// SPDX-License-Identifier: GPL-2.0 // Copyright (c) 2018, Linaro Limited #include #include #include #include #include #include #include "slimbus.h" /** * struct segdist_code - Segment Distributions code from * Table 20 of SLIMbus Specs Version 2.0 * * @ratem: Channel Rate Multipler(Segments per Superframe) * @seg_interval: Number of slots between the first Slot of Segment * and the first slot of the next consecutive Segment. * @segdist_code: Segment Distribution Code SD[11:0] * @seg_offset_mask: Segment offset mask in SD[11:0] * @segdist_codes: List of all possible Segmet Distribution codes. */ static const struct segdist_code { int ratem; int seg_interval; int segdist_code; u32 seg_offset_mask; } segdist_codes[] = { {1, 1536, 0x200, 0xdff}, {2, 768, 0x100, 0xcff}, {4, 384, 0x080, 0xc7f}, {8, 192, 0x040, 0xc3f}, {16, 96, 0x020, 0xc1f}, {32, 48, 0x010, 0xc0f}, {64, 24, 0x008, 0xc07}, {128, 12, 0x004, 0xc03}, {256, 6, 0x002, 0xc01}, {512, 3, 0x001, 0xc00}, {3, 512, 0xe00, 0x1ff}, {6, 256, 0xd00, 0x0ff}, {12, 128, 0xc80, 0x07f}, {24, 64, 0xc40, 0x03f}, {48, 32, 0xc20, 0x01f}, {96, 16, 0xc10, 0x00f}, {192, 8, 0xc08, 0x007}, {364, 4, 0xc04, 0x003}, {768, 2, 0xc02, 0x001}, }; /* * Presence Rate table for all Natural Frequencies * The Presence rate of a constant bitrate stream is mean flow rate of the * stream expressed in occupied Segments of that Data Channel per second. * Table 66 from SLIMbus 2.0 Specs * * Index of the table corresponds to Presence rate code for the respective rate * in the table. */ static const int slim_presence_rate_table[] = { 0, /* Not Indicated */ 12000, 24000, 48000, 96000, 192000, 384000, 768000, 0, /* Reserved */ 110250, 220500, 441000, 882000, 176400, 352800, 705600, 4000, 8000, 16000, 32000, 64000, 128000, 256000, 512000, }; /** * slim_stream_allocate() - Allocate a new SLIMbus Stream * @dev:Slim device to be associated with * @name: name of the stream * * This is very first call for SLIMbus streaming, this API will allocate * a new SLIMbus stream and return a valid stream runtime pointer for client * to use it in subsequent stream apis. state of stream is set to ALLOCATED * * Return: valid pointer on success and error code on failure. * From ASoC DPCM framework, this state is linked to startup() operation. */ struct slim_stream_runtime *slim_stream_allocate(struct slim_device *dev, const char *name) { struct slim_stream_runtime *rt; rt = kzalloc(sizeof(*rt), GFP_KERNEL); if (!rt) return ERR_PTR(-ENOMEM); rt->name = kasprintf(GFP_KERNEL, "slim-%s", name); if (!rt->name) { kfree(rt); return ERR_PTR(-ENOMEM); } rt->dev = dev; spin_lock(&dev->stream_list_lock); list_add_tail(&rt->node, &dev->stream_list); spin_unlock(&dev->stream_list_lock); return rt; } EXPORT_SYMBOL_GPL(slim_stream_allocate); static int slim_connect_port_channel(struct slim_stream_runtime *stream, struct slim_port *port) { struct slim_device *sdev = stream->dev; u8 wbuf[2]; struct slim_val_inf msg = {0, 2, NULL, wbuf, NULL}; u8 mc = SLIM_MSG_MC_CONNECT_SOURCE; DEFINE_SLIM_LDEST_TXN(txn, mc, 6, stream->dev->laddr, &msg); if (port->direction == SLIM_PORT_SINK) txn.mc = SLIM_MSG_MC_CONNECT_SINK; wbuf[0] = port->id; wbuf[1] = port->ch.id; port->ch.state = SLIM_CH_STATE_ASSOCIATED; port->state = SLIM_PORT_UNCONFIGURED; return slim_do_transfer(sdev->ctrl, &txn); } static int slim_disconnect_port(struct slim_stream_runtime *stream, struct slim_port *port) { struct slim_device *sdev = stream->dev; u8 wbuf[1]; struct slim_val_inf msg = {0, 1, NULL, wbuf, NULL}; u8 mc = SLIM_MSG_MC_DISCONNECT_PORT; DEFINE_SLIM_LDEST_TXN(txn, mc, 5, stream->dev->laddr, &msg); wbuf[0] = port->id; port->ch.state = SLIM_CH_STATE_DISCONNECTED; port->state = SLIM_PORT_DISCONNECTED; return slim_do_transfer(sdev->ctrl, &txn); } static int slim_deactivate_remove_channel(struct slim_stream_runtime *stream, struct slim_port *port) { struct slim_device *sdev = stream->dev; u8 wbuf[1]; struct slim_val_inf msg = {0, 1, NULL, wbuf, NULL}; u8 mc = SLIM_MSG_MC_NEXT_DEACTIVATE_CHANNEL; DEFINE_SLIM_LDEST_TXN(txn, mc, 5, stream->dev->laddr, &msg); int ret; wbuf[0] = port->ch.id; ret = slim_do_transfer(sdev->ctrl, &txn); if (ret) return ret; txn.mc = SLIM_MSG_MC_NEXT_REMOVE_CHANNEL; port->ch.state = SLIM_CH_STATE_REMOVED; return slim_do_transfer(sdev->ctrl, &txn); } static int slim_get_prate_code(int rate) { int i; for (i = 0; i < ARRAY_SIZE(slim_presence_rate_table); i++) { if (rate == slim_presence_rate_table[i]) return i; } return -EINVAL; } /** * slim_stream_prepare() - Prepare a SLIMbus Stream * * @rt: instance of slim stream runtime to configure * @cfg: new configuration for the stream * * This API will configure SLIMbus stream with config parameters from cfg. * return zero on success and error code on failure. From ASoC DPCM framework, * this state is linked to hw_params() operation. */ int slim_stream_prepare(struct slim_stream_runtime *rt, struct slim_stream_config *cfg) { struct slim_controller *ctrl = rt->dev->ctrl; struct slim_port *port; int num_ports, i, port_id; if (rt->ports) { dev_err(&rt->dev->dev, "Stream already Prepared\n"); return -EINVAL; } num_ports = hweight32(cfg->port_mask); rt->ports = kcalloc(num_ports, sizeof(*port), GFP_KERNEL); if (!rt->ports) return -ENOMEM; rt->num_ports = num_ports; rt->rate = cfg->rate; rt->bps = cfg->bps; rt->direction = cfg->direction; if (cfg->rate % ctrl->a_framer->superfreq) { /* * data rate not exactly multiple of super frame, * use PUSH/PULL protocol */ if (cfg->direction == SNDRV_PCM_STREAM_PLAYBACK) rt->prot = SLIM_PROTO_PUSH; else rt->prot = SLIM_PROTO_PULL; } else { rt->prot = SLIM_PROTO_ISO; } rt->ratem = cfg->rate/ctrl->a_framer->superfreq; i = 0; for_each_set_bit(port_id, &cfg->port_mask, SLIM_DEVICE_MAX_PORTS) { port = &rt->ports[i]; port->state = SLIM_PORT_DISCONNECTED; port->id = port_id; port->ch.prrate = slim_get_prate_code(cfg->rate); port->ch.id = cfg->chs[i]; port->ch.data_fmt = SLIM_CH_DATA_FMT_NOT_DEFINED; port->ch.aux_fmt = SLIM_CH_AUX_FMT_NOT_APPLICABLE; port->ch.state = SLIM_CH_STATE_ALLOCATED; if (cfg->direction == SNDRV_PCM_STREAM_PLAYBACK) port->direction = SLIM_PORT_SINK; else port->direction = SLIM_PORT_SOURCE; slim_connect_port_channel(rt, port); i++; } return 0; } EXPORT_SYMBOL_GPL(slim_stream_prepare); static int slim_define_channel_content(struct slim_stream_runtime *stream, struct slim_port *port) { struct slim_device *sdev = stream->dev; u8 wbuf[4]; struct slim_val_inf msg = {0, 4, NULL, wbuf, NULL}; u8 mc = SLIM_MSG_MC_NEXT_DEFINE_CONTENT; DEFINE_SLIM_LDEST_TXN(txn, mc, 8, stream->dev->laddr, &msg); wbuf[0] = port->ch.id; wbuf[1] = port->ch.prrate; /* Frequency Locked for ISO Protocol */ if (stream->prot != SLIM_PROTO_ISO) wbuf[1] |= SLIM_CHANNEL_CONTENT_FL; wbuf[2] = port->ch.data_fmt | (port->ch.aux_fmt << 4); wbuf[3] = stream->bps/SLIM_SLOT_LEN_BITS; port->ch.state = SLIM_CH_STATE_CONTENT_DEFINED; return slim_do_transfer(sdev->ctrl, &txn); } static int slim_get_segdist_code(int ratem) { int i; for (i = 0; i < ARRAY_SIZE(segdist_codes); i++) { if (segdist_codes[i].ratem == ratem) return segdist_codes[i].segdist_code; } return -EINVAL; } static int slim_define_channel(struct slim_stream_runtime *stream, struct slim_port *port) { struct slim_device *sdev = stream->dev; u8 wbuf[4]; struct slim_val_inf msg = {0, 4, NULL, wbuf, NULL}; u8 mc = SLIM_MSG_MC_NEXT_DEFINE_CHANNEL; DEFINE_SLIM_LDEST_TXN(txn, mc, 8, stream->dev->laddr, &msg); port->ch.seg_dist = slim_get_segdist_code(stream->ratem); wbuf[0] = port->ch.id; wbuf[1] = port->ch.seg_dist & 0xFF; wbuf[2] = (stream->prot << 4) | ((port->ch.seg_dist & 0xF00) >> 8); if (stream->prot == SLIM_PROTO_ISO) wbuf[3] = stream->bps/SLIM_SLOT_LEN_BITS; else wbuf[3] = stream->bps/SLIM_SLOT_LEN_BITS + 1; port->ch.state = SLIM_CH_STATE_DEFINED; return slim_do_transfer(sdev->ctrl, &txn); } static int slim_activate_channel(struct slim_stream_runtime *stream, struct slim_port *port) { struct slim_device *sdev = stream->dev; u8 wbuf[1]; struct slim_val_inf msg = {0, 1, NULL, wbuf, NULL}; u8 mc = SLIM_MSG_MC_NEXT_ACTIVATE_CHANNEL; DEFINE_SLIM_LDEST_TXN(txn, mc, 5, stream->dev->laddr, &msg); txn.msg->num_bytes = 1; txn.msg->wbuf = wbuf; wbuf[0] = port->ch.id; port->ch.state = SLIM_CH_STATE_ACTIVE; return slim_do_transfer(sdev->ctrl, &txn); } /** * slim_stream_enable() - Enable a prepared SLIMbus Stream * * @stream: instance of slim stream runtime to enable * * This API will enable all the ports and channels associated with * SLIMbus stream * * Return: zero on success and error code on failure. From ASoC DPCM framework, * this state is linked to trigger() start operation. */ int slim_stream_enable(struct slim_stream_runtime *stream) { DEFINE_SLIM_BCAST_TXN(txn, SLIM_MSG_MC_BEGIN_RECONFIGURATION, 3, SLIM_LA_MANAGER, NULL); struct slim_controller *ctrl = stream->dev->ctrl; int ret, i; if (ctrl->enable_stream) { ret = ctrl->enable_stream(stream); if (ret) return ret; for (i = 0; i < stream->num_ports; i++) stream->ports[i].ch.state = SLIM_CH_STATE_ACTIVE; return ret; } ret = slim_do_transfer(ctrl, &txn); if (ret) return ret; /* define channels first before activating them */ for (i = 0; i < stream->num_ports; i++) { struct slim_port *port = &stream->ports[i]; slim_define_channel(stream, port); slim_define_channel_content(stream, port); } for (i = 0; i < stream->num_ports; i++) { struct slim_port *port = &stream->ports[i]; slim_activate_channel(stream, port); port->state = SLIM_PORT_CONFIGURED; } txn.mc = SLIM_MSG_MC_RECONFIGURE_NOW; return slim_do_transfer(ctrl, &txn); } EXPORT_SYMBOL_GPL(slim_stream_enable); /** * slim_stream_disable() - Disable a SLIMbus Stream * * @stream: instance of slim stream runtime to disable * * This API will disable all the ports and channels associated with * SLIMbus stream * * Return: zero on success and error code on failure. From ASoC DPCM framework, * this state is linked to trigger() pause operation. */ int slim_stream_disable(struct slim_stream_runtime *stream) { DEFINE_SLIM_BCAST_TXN(txn, SLIM_MSG_MC_BEGIN_RECONFIGURATION, 3, SLIM_LA_MANAGER, NULL); struct slim_controller *ctrl = stream->dev->ctrl; int ret, i; if (ctrl->disable_stream) ctrl->disable_stream(stream); ret = slim_do_transfer(ctrl, &txn); if (ret) return ret; for (i = 0; i < stream->num_ports; i++) slim_deactivate_remove_channel(stream, &stream->ports[i]); txn.mc = SLIM_MSG_MC_RECONFIGURE_NOW; return slim_do_transfer(ctrl, &txn); } EXPORT_SYMBOL_GPL(slim_stream_disable); /** * slim_stream_unprepare() - Un-prepare a SLIMbus Stream * * @stream: instance of slim stream runtime to unprepare * * This API will un allocate all the ports and channels associated with * SLIMbus stream * * Return: zero on success and error code on failure. From ASoC DPCM framework, * this state is linked to trigger() stop operation. */ int slim_stream_unprepare(struct slim_stream_runtime *stream) { int i; for (i = 0; i < stream->num_ports; i++) slim_disconnect_port(stream, &stream->ports[i]); kfree(stream->ports); stream->ports = NULL; stream->num_ports = 0; return 0; } EXPORT_SYMBOL_GPL(slim_stream_unprepare); /** * slim_stream_free() - Free a SLIMbus Stream * * @stream: instance of slim stream runtime to free * * This API will un allocate all the memory associated with * slim stream runtime, user is not allowed to make an dereference * to stream after this call. * * Return: zero on success and error code on failure. From ASoC DPCM framework, * this state is linked to shutdown() operation. */ int slim_stream_free(struct slim_stream_runtime *stream) { struct slim_device *sdev = stream->dev; spin_lock(&sdev->stream_list_lock); list_del(&stream->node); spin_unlock(&sdev->stream_list_lock); kfree(stream->name); kfree(stream); return 0; } EXPORT_SYMBOL_GPL(slim_stream_free);