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|
// SPDX-License-Identifier: BSD-3-Clause-Clear
/*
* Copyright (c) 2020-2021 The Linux Foundation. All rights reserved.
* Copyright (c) 2021-2024 Qualcomm Innovation Center, Inc. All rights reserved.
*/
#include <linux/msi.h>
#include <linux/pci.h>
#include <linux/firmware.h>
#include "core.h"
#include "debug.h"
#include "mhi.h"
#include "pci.h"
#define MHI_TIMEOUT_DEFAULT_MS 90000
#define OTP_INVALID_BOARD_ID 0xFFFF
#define OTP_VALID_DUALMAC_BOARD_ID_MASK 0x1000
#define MHI_CB_INVALID 0xff
static const struct mhi_channel_config ath12k_mhi_channels_qcn9274[] = {
{
.num = 20,
.name = "IPCR",
.num_elements = 32,
.event_ring = 1,
.dir = DMA_TO_DEVICE,
.ee_mask = 0x4,
.pollcfg = 0,
.doorbell = MHI_DB_BRST_DISABLE,
.lpm_notify = false,
.offload_channel = false,
.doorbell_mode_switch = false,
.auto_queue = false,
},
{
.num = 21,
.name = "IPCR",
.num_elements = 32,
.event_ring = 1,
.dir = DMA_FROM_DEVICE,
.ee_mask = 0x4,
.pollcfg = 0,
.doorbell = MHI_DB_BRST_DISABLE,
.lpm_notify = false,
.offload_channel = false,
.doorbell_mode_switch = false,
.auto_queue = true,
},
};
static struct mhi_event_config ath12k_mhi_events_qcn9274[] = {
{
.num_elements = 32,
.irq_moderation_ms = 0,
.irq = 1,
.data_type = MHI_ER_CTRL,
.mode = MHI_DB_BRST_DISABLE,
.hardware_event = false,
.client_managed = false,
.offload_channel = false,
},
{
.num_elements = 256,
.irq_moderation_ms = 1,
.irq = 2,
.mode = MHI_DB_BRST_DISABLE,
.priority = 1,
.hardware_event = false,
.client_managed = false,
.offload_channel = false,
},
};
const struct mhi_controller_config ath12k_mhi_config_qcn9274 = {
.max_channels = 30,
.timeout_ms = 10000,
.use_bounce_buf = false,
.buf_len = 0,
.num_channels = ARRAY_SIZE(ath12k_mhi_channels_qcn9274),
.ch_cfg = ath12k_mhi_channels_qcn9274,
.num_events = ARRAY_SIZE(ath12k_mhi_events_qcn9274),
.event_cfg = ath12k_mhi_events_qcn9274,
};
static const struct mhi_channel_config ath12k_mhi_channels_wcn7850[] = {
{
.num = 20,
.name = "IPCR",
.num_elements = 64,
.event_ring = 1,
.dir = DMA_TO_DEVICE,
.ee_mask = 0x4,
.pollcfg = 0,
.doorbell = MHI_DB_BRST_DISABLE,
.lpm_notify = false,
.offload_channel = false,
.doorbell_mode_switch = false,
.auto_queue = false,
},
{
.num = 21,
.name = "IPCR",
.num_elements = 64,
.event_ring = 1,
.dir = DMA_FROM_DEVICE,
.ee_mask = 0x4,
.pollcfg = 0,
.doorbell = MHI_DB_BRST_DISABLE,
.lpm_notify = false,
.offload_channel = false,
.doorbell_mode_switch = false,
.auto_queue = true,
},
};
static struct mhi_event_config ath12k_mhi_events_wcn7850[] = {
{
.num_elements = 32,
.irq_moderation_ms = 0,
.irq = 1,
.mode = MHI_DB_BRST_DISABLE,
.data_type = MHI_ER_CTRL,
.hardware_event = false,
.client_managed = false,
.offload_channel = false,
},
{
.num_elements = 256,
.irq_moderation_ms = 1,
.irq = 2,
.mode = MHI_DB_BRST_DISABLE,
.priority = 1,
.hardware_event = false,
.client_managed = false,
.offload_channel = false,
},
};
const struct mhi_controller_config ath12k_mhi_config_wcn7850 = {
.max_channels = 128,
.timeout_ms = 2000,
.use_bounce_buf = false,
.buf_len = 8192,
.num_channels = ARRAY_SIZE(ath12k_mhi_channels_wcn7850),
.ch_cfg = ath12k_mhi_channels_wcn7850,
.num_events = ARRAY_SIZE(ath12k_mhi_events_wcn7850),
.event_cfg = ath12k_mhi_events_wcn7850,
};
void ath12k_mhi_set_mhictrl_reset(struct ath12k_base *ab)
{
u32 val;
val = ath12k_pci_read32(ab, MHISTATUS);
ath12k_dbg(ab, ATH12K_DBG_PCI, "MHISTATUS 0x%x\n", val);
/* Observed on some targets that after SOC_GLOBAL_RESET, MHISTATUS
* has SYSERR bit set and thus need to set MHICTRL_RESET
* to clear SYSERR.
*/
ath12k_pci_write32(ab, MHICTRL, MHICTRL_RESET_MASK);
mdelay(10);
}
static void ath12k_mhi_reset_txvecdb(struct ath12k_base *ab)
{
ath12k_pci_write32(ab, PCIE_TXVECDB, 0);
}
static void ath12k_mhi_reset_txvecstatus(struct ath12k_base *ab)
{
ath12k_pci_write32(ab, PCIE_TXVECSTATUS, 0);
}
static void ath12k_mhi_reset_rxvecdb(struct ath12k_base *ab)
{
ath12k_pci_write32(ab, PCIE_RXVECDB, 0);
}
static void ath12k_mhi_reset_rxvecstatus(struct ath12k_base *ab)
{
ath12k_pci_write32(ab, PCIE_RXVECSTATUS, 0);
}
void ath12k_mhi_clear_vector(struct ath12k_base *ab)
{
ath12k_mhi_reset_txvecdb(ab);
ath12k_mhi_reset_txvecstatus(ab);
ath12k_mhi_reset_rxvecdb(ab);
ath12k_mhi_reset_rxvecstatus(ab);
}
static int ath12k_mhi_get_msi(struct ath12k_pci *ab_pci)
{
struct ath12k_base *ab = ab_pci->ab;
u32 user_base_data, base_vector;
int ret, num_vectors, i;
int *irq;
unsigned int msi_data;
ret = ath12k_pci_get_user_msi_assignment(ab,
"MHI", &num_vectors,
&user_base_data, &base_vector);
if (ret)
return ret;
ath12k_dbg(ab, ATH12K_DBG_PCI, "Number of assigned MSI for MHI is %d, base vector is %d\n",
num_vectors, base_vector);
irq = kcalloc(num_vectors, sizeof(*irq), GFP_KERNEL);
if (!irq)
return -ENOMEM;
msi_data = base_vector;
for (i = 0; i < num_vectors; i++) {
if (test_bit(ATH12K_PCI_FLAG_MULTI_MSI_VECTORS, &ab_pci->flags))
irq[i] = ath12k_pci_get_msi_irq(ab->dev,
msi_data++);
else
irq[i] = ath12k_pci_get_msi_irq(ab->dev,
msi_data);
}
ab_pci->mhi_ctrl->irq = irq;
ab_pci->mhi_ctrl->nr_irqs = num_vectors;
return 0;
}
static int ath12k_mhi_op_runtime_get(struct mhi_controller *mhi_cntrl)
{
return 0;
}
static void ath12k_mhi_op_runtime_put(struct mhi_controller *mhi_cntrl)
{
}
static char *ath12k_mhi_op_callback_to_str(enum mhi_callback reason)
{
switch (reason) {
case MHI_CB_IDLE:
return "MHI_CB_IDLE";
case MHI_CB_PENDING_DATA:
return "MHI_CB_PENDING_DATA";
case MHI_CB_LPM_ENTER:
return "MHI_CB_LPM_ENTER";
case MHI_CB_LPM_EXIT:
return "MHI_CB_LPM_EXIT";
case MHI_CB_EE_RDDM:
return "MHI_CB_EE_RDDM";
case MHI_CB_EE_MISSION_MODE:
return "MHI_CB_EE_MISSION_MODE";
case MHI_CB_SYS_ERROR:
return "MHI_CB_SYS_ERROR";
case MHI_CB_FATAL_ERROR:
return "MHI_CB_FATAL_ERROR";
case MHI_CB_BW_REQ:
return "MHI_CB_BW_REQ";
default:
return "UNKNOWN";
}
}
static void ath12k_mhi_op_status_cb(struct mhi_controller *mhi_cntrl,
enum mhi_callback cb)
{
struct ath12k_base *ab = dev_get_drvdata(mhi_cntrl->cntrl_dev);
struct ath12k_pci *ab_pci = ath12k_pci_priv(ab);
ath12k_dbg(ab, ATH12K_DBG_BOOT, "mhi notify status reason %s\n",
ath12k_mhi_op_callback_to_str(cb));
switch (cb) {
case MHI_CB_SYS_ERROR:
ath12k_warn(ab, "firmware crashed: MHI_CB_SYS_ERROR\n");
break;
case MHI_CB_EE_RDDM:
if (ab_pci->mhi_pre_cb == MHI_CB_EE_RDDM) {
ath12k_dbg(ab, ATH12K_DBG_BOOT,
"do not queue again for consecutive RDDM event\n");
break;
}
if (!(test_bit(ATH12K_FLAG_UNREGISTERING, &ab->dev_flags)))
queue_work(ab->workqueue_aux, &ab->reset_work);
break;
default:
break;
}
ab_pci->mhi_pre_cb = cb;
}
static int ath12k_mhi_op_read_reg(struct mhi_controller *mhi_cntrl,
void __iomem *addr,
u32 *out)
{
*out = readl(addr);
return 0;
}
static void ath12k_mhi_op_write_reg(struct mhi_controller *mhi_cntrl,
void __iomem *addr,
u32 val)
{
writel(val, addr);
}
int ath12k_mhi_register(struct ath12k_pci *ab_pci)
{
struct ath12k_base *ab = ab_pci->ab;
struct mhi_controller *mhi_ctrl;
unsigned int board_id;
int ret;
bool dualmac = false;
mhi_ctrl = mhi_alloc_controller();
if (!mhi_ctrl)
return -ENOMEM;
ab_pci->mhi_pre_cb = MHI_CB_INVALID;
ab_pci->mhi_ctrl = mhi_ctrl;
mhi_ctrl->cntrl_dev = ab->dev;
mhi_ctrl->regs = ab->mem;
mhi_ctrl->reg_len = ab->mem_len;
mhi_ctrl->rddm_size = ab->hw_params->rddm_size;
if (ab->hw_params->otp_board_id_register) {
board_id =
ath12k_pci_read32(ab, ab->hw_params->otp_board_id_register);
board_id = u32_get_bits(board_id, OTP_BOARD_ID_MASK);
if (!board_id || (board_id == OTP_INVALID_BOARD_ID)) {
ath12k_dbg(ab, ATH12K_DBG_BOOT,
"failed to read board id\n");
} else if (board_id & OTP_VALID_DUALMAC_BOARD_ID_MASK) {
dualmac = true;
ath12k_dbg(ab, ATH12K_DBG_BOOT,
"dualmac fw selected for board id: %x\n", board_id);
}
}
if (dualmac) {
if (ab->fw.amss_dualmac_data && ab->fw.amss_dualmac_len > 0) {
/* use MHI firmware file from firmware-N.bin */
mhi_ctrl->fw_data = ab->fw.amss_dualmac_data;
mhi_ctrl->fw_sz = ab->fw.amss_dualmac_len;
} else {
ath12k_warn(ab, "dualmac firmware IE not present in firmware-N.bin\n");
ret = -ENOENT;
goto free_controller;
}
} else {
if (ab->fw.amss_data && ab->fw.amss_len > 0) {
/* use MHI firmware file from firmware-N.bin */
mhi_ctrl->fw_data = ab->fw.amss_data;
mhi_ctrl->fw_sz = ab->fw.amss_len;
} else {
/* use the old separate mhi.bin MHI firmware file */
ath12k_core_create_firmware_path(ab, ATH12K_AMSS_FILE,
ab_pci->amss_path,
sizeof(ab_pci->amss_path));
mhi_ctrl->fw_image = ab_pci->amss_path;
}
}
ret = ath12k_mhi_get_msi(ab_pci);
if (ret) {
ath12k_err(ab, "failed to get msi for mhi\n");
goto free_controller;
}
if (!test_bit(ATH12K_PCI_FLAG_MULTI_MSI_VECTORS, &ab_pci->flags))
mhi_ctrl->irq_flags = IRQF_SHARED | IRQF_NOBALANCING;
mhi_ctrl->iova_start = 0;
mhi_ctrl->iova_stop = 0xffffffff;
mhi_ctrl->sbl_size = SZ_512K;
mhi_ctrl->seg_len = SZ_512K;
mhi_ctrl->fbc_download = true;
mhi_ctrl->runtime_get = ath12k_mhi_op_runtime_get;
mhi_ctrl->runtime_put = ath12k_mhi_op_runtime_put;
mhi_ctrl->status_cb = ath12k_mhi_op_status_cb;
mhi_ctrl->read_reg = ath12k_mhi_op_read_reg;
mhi_ctrl->write_reg = ath12k_mhi_op_write_reg;
ret = mhi_register_controller(mhi_ctrl, ab->hw_params->mhi_config);
if (ret) {
ath12k_err(ab, "failed to register to mhi bus, err = %d\n", ret);
goto free_controller;
}
return 0;
free_controller:
mhi_free_controller(mhi_ctrl);
ab_pci->mhi_ctrl = NULL;
return ret;
}
void ath12k_mhi_unregister(struct ath12k_pci *ab_pci)
{
struct mhi_controller *mhi_ctrl = ab_pci->mhi_ctrl;
mhi_unregister_controller(mhi_ctrl);
kfree(mhi_ctrl->irq);
mhi_free_controller(mhi_ctrl);
ab_pci->mhi_ctrl = NULL;
}
static char *ath12k_mhi_state_to_str(enum ath12k_mhi_state mhi_state)
{
switch (mhi_state) {
case ATH12K_MHI_INIT:
return "INIT";
case ATH12K_MHI_DEINIT:
return "DEINIT";
case ATH12K_MHI_POWER_ON:
return "POWER_ON";
case ATH12K_MHI_POWER_OFF:
return "POWER_OFF";
case ATH12K_MHI_POWER_OFF_KEEP_DEV:
return "POWER_OFF_KEEP_DEV";
case ATH12K_MHI_FORCE_POWER_OFF:
return "FORCE_POWER_OFF";
case ATH12K_MHI_SUSPEND:
return "SUSPEND";
case ATH12K_MHI_RESUME:
return "RESUME";
case ATH12K_MHI_TRIGGER_RDDM:
return "TRIGGER_RDDM";
case ATH12K_MHI_RDDM_DONE:
return "RDDM_DONE";
default:
return "UNKNOWN";
}
};
static void ath12k_mhi_set_state_bit(struct ath12k_pci *ab_pci,
enum ath12k_mhi_state mhi_state)
{
struct ath12k_base *ab = ab_pci->ab;
switch (mhi_state) {
case ATH12K_MHI_INIT:
set_bit(ATH12K_MHI_INIT, &ab_pci->mhi_state);
break;
case ATH12K_MHI_DEINIT:
clear_bit(ATH12K_MHI_INIT, &ab_pci->mhi_state);
break;
case ATH12K_MHI_POWER_ON:
set_bit(ATH12K_MHI_POWER_ON, &ab_pci->mhi_state);
break;
case ATH12K_MHI_POWER_OFF:
case ATH12K_MHI_POWER_OFF_KEEP_DEV:
case ATH12K_MHI_FORCE_POWER_OFF:
clear_bit(ATH12K_MHI_POWER_ON, &ab_pci->mhi_state);
clear_bit(ATH12K_MHI_TRIGGER_RDDM, &ab_pci->mhi_state);
clear_bit(ATH12K_MHI_RDDM_DONE, &ab_pci->mhi_state);
break;
case ATH12K_MHI_SUSPEND:
set_bit(ATH12K_MHI_SUSPEND, &ab_pci->mhi_state);
break;
case ATH12K_MHI_RESUME:
clear_bit(ATH12K_MHI_SUSPEND, &ab_pci->mhi_state);
break;
case ATH12K_MHI_TRIGGER_RDDM:
set_bit(ATH12K_MHI_TRIGGER_RDDM, &ab_pci->mhi_state);
break;
case ATH12K_MHI_RDDM_DONE:
set_bit(ATH12K_MHI_RDDM_DONE, &ab_pci->mhi_state);
break;
default:
ath12k_err(ab, "unhandled mhi state (%d)\n", mhi_state);
}
}
static int ath12k_mhi_check_state_bit(struct ath12k_pci *ab_pci,
enum ath12k_mhi_state mhi_state)
{
struct ath12k_base *ab = ab_pci->ab;
switch (mhi_state) {
case ATH12K_MHI_INIT:
if (!test_bit(ATH12K_MHI_INIT, &ab_pci->mhi_state))
return 0;
break;
case ATH12K_MHI_DEINIT:
case ATH12K_MHI_POWER_ON:
if (test_bit(ATH12K_MHI_INIT, &ab_pci->mhi_state) &&
!test_bit(ATH12K_MHI_POWER_ON, &ab_pci->mhi_state))
return 0;
break;
case ATH12K_MHI_FORCE_POWER_OFF:
if (test_bit(ATH12K_MHI_POWER_ON, &ab_pci->mhi_state))
return 0;
break;
case ATH12K_MHI_POWER_OFF:
case ATH12K_MHI_POWER_OFF_KEEP_DEV:
case ATH12K_MHI_SUSPEND:
if (test_bit(ATH12K_MHI_POWER_ON, &ab_pci->mhi_state) &&
!test_bit(ATH12K_MHI_SUSPEND, &ab_pci->mhi_state))
return 0;
break;
case ATH12K_MHI_RESUME:
if (test_bit(ATH12K_MHI_SUSPEND, &ab_pci->mhi_state))
return 0;
break;
case ATH12K_MHI_TRIGGER_RDDM:
if (test_bit(ATH12K_MHI_POWER_ON, &ab_pci->mhi_state) &&
!test_bit(ATH12K_MHI_TRIGGER_RDDM, &ab_pci->mhi_state))
return 0;
break;
case ATH12K_MHI_RDDM_DONE:
return 0;
default:
ath12k_err(ab, "unhandled mhi state: %s(%d)\n",
ath12k_mhi_state_to_str(mhi_state), mhi_state);
}
ath12k_err(ab, "failed to set mhi state %s(%d) in current mhi state (0x%lx)\n",
ath12k_mhi_state_to_str(mhi_state), mhi_state,
ab_pci->mhi_state);
return -EINVAL;
}
static int ath12k_mhi_set_state(struct ath12k_pci *ab_pci,
enum ath12k_mhi_state mhi_state)
{
struct ath12k_base *ab = ab_pci->ab;
int ret;
ret = ath12k_mhi_check_state_bit(ab_pci, mhi_state);
if (ret)
goto out;
ath12k_dbg(ab, ATH12K_DBG_PCI, "setting mhi state: %s(%d)\n",
ath12k_mhi_state_to_str(mhi_state), mhi_state);
switch (mhi_state) {
case ATH12K_MHI_INIT:
ret = mhi_prepare_for_power_up(ab_pci->mhi_ctrl);
break;
case ATH12K_MHI_DEINIT:
mhi_unprepare_after_power_down(ab_pci->mhi_ctrl);
ret = 0;
break;
case ATH12K_MHI_POWER_ON:
/* In case of resume, QRTR's resume_early() is called
* right after ath12k' resume_early(). Since QRTR requires
* MHI mission mode state when preparing IPCR channels
* (see ee_mask of that channel), we need to use the 'sync'
* version here to make sure MHI is in that state when we
* return. Or QRTR might resume before that state comes,
* and as a result it fails.
*
* The 'sync' version works for non-resume (normal power on)
* case as well.
*/
ret = mhi_sync_power_up(ab_pci->mhi_ctrl);
break;
case ATH12K_MHI_POWER_OFF:
mhi_power_down(ab_pci->mhi_ctrl, true);
ret = 0;
break;
case ATH12K_MHI_POWER_OFF_KEEP_DEV:
mhi_power_down_keep_dev(ab_pci->mhi_ctrl, true);
ret = 0;
break;
case ATH12K_MHI_FORCE_POWER_OFF:
mhi_power_down(ab_pci->mhi_ctrl, false);
ret = 0;
break;
case ATH12K_MHI_SUSPEND:
ret = mhi_pm_suspend(ab_pci->mhi_ctrl);
break;
case ATH12K_MHI_RESUME:
ret = mhi_pm_resume(ab_pci->mhi_ctrl);
break;
case ATH12K_MHI_TRIGGER_RDDM:
ret = mhi_force_rddm_mode(ab_pci->mhi_ctrl);
break;
case ATH12K_MHI_RDDM_DONE:
break;
default:
ath12k_err(ab, "unhandled MHI state (%d)\n", mhi_state);
ret = -EINVAL;
}
if (ret)
goto out;
ath12k_mhi_set_state_bit(ab_pci, mhi_state);
return 0;
out:
ath12k_err(ab, "failed to set mhi state: %s(%d)\n",
ath12k_mhi_state_to_str(mhi_state), mhi_state);
return ret;
}
int ath12k_mhi_start(struct ath12k_pci *ab_pci)
{
int ret;
ab_pci->mhi_ctrl->timeout_ms = MHI_TIMEOUT_DEFAULT_MS;
ret = ath12k_mhi_set_state(ab_pci, ATH12K_MHI_INIT);
if (ret)
goto out;
ret = ath12k_mhi_set_state(ab_pci, ATH12K_MHI_POWER_ON);
if (ret)
goto out;
return 0;
out:
return ret;
}
void ath12k_mhi_stop(struct ath12k_pci *ab_pci, bool is_suspend)
{
/* During suspend we need to use mhi_power_down_keep_dev()
* workaround, otherwise ath12k_core_resume() will timeout
* during resume.
*/
if (is_suspend)
ath12k_mhi_set_state(ab_pci, ATH12K_MHI_POWER_OFF_KEEP_DEV);
else
ath12k_mhi_set_state(ab_pci, ATH12K_MHI_POWER_OFF);
ath12k_mhi_set_state(ab_pci, ATH12K_MHI_DEINIT);
}
void ath12k_mhi_suspend(struct ath12k_pci *ab_pci)
{
ath12k_mhi_set_state(ab_pci, ATH12K_MHI_SUSPEND);
}
void ath12k_mhi_resume(struct ath12k_pci *ab_pci)
{
ath12k_mhi_set_state(ab_pci, ATH12K_MHI_RESUME);
}
void ath12k_mhi_coredump(struct mhi_controller *mhi_ctrl, bool in_panic)
{
mhi_download_rddm_image(mhi_ctrl, in_panic);
}
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