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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (c) 2021, MediaTek Inc.
* Copyright (c) 2021-2022, Intel Corporation.
*
* Authors:
* Haijun Liu <haijun.liu@mediatek.com>
* Eliot Lee <eliot.lee@intel.com>
* Moises Veleta <moises.veleta@intel.com>
* Ricardo Martinez <ricardo.martinez@linux.intel.com>
*
* Contributors:
* Amir Hanania <amir.hanania@intel.com>
* Chiranjeevi Rapolu <chiranjeevi.rapolu@intel.com>
* Sreehari Kancharla <sreehari.kancharla@intel.com>
*/
#include <linux/acpi.h>
#include <linux/bits.h>
#include <linux/bitfield.h>
#include <linux/device.h>
#include <linux/delay.h>
#include <linux/gfp.h>
#include <linux/io.h>
#include <linux/irqreturn.h>
#include <linux/kthread.h>
#include <linux/skbuff.h>
#include <linux/spinlock.h>
#include <linux/string.h>
#include <linux/types.h>
#include <linux/wait.h>
#include <linux/workqueue.h>
#include "t7xx_cldma.h"
#include "t7xx_hif_cldma.h"
#include "t7xx_mhccif.h"
#include "t7xx_modem_ops.h"
#include "t7xx_netdev.h"
#include "t7xx_pci.h"
#include "t7xx_pcie_mac.h"
#include "t7xx_port.h"
#include "t7xx_port_proxy.h"
#include "t7xx_reg.h"
#include "t7xx_state_monitor.h"
#define RT_ID_MD_PORT_ENUM 0
#define RT_ID_AP_PORT_ENUM 1
/* Modem feature query identification code - "ICCC" */
#define MD_FEATURE_QUERY_ID 0x49434343
#define FEATURE_VER GENMASK(7, 4)
#define FEATURE_MSK GENMASK(3, 0)
#define RGU_RESET_DELAY_MS 10
#define PORT_RESET_DELAY_MS 2000
#define EX_HS_TIMEOUT_MS 5000
#define EX_HS_POLL_DELAY_MS 10
enum mtk_feature_support_type {
MTK_FEATURE_DOES_NOT_EXIST,
MTK_FEATURE_NOT_SUPPORTED,
MTK_FEATURE_MUST_BE_SUPPORTED,
};
static unsigned int t7xx_get_interrupt_status(struct t7xx_pci_dev *t7xx_dev)
{
return t7xx_mhccif_read_sw_int_sts(t7xx_dev) & D2H_SW_INT_MASK;
}
/**
* t7xx_pci_mhccif_isr() - Process MHCCIF interrupts.
* @t7xx_dev: MTK device.
*
* Check the interrupt status and queue commands accordingly.
*
* Returns:
** 0 - Success.
** -EINVAL - Failure to get FSM control.
*/
int t7xx_pci_mhccif_isr(struct t7xx_pci_dev *t7xx_dev)
{
struct t7xx_modem *md = t7xx_dev->md;
struct t7xx_fsm_ctl *ctl;
unsigned int int_sta;
int ret = 0;
u32 mask;
ctl = md->fsm_ctl;
if (!ctl) {
dev_err_ratelimited(&t7xx_dev->pdev->dev,
"MHCCIF interrupt received before initializing MD monitor\n");
return -EINVAL;
}
spin_lock_bh(&md->exp_lock);
int_sta = t7xx_get_interrupt_status(t7xx_dev);
md->exp_id |= int_sta;
if (md->exp_id & D2H_INT_EXCEPTION_INIT) {
if (ctl->md_state == MD_STATE_INVALID ||
ctl->md_state == MD_STATE_WAITING_FOR_HS1 ||
ctl->md_state == MD_STATE_WAITING_FOR_HS2 ||
ctl->md_state == MD_STATE_READY) {
md->exp_id &= ~D2H_INT_EXCEPTION_INIT;
ret = t7xx_fsm_recv_md_intr(ctl, MD_IRQ_CCIF_EX);
}
} else if (md->exp_id & D2H_INT_PORT_ENUM) {
md->exp_id &= ~D2H_INT_PORT_ENUM;
if (ctl->curr_state == FSM_STATE_INIT || ctl->curr_state == FSM_STATE_PRE_START ||
ctl->curr_state == FSM_STATE_STOPPED)
ret = t7xx_fsm_recv_md_intr(ctl, MD_IRQ_PORT_ENUM);
} else if (ctl->md_state == MD_STATE_WAITING_FOR_HS1) {
mask = t7xx_mhccif_mask_get(t7xx_dev);
if ((md->exp_id & D2H_INT_ASYNC_MD_HK) && !(mask & D2H_INT_ASYNC_MD_HK)) {
md->exp_id &= ~D2H_INT_ASYNC_MD_HK;
queue_work(md->handshake_wq, &md->handshake_work);
}
}
spin_unlock_bh(&md->exp_lock);
return ret;
}
static void t7xx_clr_device_irq_via_pcie(struct t7xx_pci_dev *t7xx_dev)
{
struct t7xx_addr_base *pbase_addr = &t7xx_dev->base_addr;
void __iomem *reset_pcie_reg;
u32 val;
reset_pcie_reg = pbase_addr->pcie_ext_reg_base + TOPRGU_CH_PCIE_IRQ_STA -
pbase_addr->pcie_dev_reg_trsl_addr;
val = ioread32(reset_pcie_reg);
iowrite32(val, reset_pcie_reg);
}
void t7xx_clear_rgu_irq(struct t7xx_pci_dev *t7xx_dev)
{
/* Clear L2 */
t7xx_clr_device_irq_via_pcie(t7xx_dev);
/* Clear L1 */
t7xx_pcie_mac_clear_int_status(t7xx_dev, SAP_RGU_INT);
}
static int t7xx_acpi_reset(struct t7xx_pci_dev *t7xx_dev, char *fn_name)
{
#ifdef CONFIG_ACPI
struct acpi_buffer buffer = { ACPI_ALLOCATE_BUFFER, NULL };
struct device *dev = &t7xx_dev->pdev->dev;
acpi_status acpi_ret;
acpi_handle handle;
handle = ACPI_HANDLE(dev);
if (!handle) {
dev_err(dev, "ACPI handle not found\n");
return -EFAULT;
}
if (!acpi_has_method(handle, fn_name)) {
dev_err(dev, "%s method not found\n", fn_name);
return -EFAULT;
}
acpi_ret = acpi_evaluate_object(handle, fn_name, NULL, &buffer);
if (ACPI_FAILURE(acpi_ret)) {
dev_err(dev, "%s method fail: %s\n", fn_name, acpi_format_exception(acpi_ret));
return -EFAULT;
}
kfree(buffer.pointer);
#endif
return 0;
}
int t7xx_acpi_fldr_func(struct t7xx_pci_dev *t7xx_dev)
{
return t7xx_acpi_reset(t7xx_dev, "_RST");
}
int t7xx_acpi_pldr_func(struct t7xx_pci_dev *t7xx_dev)
{
return t7xx_acpi_reset(t7xx_dev, "MRST._RST");
}
static void t7xx_reset_device_via_pmic(struct t7xx_pci_dev *t7xx_dev)
{
u32 val;
val = ioread32(IREG_BASE(t7xx_dev) + T7XX_PCIE_MISC_DEV_STATUS);
if (val & MISC_RESET_TYPE_PLDR)
t7xx_acpi_reset(t7xx_dev, "MRST._RST");
else if (val & MISC_RESET_TYPE_FLDR)
t7xx_acpi_fldr_func(t7xx_dev);
}
static irqreturn_t t7xx_rgu_isr_thread(int irq, void *data)
{
struct t7xx_pci_dev *t7xx_dev = data;
t7xx_mode_update(t7xx_dev, T7XX_RESET);
msleep(RGU_RESET_DELAY_MS);
t7xx_reset_device_via_pmic(t7xx_dev);
return IRQ_HANDLED;
}
static irqreturn_t t7xx_rgu_isr_handler(int irq, void *data)
{
struct t7xx_pci_dev *t7xx_dev = data;
struct t7xx_modem *modem;
t7xx_clear_rgu_irq(t7xx_dev);
if (!t7xx_dev->rgu_pci_irq_en)
return IRQ_HANDLED;
modem = t7xx_dev->md;
modem->rgu_irq_asserted = true;
t7xx_pcie_mac_clear_int(t7xx_dev, SAP_RGU_INT);
return IRQ_WAKE_THREAD;
}
static void t7xx_pcie_register_rgu_isr(struct t7xx_pci_dev *t7xx_dev)
{
/* Registers RGU callback ISR with PCIe driver */
t7xx_pcie_mac_clear_int(t7xx_dev, SAP_RGU_INT);
t7xx_pcie_mac_clear_int_status(t7xx_dev, SAP_RGU_INT);
t7xx_dev->intr_handler[SAP_RGU_INT] = t7xx_rgu_isr_handler;
t7xx_dev->intr_thread[SAP_RGU_INT] = t7xx_rgu_isr_thread;
t7xx_dev->callback_param[SAP_RGU_INT] = t7xx_dev;
t7xx_pcie_mac_set_int(t7xx_dev, SAP_RGU_INT);
}
/**
* t7xx_cldma_exception() - CLDMA exception handler.
* @md_ctrl: modem control struct.
* @stage: exception stage.
*
* Part of the modem exception recovery.
* Stages are one after the other as describe below:
* HIF_EX_INIT: Disable and clear TXQ.
* HIF_EX_CLEARQ_DONE: Disable RX, flush TX/RX workqueues and clear RX.
* HIF_EX_ALLQ_RESET: HW is back in safe mode for re-initialization and restart.
*/
/* Modem Exception Handshake Flow
*
* Modem HW Exception interrupt received
* (MD_IRQ_CCIF_EX)
* |
* +---------v--------+
* | HIF_EX_INIT | : Disable and clear TXQ
* +------------------+
* |
* +---------v--------+
* | HIF_EX_INIT_DONE | : Wait for the init to be done
* +------------------+
* |
* +---------v--------+
* |HIF_EX_CLEARQ_DONE| : Disable and clear RXQ
* +------------------+ : Flush TX/RX workqueues
* |
* +---------v--------+
* |HIF_EX_ALLQ_RESET | : Restart HW and CLDMA
* +------------------+
*/
static void t7xx_cldma_exception(struct cldma_ctrl *md_ctrl, enum hif_ex_stage stage)
{
switch (stage) {
case HIF_EX_INIT:
t7xx_cldma_stop_all_qs(md_ctrl, MTK_TX);
t7xx_cldma_clear_all_qs(md_ctrl, MTK_TX);
break;
case HIF_EX_CLEARQ_DONE:
/* We do not want to get CLDMA IRQ when MD is
* resetting CLDMA after it got clearq_ack.
*/
t7xx_cldma_stop_all_qs(md_ctrl, MTK_RX);
t7xx_cldma_stop(md_ctrl);
if (md_ctrl->hif_id == CLDMA_ID_MD)
t7xx_cldma_hw_reset(md_ctrl->t7xx_dev->base_addr.infracfg_ao_base);
t7xx_cldma_clear_all_qs(md_ctrl, MTK_RX);
break;
case HIF_EX_ALLQ_RESET:
t7xx_cldma_hw_init(&md_ctrl->hw_info);
t7xx_cldma_start(md_ctrl);
break;
default:
break;
}
}
static void t7xx_md_exception(struct t7xx_modem *md, enum hif_ex_stage stage)
{
struct t7xx_pci_dev *t7xx_dev = md->t7xx_dev;
if (stage == HIF_EX_CLEARQ_DONE) {
/* Give DHL time to flush data */
msleep(PORT_RESET_DELAY_MS);
t7xx_port_proxy_reset(md->port_prox);
}
t7xx_cldma_exception(md->md_ctrl[CLDMA_ID_MD], stage);
t7xx_cldma_exception(md->md_ctrl[CLDMA_ID_AP], stage);
if (stage == HIF_EX_INIT)
t7xx_mhccif_h2d_swint_trigger(t7xx_dev, H2D_CH_EXCEPTION_ACK);
else if (stage == HIF_EX_CLEARQ_DONE)
t7xx_mhccif_h2d_swint_trigger(t7xx_dev, H2D_CH_EXCEPTION_CLEARQ_ACK);
}
static int t7xx_wait_hif_ex_hk_event(struct t7xx_modem *md, int event_id)
{
unsigned int waited_time_ms = 0;
do {
if (md->exp_id & event_id)
return 0;
waited_time_ms += EX_HS_POLL_DELAY_MS;
msleep(EX_HS_POLL_DELAY_MS);
} while (waited_time_ms < EX_HS_TIMEOUT_MS);
return -EFAULT;
}
static void t7xx_md_sys_sw_init(struct t7xx_pci_dev *t7xx_dev)
{
/* Register the MHCCIF ISR for MD exception, port enum and
* async handshake notifications.
*/
t7xx_mhccif_mask_set(t7xx_dev, D2H_SW_INT_MASK);
t7xx_mhccif_mask_clr(t7xx_dev, D2H_INT_PORT_ENUM);
/* Register RGU IRQ handler for sAP exception notification */
t7xx_dev->rgu_pci_irq_en = true;
t7xx_pcie_register_rgu_isr(t7xx_dev);
}
struct feature_query {
__le32 head_pattern;
u8 feature_set[FEATURE_COUNT];
__le32 tail_pattern;
};
static void t7xx_prepare_host_rt_data_query(struct t7xx_sys_info *core)
{
struct feature_query *ft_query;
struct sk_buff *skb;
skb = t7xx_ctrl_alloc_skb(sizeof(*ft_query));
if (!skb)
return;
ft_query = skb_put(skb, sizeof(*ft_query));
ft_query->head_pattern = cpu_to_le32(MD_FEATURE_QUERY_ID);
memcpy(ft_query->feature_set, core->feature_set, FEATURE_COUNT);
ft_query->tail_pattern = cpu_to_le32(MD_FEATURE_QUERY_ID);
/* Send HS1 message to device */
t7xx_port_send_ctl_skb(core->ctl_port, skb, CTL_ID_HS1_MSG, 0);
}
static int t7xx_prepare_device_rt_data(struct t7xx_sys_info *core, struct device *dev,
void *data)
{
struct feature_query *md_feature = data;
struct mtk_runtime_feature *rt_feature;
unsigned int i, rt_data_len = 0;
struct sk_buff *skb;
/* Parse MD runtime data query */
if (le32_to_cpu(md_feature->head_pattern) != MD_FEATURE_QUERY_ID ||
le32_to_cpu(md_feature->tail_pattern) != MD_FEATURE_QUERY_ID) {
dev_err(dev, "Invalid feature pattern: head 0x%x, tail 0x%x\n",
le32_to_cpu(md_feature->head_pattern),
le32_to_cpu(md_feature->tail_pattern));
return -EINVAL;
}
for (i = 0; i < FEATURE_COUNT; i++) {
if (FIELD_GET(FEATURE_MSK, md_feature->feature_set[i]) !=
MTK_FEATURE_MUST_BE_SUPPORTED)
rt_data_len += sizeof(*rt_feature);
}
skb = t7xx_ctrl_alloc_skb(rt_data_len);
if (!skb)
return -ENOMEM;
rt_feature = skb_put(skb, rt_data_len);
memset(rt_feature, 0, rt_data_len);
/* Fill runtime feature */
for (i = 0; i < FEATURE_COUNT; i++) {
u8 md_feature_mask = FIELD_GET(FEATURE_MSK, md_feature->feature_set[i]);
if (md_feature_mask == MTK_FEATURE_MUST_BE_SUPPORTED)
continue;
rt_feature->feature_id = i;
if (md_feature_mask == MTK_FEATURE_DOES_NOT_EXIST)
rt_feature->support_info = md_feature->feature_set[i];
rt_feature++;
}
/* Send HS3 message to device */
t7xx_port_send_ctl_skb(core->ctl_port, skb, CTL_ID_HS3_MSG, 0);
return 0;
}
static int t7xx_parse_host_rt_data(struct t7xx_fsm_ctl *ctl, struct t7xx_sys_info *core,
struct device *dev, void *data, int data_length)
{
enum mtk_feature_support_type ft_spt_st, ft_spt_cfg;
struct mtk_runtime_feature *rt_feature;
int i, offset;
offset = sizeof(struct feature_query);
for (i = 0; i < FEATURE_COUNT && offset < data_length; i++) {
rt_feature = data + offset;
offset += sizeof(*rt_feature) + le32_to_cpu(rt_feature->data_len);
ft_spt_cfg = FIELD_GET(FEATURE_MSK, core->feature_set[i]);
if (ft_spt_cfg != MTK_FEATURE_MUST_BE_SUPPORTED)
continue;
ft_spt_st = FIELD_GET(FEATURE_MSK, rt_feature->support_info);
if (ft_spt_st != MTK_FEATURE_MUST_BE_SUPPORTED)
return -EINVAL;
if (i == RT_ID_MD_PORT_ENUM || i == RT_ID_AP_PORT_ENUM)
t7xx_port_enum_msg_handler(ctl->md, rt_feature->data);
}
return 0;
}
static int t7xx_core_reset(struct t7xx_modem *md)
{
struct device *dev = &md->t7xx_dev->pdev->dev;
struct t7xx_fsm_ctl *ctl = md->fsm_ctl;
md->core_md.ready = false;
if (!ctl) {
dev_err(dev, "FSM is not initialized\n");
return -EINVAL;
}
if (md->core_md.handshake_ongoing) {
int ret = t7xx_fsm_append_event(ctl, FSM_EVENT_MD_HS2_EXIT, NULL, 0);
if (ret)
return ret;
}
md->core_md.handshake_ongoing = false;
return 0;
}
static void t7xx_core_hk_handler(struct t7xx_modem *md, struct t7xx_sys_info *core_info,
struct t7xx_fsm_ctl *ctl,
enum t7xx_fsm_event_state event_id,
enum t7xx_fsm_event_state err_detect)
{
struct t7xx_fsm_event *event = NULL, *event_next;
struct device *dev = &md->t7xx_dev->pdev->dev;
unsigned long flags;
int ret;
t7xx_prepare_host_rt_data_query(core_info);
while (!kthread_should_stop()) {
bool event_received = false;
spin_lock_irqsave(&ctl->event_lock, flags);
list_for_each_entry_safe(event, event_next, &ctl->event_queue, entry) {
if (event->event_id == err_detect) {
list_del(&event->entry);
spin_unlock_irqrestore(&ctl->event_lock, flags);
dev_err(dev, "Core handshake error event received\n");
goto err_free_event;
} else if (event->event_id == event_id) {
list_del(&event->entry);
event_received = true;
break;
}
}
spin_unlock_irqrestore(&ctl->event_lock, flags);
if (event_received)
break;
wait_event_interruptible(ctl->event_wq, !list_empty(&ctl->event_queue) ||
kthread_should_stop());
if (kthread_should_stop())
goto err_free_event;
}
if (!event || ctl->exp_flg)
goto err_free_event;
ret = t7xx_parse_host_rt_data(ctl, core_info, dev, event->data, event->length);
if (ret) {
dev_err(dev, "Host failure parsing runtime data: %d\n", ret);
goto err_free_event;
}
if (ctl->exp_flg)
goto err_free_event;
ret = t7xx_prepare_device_rt_data(core_info, dev, event->data);
if (ret) {
dev_err(dev, "Device failure parsing runtime data: %d", ret);
goto err_free_event;
}
core_info->ready = true;
core_info->handshake_ongoing = false;
wake_up(&ctl->async_hk_wq);
err_free_event:
kfree(event);
}
static void t7xx_md_hk_wq(struct work_struct *work)
{
struct t7xx_modem *md = container_of(work, struct t7xx_modem, handshake_work);
struct t7xx_fsm_ctl *ctl = md->fsm_ctl;
/* Clear the HS2 EXIT event appended in core_reset() */
t7xx_fsm_clr_event(ctl, FSM_EVENT_MD_HS2_EXIT);
t7xx_cldma_switch_cfg(md->md_ctrl[CLDMA_ID_MD], CLDMA_SHARED_Q_CFG);
t7xx_cldma_start(md->md_ctrl[CLDMA_ID_MD]);
t7xx_fsm_broadcast_state(ctl, MD_STATE_WAITING_FOR_HS2);
md->core_md.handshake_ongoing = true;
t7xx_core_hk_handler(md, &md->core_md, ctl, FSM_EVENT_MD_HS2, FSM_EVENT_MD_HS2_EXIT);
}
static void t7xx_ap_hk_wq(struct work_struct *work)
{
struct t7xx_modem *md = container_of(work, struct t7xx_modem, ap_handshake_work);
struct t7xx_fsm_ctl *ctl = md->fsm_ctl;
/* Clear the HS2 EXIT event appended in t7xx_core_reset(). */
t7xx_fsm_clr_event(ctl, FSM_EVENT_AP_HS2_EXIT);
t7xx_cldma_stop(md->md_ctrl[CLDMA_ID_AP]);
t7xx_cldma_switch_cfg(md->md_ctrl[CLDMA_ID_AP], CLDMA_SHARED_Q_CFG);
t7xx_cldma_start(md->md_ctrl[CLDMA_ID_AP]);
md->core_ap.handshake_ongoing = true;
t7xx_core_hk_handler(md, &md->core_ap, ctl, FSM_EVENT_AP_HS2, FSM_EVENT_AP_HS2_EXIT);
}
void t7xx_md_event_notify(struct t7xx_modem *md, enum md_event_id evt_id)
{
struct t7xx_fsm_ctl *ctl = md->fsm_ctl;
unsigned int int_sta;
unsigned long flags;
switch (evt_id) {
case FSM_PRE_START:
t7xx_mhccif_mask_clr(md->t7xx_dev, D2H_INT_PORT_ENUM | D2H_INT_ASYNC_MD_HK |
D2H_INT_ASYNC_AP_HK);
break;
case FSM_START:
t7xx_mhccif_mask_set(md->t7xx_dev, D2H_INT_PORT_ENUM);
spin_lock_irqsave(&md->exp_lock, flags);
int_sta = t7xx_get_interrupt_status(md->t7xx_dev);
md->exp_id |= int_sta;
if (md->exp_id & D2H_INT_EXCEPTION_INIT) {
ctl->exp_flg = true;
md->exp_id &= ~D2H_INT_EXCEPTION_INIT;
md->exp_id &= ~D2H_INT_ASYNC_MD_HK;
md->exp_id &= ~D2H_INT_ASYNC_AP_HK;
} else if (ctl->exp_flg) {
md->exp_id &= ~D2H_INT_ASYNC_MD_HK;
md->exp_id &= ~D2H_INT_ASYNC_AP_HK;
} else {
void __iomem *mhccif_base = md->t7xx_dev->base_addr.mhccif_rc_base;
if (md->exp_id & D2H_INT_ASYNC_MD_HK) {
queue_work(md->handshake_wq, &md->handshake_work);
md->exp_id &= ~D2H_INT_ASYNC_MD_HK;
iowrite32(D2H_INT_ASYNC_MD_HK, mhccif_base + REG_EP2RC_SW_INT_ACK);
t7xx_mhccif_mask_set(md->t7xx_dev, D2H_INT_ASYNC_MD_HK);
}
if (md->exp_id & D2H_INT_ASYNC_AP_HK) {
queue_work(md->handshake_wq, &md->ap_handshake_work);
md->exp_id &= ~D2H_INT_ASYNC_AP_HK;
iowrite32(D2H_INT_ASYNC_AP_HK, mhccif_base + REG_EP2RC_SW_INT_ACK);
t7xx_mhccif_mask_set(md->t7xx_dev, D2H_INT_ASYNC_AP_HK);
}
}
spin_unlock_irqrestore(&md->exp_lock, flags);
t7xx_mhccif_mask_clr(md->t7xx_dev,
D2H_INT_EXCEPTION_INIT |
D2H_INT_EXCEPTION_INIT_DONE |
D2H_INT_EXCEPTION_CLEARQ_DONE |
D2H_INT_EXCEPTION_ALLQ_RESET);
break;
case FSM_READY:
t7xx_mhccif_mask_set(md->t7xx_dev, D2H_INT_ASYNC_MD_HK);
t7xx_mhccif_mask_set(md->t7xx_dev, D2H_INT_ASYNC_AP_HK);
break;
default:
break;
}
}
void t7xx_md_exception_handshake(struct t7xx_modem *md)
{
struct device *dev = &md->t7xx_dev->pdev->dev;
int ret;
t7xx_md_exception(md, HIF_EX_INIT);
ret = t7xx_wait_hif_ex_hk_event(md, D2H_INT_EXCEPTION_INIT_DONE);
if (ret)
dev_err(dev, "EX CCIF HS timeout, RCH 0x%lx\n", D2H_INT_EXCEPTION_INIT_DONE);
t7xx_md_exception(md, HIF_EX_INIT_DONE);
ret = t7xx_wait_hif_ex_hk_event(md, D2H_INT_EXCEPTION_CLEARQ_DONE);
if (ret)
dev_err(dev, "EX CCIF HS timeout, RCH 0x%lx\n", D2H_INT_EXCEPTION_CLEARQ_DONE);
t7xx_md_exception(md, HIF_EX_CLEARQ_DONE);
ret = t7xx_wait_hif_ex_hk_event(md, D2H_INT_EXCEPTION_ALLQ_RESET);
if (ret)
dev_err(dev, "EX CCIF HS timeout, RCH 0x%lx\n", D2H_INT_EXCEPTION_ALLQ_RESET);
t7xx_md_exception(md, HIF_EX_ALLQ_RESET);
}
static struct t7xx_modem *t7xx_md_alloc(struct t7xx_pci_dev *t7xx_dev)
{
struct device *dev = &t7xx_dev->pdev->dev;
struct t7xx_modem *md;
md = devm_kzalloc(dev, sizeof(*md), GFP_KERNEL);
if (!md)
return NULL;
md->t7xx_dev = t7xx_dev;
t7xx_dev->md = md;
spin_lock_init(&md->exp_lock);
md->handshake_wq = alloc_workqueue("%s", WQ_UNBOUND | WQ_MEM_RECLAIM | WQ_HIGHPRI,
0, "md_hk_wq");
if (!md->handshake_wq)
return NULL;
INIT_WORK(&md->handshake_work, t7xx_md_hk_wq);
md->core_md.feature_set[RT_ID_MD_PORT_ENUM] &= ~FEATURE_MSK;
md->core_md.feature_set[RT_ID_MD_PORT_ENUM] |=
FIELD_PREP(FEATURE_MSK, MTK_FEATURE_MUST_BE_SUPPORTED);
INIT_WORK(&md->ap_handshake_work, t7xx_ap_hk_wq);
md->core_ap.feature_set[RT_ID_AP_PORT_ENUM] &= ~FEATURE_MSK;
md->core_ap.feature_set[RT_ID_AP_PORT_ENUM] |=
FIELD_PREP(FEATURE_MSK, MTK_FEATURE_MUST_BE_SUPPORTED);
return md;
}
int t7xx_md_reset(struct t7xx_pci_dev *t7xx_dev)
{
struct t7xx_modem *md = t7xx_dev->md;
md->md_init_finish = false;
md->exp_id = 0;
t7xx_fsm_reset(md);
t7xx_cldma_reset(md->md_ctrl[CLDMA_ID_MD]);
t7xx_cldma_reset(md->md_ctrl[CLDMA_ID_AP]);
t7xx_port_proxy_reset(md->port_prox);
md->md_init_finish = true;
return t7xx_core_reset(md);
}
/**
* t7xx_md_init() - Initialize modem.
* @t7xx_dev: MTK device.
*
* Allocate and initialize MD control block, and initialize data path.
* Register MHCCIF ISR and RGU ISR, and start the state machine.
*
* Return:
** 0 - Success.
** -ENOMEM - Allocation failure.
*/
int t7xx_md_init(struct t7xx_pci_dev *t7xx_dev)
{
struct t7xx_modem *md;
int ret;
md = t7xx_md_alloc(t7xx_dev);
if (!md)
return -ENOMEM;
ret = t7xx_cldma_alloc(CLDMA_ID_MD, t7xx_dev);
if (ret)
goto err_destroy_hswq;
ret = t7xx_cldma_alloc(CLDMA_ID_AP, t7xx_dev);
if (ret)
goto err_destroy_hswq;
ret = t7xx_fsm_init(md);
if (ret)
goto err_destroy_hswq;
ret = t7xx_ccmni_init(t7xx_dev);
if (ret)
goto err_uninit_fsm;
ret = t7xx_cldma_init(md->md_ctrl[CLDMA_ID_MD]);
if (ret)
goto err_uninit_ccmni;
ret = t7xx_cldma_init(md->md_ctrl[CLDMA_ID_AP]);
if (ret)
goto err_uninit_md_cldma;
ret = t7xx_port_proxy_init(md);
if (ret)
goto err_uninit_ap_cldma;
ret = t7xx_fsm_append_cmd(md->fsm_ctl, FSM_CMD_START, 0);
if (ret) /* t7xx_fsm_uninit() flushes cmd queue */
goto err_uninit_proxy;
t7xx_md_sys_sw_init(t7xx_dev);
md->md_init_finish = true;
return 0;
err_uninit_proxy:
t7xx_port_proxy_uninit(md->port_prox);
err_uninit_ap_cldma:
t7xx_cldma_exit(md->md_ctrl[CLDMA_ID_AP]);
err_uninit_md_cldma:
t7xx_cldma_exit(md->md_ctrl[CLDMA_ID_MD]);
err_uninit_ccmni:
t7xx_ccmni_exit(t7xx_dev);
err_uninit_fsm:
t7xx_fsm_uninit(md);
err_destroy_hswq:
destroy_workqueue(md->handshake_wq);
dev_err(&t7xx_dev->pdev->dev, "Modem init failed\n");
return ret;
}
void t7xx_md_exit(struct t7xx_pci_dev *t7xx_dev)
{
enum t7xx_mode mode = READ_ONCE(t7xx_dev->mode);
struct t7xx_modem *md = t7xx_dev->md;
t7xx_pcie_mac_clear_int(t7xx_dev, SAP_RGU_INT);
if (!md->md_init_finish)
return;
if (mode != T7XX_RESET && mode != T7XX_UNKNOWN)
t7xx_fsm_append_cmd(md->fsm_ctl, FSM_CMD_PRE_STOP, FSM_CMD_FLAG_WAIT_FOR_COMPLETION);
t7xx_port_proxy_uninit(md->port_prox);
t7xx_cldma_exit(md->md_ctrl[CLDMA_ID_AP]);
t7xx_cldma_exit(md->md_ctrl[CLDMA_ID_MD]);
t7xx_ccmni_exit(t7xx_dev);
t7xx_fsm_uninit(md);
destroy_workqueue(md->handshake_wq);
}
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