/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2016 Alex Teaca * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ #include #include #include #include #include "pci_hda.h" #include "audio.h" /* * HDA Codec defines */ #define INTEL_VENDORID 0x8086 #define HDA_CODEC_SUBSYSTEM_ID ((INTEL_VENDORID << 16) | 0x01) #define HDA_CODEC_ROOT_NID 0x00 #define HDA_CODEC_FG_NID 0x01 #define HDA_CODEC_AUDIO_OUTPUT_NID 0x02 #define HDA_CODEC_PIN_OUTPUT_NID 0x03 #define HDA_CODEC_AUDIO_INPUT_NID 0x04 #define HDA_CODEC_PIN_INPUT_NID 0x05 #define HDA_CODEC_STREAMS_COUNT 0x02 #define HDA_CODEC_STREAM_OUTPUT 0x00 #define HDA_CODEC_STREAM_INPUT 0x01 #define HDA_CODEC_PARAMS_COUNT 0x14 #define HDA_CODEC_CONN_LIST_COUNT 0x01 #define HDA_CODEC_RESPONSE_EX_UNSOL 0x10 #define HDA_CODEC_RESPONSE_EX_SOL 0x00 #define HDA_CODEC_AMP_NUMSTEPS 0x4a #define HDA_CODEC_SUPP_STREAM_FORMATS_PCM \ (1 << HDA_PARAM_SUPP_STREAM_FORMATS_PCM_SHIFT) #define HDA_CODEC_FMT_BASE_MASK (0x01 << 14) #define HDA_CODEC_FMT_MULT_MASK (0x07 << 11) #define HDA_CODEC_FMT_MULT_2 (0x01 << 11) #define HDA_CODEC_FMT_MULT_3 (0x02 << 11) #define HDA_CODEC_FMT_MULT_4 (0x03 << 11) #define HDA_CODEC_FMT_DIV_MASK 0x07 #define HDA_CODEC_FMT_DIV_SHIFT 8 #define HDA_CODEC_FMT_BITS_MASK (0x07 << 4) #define HDA_CODEC_FMT_BITS_8 (0x00 << 4) #define HDA_CODEC_FMT_BITS_16 (0x01 << 4) #define HDA_CODEC_FMT_BITS_24 (0x03 << 4) #define HDA_CODEC_FMT_BITS_32 (0x04 << 4) #define HDA_CODEC_FMT_CHAN_MASK (0x0f << 0) #define HDA_CODEC_AUDIO_WCAP_OUTPUT \ (0x00 << HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_SHIFT) #define HDA_CODEC_AUDIO_WCAP_INPUT \ (0x01 << HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_SHIFT) #define HDA_CODEC_AUDIO_WCAP_PIN \ (0x04 << HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_SHIFT) #define HDA_CODEC_AUDIO_WCAP_CONN_LIST \ (1 << HDA_PARAM_AUDIO_WIDGET_CAP_CONN_LIST_SHIFT) #define HDA_CODEC_AUDIO_WCAP_FORMAT_OVR \ (1 << HDA_PARAM_AUDIO_WIDGET_CAP_FORMAT_OVR_SHIFT) #define HDA_CODEC_AUDIO_WCAP_AMP_OVR \ (1 << HDA_PARAM_AUDIO_WIDGET_CAP_AMP_OVR_SHIFT) #define HDA_CODEC_AUDIO_WCAP_OUT_AMP \ (1 << HDA_PARAM_AUDIO_WIDGET_CAP_OUT_AMP_SHIFT) #define HDA_CODEC_AUDIO_WCAP_IN_AMP \ (1 << HDA_PARAM_AUDIO_WIDGET_CAP_IN_AMP_SHIFT) #define HDA_CODEC_AUDIO_WCAP_STEREO \ (1 << HDA_PARAM_AUDIO_WIDGET_CAP_STEREO_SHIFT) #define HDA_CODEC_PIN_CAP_OUTPUT \ (1 << HDA_PARAM_PIN_CAP_OUTPUT_CAP_SHIFT) #define HDA_CODEC_PIN_CAP_INPUT \ (1 << HDA_PARAM_PIN_CAP_INPUT_CAP_SHIFT) #define HDA_CODEC_PIN_CAP_PRESENCE_DETECT \ (1 << HDA_PARAM_PIN_CAP_PRESENCE_DETECT_CAP_SHIFT) #define HDA_CODEC_OUTPUT_AMP_CAP_MUTE_CAP \ (1 << HDA_PARAM_OUTPUT_AMP_CAP_MUTE_CAP_SHIFT) #define HDA_CODEC_OUTPUT_AMP_CAP_STEPSIZE \ (0x03 << HDA_PARAM_OUTPUT_AMP_CAP_STEPSIZE_SHIFT) #define HDA_CODEC_OUTPUT_AMP_CAP_NUMSTEPS \ (HDA_CODEC_AMP_NUMSTEPS << HDA_PARAM_OUTPUT_AMP_CAP_NUMSTEPS_SHIFT) #define HDA_CODEC_OUTPUT_AMP_CAP_OFFSET \ (HDA_CODEC_AMP_NUMSTEPS << HDA_PARAM_OUTPUT_AMP_CAP_OFFSET_SHIFT) #define HDA_CODEC_SET_AMP_GAIN_MUTE_MUTE 0x80 #define HDA_CODEC_SET_AMP_GAIN_MUTE_GAIN_MASK 0x7f #define HDA_CODEC_PIN_SENSE_PRESENCE_PLUGGED (1 << 31) #define HDA_CODEC_PIN_WIDGET_CTRL_OUT_ENABLE \ (1 << HDA_CMD_GET_PIN_WIDGET_CTRL_OUT_ENABLE_SHIFT) #define HDA_CODEC_PIN_WIDGET_CTRL_IN_ENABLE \ (1 << HDA_CMD_GET_PIN_WIDGET_CTRL_IN_ENABLE_SHIFT) #define HDA_CONFIG_DEFAULTCONF_COLOR_BLACK \ (0x01 << HDA_CONFIG_DEFAULTCONF_COLOR_SHIFT) #define HDA_CONFIG_DEFAULTCONF_COLOR_RED \ (0x05 << HDA_CONFIG_DEFAULTCONF_COLOR_SHIFT) #define HDA_CODEC_BUF_SIZE HDA_FIFO_SIZE #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) /* * HDA Audio Context data structures */ typedef void (*transfer_func_t)(void *arg); typedef int (*setup_func_t)(void *arg); struct hda_audio_ctxt { char name[64]; uint8_t run; uint8_t started; void *priv; pthread_t tid; pthread_mutex_t mtx; pthread_cond_t cond; setup_func_t do_setup; transfer_func_t do_transfer; }; /* * HDA Audio Context module function declarations */ static void *hda_audio_ctxt_thr(void *arg); static int hda_audio_ctxt_init(struct hda_audio_ctxt *actx, const char *tname, transfer_func_t do_transfer, setup_func_t do_setup, void *priv); static int hda_audio_ctxt_start(struct hda_audio_ctxt *actx); static int hda_audio_ctxt_stop(struct hda_audio_ctxt *actx); /* * HDA Codec data structures */ struct hda_codec_softc; typedef uint32_t (*verb_func_t)(struct hda_codec_softc *sc, uint16_t verb, uint16_t payload); struct hda_codec_stream { uint8_t buf[HDA_CODEC_BUF_SIZE]; uint8_t channel; uint16_t fmt; uint8_t stream; uint8_t left_gain; uint8_t right_gain; uint8_t left_mute; uint8_t right_mute; struct audio *aud; struct hda_audio_ctxt actx; }; struct hda_codec_softc { uint32_t no_nodes; uint32_t subsystem_id; const uint32_t (*get_parameters)[HDA_CODEC_PARAMS_COUNT]; const uint8_t (*conn_list)[HDA_CODEC_CONN_LIST_COUNT]; const uint32_t *conf_default; const uint8_t *pin_ctrl_default; const verb_func_t *verb_handlers; struct hda_codec_inst *hci; struct hda_codec_stream streams[HDA_CODEC_STREAMS_COUNT]; }; /* * HDA Codec module function declarations */ static int hda_codec_init(struct hda_codec_inst *hci, const char *play, const char *rec); static int hda_codec_reset(struct hda_codec_inst *hci); static int hda_codec_command(struct hda_codec_inst *hci, uint32_t cmd_data); static int hda_codec_notify(struct hda_codec_inst *hci, uint8_t run, uint8_t stream, uint8_t dir); static int hda_codec_parse_format(uint16_t fmt, struct audio_params *params); static uint32_t hda_codec_audio_output_nid(struct hda_codec_softc *sc, uint16_t verb, uint16_t payload); static void hda_codec_audio_output_do_transfer(void *arg); static int hda_codec_audio_output_do_setup(void *arg); static uint32_t hda_codec_audio_input_nid(struct hda_codec_softc *sc, uint16_t verb, uint16_t payload); static void hda_codec_audio_input_do_transfer(void *arg); static int hda_codec_audio_input_do_setup(void *arg); static uint32_t hda_codec_audio_inout_nid(struct hda_codec_stream *st, uint16_t verb, uint16_t payload); /* * HDA Codec global data */ #define HDA_CODEC_ROOT_DESC \ [HDA_CODEC_ROOT_NID] = { \ [HDA_PARAM_VENDOR_ID] = INTEL_VENDORID, \ [HDA_PARAM_REVISION_ID] = 0xffff, \ /* 1 Subnode, StartNid = 1 */ \ [HDA_PARAM_SUB_NODE_COUNT] = 0x00010001, \ }, \ #define HDA_CODEC_FG_COMMON_DESC \ [HDA_PARAM_FCT_GRP_TYPE] = HDA_PARAM_FCT_GRP_TYPE_NODE_TYPE_AUDIO,\ /* B8 - B32, 8.0 - 192.0kHz */ \ [HDA_PARAM_SUPP_PCM_SIZE_RATE] = (0x1f << 16) | 0x7ff, \ [HDA_PARAM_SUPP_STREAM_FORMATS] = HDA_CODEC_SUPP_STREAM_FORMATS_PCM,\ [HDA_PARAM_INPUT_AMP_CAP] = 0x00, /* None */ \ [HDA_PARAM_OUTPUT_AMP_CAP] = 0x00, /* None */ \ [HDA_PARAM_GPIO_COUNT] = 0x00, \ #define HDA_CODEC_FG_OUTPUT_DESC \ [HDA_CODEC_FG_NID] = { \ /* 2 Subnodes, StartNid = 2 */ \ [HDA_PARAM_SUB_NODE_COUNT] = 0x00020002, \ HDA_CODEC_FG_COMMON_DESC \ }, \ #define HDA_CODEC_FG_INPUT_DESC \ [HDA_CODEC_FG_NID] = { \ /* 2 Subnodes, StartNid = 4 */ \ [HDA_PARAM_SUB_NODE_COUNT] = 0x00040002, \ HDA_CODEC_FG_COMMON_DESC \ }, \ #define HDA_CODEC_FG_DUPLEX_DESC \ [HDA_CODEC_FG_NID] = { \ /* 4 Subnodes, StartNid = 2 */ \ [HDA_PARAM_SUB_NODE_COUNT] = 0x00020004, \ HDA_CODEC_FG_COMMON_DESC \ }, \ #define HDA_CODEC_OUTPUT_DESC \ [HDA_CODEC_AUDIO_OUTPUT_NID] = { \ [HDA_PARAM_AUDIO_WIDGET_CAP] = \ HDA_CODEC_AUDIO_WCAP_OUTPUT | \ HDA_CODEC_AUDIO_WCAP_FORMAT_OVR | \ HDA_CODEC_AUDIO_WCAP_AMP_OVR | \ HDA_CODEC_AUDIO_WCAP_OUT_AMP | \ HDA_CODEC_AUDIO_WCAP_STEREO, \ /* B16, 16.0 - 192.0kHz */ \ [HDA_PARAM_SUPP_PCM_SIZE_RATE] = (0x02 << 16) | 0x7fc, \ [HDA_PARAM_SUPP_STREAM_FORMATS] = \ HDA_CODEC_SUPP_STREAM_FORMATS_PCM, \ [HDA_PARAM_INPUT_AMP_CAP] = 0x00, /* None */ \ [HDA_PARAM_CONN_LIST_LENGTH] = 0x00, \ [HDA_PARAM_OUTPUT_AMP_CAP] = \ HDA_CODEC_OUTPUT_AMP_CAP_MUTE_CAP | \ HDA_CODEC_OUTPUT_AMP_CAP_STEPSIZE | \ HDA_CODEC_OUTPUT_AMP_CAP_NUMSTEPS | \ HDA_CODEC_OUTPUT_AMP_CAP_OFFSET, \ }, \ [HDA_CODEC_PIN_OUTPUT_NID] = { \ [HDA_PARAM_AUDIO_WIDGET_CAP] = \ HDA_CODEC_AUDIO_WCAP_PIN | \ HDA_CODEC_AUDIO_WCAP_CONN_LIST | \ HDA_CODEC_AUDIO_WCAP_STEREO, \ [HDA_PARAM_PIN_CAP] = HDA_CODEC_PIN_CAP_OUTPUT | \ HDA_CODEC_PIN_CAP_PRESENCE_DETECT,\ [HDA_PARAM_INPUT_AMP_CAP] = 0x00, /* None */ \ [HDA_PARAM_CONN_LIST_LENGTH] = 0x01, \ [HDA_PARAM_OUTPUT_AMP_CAP] = 0x00, /* None */ \ }, \ #define HDA_CODEC_INPUT_DESC \ [HDA_CODEC_AUDIO_INPUT_NID] = { \ [HDA_PARAM_AUDIO_WIDGET_CAP] = \ HDA_CODEC_AUDIO_WCAP_INPUT | \ HDA_CODEC_AUDIO_WCAP_CONN_LIST | \ HDA_CODEC_AUDIO_WCAP_FORMAT_OVR | \ HDA_CODEC_AUDIO_WCAP_AMP_OVR | \ HDA_CODEC_AUDIO_WCAP_IN_AMP | \ HDA_CODEC_AUDIO_WCAP_STEREO, \ /* B16, 16.0 - 192.0kHz */ \ [HDA_PARAM_SUPP_PCM_SIZE_RATE] = (0x02 << 16) | 0x7fc, \ [HDA_PARAM_SUPP_STREAM_FORMATS] = \ HDA_CODEC_SUPP_STREAM_FORMATS_PCM, \ [HDA_PARAM_OUTPUT_AMP_CAP] = 0x00, /* None */ \ [HDA_PARAM_CONN_LIST_LENGTH] = 0x01, \ [HDA_PARAM_INPUT_AMP_CAP] = \ HDA_CODEC_OUTPUT_AMP_CAP_MUTE_CAP | \ HDA_CODEC_OUTPUT_AMP_CAP_STEPSIZE | \ HDA_CODEC_OUTPUT_AMP_CAP_NUMSTEPS | \ HDA_CODEC_OUTPUT_AMP_CAP_OFFSET, \ }, \ [HDA_CODEC_PIN_INPUT_NID] = { \ [HDA_PARAM_AUDIO_WIDGET_CAP] = \ HDA_CODEC_AUDIO_WCAP_PIN | \ HDA_CODEC_AUDIO_WCAP_STEREO, \ [HDA_PARAM_PIN_CAP] = HDA_CODEC_PIN_CAP_INPUT | \ HDA_CODEC_PIN_CAP_PRESENCE_DETECT, \ [HDA_PARAM_INPUT_AMP_CAP] = 0x00, /* None */ \ [HDA_PARAM_OUTPUT_AMP_CAP] = 0x00, /* None */ \ }, \ static const uint32_t hda_codec_output_parameters[][HDA_CODEC_PARAMS_COUNT] = { HDA_CODEC_ROOT_DESC HDA_CODEC_FG_OUTPUT_DESC HDA_CODEC_OUTPUT_DESC }; static const uint32_t hda_codec_input_parameters[][HDA_CODEC_PARAMS_COUNT] = { HDA_CODEC_ROOT_DESC HDA_CODEC_FG_INPUT_DESC HDA_CODEC_INPUT_DESC }; static const uint32_t hda_codec_duplex_parameters[][HDA_CODEC_PARAMS_COUNT] = { HDA_CODEC_ROOT_DESC HDA_CODEC_FG_DUPLEX_DESC HDA_CODEC_OUTPUT_DESC HDA_CODEC_INPUT_DESC }; #define HDA_CODEC_NODES_COUNT (ARRAY_SIZE(hda_codec_duplex_parameters)) static const uint8_t hda_codec_conn_list[HDA_CODEC_NODES_COUNT][HDA_CODEC_CONN_LIST_COUNT] = { [HDA_CODEC_PIN_OUTPUT_NID] = {HDA_CODEC_AUDIO_OUTPUT_NID}, [HDA_CODEC_AUDIO_INPUT_NID] = {HDA_CODEC_PIN_INPUT_NID}, }; static const uint32_t hda_codec_conf_default[HDA_CODEC_NODES_COUNT] = { [HDA_CODEC_PIN_OUTPUT_NID] = \ HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_JACK | HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_OUT | HDA_CONFIG_DEFAULTCONF_COLOR_BLACK | (0x01 << HDA_CONFIG_DEFAULTCONF_ASSOCIATION_SHIFT), [HDA_CODEC_PIN_INPUT_NID] = HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_JACK | HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_IN | HDA_CONFIG_DEFAULTCONF_COLOR_RED | (0x02 << HDA_CONFIG_DEFAULTCONF_ASSOCIATION_SHIFT), }; static const uint8_t hda_codec_pin_ctrl_default[HDA_CODEC_NODES_COUNT] = { [HDA_CODEC_PIN_OUTPUT_NID] = HDA_CODEC_PIN_WIDGET_CTRL_OUT_ENABLE, [HDA_CODEC_PIN_INPUT_NID] = HDA_CODEC_PIN_WIDGET_CTRL_IN_ENABLE, }; static const verb_func_t hda_codec_verb_handlers[HDA_CODEC_NODES_COUNT] = { [HDA_CODEC_AUDIO_OUTPUT_NID] = hda_codec_audio_output_nid, [HDA_CODEC_AUDIO_INPUT_NID] = hda_codec_audio_input_nid, }; /* * HDA Codec module function definitions */ static int hda_codec_init(struct hda_codec_inst *hci, const char *play, const char *rec) { struct hda_codec_softc *sc = NULL; struct hda_codec_stream *st = NULL; int err; if (!(play || rec)) return (-1); sc = calloc(1, sizeof(*sc)); if (!sc) return (-1); if (play && rec) sc->get_parameters = hda_codec_duplex_parameters; else { if (play) sc->get_parameters = hda_codec_output_parameters; else sc->get_parameters = hda_codec_input_parameters; } sc->subsystem_id = HDA_CODEC_SUBSYSTEM_ID; sc->no_nodes = HDA_CODEC_NODES_COUNT; sc->conn_list = hda_codec_conn_list; sc->conf_default = hda_codec_conf_default; sc->pin_ctrl_default = hda_codec_pin_ctrl_default; sc->verb_handlers = hda_codec_verb_handlers; DPRINTF("HDA Codec nodes: %d", sc->no_nodes); /* * Initialize the Audio Output stream */ if (play) { st = &sc->streams[HDA_CODEC_STREAM_OUTPUT]; err = hda_audio_ctxt_init(&st->actx, "hda-audio-output", hda_codec_audio_output_do_transfer, hda_codec_audio_output_do_setup, sc); assert(!err); st->aud = audio_init(play, 1); if (!st->aud) { DPRINTF("Fail to init the output audio player"); return (-1); } } /* * Initialize the Audio Input stream */ if (rec) { st = &sc->streams[HDA_CODEC_STREAM_INPUT]; err = hda_audio_ctxt_init(&st->actx, "hda-audio-input", hda_codec_audio_input_do_transfer, hda_codec_audio_input_do_setup, sc); assert(!err); st->aud = audio_init(rec, 0); if (!st->aud) { DPRINTF("Fail to init the input audio player"); return (-1); } } sc->hci = hci; hci->priv = sc; return (0); } static int hda_codec_reset(struct hda_codec_inst *hci) { const struct hda_ops *hops = NULL; struct hda_codec_softc *sc = NULL; struct hda_codec_stream *st = NULL; int i; assert(hci); hops = hci->hops; assert(hops); sc = (struct hda_codec_softc *)hci->priv; assert(sc); for (i = 0; i < HDA_CODEC_STREAMS_COUNT; i++) { st = &sc->streams[i]; st->left_gain = HDA_CODEC_AMP_NUMSTEPS; st->right_gain = HDA_CODEC_AMP_NUMSTEPS; st->left_mute = HDA_CODEC_SET_AMP_GAIN_MUTE_MUTE; st->right_mute = HDA_CODEC_SET_AMP_GAIN_MUTE_MUTE; } DPRINTF("cad: 0x%x", hci->cad); if (!hops->signal) { DPRINTF("The controller ops does not implement \ the signal function"); return (-1); } return (hops->signal(hci)); } static int hda_codec_command(struct hda_codec_inst *hci, uint32_t cmd_data) { const struct hda_ops *hops = NULL; struct hda_codec_softc *sc = NULL; uint8_t cad = 0, nid = 0; uint16_t verb = 0, payload = 0; uint32_t res = 0; /* 4 bits */ cad = (cmd_data >> HDA_CMD_CAD_SHIFT) & 0x0f; /* 8 bits */ nid = (cmd_data >> HDA_CMD_NID_SHIFT) & 0xff; if ((cmd_data & 0x70000) == 0x70000) { /* 12 bits */ verb = (cmd_data >> HDA_CMD_VERB_12BIT_SHIFT) & 0x0fff; /* 8 bits */ payload = cmd_data & 0xff; } else { /* 4 bits */ verb = (cmd_data >> HDA_CMD_VERB_4BIT_SHIFT) & 0x0f; /* 16 bits */ payload = cmd_data & 0xffff; } assert(hci); hops = hci->hops; assert(hops); sc = (struct hda_codec_softc *)hci->priv; assert(sc); if (cad != hci->cad || nid >= sc->no_nodes) { DPRINTF("Invalid command data"); return (-1); } if (!hops->response) { DPRINTF("The controller ops does not implement \ the response function"); return (-1); } switch (verb) { case HDA_CMD_VERB_GET_PARAMETER: if (payload < HDA_CODEC_PARAMS_COUNT) res = sc->get_parameters[nid][payload]; break; case HDA_CMD_VERB_GET_CONN_LIST_ENTRY: res = sc->conn_list[nid][0]; break; case HDA_CMD_VERB_GET_PIN_WIDGET_CTRL: res = sc->pin_ctrl_default[nid]; break; case HDA_CMD_VERB_GET_PIN_SENSE: res = HDA_CODEC_PIN_SENSE_PRESENCE_PLUGGED; break; case HDA_CMD_VERB_GET_CONFIGURATION_DEFAULT: res = sc->conf_default[nid]; break; case HDA_CMD_VERB_GET_SUBSYSTEM_ID: res = sc->subsystem_id; break; default: assert(sc->verb_handlers); if (sc->verb_handlers[nid]) res = sc->verb_handlers[nid](sc, verb, payload); else DPRINTF("Unknown VERB: 0x%x", verb); break; } DPRINTF("cad: 0x%x nid: 0x%x verb: 0x%x payload: 0x%x response: 0x%x", cad, nid, verb, payload, res); return (hops->response(hci, res, HDA_CODEC_RESPONSE_EX_SOL)); } static int hda_codec_notify(struct hda_codec_inst *hci, uint8_t run, uint8_t stream, uint8_t dir) { struct hda_codec_softc *sc = NULL; struct hda_codec_stream *st = NULL; struct hda_audio_ctxt *actx = NULL; int i; int err; assert(hci); assert(stream); sc = (struct hda_codec_softc *)hci->priv; assert(sc); i = dir ? HDA_CODEC_STREAM_OUTPUT : HDA_CODEC_STREAM_INPUT; st = &sc->streams[i]; DPRINTF("run: %d, stream: 0x%x, st->stream: 0x%x dir: %d", run, stream, st->stream, dir); if (stream != st->stream) { DPRINTF("Stream not found"); return (0); } actx = &st->actx; if (run) err = hda_audio_ctxt_start(actx); else err = hda_audio_ctxt_stop(actx); return (err); } static int hda_codec_parse_format(uint16_t fmt, struct audio_params *params) { uint8_t div = 0; assert(params); /* Compute the Sample Rate */ params->rate = (fmt & HDA_CODEC_FMT_BASE_MASK) ? 44100 : 48000; switch (fmt & HDA_CODEC_FMT_MULT_MASK) { case HDA_CODEC_FMT_MULT_2: params->rate *= 2; break; case HDA_CODEC_FMT_MULT_3: params->rate *= 3; break; case HDA_CODEC_FMT_MULT_4: params->rate *= 4; break; } div = (fmt >> HDA_CODEC_FMT_DIV_SHIFT) & HDA_CODEC_FMT_DIV_MASK; params->rate /= (div + 1); /* Compute the Bits per Sample */ switch (fmt & HDA_CODEC_FMT_BITS_MASK) { case HDA_CODEC_FMT_BITS_8: params->format = AFMT_U8; break; case HDA_CODEC_FMT_BITS_16: params->format = AFMT_S16_LE; break; case HDA_CODEC_FMT_BITS_24: params->format = AFMT_S24_LE; break; case HDA_CODEC_FMT_BITS_32: params->format = AFMT_S32_LE; break; default: DPRINTF("Unknown format bits: 0x%x", fmt & HDA_CODEC_FMT_BITS_MASK); return (-1); } /* Compute the Number of Channels */ params->channels = (fmt & HDA_CODEC_FMT_CHAN_MASK) + 1; return (0); } static uint32_t hda_codec_audio_output_nid(struct hda_codec_softc *sc, uint16_t verb, uint16_t payload) { struct hda_codec_stream *st = &sc->streams[HDA_CODEC_STREAM_OUTPUT]; int res; res = hda_codec_audio_inout_nid(st, verb, payload); return (res); } static void hda_codec_audio_output_do_transfer(void *arg) { const struct hda_ops *hops = NULL; struct hda_codec_softc *sc = (struct hda_codec_softc *)arg; struct hda_codec_inst *hci = NULL; struct hda_codec_stream *st = NULL; struct audio *aud = NULL; int err; hci = sc->hci; assert(hci); hops = hci->hops; assert(hops); st = &sc->streams[HDA_CODEC_STREAM_OUTPUT]; aud = st->aud; err = hops->transfer(hci, st->stream, 1, st->buf, sizeof(st->buf)); if (err) return; err = audio_playback(aud, st->buf, sizeof(st->buf)); assert(!err); } static int hda_codec_audio_output_do_setup(void *arg) { struct hda_codec_softc *sc = (struct hda_codec_softc *)arg; struct hda_codec_stream *st = NULL; struct audio *aud = NULL; struct audio_params params; int err; st = &sc->streams[HDA_CODEC_STREAM_OUTPUT]; aud = st->aud; err = hda_codec_parse_format(st->fmt, ¶ms); if (err) return (-1); DPRINTF("rate: %d, channels: %d, format: 0x%x", params.rate, params.channels, params.format); return (audio_set_params(aud, ¶ms)); } static uint32_t hda_codec_audio_input_nid(struct hda_codec_softc *sc, uint16_t verb, uint16_t payload) { struct hda_codec_stream *st = &sc->streams[HDA_CODEC_STREAM_INPUT]; int res; res = hda_codec_audio_inout_nid(st, verb, payload); return (res); } static void hda_codec_audio_input_do_transfer(void *arg) { const struct hda_ops *hops = NULL; struct hda_codec_softc *sc = (struct hda_codec_softc *)arg; struct hda_codec_inst *hci = NULL; struct hda_codec_stream *st = NULL; struct audio *aud = NULL; int err; hci = sc->hci; assert(hci); hops = hci->hops; assert(hops); st = &sc->streams[HDA_CODEC_STREAM_INPUT]; aud = st->aud; err = audio_record(aud, st->buf, sizeof(st->buf)); assert(!err); hops->transfer(hci, st->stream, 0, st->buf, sizeof(st->buf)); } static int hda_codec_audio_input_do_setup(void *arg) { struct hda_codec_softc *sc = (struct hda_codec_softc *)arg; struct hda_codec_stream *st = NULL; struct audio *aud = NULL; struct audio_params params; int err; st = &sc->streams[HDA_CODEC_STREAM_INPUT]; aud = st->aud; err = hda_codec_parse_format(st->fmt, ¶ms); if (err) return (-1); DPRINTF("rate: %d, channels: %d, format: 0x%x", params.rate, params.channels, params.format); return (audio_set_params(aud, ¶ms)); } static uint32_t hda_codec_audio_inout_nid(struct hda_codec_stream *st, uint16_t verb, uint16_t payload) { uint32_t res = 0; uint8_t mute = 0; uint8_t gain = 0; DPRINTF("%s verb: 0x%x, payload, 0x%x", st->actx.name, verb, payload); switch (verb) { case HDA_CMD_VERB_GET_CONV_FMT: res = st->fmt; break; case HDA_CMD_VERB_SET_CONV_FMT: st->fmt = payload; break; case HDA_CMD_VERB_GET_AMP_GAIN_MUTE: if (payload & HDA_CMD_GET_AMP_GAIN_MUTE_LEFT) { res = st->left_gain | st->left_mute; DPRINTF("GET_AMP_GAIN_MUTE_LEFT: 0x%x", res); } else { res = st->right_gain | st->right_mute; DPRINTF("GET_AMP_GAIN_MUTE_RIGHT: 0x%x", res); } break; case HDA_CMD_VERB_SET_AMP_GAIN_MUTE: mute = payload & HDA_CODEC_SET_AMP_GAIN_MUTE_MUTE; gain = payload & HDA_CODEC_SET_AMP_GAIN_MUTE_GAIN_MASK; if (payload & HDA_CMD_SET_AMP_GAIN_MUTE_LEFT) { st->left_mute = mute; st->left_gain = gain; DPRINTF("SET_AMP_GAIN_MUTE_LEFT: \ mute: 0x%x gain: 0x%x", mute, gain); } if (payload & HDA_CMD_SET_AMP_GAIN_MUTE_RIGHT) { st->right_mute = mute; st->right_gain = gain; DPRINTF("SET_AMP_GAIN_MUTE_RIGHT: \ mute: 0x%x gain: 0x%x", mute, gain); } break; case HDA_CMD_VERB_GET_CONV_STREAM_CHAN: res = (st->stream << 4) | st->channel; break; case HDA_CMD_VERB_SET_CONV_STREAM_CHAN: st->channel = payload & 0x0f; st->stream = (payload >> 4) & 0x0f; DPRINTF("st->channel: 0x%x st->stream: 0x%x", st->channel, st->stream); if (!st->stream) hda_audio_ctxt_stop(&st->actx); break; default: DPRINTF("Unknown VERB: 0x%x", verb); break; } return (res); } static const struct hda_codec_class hda_codec = { .name = "hda_codec", .init = hda_codec_init, .reset = hda_codec_reset, .command = hda_codec_command, .notify = hda_codec_notify, }; HDA_EMUL_SET(hda_codec); /* * HDA Audio Context module function definitions */ static void * hda_audio_ctxt_thr(void *arg) { struct hda_audio_ctxt *actx = arg; DPRINTF("Start Thread: %s", actx->name); pthread_mutex_lock(&actx->mtx); while (1) { while (!actx->run) pthread_cond_wait(&actx->cond, &actx->mtx); actx->do_transfer(actx->priv); } pthread_mutex_unlock(&actx->mtx); pthread_exit(NULL); return (NULL); } static int hda_audio_ctxt_init(struct hda_audio_ctxt *actx, const char *tname, transfer_func_t do_transfer, setup_func_t do_setup, void *priv) { int err; assert(actx); assert(tname); assert(do_transfer); assert(do_setup); assert(priv); memset(actx, 0, sizeof(*actx)); actx->run = 0; actx->do_transfer = do_transfer; actx->do_setup = do_setup; actx->priv = priv; if (strlen(tname) < sizeof(actx->name)) memcpy(actx->name, tname, strlen(tname) + 1); else strcpy(actx->name, "unknown"); err = pthread_mutex_init(&actx->mtx, NULL); assert(!err); err = pthread_cond_init(&actx->cond, NULL); assert(!err); err = pthread_create(&actx->tid, NULL, hda_audio_ctxt_thr, actx); assert(!err); pthread_set_name_np(actx->tid, tname); actx->started = 1; return (0); } static int hda_audio_ctxt_start(struct hda_audio_ctxt *actx) { int err = 0; assert(actx); assert(actx->started); /* The stream is supposed to be stopped */ if (actx->run) return (-1); pthread_mutex_lock(&actx->mtx); err = (* actx->do_setup)(actx->priv); if (!err) { actx->run = 1; pthread_cond_signal(&actx->cond); } pthread_mutex_unlock(&actx->mtx); return (err); } static int hda_audio_ctxt_stop(struct hda_audio_ctxt *actx) { actx->run = 0; return (0); }