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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (C) 2020-21 Intel Corporation.
*/
#include <linux/delay.h>
#include "iosm_ipc_chnl_cfg.h"
#include "iosm_ipc_devlink.h"
#include "iosm_ipc_flash.h"
#include "iosm_ipc_imem.h"
#include "iosm_ipc_port.h"
/* Check the wwan ips if it is valid with Channel as input. */
static int ipc_imem_check_wwan_ips(struct ipc_mem_channel *chnl)
{
if (chnl)
return chnl->ctype == IPC_CTYPE_WWAN &&
chnl->if_id == IPC_MEM_MUX_IP_CH_IF_ID;
return false;
}
static int ipc_imem_msg_send_device_sleep(struct iosm_imem *ipc_imem, u32 state)
{
union ipc_msg_prep_args prep_args = {
.sleep.target = 1,
.sleep.state = state,
};
ipc_imem->device_sleep = state;
return ipc_protocol_tq_msg_send(ipc_imem->ipc_protocol,
IPC_MSG_PREP_SLEEP, &prep_args, NULL);
}
static bool ipc_imem_dl_skb_alloc(struct iosm_imem *ipc_imem,
struct ipc_pipe *pipe)
{
/* limit max. nr of entries */
if (pipe->nr_of_queued_entries >= pipe->max_nr_of_queued_entries)
return false;
return ipc_protocol_dl_td_prepare(ipc_imem->ipc_protocol, pipe);
}
/* This timer handler will retry DL buff allocation if a pipe has no free buf
* and gives doorbell if TD is available
*/
static int ipc_imem_tq_td_alloc_timer(struct iosm_imem *ipc_imem, int arg,
void *msg, size_t size)
{
bool new_buffers_available = false;
bool retry_allocation = false;
int i;
for (i = 0; i < IPC_MEM_MAX_CHANNELS; i++) {
struct ipc_pipe *pipe = &ipc_imem->channels[i].dl_pipe;
if (!pipe->is_open || pipe->nr_of_queued_entries > 0)
continue;
while (ipc_imem_dl_skb_alloc(ipc_imem, pipe))
new_buffers_available = true;
if (pipe->nr_of_queued_entries == 0)
retry_allocation = true;
}
if (new_buffers_available)
ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol,
IPC_HP_DL_PROCESS);
if (retry_allocation) {
ipc_imem->hrtimer_period =
ktime_set(0, IPC_TD_ALLOC_TIMER_PERIOD_MS * 1000 * 1000ULL);
if (!hrtimer_active(&ipc_imem->td_alloc_timer))
hrtimer_start(&ipc_imem->td_alloc_timer,
ipc_imem->hrtimer_period,
HRTIMER_MODE_REL);
}
return 0;
}
static enum hrtimer_restart ipc_imem_td_alloc_timer_cb(struct hrtimer *hr_timer)
{
struct iosm_imem *ipc_imem =
container_of(hr_timer, struct iosm_imem, td_alloc_timer);
/* Post an async tasklet event to trigger HP update Doorbell */
ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_td_alloc_timer, 0, NULL,
0, false);
return HRTIMER_NORESTART;
}
/* Fast update timer tasklet handler to trigger HP update */
static int ipc_imem_tq_fast_update_timer_cb(struct iosm_imem *ipc_imem, int arg,
void *msg, size_t size)
{
ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol,
IPC_HP_FAST_TD_UPD_TMR);
return 0;
}
static enum hrtimer_restart
ipc_imem_fast_update_timer_cb(struct hrtimer *hr_timer)
{
struct iosm_imem *ipc_imem =
container_of(hr_timer, struct iosm_imem, fast_update_timer);
/* Post an async tasklet event to trigger HP update Doorbell */
ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_fast_update_timer_cb, 0,
NULL, 0, false);
return HRTIMER_NORESTART;
}
static int ipc_imem_setup_cp_mux_cap_init(struct iosm_imem *ipc_imem,
struct ipc_mux_config *cfg)
{
ipc_mmio_update_cp_capability(ipc_imem->mmio);
if (!ipc_imem->mmio->has_mux_lite) {
dev_err(ipc_imem->dev, "Failed to get Mux capability.");
return -EINVAL;
}
cfg->protocol = MUX_LITE;
cfg->ul_flow = (ipc_imem->mmio->has_ul_flow_credit == 1) ?
MUX_UL_ON_CREDITS :
MUX_UL;
/* The instance ID is same as channel ID because this is been reused
* for channel alloc function.
*/
cfg->instance_id = IPC_MEM_MUX_IP_CH_IF_ID;
cfg->nr_sessions = IPC_MEM_MUX_IP_SESSION_ENTRIES;
return 0;
}
void ipc_imem_msg_send_feature_set(struct iosm_imem *ipc_imem,
unsigned int reset_enable, bool atomic_ctx)
{
union ipc_msg_prep_args prep_args = { .feature_set.reset_enable =
reset_enable };
if (atomic_ctx)
ipc_protocol_tq_msg_send(ipc_imem->ipc_protocol,
IPC_MSG_PREP_FEATURE_SET, &prep_args,
NULL);
else
ipc_protocol_msg_send(ipc_imem->ipc_protocol,
IPC_MSG_PREP_FEATURE_SET, &prep_args);
}
void ipc_imem_td_update_timer_start(struct iosm_imem *ipc_imem)
{
/* Use the TD update timer only in the runtime phase */
if (!ipc_imem->enter_runtime || ipc_imem->td_update_timer_suspended) {
/* trigger the doorbell irq on CP directly. */
ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol,
IPC_HP_TD_UPD_TMR_START);
return;
}
if (!hrtimer_active(&ipc_imem->tdupdate_timer)) {
ipc_imem->hrtimer_period =
ktime_set(0, TD_UPDATE_DEFAULT_TIMEOUT_USEC * 1000ULL);
if (!hrtimer_active(&ipc_imem->tdupdate_timer))
hrtimer_start(&ipc_imem->tdupdate_timer,
ipc_imem->hrtimer_period,
HRTIMER_MODE_REL);
}
}
void ipc_imem_hrtimer_stop(struct hrtimer *hr_timer)
{
if (hrtimer_active(hr_timer))
hrtimer_cancel(hr_timer);
}
bool ipc_imem_ul_write_td(struct iosm_imem *ipc_imem)
{
struct ipc_mem_channel *channel;
struct sk_buff_head *ul_list;
bool hpda_pending = false;
bool forced_hpdu = false;
struct ipc_pipe *pipe;
int i;
/* Analyze the uplink pipe of all active channels. */
for (i = 0; i < ipc_imem->nr_of_channels; i++) {
channel = &ipc_imem->channels[i];
if (channel->state != IMEM_CHANNEL_ACTIVE)
continue;
pipe = &channel->ul_pipe;
/* Get the reference to the skbuf accumulator list. */
ul_list = &channel->ul_list;
/* Fill the transfer descriptor with the uplink buffer info. */
hpda_pending |= ipc_protocol_ul_td_send(ipc_imem->ipc_protocol,
pipe, ul_list);
/* forced HP update needed for non data channels */
if (hpda_pending && !ipc_imem_check_wwan_ips(channel))
forced_hpdu = true;
}
if (forced_hpdu) {
hpda_pending = false;
ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol,
IPC_HP_UL_WRITE_TD);
}
return hpda_pending;
}
void ipc_imem_ipc_init_check(struct iosm_imem *ipc_imem)
{
int timeout = IPC_MODEM_BOOT_TIMEOUT;
ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_INIT;
/* Trigger the CP interrupt to enter the init state. */
ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC,
IPC_MEM_DEVICE_IPC_INIT);
/* Wait for the CP update. */
do {
if (ipc_mmio_get_ipc_state(ipc_imem->mmio) ==
ipc_imem->ipc_requested_state) {
/* Prepare the MMIO space */
ipc_mmio_config(ipc_imem->mmio);
/* Trigger the CP irq to enter the running state. */
ipc_imem->ipc_requested_state =
IPC_MEM_DEVICE_IPC_RUNNING;
ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC,
IPC_MEM_DEVICE_IPC_RUNNING);
return;
}
msleep(20);
} while (--timeout);
/* timeout */
dev_err(ipc_imem->dev, "%s: ipc_status(%d) ne. IPC_MEM_DEVICE_IPC_INIT",
ipc_imem_phase_get_string(ipc_imem->phase),
ipc_mmio_get_ipc_state(ipc_imem->mmio));
ipc_uevent_send(ipc_imem->dev, UEVENT_MDM_TIMEOUT);
}
/* Analyze the packet type and distribute it. */
static void ipc_imem_dl_skb_process(struct iosm_imem *ipc_imem,
struct ipc_pipe *pipe, struct sk_buff *skb)
{
u16 port_id;
if (!skb)
return;
/* An AT/control or IP packet is expected. */
switch (pipe->channel->ctype) {
case IPC_CTYPE_CTRL:
port_id = pipe->channel->channel_id;
if (port_id == IPC_MEM_CTRL_CHL_ID_7)
ipc_imem_sys_devlink_notify_rx(ipc_imem->ipc_devlink,
skb);
else
wwan_port_rx(ipc_imem->ipc_port[port_id]->iosm_port,
skb);
break;
case IPC_CTYPE_WWAN:
if (pipe->channel->if_id == IPC_MEM_MUX_IP_CH_IF_ID)
ipc_mux_dl_decode(ipc_imem->mux, skb);
break;
default:
dev_err(ipc_imem->dev, "Invalid channel type");
break;
}
}
/* Process the downlink data and pass them to the char or net layer. */
static void ipc_imem_dl_pipe_process(struct iosm_imem *ipc_imem,
struct ipc_pipe *pipe)
{
s32 cnt = 0, processed_td_cnt = 0;
struct ipc_mem_channel *channel;
u32 head = 0, tail = 0;
bool processed = false;
struct sk_buff *skb;
channel = pipe->channel;
ipc_protocol_get_head_tail_index(ipc_imem->ipc_protocol, pipe, &head,
&tail);
if (pipe->old_tail != tail) {
if (pipe->old_tail < tail)
cnt = tail - pipe->old_tail;
else
cnt = pipe->nr_of_entries - pipe->old_tail + tail;
}
processed_td_cnt = cnt;
/* Seek for pipes with pending DL data. */
while (cnt--) {
skb = ipc_protocol_dl_td_process(ipc_imem->ipc_protocol, pipe);
/* Analyze the packet type and distribute it. */
ipc_imem_dl_skb_process(ipc_imem, pipe, skb);
}
/* try to allocate new empty DL SKbs from head..tail - 1*/
while (ipc_imem_dl_skb_alloc(ipc_imem, pipe))
processed = true;
if (processed && !ipc_imem_check_wwan_ips(channel)) {
/* Force HP update for non IP channels */
ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol,
IPC_HP_DL_PROCESS);
processed = false;
/* If Fast Update timer is already running then stop */
ipc_imem_hrtimer_stop(&ipc_imem->fast_update_timer);
}
/* Any control channel process will get immediate HP update.
* Start Fast update timer only for IP channel if all the TDs were
* used in last process.
*/
if (processed && (processed_td_cnt == pipe->nr_of_entries - 1)) {
ipc_imem->hrtimer_period =
ktime_set(0, FORCE_UPDATE_DEFAULT_TIMEOUT_USEC * 1000ULL);
hrtimer_start(&ipc_imem->fast_update_timer,
ipc_imem->hrtimer_period, HRTIMER_MODE_REL);
}
if (ipc_imem->app_notify_dl_pend)
complete(&ipc_imem->dl_pend_sem);
}
/* process open uplink pipe */
static void ipc_imem_ul_pipe_process(struct iosm_imem *ipc_imem,
struct ipc_pipe *pipe)
{
struct ipc_mem_channel *channel;
u32 tail = 0, head = 0;
struct sk_buff *skb;
s32 cnt = 0;
channel = pipe->channel;
/* Get the internal phase. */
ipc_protocol_get_head_tail_index(ipc_imem->ipc_protocol, pipe, &head,
&tail);
if (pipe->old_tail != tail) {
if (pipe->old_tail < tail)
cnt = tail - pipe->old_tail;
else
cnt = pipe->nr_of_entries - pipe->old_tail + tail;
}
/* Free UL buffers. */
while (cnt--) {
skb = ipc_protocol_ul_td_process(ipc_imem->ipc_protocol, pipe);
if (!skb)
continue;
/* If the user app was suspended in uplink direction - blocking
* write, resume it.
*/
if (IPC_CB(skb)->op_type == UL_USR_OP_BLOCKED)
complete(&channel->ul_sem);
/* Free the skbuf element. */
if (IPC_CB(skb)->op_type == UL_MUX_OP_ADB) {
if (channel->if_id == IPC_MEM_MUX_IP_CH_IF_ID)
ipc_mux_ul_encoded_process(ipc_imem->mux, skb);
else
dev_err(ipc_imem->dev,
"OP Type is UL_MUX, unknown if_id %d",
channel->if_id);
} else {
ipc_pcie_kfree_skb(ipc_imem->pcie, skb);
}
}
/* Trace channel stats for IP UL pipe. */
if (ipc_imem_check_wwan_ips(pipe->channel))
ipc_mux_check_n_restart_tx(ipc_imem->mux);
if (ipc_imem->app_notify_ul_pend)
complete(&ipc_imem->ul_pend_sem);
}
/* Executes the irq. */
static void ipc_imem_rom_irq_exec(struct iosm_imem *ipc_imem)
{
struct ipc_mem_channel *channel;
channel = ipc_imem->ipc_devlink->devlink_sio.channel;
ipc_imem->rom_exit_code = ipc_mmio_get_rom_exit_code(ipc_imem->mmio);
complete(&channel->ul_sem);
}
/* Execute the UL bundle timer actions, generating the doorbell irq. */
static int ipc_imem_tq_td_update_timer_cb(struct iosm_imem *ipc_imem, int arg,
void *msg, size_t size)
{
ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol,
IPC_HP_TD_UPD_TMR);
return 0;
}
/* Consider link power management in the runtime phase. */
static void ipc_imem_slp_control_exec(struct iosm_imem *ipc_imem)
{
/* link will go down, Test pending UL packets.*/
if (ipc_protocol_pm_dev_sleep_handle(ipc_imem->ipc_protocol) &&
hrtimer_active(&ipc_imem->tdupdate_timer)) {
/* Generate the doorbell irq. */
ipc_imem_tq_td_update_timer_cb(ipc_imem, 0, NULL, 0);
/* Stop the TD update timer. */
ipc_imem_hrtimer_stop(&ipc_imem->tdupdate_timer);
/* Stop the fast update timer. */
ipc_imem_hrtimer_stop(&ipc_imem->fast_update_timer);
}
}
/* Execute startup timer and wait for delayed start (e.g. NAND) */
static int ipc_imem_tq_startup_timer_cb(struct iosm_imem *ipc_imem, int arg,
void *msg, size_t size)
{
/* Update & check the current operation phase. */
if (ipc_imem_phase_update(ipc_imem) != IPC_P_RUN)
return -EIO;
if (ipc_mmio_get_ipc_state(ipc_imem->mmio) ==
IPC_MEM_DEVICE_IPC_UNINIT) {
ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_INIT;
ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC,
IPC_MEM_DEVICE_IPC_INIT);
ipc_imem->hrtimer_period = ktime_set(0, 100 * 1000UL * 1000ULL);
/* reduce period to 100 ms to check for mmio init state */
if (!hrtimer_active(&ipc_imem->startup_timer))
hrtimer_start(&ipc_imem->startup_timer,
ipc_imem->hrtimer_period,
HRTIMER_MODE_REL);
} else if (ipc_mmio_get_ipc_state(ipc_imem->mmio) ==
IPC_MEM_DEVICE_IPC_INIT) {
/* Startup complete - disable timer */
ipc_imem_hrtimer_stop(&ipc_imem->startup_timer);
/* Prepare the MMIO space */
ipc_mmio_config(ipc_imem->mmio);
ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_RUNNING;
ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC,
IPC_MEM_DEVICE_IPC_RUNNING);
}
return 0;
}
static enum hrtimer_restart ipc_imem_startup_timer_cb(struct hrtimer *hr_timer)
{
enum hrtimer_restart result = HRTIMER_NORESTART;
struct iosm_imem *ipc_imem =
container_of(hr_timer, struct iosm_imem, startup_timer);
if (ktime_to_ns(ipc_imem->hrtimer_period)) {
hrtimer_forward_now(&ipc_imem->startup_timer,
ipc_imem->hrtimer_period);
result = HRTIMER_RESTART;
}
ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_startup_timer_cb, 0,
NULL, 0, false);
return result;
}
/* Get the CP execution stage */
static enum ipc_mem_exec_stage
ipc_imem_get_exec_stage_buffered(struct iosm_imem *ipc_imem)
{
return (ipc_imem->phase == IPC_P_RUN &&
ipc_imem->ipc_status == IPC_MEM_DEVICE_IPC_RUNNING) ?
ipc_protocol_get_ap_exec_stage(ipc_imem->ipc_protocol) :
ipc_mmio_get_exec_stage(ipc_imem->mmio);
}
/* Callback to send the modem ready uevent */
static int ipc_imem_send_mdm_rdy_cb(struct iosm_imem *ipc_imem, int arg,
void *msg, size_t size)
{
enum ipc_mem_exec_stage exec_stage =
ipc_imem_get_exec_stage_buffered(ipc_imem);
if (exec_stage == IPC_MEM_EXEC_STAGE_RUN)
ipc_uevent_send(ipc_imem->dev, UEVENT_MDM_READY);
return 0;
}
/* This function is executed in a task context via an ipc_worker object,
* as the creation or removal of device can't be done from tasklet.
*/
static void ipc_imem_run_state_worker(struct work_struct *instance)
{
struct ipc_chnl_cfg chnl_cfg_port = { 0 };
struct ipc_mux_config mux_cfg;
struct iosm_imem *ipc_imem;
u8 ctrl_chl_idx = 0;
ipc_imem = container_of(instance, struct iosm_imem, run_state_worker);
if (ipc_imem->phase != IPC_P_RUN) {
dev_err(ipc_imem->dev,
"Modem link down. Exit run state worker.");
return;
}
if (!ipc_imem_setup_cp_mux_cap_init(ipc_imem, &mux_cfg))
ipc_imem->mux = ipc_mux_init(&mux_cfg, ipc_imem);
ipc_imem_wwan_channel_init(ipc_imem, mux_cfg.protocol);
if (ipc_imem->mux)
ipc_imem->mux->wwan = ipc_imem->wwan;
while (ctrl_chl_idx < IPC_MEM_MAX_CHANNELS) {
if (!ipc_chnl_cfg_get(&chnl_cfg_port, ctrl_chl_idx)) {
ipc_imem->ipc_port[ctrl_chl_idx] = NULL;
if (chnl_cfg_port.wwan_port_type != WWAN_PORT_UNKNOWN) {
ipc_imem_channel_init(ipc_imem, IPC_CTYPE_CTRL,
chnl_cfg_port,
IRQ_MOD_OFF);
ipc_imem->ipc_port[ctrl_chl_idx] =
ipc_port_init(ipc_imem, chnl_cfg_port);
}
}
ctrl_chl_idx++;
}
ipc_task_queue_send_task(ipc_imem, ipc_imem_send_mdm_rdy_cb, 0, NULL, 0,
false);
/* Complete all memory stores before setting bit */
smp_mb__before_atomic();
set_bit(FULLY_FUNCTIONAL, &ipc_imem->flag);
/* Complete all memory stores after setting bit */
smp_mb__after_atomic();
}
static void ipc_imem_handle_irq(struct iosm_imem *ipc_imem, int irq)
{
enum ipc_mem_device_ipc_state curr_ipc_status;
enum ipc_phase old_phase, phase;
bool retry_allocation = false;
bool ul_pending = false;
int i;
if (irq != IMEM_IRQ_DONT_CARE)
ipc_imem->ev_irq_pending[irq] = false;
/* Get the internal phase. */
old_phase = ipc_imem->phase;
if (old_phase == IPC_P_OFF_REQ) {
dev_dbg(ipc_imem->dev,
"[%s]: Ignoring MSI. Deinit sequence in progress!",
ipc_imem_phase_get_string(old_phase));
return;
}
/* Update the phase controlled by CP. */
phase = ipc_imem_phase_update(ipc_imem);
switch (phase) {
case IPC_P_RUN:
if (!ipc_imem->enter_runtime) {
/* Excute the transition from flash/boot to runtime. */
ipc_imem->enter_runtime = 1;
/* allow device to sleep, default value is
* IPC_HOST_SLEEP_ENTER_SLEEP
*/
ipc_imem_msg_send_device_sleep(ipc_imem,
ipc_imem->device_sleep);
ipc_imem_msg_send_feature_set(ipc_imem,
IPC_MEM_INBAND_CRASH_SIG,
true);
}
curr_ipc_status =
ipc_protocol_get_ipc_status(ipc_imem->ipc_protocol);
/* check ipc_status change */
if (ipc_imem->ipc_status != curr_ipc_status) {
ipc_imem->ipc_status = curr_ipc_status;
if (ipc_imem->ipc_status ==
IPC_MEM_DEVICE_IPC_RUNNING) {
schedule_work(&ipc_imem->run_state_worker);
}
}
/* Consider power management in the runtime phase. */
ipc_imem_slp_control_exec(ipc_imem);
break; /* Continue with skbuf processing. */
/* Unexpected phases. */
case IPC_P_OFF:
case IPC_P_OFF_REQ:
dev_err(ipc_imem->dev, "confused phase %s",
ipc_imem_phase_get_string(phase));
return;
case IPC_P_PSI:
if (old_phase != IPC_P_ROM)
break;
fallthrough;
/* On CP the PSI phase is already active. */
case IPC_P_ROM:
/* Before CP ROM driver starts the PSI image, it sets
* the exit_code field on the doorbell scratchpad and
* triggers the irq.
*/
ipc_imem_rom_irq_exec(ipc_imem);
return;
default:
break;
}
/* process message ring */
ipc_protocol_msg_process(ipc_imem, irq);
/* process all open pipes */
for (i = 0; i < IPC_MEM_MAX_CHANNELS; i++) {
struct ipc_pipe *ul_pipe = &ipc_imem->channels[i].ul_pipe;
struct ipc_pipe *dl_pipe = &ipc_imem->channels[i].dl_pipe;
if (dl_pipe->is_open &&
(irq == IMEM_IRQ_DONT_CARE || irq == dl_pipe->irq)) {
ipc_imem_dl_pipe_process(ipc_imem, dl_pipe);
if (dl_pipe->nr_of_queued_entries == 0)
retry_allocation = true;
}
if (ul_pipe->is_open)
ipc_imem_ul_pipe_process(ipc_imem, ul_pipe);
}
/* Try to generate new ADB or ADGH. */
if (ipc_mux_ul_data_encode(ipc_imem->mux))
ipc_imem_td_update_timer_start(ipc_imem);
/* Continue the send procedure with accumulated SIO or NETIF packets.
* Reset the debounce flags.
*/
ul_pending |= ipc_imem_ul_write_td(ipc_imem);
/* if UL data is pending restart TD update timer */
if (ul_pending) {
ipc_imem->hrtimer_period =
ktime_set(0, TD_UPDATE_DEFAULT_TIMEOUT_USEC * 1000ULL);
if (!hrtimer_active(&ipc_imem->tdupdate_timer))
hrtimer_start(&ipc_imem->tdupdate_timer,
ipc_imem->hrtimer_period,
HRTIMER_MODE_REL);
}
/* If CP has executed the transition
* from IPC_INIT to IPC_RUNNING in the PSI
* phase, wake up the flash app to open the pipes.
*/
if ((phase == IPC_P_PSI || phase == IPC_P_EBL) &&
ipc_imem->ipc_requested_state == IPC_MEM_DEVICE_IPC_RUNNING &&
ipc_mmio_get_ipc_state(ipc_imem->mmio) ==
IPC_MEM_DEVICE_IPC_RUNNING) {
complete(&ipc_imem->ipc_devlink->devlink_sio.channel->ul_sem);
}
/* Reset the expected CP state. */
ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_DONT_CARE;
if (retry_allocation) {
ipc_imem->hrtimer_period =
ktime_set(0, IPC_TD_ALLOC_TIMER_PERIOD_MS * 1000 * 1000ULL);
if (!hrtimer_active(&ipc_imem->td_alloc_timer))
hrtimer_start(&ipc_imem->td_alloc_timer,
ipc_imem->hrtimer_period,
HRTIMER_MODE_REL);
}
}
/* Callback by tasklet for handling interrupt events. */
static int ipc_imem_tq_irq_cb(struct iosm_imem *ipc_imem, int arg, void *msg,
size_t size)
{
ipc_imem_handle_irq(ipc_imem, arg);
return 0;
}
void ipc_imem_ul_send(struct iosm_imem *ipc_imem)
{
/* start doorbell irq delay timer if UL is pending */
if (ipc_imem_ul_write_td(ipc_imem))
ipc_imem_td_update_timer_start(ipc_imem);
}
/* Check the execution stage and update the AP phase */
static enum ipc_phase ipc_imem_phase_update_check(struct iosm_imem *ipc_imem,
enum ipc_mem_exec_stage stage)
{
switch (stage) {
case IPC_MEM_EXEC_STAGE_BOOT:
if (ipc_imem->phase != IPC_P_ROM) {
/* Send this event only once */
ipc_uevent_send(ipc_imem->dev, UEVENT_ROM_READY);
}
ipc_imem->phase = IPC_P_ROM;
break;
case IPC_MEM_EXEC_STAGE_PSI:
ipc_imem->phase = IPC_P_PSI;
break;
case IPC_MEM_EXEC_STAGE_EBL:
ipc_imem->phase = IPC_P_EBL;
break;
case IPC_MEM_EXEC_STAGE_RUN:
if (ipc_imem->phase != IPC_P_RUN &&
ipc_imem->ipc_status == IPC_MEM_DEVICE_IPC_RUNNING) {
ipc_uevent_send(ipc_imem->dev, UEVENT_MDM_READY);
}
ipc_imem->phase = IPC_P_RUN;
break;
case IPC_MEM_EXEC_STAGE_CRASH:
if (ipc_imem->phase != IPC_P_CRASH)
ipc_uevent_send(ipc_imem->dev, UEVENT_CRASH);
ipc_imem->phase = IPC_P_CRASH;
break;
case IPC_MEM_EXEC_STAGE_CD_READY:
if (ipc_imem->phase != IPC_P_CD_READY)
ipc_uevent_send(ipc_imem->dev, UEVENT_CD_READY);
ipc_imem->phase = IPC_P_CD_READY;
break;
default:
/* unknown exec stage:
* assume that link is down and send info to listeners
*/
ipc_uevent_send(ipc_imem->dev, UEVENT_CD_READY_LINK_DOWN);
break;
}
return ipc_imem->phase;
}
/* Send msg to device to open pipe */
static bool ipc_imem_pipe_open(struct iosm_imem *ipc_imem,
struct ipc_pipe *pipe)
{
union ipc_msg_prep_args prep_args = {
.pipe_open.pipe = pipe,
};
if (ipc_protocol_msg_send(ipc_imem->ipc_protocol,
IPC_MSG_PREP_PIPE_OPEN, &prep_args) == 0)
pipe->is_open = true;
return pipe->is_open;
}
/* Allocates the TDs for the given pipe along with firing HP update DB. */
static int ipc_imem_tq_pipe_td_alloc(struct iosm_imem *ipc_imem, int arg,
void *msg, size_t size)
{
struct ipc_pipe *dl_pipe = msg;
bool processed = false;
int i;
for (i = 0; i < dl_pipe->nr_of_entries - 1; i++)
processed |= ipc_imem_dl_skb_alloc(ipc_imem, dl_pipe);
/* Trigger the doorbell irq to inform CP that new downlink buffers are
* available.
*/
if (processed)
ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol, arg);
return 0;
}
static enum hrtimer_restart
ipc_imem_td_update_timer_cb(struct hrtimer *hr_timer)
{
struct iosm_imem *ipc_imem =
container_of(hr_timer, struct iosm_imem, tdupdate_timer);
ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_td_update_timer_cb, 0,
NULL, 0, false);
return HRTIMER_NORESTART;
}
/* Get the CP execution state and map it to the AP phase. */
enum ipc_phase ipc_imem_phase_update(struct iosm_imem *ipc_imem)
{
enum ipc_mem_exec_stage exec_stage =
ipc_imem_get_exec_stage_buffered(ipc_imem);
/* If the CP stage is undef, return the internal precalculated phase. */
return ipc_imem->phase == IPC_P_OFF_REQ ?
ipc_imem->phase :
ipc_imem_phase_update_check(ipc_imem, exec_stage);
}
const char *ipc_imem_phase_get_string(enum ipc_phase phase)
{
switch (phase) {
case IPC_P_RUN:
return "A-RUN";
case IPC_P_OFF:
return "A-OFF";
case IPC_P_ROM:
return "A-ROM";
case IPC_P_PSI:
return "A-PSI";
case IPC_P_EBL:
return "A-EBL";
case IPC_P_CRASH:
return "A-CRASH";
case IPC_P_CD_READY:
return "A-CD_READY";
case IPC_P_OFF_REQ:
return "A-OFF_REQ";
default:
return "A-???";
}
}
void ipc_imem_pipe_close(struct iosm_imem *ipc_imem, struct ipc_pipe *pipe)
{
union ipc_msg_prep_args prep_args = { .pipe_close.pipe = pipe };
pipe->is_open = false;
ipc_protocol_msg_send(ipc_imem->ipc_protocol, IPC_MSG_PREP_PIPE_CLOSE,
&prep_args);
ipc_imem_pipe_cleanup(ipc_imem, pipe);
}
void ipc_imem_channel_close(struct iosm_imem *ipc_imem, int channel_id)
{
struct ipc_mem_channel *channel;
if (channel_id < 0 || channel_id >= ipc_imem->nr_of_channels) {
dev_err(ipc_imem->dev, "invalid channel id %d", channel_id);
return;
}
channel = &ipc_imem->channels[channel_id];
if (channel->state == IMEM_CHANNEL_FREE) {
dev_err(ipc_imem->dev, "ch[%d]: invalid channel state %d",
channel_id, channel->state);
return;
}
/* Free only the channel id in the CP power off mode. */
if (channel->state == IMEM_CHANNEL_RESERVED)
/* Release only the channel id. */
goto channel_free;
if (ipc_imem->phase == IPC_P_RUN) {
ipc_imem_pipe_close(ipc_imem, &channel->ul_pipe);
ipc_imem_pipe_close(ipc_imem, &channel->dl_pipe);
}
ipc_imem_pipe_cleanup(ipc_imem, &channel->ul_pipe);
ipc_imem_pipe_cleanup(ipc_imem, &channel->dl_pipe);
channel_free:
ipc_imem_channel_free(channel);
}
struct ipc_mem_channel *ipc_imem_channel_open(struct iosm_imem *ipc_imem,
int channel_id, u32 db_id)
{
struct ipc_mem_channel *channel;
if (channel_id < 0 || channel_id >= IPC_MEM_MAX_CHANNELS) {
dev_err(ipc_imem->dev, "invalid channel ID: %d", channel_id);
return NULL;
}
channel = &ipc_imem->channels[channel_id];
channel->state = IMEM_CHANNEL_ACTIVE;
if (!ipc_imem_pipe_open(ipc_imem, &channel->ul_pipe))
goto ul_pipe_err;
if (!ipc_imem_pipe_open(ipc_imem, &channel->dl_pipe))
goto dl_pipe_err;
/* Allocate the downlink buffers in tasklet context. */
if (ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_pipe_td_alloc, db_id,
&channel->dl_pipe, 0, false)) {
dev_err(ipc_imem->dev, "td allocation failed : %d", channel_id);
goto task_failed;
}
/* Active channel. */
return channel;
task_failed:
ipc_imem_pipe_close(ipc_imem, &channel->dl_pipe);
dl_pipe_err:
ipc_imem_pipe_close(ipc_imem, &channel->ul_pipe);
ul_pipe_err:
ipc_imem_channel_free(channel);
return NULL;
}
void ipc_imem_pm_suspend(struct iosm_imem *ipc_imem)
{
ipc_protocol_suspend(ipc_imem->ipc_protocol);
}
void ipc_imem_pm_s2idle_sleep(struct iosm_imem *ipc_imem, bool sleep)
{
ipc_protocol_s2idle_sleep(ipc_imem->ipc_protocol, sleep);
}
void ipc_imem_pm_resume(struct iosm_imem *ipc_imem)
{
enum ipc_mem_exec_stage stage;
if (ipc_protocol_resume(ipc_imem->ipc_protocol)) {
stage = ipc_mmio_get_exec_stage(ipc_imem->mmio);
ipc_imem_phase_update_check(ipc_imem, stage);
}
}
void ipc_imem_channel_free(struct ipc_mem_channel *channel)
{
/* Reset dynamic channel elements. */
channel->state = IMEM_CHANNEL_FREE;
}
int ipc_imem_channel_alloc(struct iosm_imem *ipc_imem, int index,
enum ipc_ctype ctype)
{
struct ipc_mem_channel *channel;
int i;
/* Find channel of given type/index */
for (i = 0; i < ipc_imem->nr_of_channels; i++) {
channel = &ipc_imem->channels[i];
if (channel->ctype == ctype && channel->index == index)
break;
}
if (i >= ipc_imem->nr_of_channels) {
dev_dbg(ipc_imem->dev,
"no channel definition for index=%d ctype=%d", index,
ctype);
return -ECHRNG;
}
if (ipc_imem->channels[i].state != IMEM_CHANNEL_FREE) {
dev_dbg(ipc_imem->dev, "channel is in use");
return -EBUSY;
}
if (channel->ctype == IPC_CTYPE_WWAN &&
index == IPC_MEM_MUX_IP_CH_IF_ID)
channel->if_id = index;
channel->channel_id = index;
channel->state = IMEM_CHANNEL_RESERVED;
return i;
}
void ipc_imem_channel_init(struct iosm_imem *ipc_imem, enum ipc_ctype ctype,
struct ipc_chnl_cfg chnl_cfg, u32 irq_moderation)
{
struct ipc_mem_channel *channel;
if (chnl_cfg.ul_pipe >= IPC_MEM_MAX_PIPES ||
chnl_cfg.dl_pipe >= IPC_MEM_MAX_PIPES) {
dev_err(ipc_imem->dev, "invalid pipe: ul_pipe=%d, dl_pipe=%d",
chnl_cfg.ul_pipe, chnl_cfg.dl_pipe);
return;
}
if (ipc_imem->nr_of_channels >= IPC_MEM_MAX_CHANNELS) {
dev_err(ipc_imem->dev, "too many channels");
return;
}
channel = &ipc_imem->channels[ipc_imem->nr_of_channels];
channel->channel_id = ipc_imem->nr_of_channels;
channel->ctype = ctype;
channel->index = chnl_cfg.id;
channel->net_err_count = 0;
channel->state = IMEM_CHANNEL_FREE;
ipc_imem->nr_of_channels++;
ipc_imem_channel_update(ipc_imem, channel->channel_id, chnl_cfg,
IRQ_MOD_OFF);
skb_queue_head_init(&channel->ul_list);
init_completion(&channel->ul_sem);
}
void ipc_imem_channel_update(struct iosm_imem *ipc_imem, int id,
struct ipc_chnl_cfg chnl_cfg, u32 irq_moderation)
{
struct ipc_mem_channel *channel;
if (id < 0 || id >= ipc_imem->nr_of_channels) {
dev_err(ipc_imem->dev, "invalid channel id %d", id);
return;
}
channel = &ipc_imem->channels[id];
if (channel->state != IMEM_CHANNEL_FREE &&
channel->state != IMEM_CHANNEL_RESERVED) {
dev_err(ipc_imem->dev, "invalid channel state %d",
channel->state);
return;
}
channel->ul_pipe.nr_of_entries = chnl_cfg.ul_nr_of_entries;
channel->ul_pipe.pipe_nr = chnl_cfg.ul_pipe;
channel->ul_pipe.is_open = false;
channel->ul_pipe.irq = IPC_UL_PIPE_IRQ_VECTOR;
channel->ul_pipe.channel = channel;
channel->ul_pipe.dir = IPC_MEM_DIR_UL;
channel->ul_pipe.accumulation_backoff = chnl_cfg.accumulation_backoff;
channel->ul_pipe.irq_moderation = irq_moderation;
channel->ul_pipe.buf_size = 0;
channel->dl_pipe.nr_of_entries = chnl_cfg.dl_nr_of_entries;
channel->dl_pipe.pipe_nr = chnl_cfg.dl_pipe;
channel->dl_pipe.is_open = false;
channel->dl_pipe.irq = IPC_DL_PIPE_IRQ_VECTOR;
channel->dl_pipe.channel = channel;
channel->dl_pipe.dir = IPC_MEM_DIR_DL;
channel->dl_pipe.accumulation_backoff = chnl_cfg.accumulation_backoff;
channel->dl_pipe.irq_moderation = irq_moderation;
channel->dl_pipe.buf_size = chnl_cfg.dl_buf_size;
}
static void ipc_imem_channel_reset(struct iosm_imem *ipc_imem)
{
int i;
for (i = 0; i < ipc_imem->nr_of_channels; i++) {
struct ipc_mem_channel *channel;
channel = &ipc_imem->channels[i];
ipc_imem_pipe_cleanup(ipc_imem, &channel->dl_pipe);
ipc_imem_pipe_cleanup(ipc_imem, &channel->ul_pipe);
ipc_imem_channel_free(channel);
}
}
void ipc_imem_pipe_cleanup(struct iosm_imem *ipc_imem, struct ipc_pipe *pipe)
{
struct sk_buff *skb;
/* Force pipe to closed state also when not explicitly closed through
* ipc_imem_pipe_close()
*/
pipe->is_open = false;
/* Empty the uplink skb accumulator. */
while ((skb = skb_dequeue(&pipe->channel->ul_list)))
ipc_pcie_kfree_skb(ipc_imem->pcie, skb);
ipc_protocol_pipe_cleanup(ipc_imem->ipc_protocol, pipe);
}
/* Send IPC protocol uninit to the modem when Link is active. */
static void ipc_imem_device_ipc_uninit(struct iosm_imem *ipc_imem)
{
int timeout = IPC_MODEM_UNINIT_TIMEOUT_MS;
enum ipc_mem_device_ipc_state ipc_state;
/* When PCIe link is up set IPC_UNINIT
* of the modem otherwise ignore it when PCIe link down happens.
*/
if (ipc_pcie_check_data_link_active(ipc_imem->pcie)) {
/* set modem to UNINIT
* (in case we want to reload the AP driver without resetting
* the modem)
*/
ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC,
IPC_MEM_DEVICE_IPC_UNINIT);
ipc_state = ipc_mmio_get_ipc_state(ipc_imem->mmio);
/* Wait for maximum 30ms to allow the Modem to uninitialize the
* protocol.
*/
while ((ipc_state <= IPC_MEM_DEVICE_IPC_DONT_CARE) &&
(ipc_state != IPC_MEM_DEVICE_IPC_UNINIT) &&
(timeout > 0)) {
usleep_range(1000, 1250);
timeout--;
ipc_state = ipc_mmio_get_ipc_state(ipc_imem->mmio);
}
}
}
void ipc_imem_cleanup(struct iosm_imem *ipc_imem)
{
ipc_imem->phase = IPC_P_OFF_REQ;
/* forward MDM_NOT_READY to listeners */
ipc_uevent_send(ipc_imem->dev, UEVENT_MDM_NOT_READY);
hrtimer_cancel(&ipc_imem->td_alloc_timer);
hrtimer_cancel(&ipc_imem->tdupdate_timer);
hrtimer_cancel(&ipc_imem->fast_update_timer);
hrtimer_cancel(&ipc_imem->startup_timer);
/* cancel the workqueue */
cancel_work_sync(&ipc_imem->run_state_worker);
if (test_and_clear_bit(FULLY_FUNCTIONAL, &ipc_imem->flag)) {
ipc_mux_deinit(ipc_imem->mux);
ipc_wwan_deinit(ipc_imem->wwan);
ipc_port_deinit(ipc_imem->ipc_port);
}
if (ipc_imem->ipc_devlink)
ipc_devlink_deinit(ipc_imem->ipc_devlink);
ipc_imem_device_ipc_uninit(ipc_imem);
ipc_imem_channel_reset(ipc_imem);
ipc_protocol_deinit(ipc_imem->ipc_protocol);
ipc_task_deinit(ipc_imem->ipc_task);
kfree(ipc_imem->ipc_task);
kfree(ipc_imem->mmio);
ipc_imem->phase = IPC_P_OFF;
}
/* After CP has unblocked the PCIe link, save the start address of the doorbell
* scratchpad and prepare the shared memory region. If the flashing to RAM
* procedure shall be executed, copy the chip information from the doorbell
* scratchtpad to the application buffer and wake up the flash app.
*/
static int ipc_imem_config(struct iosm_imem *ipc_imem)
{
enum ipc_phase phase;
/* Initialize the semaphore for the blocking read UL/DL transfer. */
init_completion(&ipc_imem->ul_pend_sem);
init_completion(&ipc_imem->dl_pend_sem);
/* clear internal flags */
ipc_imem->ipc_status = IPC_MEM_DEVICE_IPC_UNINIT;
ipc_imem->enter_runtime = 0;
phase = ipc_imem_phase_update(ipc_imem);
/* Either CP shall be in the power off or power on phase. */
switch (phase) {
case IPC_P_ROM:
ipc_imem->hrtimer_period = ktime_set(0, 1000 * 1000 * 1000ULL);
/* poll execution stage (for delayed start, e.g. NAND) */
if (!hrtimer_active(&ipc_imem->startup_timer))
hrtimer_start(&ipc_imem->startup_timer,
ipc_imem->hrtimer_period,
HRTIMER_MODE_REL);
return 0;
case IPC_P_PSI:
case IPC_P_EBL:
case IPC_P_RUN:
/* The initial IPC state is IPC_MEM_DEVICE_IPC_UNINIT. */
ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_UNINIT;
/* Verify the exepected initial state. */
if (ipc_imem->ipc_requested_state ==
ipc_mmio_get_ipc_state(ipc_imem->mmio)) {
ipc_imem_ipc_init_check(ipc_imem);
return 0;
}
dev_err(ipc_imem->dev,
"ipc_status(%d) != IPC_MEM_DEVICE_IPC_UNINIT",
ipc_mmio_get_ipc_state(ipc_imem->mmio));
break;
case IPC_P_CRASH:
case IPC_P_CD_READY:
dev_dbg(ipc_imem->dev,
"Modem is in phase %d, reset Modem to collect CD",
phase);
return 0;
default:
dev_err(ipc_imem->dev, "unexpected operation phase %d", phase);
break;
}
complete(&ipc_imem->dl_pend_sem);
complete(&ipc_imem->ul_pend_sem);
ipc_imem->phase = IPC_P_OFF;
return -EIO;
}
/* Pass the dev ptr to the shared memory driver and request the entry points */
struct iosm_imem *ipc_imem_init(struct iosm_pcie *pcie, unsigned int device_id,
void __iomem *mmio, struct device *dev)
{
struct iosm_imem *ipc_imem = kzalloc(sizeof(*pcie->imem), GFP_KERNEL);
enum ipc_mem_exec_stage stage;
if (!ipc_imem)
return NULL;
/* Save the device address. */
ipc_imem->pcie = pcie;
ipc_imem->dev = dev;
ipc_imem->pci_device_id = device_id;
ipc_imem->ev_cdev_write_pending = false;
ipc_imem->cp_version = 0;
ipc_imem->device_sleep = IPC_HOST_SLEEP_ENTER_SLEEP;
/* Reset the max number of configured channels */
ipc_imem->nr_of_channels = 0;
/* allocate IPC MMIO */
ipc_imem->mmio = ipc_mmio_init(mmio, ipc_imem->dev);
if (!ipc_imem->mmio) {
dev_err(ipc_imem->dev, "failed to initialize mmio region");
goto mmio_init_fail;
}
ipc_imem->ipc_task = kzalloc(sizeof(*ipc_imem->ipc_task),
GFP_KERNEL);
/* Create tasklet for event handling*/
if (!ipc_imem->ipc_task)
goto ipc_task_fail;
if (ipc_task_init(ipc_imem->ipc_task))
goto ipc_task_init_fail;
ipc_imem->ipc_task->dev = ipc_imem->dev;
INIT_WORK(&ipc_imem->run_state_worker, ipc_imem_run_state_worker);
ipc_imem->ipc_protocol = ipc_protocol_init(ipc_imem);
if (!ipc_imem->ipc_protocol)
goto protocol_init_fail;
/* The phase is set to power off. */
ipc_imem->phase = IPC_P_OFF;
hrtimer_init(&ipc_imem->startup_timer, CLOCK_MONOTONIC,
HRTIMER_MODE_REL);
ipc_imem->startup_timer.function = ipc_imem_startup_timer_cb;
hrtimer_init(&ipc_imem->tdupdate_timer, CLOCK_MONOTONIC,
HRTIMER_MODE_REL);
ipc_imem->tdupdate_timer.function = ipc_imem_td_update_timer_cb;
hrtimer_init(&ipc_imem->fast_update_timer, CLOCK_MONOTONIC,
HRTIMER_MODE_REL);
ipc_imem->fast_update_timer.function = ipc_imem_fast_update_timer_cb;
hrtimer_init(&ipc_imem->td_alloc_timer, CLOCK_MONOTONIC,
HRTIMER_MODE_REL);
ipc_imem->td_alloc_timer.function = ipc_imem_td_alloc_timer_cb;
if (ipc_imem_config(ipc_imem)) {
dev_err(ipc_imem->dev, "failed to initialize the imem");
goto imem_config_fail;
}
stage = ipc_mmio_get_exec_stage(ipc_imem->mmio);
if (stage == IPC_MEM_EXEC_STAGE_BOOT) {
/* Alloc and Register devlink */
ipc_imem->ipc_devlink = ipc_devlink_init(ipc_imem);
if (!ipc_imem->ipc_devlink) {
dev_err(ipc_imem->dev, "Devlink register failed");
goto imem_config_fail;
}
if (ipc_flash_link_establish(ipc_imem))
goto devlink_channel_fail;
}
return ipc_imem;
devlink_channel_fail:
ipc_devlink_deinit(ipc_imem->ipc_devlink);
imem_config_fail:
hrtimer_cancel(&ipc_imem->td_alloc_timer);
hrtimer_cancel(&ipc_imem->fast_update_timer);
hrtimer_cancel(&ipc_imem->tdupdate_timer);
hrtimer_cancel(&ipc_imem->startup_timer);
protocol_init_fail:
cancel_work_sync(&ipc_imem->run_state_worker);
ipc_task_deinit(ipc_imem->ipc_task);
ipc_task_init_fail:
kfree(ipc_imem->ipc_task);
ipc_task_fail:
kfree(ipc_imem->mmio);
mmio_init_fail:
kfree(ipc_imem);
return NULL;
}
void ipc_imem_irq_process(struct iosm_imem *ipc_imem, int irq)
{
/* Debounce IPC_EV_IRQ. */
if (ipc_imem && !ipc_imem->ev_irq_pending[irq]) {
ipc_imem->ev_irq_pending[irq] = true;
ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_irq_cb, irq,
NULL, 0, false);
}
}
void ipc_imem_td_update_timer_suspend(struct iosm_imem *ipc_imem, bool suspend)
{
ipc_imem->td_update_timer_suspended = suspend;
}
/* Verify the CP execution state, copy the chip info,
* change the execution phase to ROM
*/
static int ipc_imem_devlink_trigger_chip_info_cb(struct iosm_imem *ipc_imem,
int arg, void *msg,
size_t msgsize)
{
enum ipc_mem_exec_stage stage;
struct sk_buff *skb;
int rc = -EINVAL;
size_t size;
/* Test the CP execution state. */
stage = ipc_mmio_get_exec_stage(ipc_imem->mmio);
if (stage != IPC_MEM_EXEC_STAGE_BOOT) {
dev_err(ipc_imem->dev,
"Execution_stage: expected BOOT, received = %X", stage);
goto trigger_chip_info_fail;
}
/* Allocate a new sk buf for the chip info. */
size = ipc_imem->mmio->chip_info_size;
if (size > IOSM_CHIP_INFO_SIZE_MAX)
goto trigger_chip_info_fail;
skb = ipc_pcie_alloc_local_skb(ipc_imem->pcie, GFP_ATOMIC, size);
if (!skb) {
dev_err(ipc_imem->dev, "exhausted skbuf kernel DL memory");
rc = -ENOMEM;
goto trigger_chip_info_fail;
}
/* Copy the chip info characters into the ipc_skb. */
ipc_mmio_copy_chip_info(ipc_imem->mmio, skb_put(skb, size), size);
/* First change to the ROM boot phase. */
dev_dbg(ipc_imem->dev, "execution_stage[%X] eq. BOOT", stage);
ipc_imem->phase = ipc_imem_phase_update(ipc_imem);
ipc_imem_sys_devlink_notify_rx(ipc_imem->ipc_devlink, skb);
rc = 0;
trigger_chip_info_fail:
return rc;
}
int ipc_imem_devlink_trigger_chip_info(struct iosm_imem *ipc_imem)
{
return ipc_task_queue_send_task(ipc_imem,
ipc_imem_devlink_trigger_chip_info_cb,
0, NULL, 0, true);
}
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