1, /* s/g length */ 4, /* granularity of device */ 0 /* Bus specific DMA flags */ }; static int auvia_attach(dev_info_t *); static int auvia_resume(dev_info_t *); static int auvia_detach(auvia_devc_t *); static int auvia_suspend(auvia_devc_t *); static int auvia_open(void *, int, unsigned *, caddr_t *); static void auvia_close(void *); static int auvia_start(void *); static void auvia_stop(void *); static int auvia_format(void *); static int auvia_channels(void *); static int auvia_rate(void *); static uint64_t auvia_count(void *); static void auvia_sync(void *, unsigned); static uint16_t auvia_read_ac97(void *, uint8_t); static void auvia_write_ac97(void *, uint8_t, uint16_t); static int auvia_alloc_port(auvia_devc_t *, int); static void auvia_reset_input(auvia_portc_t *); static void auvia_reset_output(auvia_portc_t *); static void auvia_destroy(auvia_devc_t *); static void auvia_hwinit(auvia_devc_t *); static audio_engine_ops_t auvia_engine_ops = { AUDIO_ENGINE_VERSION, auvia_open, auvia_close, auvia_start, auvia_stop, auvia_count, auvia_format, auvia_channels, auvia_rate, auvia_sync, NULL, NULL, NULL, }; static uint16_t auvia_read_ac97(void *arg, uint8_t index) { auvia_devc_t *devc = arg; uint32_t val = 0; int i; val = ((uint32_t)index << 16) | CODEC_RD; OUTL(devc, devc->base + REG_CODEC, val); drv_usecwait(100); /* Check AC CODEC access time out */ for (i = 0; i < CODEC_TIMEOUT_COUNT; i++) { /* if send command over, break */ if (INL(devc, devc->base + REG_CODEC) & CODEC_STA_VALID) break; drv_usecwait(50); } if (i == CODEC_TIMEOUT_COUNT) { goto failed; } /* Check if Index still ours? If yes, return data, else return FAIL */ val = INL(devc, devc->base + REG_CODEC); OUTB(devc, devc->base + REG_CODEC + 3, 0x02); if (((val & CODEC_INDEX) >> 16) == index) { return (val & CODEC_DATA); } failed: return (0xffff); } static void auvia_write_ac97(void *arg, uint8_t index, uint16_t data) { auvia_devc_t *devc = arg; uint32_t val = 0; int i = 0; val = ((uint32_t)index << 16) | data | CODEC_WR; OUTL(devc, devc->base + REG_CODEC, val); drv_usecwait(100); /* Check AC CODEC access time out */ for (i = 0; i < CODEC_TIMEOUT_COUNT; i++) { /* if send command over, break */ if (!(INL(devc, devc->base + REG_CODEC) & CODEC_IN_CMD)) break; drv_usecwait(50); } } /* * Audio routines */ int auvia_open(void *arg, int flag, unsigned *nframesp, caddr_t *bufp) { auvia_portc_t *portc = arg; _NOTE(ARGUNUSED(flag)); portc->count = 0; *nframesp = portc->nframes; *bufp = portc->buf_kaddr; return (0); } void auvia_close(void *arg) { _NOTE(ARGUNUSED(arg)); } int auvia_start(void *arg) { auvia_portc_t *portc = arg; auvia_devc_t *devc = portc->devc; portc->reset(portc); OUTB(devc, portc->base + OFF_CTRL, CTRL_START | CTRL_AUTOSTART); return (0); } void auvia_stop(void *arg) { auvia_portc_t *portc = arg; auvia_devc_t *devc = portc->devc; OUTB(devc, portc->base + OFF_CTRL, CTRL_TERMINATE); } int auvia_format(void *arg) { _NOTE(ARGUNUSED(arg)); return (AUDIO_FORMAT_S16_LE); } int auvia_channels(void *arg) { auvia_portc_t *portc = arg; return (portc->nchan); } int auvia_rate(void *arg) { _NOTE(ARGUNUSED(arg)); return (48000); } void auvia_sync(void *arg, unsigned nframes) { auvia_portc_t *portc = arg; _NOTE(ARGUNUSED(nframes)); (void) ddi_dma_sync(portc->buf_dmah, 0, 0, portc->syncdir); } uint64_t auvia_count(void *arg) { auvia_portc_t *portc = arg; auvia_devc_t *devc = portc->devc; uint32_t pos; uint32_t n; pos = INL(devc, portc->base + OFF_COUNT); pos &= 0xffffff; pos /= (sizeof (int16_t) * portc->nchan); if (pos >= portc->pos) { n = portc->nframes - (pos - portc->pos); } else { n = portc->pos - pos; } portc->pos = pos; portc->count += n; return (portc->count); } /* private implementation bits */ void auvia_reset_output(auvia_portc_t *portc) { auvia_devc_t *devc = portc->devc; uint32_t cmap; portc->pos = 0; OUTB(devc, portc->base + OFF_CTRL, CTRL_TERMINATE); /* Stop */ OUTL(devc, portc->base + OFF_DMA, portc->sgd_paddr); OUTB(devc, portc->base + OFF_PLAYFMT, PLAYFMT_16BIT | (portc->nchan << 4)); /* Select channel assignment - not valid for 8233A */ if (devc->chip_type != CHIP_8233A) { /* * Undocumented slot mapping table: * * slot 3 = 1 (left) * slot 4 = 2 (right) * slot 6 = 5 (center) * slot 9 = 6 (lfe) * slot 7 = 3 (left rear) * slot 8 = 4 (right rear) */ switch (portc->nchan) { case 1: cmap = (1 << 0) | (1 << 4); break; case 2: cmap = (1 << 0) | (2 << 4); break; case 4: cmap = (1 << 0) | (2 << 4) | (3 << 8) | (4 << 12); break; case 6: cmap = (1 << 0) | (2 << 4) | (5 << 8) | (6 << 12) | (3 << 16) | (4 << 20); break; default: cmap = 0; break; } OUTL(devc, portc->base + OFF_CHANNELS, cmap | 0xFF000000U); } } static void auvia_reset_input(auvia_portc_t *portc) { auvia_devc_t *devc = portc->devc; uint32_t fmt; portc->pos = 0; OUTB(devc, portc->base + OFF_CTRL, CTRL_TERMINATE); /* Stop */ OUTL(devc, portc->base + OFF_DMA, portc->sgd_paddr); fmt = RECFMT_STEREO | RECFMT_16BIT; if (devc->chip_type != CHIP_8233A) { fmt |= RECFMT_48K; } fmt |= (0xffU << 24); OUTB(devc, portc->base + OFF_RECFIFO, RECFIFO_ENABLE); OUTL(devc, portc->base + OFF_RECFMT, fmt); } int auvia_alloc_port(auvia_devc_t *devc, int num) { auvia_portc_t *portc; size_t len; ddi_dma_cookie_t cookie; uint_t count; int dir; unsigned caps; audio_dev_t *adev; uint32_t *desc; adev = devc->adev; portc = kmem_zalloc(sizeof (*portc), KM_SLEEP); devc->portc[num] = portc; portc->devc = devc; switch (num) { case AUVIA_REC_SGD_NUM: portc->base = devc->base + REG_RECBASE; portc->syncdir = DDI_DMA_SYNC_FORKERNEL; portc->nchan = 2; portc->reset = auvia_reset_input; caps = ENGINE_INPUT_CAP; dir = DDI_DMA_READ; break; case AUVIA_PLAY_SGD_NUM: portc->base = devc->base + REG_PLAYBASE; portc->syncdir = DDI_DMA_SYNC_FORDEV; portc->nchan = 6; portc->reset = auvia_reset_output; caps = ENGINE_OUTPUT_CAP; dir = DDI_DMA_WRITE; break; default: return (DDI_FAILURE); } /* make sure port is shut down */ OUTB(portc->devc, portc->base + OFF_CTRL, CTRL_TERMINATE); portc->nframes = 4096; portc->buf_size = portc->nframes * portc->nchan * sizeof (int16_t); /* first allocate up space for SGD list */ if (ddi_dma_alloc_handle(devc->dip, &dma_attr_sgd, DDI_DMA_SLEEP, NULL, &portc->sgd_dmah) != DDI_SUCCESS) { audio_dev_warn(adev, "failed to allocate SGD handle"); return (DDI_FAILURE); } if (ddi_dma_mem_alloc(portc->sgd_dmah, 2 * sizeof (uint32_t), &dev_attr, DDI_DMA_CONSISTENT, DDI_DMA_SLEEP, NULL, &portc->sgd_kaddr, &len, &portc->sgd_acch) != DDI_SUCCESS) { audio_dev_warn(adev, "failed to allocate SGD memory"); return (DDI_FAILURE); } if (ddi_dma_addr_bind_handle(portc->sgd_dmah, NULL, portc->sgd_kaddr, len, DDI_DMA_CONSISTENT | DDI_DMA_WRITE, DDI_DMA_SLEEP, NULL, &cookie, &count) != DDI_SUCCESS) { audio_dev_warn(adev, "failed binding SGD DMA handle"); return (DDI_FAILURE); } portc->sgd_paddr = cookie.dmac_address; /* now buffers */ if (ddi_dma_alloc_handle(devc->dip, &dma_attr_buf, DDI_DMA_SLEEP, NULL, &portc->buf_dmah) != DDI_SUCCESS) { audio_dev_warn(adev, "failed to allocate BUF handle"); return (DDI_FAILURE); } if (ddi_dma_mem_alloc(portc->buf_dmah, portc->buf_size, &buf_attr, DDI_DMA_CONSISTENT, DDI_DMA_SLEEP, NULL, &portc->buf_kaddr, &len, &portc->buf_acch) != DDI_SUCCESS) { audio_dev_warn(adev, "failed to allocate BUF memory"); return (DDI_FAILURE); } if (ddi_dma_addr_bind_handle(portc->buf_dmah, NULL, portc->buf_kaddr, len, DDI_DMA_CONSISTENT | dir, DDI_DMA_SLEEP, NULL, &cookie, &count) != DDI_SUCCESS) { audio_dev_warn(adev, "failed binding BUF DMA handle"); return (DDI_FAILURE); } portc->buf_paddr = cookie.dmac_address; /* now wire up descriptor -- just one */ desc = (void *)portc->sgd_kaddr; ddi_put32(portc->sgd_acch, desc++, portc->buf_paddr); ddi_put32(portc->sgd_acch, desc++, AUVIA_SGD_EOL | portc->buf_size); (void) ddi_dma_sync(portc->sgd_dmah, 0, 0, DDI_DMA_SYNC_FORDEV); portc->engine = audio_engine_alloc(&auvia_engine_ops, caps); if (portc->engine == NULL) { audio_dev_warn(adev, "audio_engine_alloc failed"); return (DDI_FAILURE); } audio_engine_set_private(portc->engine, portc); audio_dev_add_engine(adev, portc->engine); return (DDI_SUCCESS); } void auvia_destroy(auvia_devc_t *devc) { for (int i = 0; i < AUVIA_NUM_PORTC; i++) { auvia_portc_t *portc = devc->portc[i]; if (!portc) continue; if (portc->engine) { audio_dev_remove_engine(devc->adev, portc->engine); audio_engine_free(portc->engine); } if (portc->sgd_paddr) { (void) ddi_dma_unbind_handle(portc->sgd_dmah); } if (portc->sgd_acch) { ddi_dma_mem_free(&portc->sgd_acch); } if (portc->sgd_dmah) { ddi_dma_free_handle(&portc->sgd_dmah); } if (portc->buf_paddr) { (void) ddi_dma_unbind_handle(portc->buf_dmah); } if (portc->buf_acch) { ddi_dma_mem_free(&portc->buf_acch); } if (portc->buf_dmah) { ddi_dma_free_handle(&portc->buf_dmah); } kmem_free(portc, sizeof (*portc)); } if (devc->ac97 != NULL) { ac97_free(devc->ac97); } if (devc->adev != NULL) { audio_dev_free(devc->adev); } if (devc->regsh != NULL) { ddi_regs_map_free(&devc->regsh); } if (devc->pcih != NULL) { pci_config_teardown(&devc->pcih); } kmem_free(devc, sizeof (*devc)); } void auvia_hwinit(auvia_devc_t *devc) { ddi_acc_handle_t pcih = devc->pcih; uint32_t val; val = pci_config_get32(pcih, AUVIA_PCICFG); /* we want to disable all legacy */ val &= ~AUVIA_PCICFG_LEGACY; val &= ~(AUVIA_PCICFG_FMEN | AUVIA_PCICFG_SBEN); /* enable AC'97 link and clear the reset bit */ val |= (AUVIA_PCICFG_ACLINKEN | AUVIA_PCICFG_NRST); /* disable SRC (we won't use it) */ val &= ~AUVIA_PCICFG_SRCEN; /* enable the SGD engines */ val |= AUVIA_PCICFG_SGDEN; pci_config_put32(pcih, AUVIA_PCICFG, val); drv_usecwait(10); } int auvia_attach(dev_info_t *dip) { uint8_t pci_revision; uint16_t pci_command, vendor, device; auvia_devc_t *devc; ddi_acc_handle_t pcih; const char *version; devc = kmem_zalloc(sizeof (*devc), KM_SLEEP); devc->dip = dip; ddi_set_driver_private(dip, devc); if ((devc->adev = audio_dev_alloc(dip, 0)) == NULL) { cmn_err(CE_WARN, "audio_dev_alloc failed"); goto error; } if (pci_config_setup(dip, &pcih) != DDI_SUCCESS) { audio_dev_warn(devc->adev, "pci_config_setup failed"); goto error; } devc->pcih = pcih; vendor = pci_config_get16(pcih, PCI_CONF_VENID); device = pci_config_get16(pcih, PCI_CONF_DEVID); if ((vendor != VIA_VENDOR_ID) || (device != VIA_8233_ID && device != VIA_8233A_ID)) { audio_dev_warn(devc->adev, "Hardware not recognized " "(vendor=%x, dev=%x)", vendor, device); goto error; } devc->chip_type = CHIP_8233; devc->chip_name = "VIA VT8233"; version = "8233"; pci_revision = pci_config_get8(pcih, PCI_CONF_REVID); if (pci_revision == 0x50) { devc->chip_name = "VIA VT8235"; version = "8235"; } if (pci_revision == 0x60) { devc->chip_name = "VIA VT8237"; version = "8237"; } if ((device == VIA_8233A_ID) || (device == VIA_8233_ID && pci_revision == 0x40)) { devc->chip_type = CHIP_8233A; devc->chip_name = "VIA VT8233A"; version = "8233A"; } audio_dev_set_description(devc->adev, devc->chip_name); audio_dev_set_version(devc->adev, version); pci_command = pci_config_get16(pcih, PCI_CONF_COMM); pci_command |= PCI_COMM_ME | PCI_COMM_IO | PCI_COMM_MAE; pci_config_put16(pcih, PCI_CONF_COMM, pci_command); if ((ddi_regs_map_setup(dip, 1, &devc->base, 0, 0, &dev_attr, &devc->regsh)) != DDI_SUCCESS) { audio_dev_warn(devc->adev, "failed to map registers"); goto error; } auvia_hwinit(devc); if ((auvia_alloc_port(devc, AUVIA_PLAY_SGD_NUM) != DDI_SUCCESS) || (auvia_alloc_port(devc, AUVIA_REC_SGD_NUM) != DDI_SUCCESS)) { goto error; } devc->ac97 = ac97_alloc(dip, auvia_read_ac97, auvia_write_ac97, devc); if (devc->ac97 == NULL) { audio_dev_warn(devc->adev, "failed to allocate ac97 handle"); goto error; } if (ac97_init(devc->ac97, devc->adev) != DDI_SUCCESS) { audio_dev_warn(devc->adev, "failed to init ac97"); goto error; } if (audio_dev_register(devc->adev) != DDI_SUCCESS) { audio_dev_warn(devc->adev, "unable to register with framework"); goto error; } ddi_report_dev(dip); return (DDI_SUCCESS); error: auvia_destroy(devc); return (DDI_FAILURE); } int auvia_resume(dev_info_t *dip) { auvia_devc_t *devc; devc = ddi_get_driver_private(dip); auvia_hwinit(devc); ac97_reset(devc->ac97); audio_dev_resume(devc->adev); return (DDI_SUCCESS); } int auvia_detach(auvia_devc_t *devc) { if (audio_dev_unregister(devc->adev) != DDI_SUCCESS) return (DDI_FAILURE); auvia_destroy(devc); return (DDI_SUCCESS); } int auvia_suspend(auvia_devc_t *devc) { audio_dev_suspend(devc->adev); return (DDI_SUCCESS); } static int auvia_ddi_attach(dev_info_t *, ddi_attach_cmd_t); static int auvia_ddi_detach(dev_info_t *, ddi_detach_cmd_t); static int auvia_ddi_quiesce(dev_info_t *); static struct dev_ops auvia_dev_ops = { DEVO_REV, /* rev */ 0, /* refcnt */ NULL, /* getinfo */ nulldev, /* identify */ nulldev, /* probe */ auvia_ddi_attach, /* attach */ auvia_ddi_detach, /* detach */ nodev, /* reset */ NULL, /* cb_ops */ NULL, /* bus_ops */ NULL, /* power */ auvia_ddi_quiesce, /* quiesce */ }; static struct modldrv auvia_modldrv = { &mod_driverops, /* drv_modops */ "Via 823x Audio", /* linkinfo */ &auvia_dev_ops, /* dev_ops */ }; static struct modlinkage modlinkage = { MODREV_1, { &auvia_modldrv, NULL } }; int _init(void) { int rv; audio_init_ops(&auvia_dev_ops, AUVIA_NAME); if ((rv = mod_install(&modlinkage)) != 0) { audio_fini_ops(&auvia_dev_ops); } return (rv); } int _fini(void) { int rv; if ((rv = mod_remove(&modlinkage)) == 0) { audio_fini_ops(&auvia_dev_ops); } return (rv); } int _info(struct modinfo *modinfop) { return (mod_info(&modlinkage, modinfop)); } int auvia_ddi_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) { switch (cmd) { case DDI_ATTACH: return (auvia_attach(dip)); case DDI_RESUME: return (auvia_resume(dip)); default: return (DDI_FAILURE); } } int auvia_ddi_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) { auvia_devc_t *devc; devc = ddi_get_driver_private(dip); switch (cmd) { case DDI_DETACH: return (auvia_detach(devc)); case DDI_SUSPEND: return (auvia_suspend(devc)); default: return (DDI_FAILURE); } } int auvia_ddi_quiesce(dev_info_t *dip) { auvia_devc_t *devc; devc = ddi_get_driver_private(dip); for (int i = 0; i < AUVIA_NUM_PORTC; i++) { auvia_portc_t *portc = devc->portc[i]; OUTB(devc, portc->base + OFF_CTRL, CTRL_TERMINATE); } return (DDI_SUCCESS); }