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|
// SPDX-License-Identifier: (GPL-2.0-only OR BSD-3-Clause)
//
// Copyright(c) 2022 Intel Corporation. All rights reserved.
//
// Authors: Ranjani Sridharan <ranjani.sridharan@linux.intel.com>
//
/*
* Hardware interface for audio DSP on Meteorlake.
*/
#include <linux/firmware.h>
#include <sound/sof/ipc4/header.h>
#include <trace/events/sof_intel.h>
#include "../ipc4-priv.h"
#include "../ops.h"
#include "hda.h"
#include "hda-ipc.h"
#include "../sof-audio.h"
#include "mtl.h"
#include "telemetry.h"
static const struct snd_sof_debugfs_map mtl_dsp_debugfs[] = {
{"hda", HDA_DSP_HDA_BAR, 0, 0x4000, SOF_DEBUGFS_ACCESS_ALWAYS},
{"pp", HDA_DSP_PP_BAR, 0, 0x1000, SOF_DEBUGFS_ACCESS_ALWAYS},
{"dsp", HDA_DSP_BAR, 0, 0x10000, SOF_DEBUGFS_ACCESS_ALWAYS},
};
static void mtl_ipc_host_done(struct snd_sof_dev *sdev)
{
/*
* clear busy interrupt to tell dsp controller this interrupt has been accepted,
* not trigger it again
*/
snd_sof_dsp_update_bits_forced(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXTDR,
MTL_DSP_REG_HFIPCXTDR_BUSY, MTL_DSP_REG_HFIPCXTDR_BUSY);
/*
* clear busy bit to ack dsp the msg has been processed and send reply msg to dsp
*/
snd_sof_dsp_update_bits_forced(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXTDA,
MTL_DSP_REG_HFIPCXTDA_BUSY, 0);
}
static void mtl_ipc_dsp_done(struct snd_sof_dev *sdev)
{
/*
* set DONE bit - tell DSP we have received the reply msg from DSP, and processed it,
* don't send more reply to host
*/
snd_sof_dsp_update_bits_forced(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXIDA,
MTL_DSP_REG_HFIPCXIDA_DONE, MTL_DSP_REG_HFIPCXIDA_DONE);
/* unmask Done interrupt */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXCTL,
MTL_DSP_REG_HFIPCXCTL_DONE, MTL_DSP_REG_HFIPCXCTL_DONE);
}
/* Check if an IPC IRQ occurred */
bool mtl_dsp_check_ipc_irq(struct snd_sof_dev *sdev)
{
u32 irq_status;
u32 hfintipptr;
if (sdev->dspless_mode_selected)
return false;
/* read Interrupt IP Pointer */
hfintipptr = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_HFINTIPPTR) & MTL_HFINTIPPTR_PTR_MASK;
irq_status = snd_sof_dsp_read(sdev, HDA_DSP_BAR, hfintipptr + MTL_DSP_IRQSTS);
trace_sof_intel_hda_irq_ipc_check(sdev, irq_status);
if (irq_status != U32_MAX && (irq_status & MTL_DSP_IRQSTS_IPC))
return true;
return false;
}
/* Check if an SDW IRQ occurred */
static bool mtl_dsp_check_sdw_irq(struct snd_sof_dev *sdev)
{
u32 irq_status;
u32 hfintipptr;
/* read Interrupt IP Pointer */
hfintipptr = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_HFINTIPPTR) & MTL_HFINTIPPTR_PTR_MASK;
irq_status = snd_sof_dsp_read(sdev, HDA_DSP_BAR, hfintipptr + MTL_DSP_IRQSTS);
if (irq_status != U32_MAX && (irq_status & MTL_DSP_IRQSTS_SDW))
return true;
return false;
}
int mtl_ipc_send_msg(struct snd_sof_dev *sdev, struct snd_sof_ipc_msg *msg)
{
struct sof_intel_hda_dev *hdev = sdev->pdata->hw_pdata;
struct sof_ipc4_msg *msg_data = msg->msg_data;
if (hda_ipc4_tx_is_busy(sdev)) {
hdev->delayed_ipc_tx_msg = msg;
return 0;
}
hdev->delayed_ipc_tx_msg = NULL;
/* send the message via mailbox */
if (msg_data->data_size)
sof_mailbox_write(sdev, sdev->host_box.offset, msg_data->data_ptr,
msg_data->data_size);
snd_sof_dsp_write(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXIDDY,
msg_data->extension);
snd_sof_dsp_write(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXIDR,
msg_data->primary | MTL_DSP_REG_HFIPCXIDR_BUSY);
hda_dsp_ipc4_schedule_d0i3_work(hdev, msg);
return 0;
}
void mtl_enable_ipc_interrupts(struct snd_sof_dev *sdev)
{
struct sof_intel_hda_dev *hda = sdev->pdata->hw_pdata;
const struct sof_intel_dsp_desc *chip = hda->desc;
if (sdev->dspless_mode_selected)
return;
/* enable IPC DONE and BUSY interrupts */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, chip->ipc_ctl,
MTL_DSP_REG_HFIPCXCTL_BUSY | MTL_DSP_REG_HFIPCXCTL_DONE,
MTL_DSP_REG_HFIPCXCTL_BUSY | MTL_DSP_REG_HFIPCXCTL_DONE);
}
void mtl_disable_ipc_interrupts(struct snd_sof_dev *sdev)
{
struct sof_intel_hda_dev *hda = sdev->pdata->hw_pdata;
const struct sof_intel_dsp_desc *chip = hda->desc;
if (sdev->dspless_mode_selected)
return;
/* disable IPC DONE and BUSY interrupts */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, chip->ipc_ctl,
MTL_DSP_REG_HFIPCXCTL_BUSY | MTL_DSP_REG_HFIPCXCTL_DONE, 0);
}
static void mtl_enable_sdw_irq(struct snd_sof_dev *sdev, bool enable)
{
u32 hipcie;
u32 mask;
u32 val;
int ret;
if (sdev->dspless_mode_selected)
return;
/* Enable/Disable SoundWire interrupt */
mask = MTL_DSP_REG_HfSNDWIE_IE_MASK;
if (enable)
val = mask;
else
val = 0;
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_DSP_REG_HfSNDWIE, mask, val);
/* check if operation was successful */
ret = snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, MTL_DSP_REG_HfSNDWIE, hipcie,
(hipcie & mask) == val,
HDA_DSP_REG_POLL_INTERVAL_US, HDA_DSP_RESET_TIMEOUT_US);
if (ret < 0)
dev_err(sdev->dev, "failed to set SoundWire IPC interrupt %s\n",
enable ? "enable" : "disable");
}
int mtl_enable_interrupts(struct snd_sof_dev *sdev, bool enable)
{
u32 hfintipptr;
u32 irqinten;
u32 hipcie;
u32 mask;
u32 val;
int ret;
if (sdev->dspless_mode_selected)
return 0;
/* read Interrupt IP Pointer */
hfintipptr = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_HFINTIPPTR) & MTL_HFINTIPPTR_PTR_MASK;
/* Enable/Disable Host IPC and SOUNDWIRE */
mask = MTL_IRQ_INTEN_L_HOST_IPC_MASK | MTL_IRQ_INTEN_L_SOUNDWIRE_MASK;
if (enable)
val = mask;
else
val = 0;
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, hfintipptr, mask, val);
/* check if operation was successful */
ret = snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, hfintipptr, irqinten,
(irqinten & mask) == val,
HDA_DSP_REG_POLL_INTERVAL_US, HDA_DSP_RESET_TIMEOUT_US);
if (ret < 0) {
dev_err(sdev->dev, "failed to %s Host IPC and/or SOUNDWIRE\n",
enable ? "enable" : "disable");
return ret;
}
/* Enable/Disable Host IPC interrupt*/
mask = MTL_DSP_REG_HfHIPCIE_IE_MASK;
if (enable)
val = mask;
else
val = 0;
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_DSP_REG_HfHIPCIE, mask, val);
/* check if operation was successful */
ret = snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, MTL_DSP_REG_HfHIPCIE, hipcie,
(hipcie & mask) == val,
HDA_DSP_REG_POLL_INTERVAL_US, HDA_DSP_RESET_TIMEOUT_US);
if (ret < 0) {
dev_err(sdev->dev, "failed to set Host IPC interrupt %s\n",
enable ? "enable" : "disable");
return ret;
}
return ret;
}
/* pre fw run operations */
int mtl_dsp_pre_fw_run(struct snd_sof_dev *sdev)
{
struct sof_intel_hda_dev *hdev = sdev->pdata->hw_pdata;
u32 dsphfpwrsts;
u32 dsphfdsscs;
u32 cpa;
u32 pgs;
int ret;
/* Set the DSP subsystem power on */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_HFDSSCS,
MTL_HFDSSCS_SPA_MASK, MTL_HFDSSCS_SPA_MASK);
/* Wait for unstable CPA read (1 then 0 then 1) just after setting SPA bit */
usleep_range(1000, 1010);
/* poll with timeout to check if operation successful */
cpa = MTL_HFDSSCS_CPA_MASK;
ret = snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, MTL_HFDSSCS, dsphfdsscs,
(dsphfdsscs & cpa) == cpa, HDA_DSP_REG_POLL_INTERVAL_US,
HDA_DSP_RESET_TIMEOUT_US);
if (ret < 0) {
dev_err(sdev->dev, "failed to enable DSP subsystem\n");
return ret;
}
/* Power up gated-DSP-0 domain in order to access the DSP shim register block. */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_HFPWRCTL,
MTL_HFPWRCTL_WPDSPHPXPG, MTL_HFPWRCTL_WPDSPHPXPG);
usleep_range(1000, 1010);
/* poll with timeout to check if operation successful */
pgs = MTL_HFPWRSTS_DSPHPXPGS_MASK;
ret = snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, MTL_HFPWRSTS, dsphfpwrsts,
(dsphfpwrsts & pgs) == pgs,
HDA_DSP_REG_POLL_INTERVAL_US,
HDA_DSP_RESET_TIMEOUT_US);
if (ret < 0)
dev_err(sdev->dev, "failed to power up gated DSP domain\n");
/* if SoundWire is used, make sure it is not power-gated */
if (hdev->info.handle && hdev->info.link_mask > 0)
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_HFPWRCTL,
MTL_HfPWRCTL_WPIOXPG(1), MTL_HfPWRCTL_WPIOXPG(1));
return ret;
}
int mtl_dsp_post_fw_run(struct snd_sof_dev *sdev)
{
int ret;
if (sdev->first_boot) {
struct sof_intel_hda_dev *hdev = sdev->pdata->hw_pdata;
ret = hda_sdw_startup(sdev);
if (ret < 0) {
dev_err(sdev->dev, "could not startup SoundWire links\n");
return ret;
}
/* Check if IMR boot is usable */
if (!sof_debug_check_flag(SOF_DBG_IGNORE_D3_PERSISTENT))
hdev->imrboot_supported = true;
}
hda_sdw_int_enable(sdev, true);
return 0;
}
void mtl_dsp_dump(struct snd_sof_dev *sdev, u32 flags)
{
char *level = (flags & SOF_DBG_DUMP_OPTIONAL) ? KERN_DEBUG : KERN_ERR;
u32 romdbgsts;
u32 romdbgerr;
u32 fwsts;
u32 fwlec;
fwsts = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_ROM_STS);
fwlec = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_ROM_ERROR);
romdbgsts = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFFLGPXQWY);
romdbgerr = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFFLGPXQWY_ERROR);
dev_err(sdev->dev, "ROM status: %#x, ROM error: %#x\n", fwsts, fwlec);
dev_err(sdev->dev, "ROM debug status: %#x, ROM debug error: %#x\n", romdbgsts,
romdbgerr);
romdbgsts = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFFLGPXQWY + 0x8 * 3);
dev_printk(level, sdev->dev, "ROM feature bit%s enabled\n",
romdbgsts & BIT(24) ? "" : " not");
sof_ipc4_intel_dump_telemetry_state(sdev, flags);
}
static bool mtl_dsp_primary_core_is_enabled(struct snd_sof_dev *sdev)
{
int val;
val = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP2CXCTL_PRIMARY_CORE);
if (val != U32_MAX && val & MTL_DSP2CXCTL_PRIMARY_CORE_CPA_MASK)
return true;
return false;
}
static int mtl_dsp_core_power_up(struct snd_sof_dev *sdev, int core)
{
unsigned int cpa;
u32 dspcxctl;
int ret;
/* Only the primary core can be powered up by the host */
if (core != SOF_DSP_PRIMARY_CORE || mtl_dsp_primary_core_is_enabled(sdev))
return 0;
/* Program the owner of the IP & shim registers (10: Host CPU) */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_DSP2CXCTL_PRIMARY_CORE,
MTL_DSP2CXCTL_PRIMARY_CORE_OSEL,
0x2 << MTL_DSP2CXCTL_PRIMARY_CORE_OSEL_SHIFT);
/* enable SPA bit */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_DSP2CXCTL_PRIMARY_CORE,
MTL_DSP2CXCTL_PRIMARY_CORE_SPA_MASK,
MTL_DSP2CXCTL_PRIMARY_CORE_SPA_MASK);
/* Wait for unstable CPA read (1 then 0 then 1) just after setting SPA bit */
usleep_range(1000, 1010);
/* poll with timeout to check if operation successful */
cpa = MTL_DSP2CXCTL_PRIMARY_CORE_CPA_MASK;
ret = snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, MTL_DSP2CXCTL_PRIMARY_CORE, dspcxctl,
(dspcxctl & cpa) == cpa, HDA_DSP_REG_POLL_INTERVAL_US,
HDA_DSP_RESET_TIMEOUT_US);
if (ret < 0) {
dev_err(sdev->dev, "%s: timeout on MTL_DSP2CXCTL_PRIMARY_CORE read\n",
__func__);
return ret;
}
/* set primary core mask and refcount to 1 */
sdev->enabled_cores_mask = BIT(SOF_DSP_PRIMARY_CORE);
sdev->dsp_core_ref_count[SOF_DSP_PRIMARY_CORE] = 1;
return 0;
}
static int mtl_dsp_core_power_down(struct snd_sof_dev *sdev, int core)
{
u32 dspcxctl;
int ret;
/* Only the primary core can be powered down by the host */
if (core != SOF_DSP_PRIMARY_CORE || !mtl_dsp_primary_core_is_enabled(sdev))
return 0;
/* disable SPA bit */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_DSP2CXCTL_PRIMARY_CORE,
MTL_DSP2CXCTL_PRIMARY_CORE_SPA_MASK, 0);
/* Wait for unstable CPA read (0 then 1 then 0) just after setting SPA bit */
usleep_range(1000, 1010);
ret = snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, MTL_DSP2CXCTL_PRIMARY_CORE, dspcxctl,
!(dspcxctl & MTL_DSP2CXCTL_PRIMARY_CORE_CPA_MASK),
HDA_DSP_REG_POLL_INTERVAL_US,
HDA_DSP_PD_TIMEOUT * USEC_PER_MSEC);
if (ret < 0) {
dev_err(sdev->dev, "failed to power down primary core\n");
return ret;
}
sdev->enabled_cores_mask = 0;
sdev->dsp_core_ref_count[SOF_DSP_PRIMARY_CORE] = 0;
return 0;
}
int mtl_power_down_dsp(struct snd_sof_dev *sdev)
{
u32 dsphfdsscs, cpa;
int ret;
/* first power down core */
ret = mtl_dsp_core_power_down(sdev, SOF_DSP_PRIMARY_CORE);
if (ret) {
dev_err(sdev->dev, "mtl dsp power down error, %d\n", ret);
return ret;
}
/* Set the DSP subsystem power down */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_HFDSSCS,
MTL_HFDSSCS_SPA_MASK, 0);
/* Wait for unstable CPA read (0 then 1 then 0) just after setting SPA bit */
usleep_range(1000, 1010);
/* poll with timeout to check if operation successful */
cpa = MTL_HFDSSCS_CPA_MASK;
dsphfdsscs = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_HFDSSCS);
return snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, MTL_HFDSSCS, dsphfdsscs,
(dsphfdsscs & cpa) == 0, HDA_DSP_REG_POLL_INTERVAL_US,
HDA_DSP_RESET_TIMEOUT_US);
}
int mtl_dsp_cl_init(struct snd_sof_dev *sdev, int stream_tag, bool imr_boot)
{
struct sof_intel_hda_dev *hda = sdev->pdata->hw_pdata;
const struct sof_intel_dsp_desc *chip = hda->desc;
unsigned int status;
u32 ipc_hdr, flags;
char *dump_msg;
int ret;
/* step 1: purge FW request */
ipc_hdr = chip->ipc_req_mask | HDA_DSP_ROM_IPC_CONTROL;
if (!imr_boot)
ipc_hdr |= HDA_DSP_ROM_IPC_PURGE_FW | ((stream_tag - 1) << 9);
snd_sof_dsp_write(sdev, HDA_DSP_BAR, chip->ipc_req, ipc_hdr);
/* step 2: power up primary core */
ret = mtl_dsp_core_power_up(sdev, SOF_DSP_PRIMARY_CORE);
if (ret < 0) {
if (hda->boot_iteration == HDA_FW_BOOT_ATTEMPTS)
dev_err(sdev->dev, "dsp core 0/1 power up failed\n");
goto err;
}
dev_dbg(sdev->dev, "Primary core power up successful\n");
/* step 3: wait for IPC DONE bit from ROM */
ret = snd_sof_dsp_read_poll_timeout(sdev, HDA_DSP_BAR, chip->ipc_ack, status,
((status & chip->ipc_ack_mask) == chip->ipc_ack_mask),
HDA_DSP_REG_POLL_INTERVAL_US, HDA_DSP_INIT_TIMEOUT_US);
if (ret < 0) {
if (hda->boot_iteration == HDA_FW_BOOT_ATTEMPTS)
dev_err(sdev->dev, "timeout waiting for purge IPC done\n");
goto err;
}
/* set DONE bit to clear the reply IPC message */
snd_sof_dsp_update_bits_forced(sdev, HDA_DSP_BAR, chip->ipc_ack, chip->ipc_ack_mask,
chip->ipc_ack_mask);
/* step 4: enable interrupts */
ret = mtl_enable_interrupts(sdev, true);
if (ret < 0) {
if (hda->boot_iteration == HDA_FW_BOOT_ATTEMPTS)
dev_err(sdev->dev, "%s: failed to enable interrupts\n", __func__);
goto err;
}
mtl_enable_ipc_interrupts(sdev);
/*
* ACE workaround: don't wait for ROM INIT.
* The platform cannot catch ROM_INIT_DONE because of a very short
* timing window. Follow the recommendations and skip this part.
*/
return 0;
err:
flags = SOF_DBG_DUMP_PCI | SOF_DBG_DUMP_MBOX | SOF_DBG_DUMP_OPTIONAL;
/* after max boot attempts make sure that the dump is printed */
if (hda->boot_iteration == HDA_FW_BOOT_ATTEMPTS)
flags &= ~SOF_DBG_DUMP_OPTIONAL;
dump_msg = kasprintf(GFP_KERNEL, "Boot iteration failed: %d/%d",
hda->boot_iteration, HDA_FW_BOOT_ATTEMPTS);
snd_sof_dsp_dbg_dump(sdev, dump_msg, flags);
mtl_dsp_core_power_down(sdev, SOF_DSP_PRIMARY_CORE);
kfree(dump_msg);
return ret;
}
irqreturn_t mtl_ipc_irq_thread(int irq, void *context)
{
struct sof_ipc4_msg notification_data = {{ 0 }};
struct snd_sof_dev *sdev = context;
bool ack_received = false;
bool ipc_irq = false;
u32 hipcida;
u32 hipctdr;
hipcida = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXIDA);
hipctdr = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXTDR);
/* reply message from DSP */
if (hipcida & MTL_DSP_REG_HFIPCXIDA_DONE) {
/* DSP received the message */
snd_sof_dsp_update_bits(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXCTL,
MTL_DSP_REG_HFIPCXCTL_DONE, 0);
mtl_ipc_dsp_done(sdev);
ipc_irq = true;
ack_received = true;
}
if (hipctdr & MTL_DSP_REG_HFIPCXTDR_BUSY) {
/* Message from DSP (reply or notification) */
u32 extension = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXTDDY);
u32 primary = hipctdr & MTL_DSP_REG_HFIPCXTDR_MSG_MASK;
/*
* ACE fw sends a new fw ipc message to host to
* notify the status of the last host ipc message
*/
if (primary & SOF_IPC4_MSG_DIR_MASK) {
/* Reply received */
if (likely(sdev->fw_state == SOF_FW_BOOT_COMPLETE)) {
struct sof_ipc4_msg *data = sdev->ipc->msg.reply_data;
data->primary = primary;
data->extension = extension;
spin_lock_irq(&sdev->ipc_lock);
snd_sof_ipc_get_reply(sdev);
mtl_ipc_host_done(sdev);
snd_sof_ipc_reply(sdev, data->primary);
spin_unlock_irq(&sdev->ipc_lock);
} else {
dev_dbg_ratelimited(sdev->dev,
"IPC reply before FW_READY: %#x|%#x\n",
primary, extension);
}
} else {
/* Notification received */
notification_data.primary = primary;
notification_data.extension = extension;
sdev->ipc->msg.rx_data = ¬ification_data;
snd_sof_ipc_msgs_rx(sdev);
sdev->ipc->msg.rx_data = NULL;
mtl_ipc_host_done(sdev);
}
ipc_irq = true;
}
if (!ipc_irq) {
/* This interrupt is not shared so no need to return IRQ_NONE. */
dev_dbg_ratelimited(sdev->dev, "nothing to do in IPC IRQ thread\n");
}
if (ack_received) {
struct sof_intel_hda_dev *hdev = sdev->pdata->hw_pdata;
if (hdev->delayed_ipc_tx_msg)
mtl_ipc_send_msg(sdev, hdev->delayed_ipc_tx_msg);
}
return IRQ_HANDLED;
}
int mtl_dsp_ipc_get_mailbox_offset(struct snd_sof_dev *sdev)
{
return MTL_DSP_MBOX_UPLINK_OFFSET;
}
int mtl_dsp_ipc_get_window_offset(struct snd_sof_dev *sdev, u32 id)
{
return MTL_SRAM_WINDOW_OFFSET(id);
}
void mtl_ipc_dump(struct snd_sof_dev *sdev)
{
u32 hipcidr, hipcidd, hipcida, hipctdr, hipctdd, hipctda, hipcctl;
hipcidr = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXIDR);
hipcidd = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXIDDY);
hipcida = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXIDA);
hipctdr = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXTDR);
hipctdd = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXTDDY);
hipctda = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXTDA);
hipcctl = snd_sof_dsp_read(sdev, HDA_DSP_BAR, MTL_DSP_REG_HFIPCXCTL);
dev_err(sdev->dev,
"Host IPC initiator: %#x|%#x|%#x, target: %#x|%#x|%#x, ctl: %#x\n",
hipcidr, hipcidd, hipcida, hipctdr, hipctdd, hipctda, hipcctl);
}
static int mtl_dsp_disable_interrupts(struct snd_sof_dev *sdev)
{
mtl_enable_sdw_irq(sdev, false);
mtl_disable_ipc_interrupts(sdev);
return mtl_enable_interrupts(sdev, false);
}
int mtl_dsp_core_get(struct snd_sof_dev *sdev, int core)
{
const struct sof_ipc_pm_ops *pm_ops = sdev->ipc->ops->pm;
if (core == SOF_DSP_PRIMARY_CORE)
return mtl_dsp_core_power_up(sdev, SOF_DSP_PRIMARY_CORE);
if (pm_ops->set_core_state)
return pm_ops->set_core_state(sdev, core, true);
return 0;
}
int mtl_dsp_core_put(struct snd_sof_dev *sdev, int core)
{
const struct sof_ipc_pm_ops *pm_ops = sdev->ipc->ops->pm;
int ret;
if (pm_ops->set_core_state) {
ret = pm_ops->set_core_state(sdev, core, false);
if (ret < 0)
return ret;
}
if (core == SOF_DSP_PRIMARY_CORE)
return mtl_dsp_core_power_down(sdev, SOF_DSP_PRIMARY_CORE);
return 0;
}
/* Meteorlake ops */
struct snd_sof_dsp_ops sof_mtl_ops;
EXPORT_SYMBOL_NS(sof_mtl_ops, SND_SOC_SOF_INTEL_HDA_COMMON);
int sof_mtl_ops_init(struct snd_sof_dev *sdev)
{
struct sof_ipc4_fw_data *ipc4_data;
/* common defaults */
memcpy(&sof_mtl_ops, &sof_hda_common_ops, sizeof(struct snd_sof_dsp_ops));
/* shutdown */
sof_mtl_ops.shutdown = hda_dsp_shutdown;
/* doorbell */
sof_mtl_ops.irq_thread = mtl_ipc_irq_thread;
/* ipc */
sof_mtl_ops.send_msg = mtl_ipc_send_msg;
sof_mtl_ops.get_mailbox_offset = mtl_dsp_ipc_get_mailbox_offset;
sof_mtl_ops.get_window_offset = mtl_dsp_ipc_get_window_offset;
/* debug */
sof_mtl_ops.debug_map = mtl_dsp_debugfs;
sof_mtl_ops.debug_map_count = ARRAY_SIZE(mtl_dsp_debugfs);
sof_mtl_ops.dbg_dump = mtl_dsp_dump;
sof_mtl_ops.ipc_dump = mtl_ipc_dump;
/* pre/post fw run */
sof_mtl_ops.pre_fw_run = mtl_dsp_pre_fw_run;
sof_mtl_ops.post_fw_run = mtl_dsp_post_fw_run;
/* parse platform specific extended manifest */
sof_mtl_ops.parse_platform_ext_manifest = NULL;
/* dsp core get/put */
sof_mtl_ops.core_get = mtl_dsp_core_get;
sof_mtl_ops.core_put = mtl_dsp_core_put;
sdev->private = kzalloc(sizeof(struct sof_ipc4_fw_data), GFP_KERNEL);
if (!sdev->private)
return -ENOMEM;
ipc4_data = sdev->private;
ipc4_data->manifest_fw_hdr_offset = SOF_MAN4_FW_HDR_OFFSET;
ipc4_data->mtrace_type = SOF_IPC4_MTRACE_INTEL_CAVS_2;
ipc4_data->fw_context_save = true;
/* External library loading support */
ipc4_data->load_library = hda_dsp_ipc4_load_library;
/* set DAI ops */
hda_set_dai_drv_ops(sdev, &sof_mtl_ops);
sof_mtl_ops.set_power_state = hda_dsp_set_power_state_ipc4;
return 0;
};
EXPORT_SYMBOL_NS(sof_mtl_ops_init, SND_SOC_SOF_INTEL_HDA_COMMON);
const struct sof_intel_dsp_desc mtl_chip_info = {
.cores_num = 3,
.init_core_mask = BIT(0),
.host_managed_cores_mask = BIT(0),
.ipc_req = MTL_DSP_REG_HFIPCXIDR,
.ipc_req_mask = MTL_DSP_REG_HFIPCXIDR_BUSY,
.ipc_ack = MTL_DSP_REG_HFIPCXIDA,
.ipc_ack_mask = MTL_DSP_REG_HFIPCXIDA_DONE,
.ipc_ctl = MTL_DSP_REG_HFIPCXCTL,
.rom_status_reg = MTL_DSP_ROM_STS,
.rom_init_timeout = 300,
.ssp_count = MTL_SSP_COUNT,
.ssp_base_offset = CNL_SSP_BASE_OFFSET,
.sdw_shim_base = SDW_SHIM_BASE_ACE,
.sdw_alh_base = SDW_ALH_BASE_ACE,
.d0i3_offset = MTL_HDA_VS_D0I3C,
.read_sdw_lcount = hda_sdw_check_lcount_common,
.enable_sdw_irq = mtl_enable_sdw_irq,
.check_sdw_irq = mtl_dsp_check_sdw_irq,
.check_sdw_wakeen_irq = hda_sdw_check_wakeen_irq_common,
.check_ipc_irq = mtl_dsp_check_ipc_irq,
.cl_init = mtl_dsp_cl_init,
.power_down_dsp = mtl_power_down_dsp,
.disable_interrupts = mtl_dsp_disable_interrupts,
.hw_ip_version = SOF_INTEL_ACE_1_0,
};
EXPORT_SYMBOL_NS(mtl_chip_info, SND_SOC_SOF_INTEL_HDA_COMMON);
const struct sof_intel_dsp_desc arl_s_chip_info = {
.cores_num = 2,
.init_core_mask = BIT(0),
.host_managed_cores_mask = BIT(0),
.ipc_req = MTL_DSP_REG_HFIPCXIDR,
.ipc_req_mask = MTL_DSP_REG_HFIPCXIDR_BUSY,
.ipc_ack = MTL_DSP_REG_HFIPCXIDA,
.ipc_ack_mask = MTL_DSP_REG_HFIPCXIDA_DONE,
.ipc_ctl = MTL_DSP_REG_HFIPCXCTL,
.rom_status_reg = MTL_DSP_ROM_STS,
.rom_init_timeout = 300,
.ssp_count = MTL_SSP_COUNT,
.ssp_base_offset = CNL_SSP_BASE_OFFSET,
.sdw_shim_base = SDW_SHIM_BASE_ACE,
.sdw_alh_base = SDW_ALH_BASE_ACE,
.d0i3_offset = MTL_HDA_VS_D0I3C,
.read_sdw_lcount = hda_sdw_check_lcount_common,
.enable_sdw_irq = mtl_enable_sdw_irq,
.check_sdw_irq = mtl_dsp_check_sdw_irq,
.check_sdw_wakeen_irq = hda_sdw_check_wakeen_irq_common,
.check_ipc_irq = mtl_dsp_check_ipc_irq,
.cl_init = mtl_dsp_cl_init,
.power_down_dsp = mtl_power_down_dsp,
.disable_interrupts = mtl_dsp_disable_interrupts,
.hw_ip_version = SOF_INTEL_ACE_1_0,
};
EXPORT_SYMBOL_NS(arl_s_chip_info, SND_SOC_SOF_INTEL_HDA_COMMON);
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