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// SPDX-License-Identifier: GPL-2.0-only
//
// Copyright(c) 2021-2022 Intel Corporation. All rights reserved.
//
// Authors: Cezary Rojewski <cezary.rojewski@intel.com>
// Amadeusz Slawinski <amadeuszx.slawinski@linux.intel.com>
//
#include <linux/io-64-nonatomic-lo-hi.h>
#include <linux/slab.h>
#include <sound/hdaudio_ext.h>
#include "avs.h"
#include "messages.h"
#include "registers.h"
#include "trace.h"
#define AVS_IPC_TIMEOUT_MS 300
#define AVS_D0IX_DELAY_MS 300
static int
avs_dsp_set_d0ix(struct avs_dev *adev, bool enable)
{
struct avs_ipc *ipc = adev->ipc;
int ret;
/* Is transition required? */
if (ipc->in_d0ix == enable)
return 0;
ret = avs_dsp_op(adev, set_d0ix, enable);
if (ret) {
/* Prevent further d0ix attempts on conscious IPC failure. */
if (ret == -AVS_EIPC)
atomic_inc(&ipc->d0ix_disable_depth);
ipc->in_d0ix = false;
return ret;
}
ipc->in_d0ix = enable;
return 0;
}
static void avs_dsp_schedule_d0ix(struct avs_dev *adev, struct avs_ipc_msg *tx)
{
if (atomic_read(&adev->ipc->d0ix_disable_depth))
return;
mod_delayed_work(system_power_efficient_wq, &adev->ipc->d0ix_work,
msecs_to_jiffies(AVS_D0IX_DELAY_MS));
}
static void avs_dsp_d0ix_work(struct work_struct *work)
{
struct avs_ipc *ipc = container_of(work, struct avs_ipc, d0ix_work.work);
avs_dsp_set_d0ix(to_avs_dev(ipc->dev), true);
}
static int avs_dsp_wake_d0i0(struct avs_dev *adev, struct avs_ipc_msg *tx)
{
struct avs_ipc *ipc = adev->ipc;
if (!atomic_read(&ipc->d0ix_disable_depth)) {
cancel_delayed_work_sync(&ipc->d0ix_work);
return avs_dsp_set_d0ix(adev, false);
}
return 0;
}
int avs_dsp_disable_d0ix(struct avs_dev *adev)
{
struct avs_ipc *ipc = adev->ipc;
/* Prevent PG only on the first disable. */
if (atomic_inc_return(&ipc->d0ix_disable_depth) == 1) {
cancel_delayed_work_sync(&ipc->d0ix_work);
return avs_dsp_set_d0ix(adev, false);
}
return 0;
}
int avs_dsp_enable_d0ix(struct avs_dev *adev)
{
struct avs_ipc *ipc = adev->ipc;
if (atomic_dec_and_test(&ipc->d0ix_disable_depth))
queue_delayed_work(system_power_efficient_wq, &ipc->d0ix_work,
msecs_to_jiffies(AVS_D0IX_DELAY_MS));
return 0;
}
static void avs_dsp_recovery(struct avs_dev *adev)
{
struct avs_soc_component *acomp;
unsigned int core_mask;
int ret;
mutex_lock(&adev->comp_list_mutex);
/* disconnect all running streams */
list_for_each_entry(acomp, &adev->comp_list, node) {
struct snd_soc_pcm_runtime *rtd;
struct snd_soc_card *card;
card = acomp->base.card;
if (!card)
continue;
for_each_card_rtds(card, rtd) {
struct snd_pcm *pcm;
int dir;
pcm = rtd->pcm;
if (!pcm || rtd->dai_link->no_pcm)
continue;
for_each_pcm_streams(dir) {
struct snd_pcm_substream *substream;
substream = pcm->streams[dir].substream;
if (!substream || !substream->runtime)
continue;
/* No need for _irq() as we are in nonatomic context. */
snd_pcm_stream_lock(substream);
snd_pcm_stop(substream, SNDRV_PCM_STATE_DISCONNECTED);
snd_pcm_stream_unlock(substream);
}
}
}
mutex_unlock(&adev->comp_list_mutex);
/* forcibly shutdown all cores */
core_mask = GENMASK(adev->hw_cfg.dsp_cores - 1, 0);
avs_dsp_core_disable(adev, core_mask);
/* attempt dsp reboot */
ret = avs_dsp_boot_firmware(adev, true);
if (ret < 0)
dev_err(adev->dev, "dsp reboot failed: %d\n", ret);
pm_runtime_mark_last_busy(adev->dev);
pm_runtime_enable(adev->dev);
pm_request_autosuspend(adev->dev);
atomic_set(&adev->ipc->recovering, 0);
}
static void avs_dsp_recovery_work(struct work_struct *work)
{
struct avs_ipc *ipc = container_of(work, struct avs_ipc, recovery_work);
avs_dsp_recovery(to_avs_dev(ipc->dev));
}
static void avs_dsp_exception_caught(struct avs_dev *adev, union avs_notify_msg *msg)
{
struct avs_ipc *ipc = adev->ipc;
/* Account for the double-exception case. */
ipc->ready = false;
if (!atomic_add_unless(&ipc->recovering, 1, 1)) {
dev_err(adev->dev, "dsp recovery is already in progress\n");
return;
}
dev_crit(adev->dev, "communication severed, rebooting dsp..\n");
cancel_delayed_work_sync(&ipc->d0ix_work);
ipc->in_d0ix = false;
/* Re-enabled on recovery completion. */
pm_runtime_disable(adev->dev);
/* Process received notification. */
avs_dsp_op(adev, coredump, msg);
schedule_work(&ipc->recovery_work);
}
static void avs_dsp_receive_rx(struct avs_dev *adev, u64 header)
{
struct avs_ipc *ipc = adev->ipc;
union avs_reply_msg msg = AVS_MSG(header);
u64 reg;
reg = readq(avs_sram_addr(adev, AVS_FW_REGS_WINDOW));
trace_avs_ipc_reply_msg(header, reg);
ipc->rx.header = header;
/* Abort copying payload if request processing was unsuccessful. */
if (!msg.status) {
/* update size in case of LARGE_CONFIG_GET */
if (msg.msg_target == AVS_MOD_MSG &&
msg.global_msg_type == AVS_MOD_LARGE_CONFIG_GET)
ipc->rx.size = min_t(u32, AVS_MAILBOX_SIZE,
msg.ext.large_config.data_off_size);
memcpy_fromio(ipc->rx.data, avs_uplink_addr(adev), ipc->rx.size);
trace_avs_msg_payload(ipc->rx.data, ipc->rx.size);
}
}
static void avs_dsp_process_notification(struct avs_dev *adev, u64 header)
{
struct avs_notify_mod_data mod_data;
union avs_notify_msg msg = AVS_MSG(header);
size_t data_size = 0;
void *data = NULL;
u64 reg;
reg = readq(avs_sram_addr(adev, AVS_FW_REGS_WINDOW));
trace_avs_ipc_notify_msg(header, reg);
/* Ignore spurious notifications until handshake is established. */
if (!adev->ipc->ready && msg.notify_msg_type != AVS_NOTIFY_FW_READY) {
dev_dbg(adev->dev, "FW not ready, skip notification: 0x%08x\n", msg.primary);
return;
}
/* Calculate notification payload size. */
switch (msg.notify_msg_type) {
case AVS_NOTIFY_FW_READY:
break;
case AVS_NOTIFY_PHRASE_DETECTED:
data_size = sizeof(struct avs_notify_voice_data);
break;
case AVS_NOTIFY_RESOURCE_EVENT:
data_size = sizeof(struct avs_notify_res_data);
break;
case AVS_NOTIFY_LOG_BUFFER_STATUS:
case AVS_NOTIFY_EXCEPTION_CAUGHT:
break;
case AVS_NOTIFY_MODULE_EVENT:
/* To know the total payload size, header needs to be read first. */
memcpy_fromio(&mod_data, avs_uplink_addr(adev), sizeof(mod_data));
data_size = sizeof(mod_data) + mod_data.data_size;
break;
default:
dev_info(adev->dev, "unknown notification: 0x%08x\n", msg.primary);
break;
}
if (data_size) {
data = kmalloc(data_size, GFP_KERNEL);
if (!data)
return;
memcpy_fromio(data, avs_uplink_addr(adev), data_size);
trace_avs_msg_payload(data, data_size);
}
/* Perform notification-specific operations. */
switch (msg.notify_msg_type) {
case AVS_NOTIFY_FW_READY:
dev_dbg(adev->dev, "FW READY 0x%08x\n", msg.primary);
adev->ipc->ready = true;
complete(&adev->fw_ready);
break;
case AVS_NOTIFY_LOG_BUFFER_STATUS:
avs_log_buffer_status_locked(adev, &msg);
break;
case AVS_NOTIFY_EXCEPTION_CAUGHT:
avs_dsp_exception_caught(adev, &msg);
break;
default:
break;
}
kfree(data);
}
void avs_dsp_process_response(struct avs_dev *adev, u64 header)
{
struct avs_ipc *ipc = adev->ipc;
/*
* Response may either be solicited - a reply for a request that has
* been sent beforehand - or unsolicited (notification).
*/
if (avs_msg_is_reply(header)) {
/* Response processing is invoked from IRQ thread. */
spin_lock_irq(&ipc->rx_lock);
avs_dsp_receive_rx(adev, header);
ipc->rx_completed = true;
spin_unlock_irq(&ipc->rx_lock);
} else {
avs_dsp_process_notification(adev, header);
}
complete(&ipc->busy_completion);
}
irqreturn_t avs_dsp_irq_handler(int irq, void *dev_id)
{
struct avs_dev *adev = dev_id;
struct avs_ipc *ipc = adev->ipc;
u32 adspis, hipc_rsp, hipc_ack;
irqreturn_t ret = IRQ_NONE;
adspis = snd_hdac_adsp_readl(adev, AVS_ADSP_REG_ADSPIS);
if (adspis == UINT_MAX || !(adspis & AVS_ADSP_ADSPIS_IPC))
return ret;
hipc_ack = snd_hdac_adsp_readl(adev, SKL_ADSP_REG_HIPCIE);
hipc_rsp = snd_hdac_adsp_readl(adev, SKL_ADSP_REG_HIPCT);
/* DSP acked host's request */
if (hipc_ack & SKL_ADSP_HIPCIE_DONE) {
/*
* As an extra precaution, mask done interrupt. Code executed
* due to complete() found below does not assume any masking.
*/
snd_hdac_adsp_updatel(adev, SKL_ADSP_REG_HIPCCTL,
AVS_ADSP_HIPCCTL_DONE, 0);
complete(&ipc->done_completion);
/* tell DSP it has our attention */
snd_hdac_adsp_updatel(adev, SKL_ADSP_REG_HIPCIE,
SKL_ADSP_HIPCIE_DONE,
SKL_ADSP_HIPCIE_DONE);
/* unmask done interrupt */
snd_hdac_adsp_updatel(adev, SKL_ADSP_REG_HIPCCTL,
AVS_ADSP_HIPCCTL_DONE,
AVS_ADSP_HIPCCTL_DONE);
ret = IRQ_HANDLED;
}
/* DSP sent new response to process */
if (hipc_rsp & SKL_ADSP_HIPCT_BUSY) {
/* mask busy interrupt */
snd_hdac_adsp_updatel(adev, SKL_ADSP_REG_HIPCCTL,
AVS_ADSP_HIPCCTL_BUSY, 0);
ret = IRQ_WAKE_THREAD;
}
return ret;
}
irqreturn_t avs_dsp_irq_thread(int irq, void *dev_id)
{
struct avs_dev *adev = dev_id;
union avs_reply_msg msg;
u32 hipct, hipcte;
hipct = snd_hdac_adsp_readl(adev, SKL_ADSP_REG_HIPCT);
hipcte = snd_hdac_adsp_readl(adev, SKL_ADSP_REG_HIPCTE);
/* ensure DSP sent new response to process */
if (!(hipct & SKL_ADSP_HIPCT_BUSY))
return IRQ_NONE;
msg.primary = hipct;
msg.ext.val = hipcte;
avs_dsp_process_response(adev, msg.val);
/* tell DSP we accepted its message */
snd_hdac_adsp_updatel(adev, SKL_ADSP_REG_HIPCT,
SKL_ADSP_HIPCT_BUSY, SKL_ADSP_HIPCT_BUSY);
/* unmask busy interrupt */
snd_hdac_adsp_updatel(adev, SKL_ADSP_REG_HIPCCTL,
AVS_ADSP_HIPCCTL_BUSY, AVS_ADSP_HIPCCTL_BUSY);
return IRQ_HANDLED;
}
static bool avs_ipc_is_busy(struct avs_ipc *ipc)
{
struct avs_dev *adev = to_avs_dev(ipc->dev);
u32 hipc_rsp;
hipc_rsp = snd_hdac_adsp_readl(adev, SKL_ADSP_REG_HIPCT);
return hipc_rsp & SKL_ADSP_HIPCT_BUSY;
}
static int avs_ipc_wait_busy_completion(struct avs_ipc *ipc, int timeout)
{
u32 repeats_left = 128; /* to avoid infinite looping */
int ret;
again:
ret = wait_for_completion_timeout(&ipc->busy_completion, msecs_to_jiffies(timeout));
/* DSP could be unresponsive at this point. */
if (!ipc->ready)
return -EPERM;
if (!ret) {
if (!avs_ipc_is_busy(ipc))
return -ETIMEDOUT;
/*
* Firmware did its job, either notification or reply
* has been received - now wait until it's processed.
*/
wait_for_completion_killable(&ipc->busy_completion);
}
/* Ongoing notification's bottom-half may cause early wakeup */
spin_lock(&ipc->rx_lock);
if (!ipc->rx_completed) {
if (repeats_left) {
/* Reply delayed due to notification. */
repeats_left--;
reinit_completion(&ipc->busy_completion);
spin_unlock(&ipc->rx_lock);
goto again;
}
spin_unlock(&ipc->rx_lock);
return -ETIMEDOUT;
}
spin_unlock(&ipc->rx_lock);
return 0;
}
static void avs_ipc_msg_init(struct avs_ipc *ipc, struct avs_ipc_msg *reply)
{
lockdep_assert_held(&ipc->rx_lock);
ipc->rx.header = 0;
ipc->rx.size = reply ? reply->size : 0;
ipc->rx_completed = false;
reinit_completion(&ipc->done_completion);
reinit_completion(&ipc->busy_completion);
}
static void avs_dsp_send_tx(struct avs_dev *adev, struct avs_ipc_msg *tx, bool read_fwregs)
{
u64 reg = ULONG_MAX;
tx->header |= SKL_ADSP_HIPCI_BUSY;
if (read_fwregs)
reg = readq(avs_sram_addr(adev, AVS_FW_REGS_WINDOW));
trace_avs_request(tx, reg);
if (tx->size)
memcpy_toio(avs_downlink_addr(adev), tx->data, tx->size);
snd_hdac_adsp_writel(adev, SKL_ADSP_REG_HIPCIE, tx->header >> 32);
snd_hdac_adsp_writel(adev, SKL_ADSP_REG_HIPCI, tx->header & UINT_MAX);
}
static int avs_dsp_do_send_msg(struct avs_dev *adev, struct avs_ipc_msg *request,
struct avs_ipc_msg *reply, int timeout, const char *name)
{
struct avs_ipc *ipc = adev->ipc;
int ret;
if (!ipc->ready)
return -EPERM;
mutex_lock(&ipc->msg_mutex);
spin_lock(&ipc->rx_lock);
avs_ipc_msg_init(ipc, reply);
avs_dsp_send_tx(adev, request, true);
spin_unlock(&ipc->rx_lock);
ret = avs_ipc_wait_busy_completion(ipc, timeout);
if (ret) {
if (ret == -ETIMEDOUT) {
union avs_notify_msg msg = AVS_NOTIFICATION(EXCEPTION_CAUGHT);
/* Same treatment as on exception, just stack_dump=0. */
avs_dsp_exception_caught(adev, &msg);
}
goto exit;
}
ret = ipc->rx.rsp.status;
/*
* If IPC channel is blocked e.g.: due to ongoing recovery,
* -EPERM error code is expected and thus it's not an actual error.
*
* Unsupported IPCs are of no harm either.
*/
if (ret == -EPERM || ret == AVS_IPC_NOT_SUPPORTED)
dev_dbg(adev->dev, "%s (0x%08x 0x%08x) failed: %d\n",
name, request->glb.primary, request->glb.ext.val, ret);
else if (ret)
dev_err(adev->dev, "%s (0x%08x 0x%08x) failed: %d\n",
name, request->glb.primary, request->glb.ext.val, ret);
if (reply) {
reply->header = ipc->rx.header;
reply->size = ipc->rx.size;
if (reply->data && ipc->rx.size)
memcpy(reply->data, ipc->rx.data, reply->size);
}
exit:
mutex_unlock(&ipc->msg_mutex);
return ret;
}
static int avs_dsp_send_msg_sequence(struct avs_dev *adev, struct avs_ipc_msg *request,
struct avs_ipc_msg *reply, int timeout, bool wake_d0i0,
bool schedule_d0ix, const char *name)
{
int ret;
trace_avs_d0ix("wake", wake_d0i0, request->header);
if (wake_d0i0) {
ret = avs_dsp_wake_d0i0(adev, request);
if (ret)
return ret;
}
ret = avs_dsp_do_send_msg(adev, request, reply, timeout, name);
if (ret)
return ret;
trace_avs_d0ix("schedule", schedule_d0ix, request->header);
if (schedule_d0ix)
avs_dsp_schedule_d0ix(adev, request);
return 0;
}
int avs_dsp_send_msg_timeout(struct avs_dev *adev, struct avs_ipc_msg *request,
struct avs_ipc_msg *reply, int timeout, const char *name)
{
bool wake_d0i0 = avs_dsp_op(adev, d0ix_toggle, request, true);
bool schedule_d0ix = avs_dsp_op(adev, d0ix_toggle, request, false);
return avs_dsp_send_msg_sequence(adev, request, reply, timeout, wake_d0i0, schedule_d0ix,
name);
}
int avs_dsp_send_msg(struct avs_dev *adev, struct avs_ipc_msg *request,
struct avs_ipc_msg *reply, const char *name)
{
return avs_dsp_send_msg_timeout(adev, request, reply, adev->ipc->default_timeout_ms, name);
}
int avs_dsp_send_pm_msg_timeout(struct avs_dev *adev, struct avs_ipc_msg *request,
struct avs_ipc_msg *reply, int timeout, bool wake_d0i0,
const char *name)
{
return avs_dsp_send_msg_sequence(adev, request, reply, timeout, wake_d0i0, false, name);
}
int avs_dsp_send_pm_msg(struct avs_dev *adev, struct avs_ipc_msg *request,
struct avs_ipc_msg *reply, bool wake_d0i0, const char *name)
{
return avs_dsp_send_pm_msg_timeout(adev, request, reply, adev->ipc->default_timeout_ms,
wake_d0i0, name);
}
static int avs_dsp_do_send_rom_msg(struct avs_dev *adev, struct avs_ipc_msg *request, int timeout,
const char *name)
{
struct avs_ipc *ipc = adev->ipc;
int ret;
mutex_lock(&ipc->msg_mutex);
spin_lock(&ipc->rx_lock);
avs_ipc_msg_init(ipc, NULL);
/*
* with hw still stalled, memory windows may not be
* configured properly so avoid accessing SRAM
*/
avs_dsp_send_tx(adev, request, false);
spin_unlock(&ipc->rx_lock);
/* ROM messages must be sent before main core is unstalled */
ret = avs_dsp_op(adev, stall, AVS_MAIN_CORE_MASK, false);
if (!ret) {
ret = wait_for_completion_timeout(&ipc->done_completion, msecs_to_jiffies(timeout));
ret = ret ? 0 : -ETIMEDOUT;
}
if (ret)
dev_err(adev->dev, "%s (0x%08x 0x%08x) failed: %d\n",
name, request->glb.primary, request->glb.ext.val, ret);
mutex_unlock(&ipc->msg_mutex);
return ret;
}
int avs_dsp_send_rom_msg_timeout(struct avs_dev *adev, struct avs_ipc_msg *request, int timeout,
const char *name)
{
return avs_dsp_do_send_rom_msg(adev, request, timeout, name);
}
int avs_dsp_send_rom_msg(struct avs_dev *adev, struct avs_ipc_msg *request, const char *name)
{
return avs_dsp_send_rom_msg_timeout(adev, request, adev->ipc->default_timeout_ms, name);
}
void avs_dsp_interrupt_control(struct avs_dev *adev, bool enable)
{
u32 value, mask;
/*
* No particular bit setting order. All of these are required
* to have a functional SW <-> FW communication.
*/
value = enable ? AVS_ADSP_ADSPIC_IPC : 0;
snd_hdac_adsp_updatel(adev, AVS_ADSP_REG_ADSPIC, AVS_ADSP_ADSPIC_IPC, value);
mask = AVS_ADSP_HIPCCTL_DONE | AVS_ADSP_HIPCCTL_BUSY;
value = enable ? mask : 0;
snd_hdac_adsp_updatel(adev, SKL_ADSP_REG_HIPCCTL, mask, value);
}
int avs_ipc_init(struct avs_ipc *ipc, struct device *dev)
{
ipc->rx.data = devm_kzalloc(dev, AVS_MAILBOX_SIZE, GFP_KERNEL);
if (!ipc->rx.data)
return -ENOMEM;
ipc->dev = dev;
ipc->ready = false;
ipc->default_timeout_ms = AVS_IPC_TIMEOUT_MS;
INIT_WORK(&ipc->recovery_work, avs_dsp_recovery_work);
INIT_DELAYED_WORK(&ipc->d0ix_work, avs_dsp_d0ix_work);
init_completion(&ipc->done_completion);
init_completion(&ipc->busy_completion);
spin_lock_init(&ipc->rx_lock);
mutex_init(&ipc->msg_mutex);
return 0;
}
void avs_ipc_block(struct avs_ipc *ipc)
{
ipc->ready = false;
cancel_work_sync(&ipc->recovery_work);
cancel_delayed_work_sync(&ipc->d0ix_work);
ipc->in_d0ix = false;
}
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