Commit bd31b249 authored by Cristian Marussi's avatar Cristian Marussi Committed by Sudeep Holla

firmware: arm_scmi: Add notification dispatch and delivery

Add the core SCMI notifications dispatch and delivery support logic
which is able to dispatch well-known received events from the Rx
interrupt handler to the dedicated deferred worker. From there, it will
deliver the events to the registered users' callbacks.

Dispatch and delivery support is just added here, still not enabled.

Link: https://lore.kernel.org/r/20200701155348.52864-4-cristian.marussi@arm.comReviewed-by: default avatarJonathan Cameron <Jonathan.Cameron@huawei.com>
Signed-off-by: default avatarCristian Marussi <cristian.marussi@arm.com>
Signed-off-by: default avatarSudeep Holla <sudeep.holla@arm.com>
parent e7c215f3
......@@ -47,6 +47,27 @@
* as described in the SCMI Protocol specification, while src_id represents an
* optional, protocol dependent, source identifier (like domain_id, perf_id
* or sensor_id and so forth).
*
* Upon reception of a notification message from the platform the SCMI RX ISR
* passes the received message payload and some ancillary information (including
* an arrival timestamp in nanoseconds) to the core via @scmi_notify() which
* pushes the event-data itself on a protocol-dedicated kfifo queue for further
* deferred processing as specified in @scmi_events_dispatcher().
*
* Each protocol has it own dedicated work_struct and worker which, once kicked
* by the ISR, takes care to empty its own dedicated queue, deliverying the
* queued items into the proper notification-chain: notifications processing can
* proceed concurrently on distinct workers only between events belonging to
* different protocols while delivery of events within the same protocol is
* still strictly sequentially ordered by time of arrival.
*
* Events' information is then extracted from the SCMI Notification messages and
* conveyed, converted into a custom per-event report struct, as the void *data
* param to the user callback provided by the registered notifier_block, so that
* from the user perspective his callback will look invoked like:
*
* int user_cb(struct notifier_block *nb, unsigned long event_id, void *report)
*
*/
#define dev_fmt(fmt) "SCMI Notifications - " fmt
......@@ -67,6 +88,7 @@
#include <linux/scmi_protocol.h>
#include <linux/slab.h>
#include <linux/types.h>
#include <linux/workqueue.h>
#include "notify.h"
......@@ -164,6 +186,13 @@
#define REVT_NOTIFY_DISABLE(revt, eid, sid) \
REVT_NOTIFY_SET_STATUS((revt), (eid), (sid), false)
#define REVT_FILL_REPORT(revt, ...) \
({ \
typeof(revt) r = revt; \
r->proto->ops->fill_custom_report(r->proto->ni->handle, \
__VA_ARGS__); \
})
#define SCMI_PENDING_HASH_SZ 4
#define SCMI_REGISTERED_HASH_SZ 6
......@@ -175,6 +204,7 @@ struct scmi_registered_events_desc;
* @gid: GroupID used for devres
* @handle: A reference to the platform instance
* @init_work: A work item to perform final initializations of pending handlers
* @notify_wq: A reference to the allocated Kernel cmwq
* @pending_mtx: A mutex to protect @pending_events_handlers
* @registered_protocols: A statically allocated array containing pointers to
* all the registered protocol-level specific information
......@@ -189,6 +219,7 @@ struct scmi_notify_instance {
void *gid;
struct scmi_handle *handle;
struct work_struct init_work;
struct workqueue_struct *notify_wq;
/* lock to protect pending_events_handlers */
struct mutex pending_mtx;
struct scmi_registered_events_desc **registered_protocols;
......@@ -199,12 +230,16 @@ struct scmi_notify_instance {
* struct events_queue - Describes a queue and its associated worker
* @sz: Size in bytes of the related kfifo
* @kfifo: A dedicated Kernel kfifo descriptor
* @notify_work: A custom work item bound to this queue
* @wq: A reference to the associated workqueue
*
* Each protocol has its own dedicated events_queue descriptor.
*/
struct events_queue {
size_t sz;
struct kfifo kfifo;
struct work_struct notify_work;
struct workqueue_struct *wq;
};
/**
......@@ -328,9 +363,270 @@ struct scmi_event_handler {
#define IS_HNDL_PENDING(hndl) (!(hndl)->r_evt)
static struct scmi_event_handler *
scmi_get_active_handler(struct scmi_notify_instance *ni, u32 evt_key);
static void scmi_put_active_handler(struct scmi_notify_instance *ni,
struct scmi_event_handler *hndl);
static void scmi_put_handler_unlocked(struct scmi_notify_instance *ni,
struct scmi_event_handler *hndl);
/**
* scmi_lookup_and_call_event_chain() - Lookup the proper chain and call it
* @ni: A reference to the notification instance to use
* @evt_key: The key to use to lookup the related notification chain
* @report: The customized event-specific report to pass down to the callbacks
* as their *data parameter.
*/
static inline void
scmi_lookup_and_call_event_chain(struct scmi_notify_instance *ni,
u32 evt_key, void *report)
{
int ret;
struct scmi_event_handler *hndl;
/*
* Here ensure the event handler cannot vanish while using it.
* It is legitimate, though, for an handler not to be found at all here,
* e.g. when it has been unregistered by the user after some events had
* already been queued.
*/
hndl = scmi_get_active_handler(ni, evt_key);
if (!hndl)
return;
ret = blocking_notifier_call_chain(&hndl->chain,
KEY_XTRACT_EVT_ID(evt_key),
report);
/* Notifiers are NOT supposed to cut the chain ... */
WARN_ON_ONCE(ret & NOTIFY_STOP_MASK);
scmi_put_active_handler(ni, hndl);
}
/**
* scmi_process_event_header() - Dequeue and process an event header
* @eq: The queue to use
* @pd: The protocol descriptor to use
*
* Read an event header from the protocol queue into the dedicated scratch
* buffer and looks for a matching registered event; in case an anomalously
* sized read is detected just flush the queue.
*
* Return:
* * a reference to the matching registered event when found
* * ERR_PTR(-EINVAL) when NO registered event could be found
* * NULL when the queue is empty
*/
static inline struct scmi_registered_event *
scmi_process_event_header(struct events_queue *eq,
struct scmi_registered_events_desc *pd)
{
unsigned int outs;
struct scmi_registered_event *r_evt;
outs = kfifo_out(&eq->kfifo, pd->eh,
sizeof(struct scmi_event_header));
if (!outs)
return NULL;
if (outs != sizeof(struct scmi_event_header)) {
dev_err(pd->ni->handle->dev, "corrupted EVT header. Flush.\n");
kfifo_reset_out(&eq->kfifo);
return NULL;
}
r_evt = SCMI_GET_REVT_FROM_PD(pd, pd->eh->evt_id);
if (!r_evt)
r_evt = ERR_PTR(-EINVAL);
return r_evt;
}
/**
* scmi_process_event_payload() - Dequeue and process an event payload
* @eq: The queue to use
* @pd: The protocol descriptor to use
* @r_evt: The registered event descriptor to use
*
* Read an event payload from the protocol queue into the dedicated scratch
* buffer, fills a custom report and then look for matching event handlers and
* call them; skip any unknown event (as marked by scmi_process_event_header())
* and in case an anomalously sized read is detected just flush the queue.
*
* Return: False when the queue is empty
*/
static inline bool
scmi_process_event_payload(struct events_queue *eq,
struct scmi_registered_events_desc *pd,
struct scmi_registered_event *r_evt)
{
u32 src_id, key;
unsigned int outs;
void *report = NULL;
outs = kfifo_out(&eq->kfifo, pd->eh->payld, pd->eh->payld_sz);
if (!outs)
return false;
/* Any in-flight event has now been officially processed */
pd->in_flight = NULL;
if (outs != pd->eh->payld_sz) {
dev_err(pd->ni->handle->dev, "corrupted EVT Payload. Flush.\n");
kfifo_reset_out(&eq->kfifo);
return false;
}
if (IS_ERR(r_evt)) {
dev_warn(pd->ni->handle->dev,
"SKIP UNKNOWN EVT - proto:%X evt:%d\n",
pd->id, pd->eh->evt_id);
return true;
}
report = REVT_FILL_REPORT(r_evt, pd->eh->evt_id, pd->eh->timestamp,
pd->eh->payld, pd->eh->payld_sz,
r_evt->report, &src_id);
if (!report) {
dev_err(pd->ni->handle->dev,
"report not available - proto:%X evt:%d\n",
pd->id, pd->eh->evt_id);
return true;
}
/* At first search for a generic ALL src_ids handler... */
key = MAKE_ALL_SRCS_KEY(pd->id, pd->eh->evt_id);
scmi_lookup_and_call_event_chain(pd->ni, key, report);
/* ...then search for any specific src_id */
key = MAKE_HASH_KEY(pd->id, pd->eh->evt_id, src_id);
scmi_lookup_and_call_event_chain(pd->ni, key, report);
return true;
}
/**
* scmi_events_dispatcher() - Common worker logic for all work items.
* @work: The work item to use, which is associated to a dedicated events_queue
*
* Logic:
* 1. dequeue one pending RX notification (queued in SCMI RX ISR context)
* 2. generate a custom event report from the received event message
* 3. lookup for any registered ALL_SRC_IDs handler:
* - > call the related notification chain passing in the report
* 4. lookup for any registered specific SRC_ID handler:
* - > call the related notification chain passing in the report
*
* Note that:
* * a dedicated per-protocol kfifo queue is used: in this way an anomalous
* flood of events cannot saturate other protocols' queues.
* * each per-protocol queue is associated to a distinct work_item, which
* means, in turn, that:
* + all protocols can process their dedicated queues concurrently
* (since notify_wq:max_active != 1)
* + anyway at most one worker instance is allowed to run on the same queue
* concurrently: this ensures that we can have only one concurrent
* reader/writer on the associated kfifo, so that we can use it lock-less
*
* Context: Process context.
*/
static void scmi_events_dispatcher(struct work_struct *work)
{
struct events_queue *eq;
struct scmi_registered_events_desc *pd;
struct scmi_registered_event *r_evt;
eq = container_of(work, struct events_queue, notify_work);
pd = container_of(eq, struct scmi_registered_events_desc, equeue);
/*
* In order to keep the queue lock-less and the number of memcopies
* to the bare minimum needed, the dispatcher accounts for the
* possibility of per-protocol in-flight events: i.e. an event whose
* reception could end up being split across two subsequent runs of this
* worker, first the header, then the payload.
*/
do {
if (!pd->in_flight) {
r_evt = scmi_process_event_header(eq, pd);
if (!r_evt)
break;
pd->in_flight = r_evt;
} else {
r_evt = pd->in_flight;
}
} while (scmi_process_event_payload(eq, pd, r_evt));
}
/**
* scmi_notify() - Queues a notification for further deferred processing
* @handle: The handle identifying the platform instance from which the
* dispatched event is generated
* @proto_id: Protocol ID
* @evt_id: Event ID (msgID)
* @buf: Event Message Payload (without the header)
* @len: Event Message Payload size
* @ts: RX Timestamp in nanoseconds (boottime)
*
* Context: Called in interrupt context to queue a received event for
* deferred processing.
*
* Return: 0 on Success
*/
int scmi_notify(const struct scmi_handle *handle, u8 proto_id, u8 evt_id,
const void *buf, size_t len, u64 ts)
{
struct scmi_registered_event *r_evt;
struct scmi_event_header eh;
struct scmi_notify_instance *ni;
/* Ensure notify_priv is updated */
smp_rmb();
if (!handle->notify_priv)
return 0;
ni = handle->notify_priv;
r_evt = SCMI_GET_REVT(ni, proto_id, evt_id);
if (!r_evt)
return -EINVAL;
if (len > r_evt->evt->max_payld_sz) {
dev_err(handle->dev, "discard badly sized message\n");
return -EINVAL;
}
if (kfifo_avail(&r_evt->proto->equeue.kfifo) < sizeof(eh) + len) {
dev_warn(handle->dev,
"queue full, dropping proto_id:%d evt_id:%d ts:%lld\n",
proto_id, evt_id, ts);
return -ENOMEM;
}
eh.timestamp = ts;
eh.evt_id = evt_id;
eh.payld_sz = len;
/*
* Header and payload are enqueued with two distinct kfifo_in() (so non
* atomic), but this situation is handled properly on the consumer side
* with in-flight events tracking.
*/
kfifo_in(&r_evt->proto->equeue.kfifo, &eh, sizeof(eh));
kfifo_in(&r_evt->proto->equeue.kfifo, buf, len);
/*
* Don't care about return value here since we just want to ensure that
* a work is queued all the times whenever some items have been pushed
* on the kfifo:
* - if work was already queued it will simply fail to queue a new one
* since it is not needed
* - if work was not queued already it will be now, even in case work
* was in fact already running: this behavior avoids any possible race
* when this function pushes new items onto the kfifos after the
* related executing worker had already determined the kfifo to be
* empty and it was terminating.
*/
queue_work(r_evt->proto->equeue.wq,
&r_evt->proto->equeue.notify_work);
return 0;
}
/**
* scmi_kfifo_free() - Devres action helper to free the kfifo
* @kfifo: The kfifo to free
......@@ -353,13 +649,22 @@ static void scmi_kfifo_free(void *kfifo)
static int scmi_initialize_events_queue(struct scmi_notify_instance *ni,
struct events_queue *equeue, size_t sz)
{
int ret;
if (kfifo_alloc(&equeue->kfifo, sz, GFP_KERNEL))
return -ENOMEM;
/* Size could have been roundup to power-of-two */
equeue->sz = kfifo_size(&equeue->kfifo);
return devm_add_action_or_reset(ni->handle->dev, scmi_kfifo_free,
ret = devm_add_action_or_reset(ni->handle->dev, scmi_kfifo_free,
&equeue->kfifo);
if (ret)
return ret;
INIT_WORK(&equeue->notify_work, scmi_events_dispatcher);
equeue->wq = ni->notify_wq;
return ret;
}
/**
......@@ -758,6 +1063,37 @@ scmi_get_or_create_handler(struct scmi_notify_instance *ni, u32 evt_key)
return __scmi_event_handler_get_ops(ni, evt_key, true);
}
/**
* scmi_get_active_handler() - Helper to get active handlers only
* @ni: A reference to the notification instance to use
* @evt_key: The event key to use
*
* Search for the desired handler matching the key only in the per-protocol
* table of registered handlers: this is called only from the dispatching path
* so want to be as quick as possible and do not care about pending.
*
* Return: A properly refcounted active handler
*/
static struct scmi_event_handler *
scmi_get_active_handler(struct scmi_notify_instance *ni, u32 evt_key)
{
struct scmi_registered_event *r_evt;
struct scmi_event_handler *hndl = NULL;
r_evt = SCMI_GET_REVT(ni, KEY_XTRACT_PROTO_ID(evt_key),
KEY_XTRACT_EVT_ID(evt_key));
if (r_evt) {
mutex_lock(&r_evt->proto->registered_mtx);
hndl = KEY_FIND(r_evt->proto->registered_events_handlers,
hndl, evt_key);
if (hndl)
refcount_inc(&hndl->users);
mutex_unlock(&r_evt->proto->registered_mtx);
}
return hndl;
}
/**
* __scmi_enable_evt() - Enable/disable events generation
* @r_evt: The registered event to act upon
......@@ -883,6 +1219,16 @@ static void scmi_put_handler(struct scmi_notify_instance *ni,
mutex_unlock(&ni->pending_mtx);
}
static void scmi_put_active_handler(struct scmi_notify_instance *ni,
struct scmi_event_handler *hndl)
{
struct scmi_registered_event *r_evt = hndl->r_evt;
mutex_lock(&r_evt->proto->registered_mtx);
scmi_put_handler_unlocked(ni, hndl);
mutex_unlock(&r_evt->proto->registered_mtx);
}
/**
* scmi_event_handler_enable_events() - Enable events associated to an handler
* @hndl: The Event handler to act upon
......@@ -1121,6 +1467,12 @@ int scmi_notification_init(struct scmi_handle *handle)
ni->gid = gid;
ni->handle = handle;
ni->notify_wq = alloc_workqueue("scmi_notify",
WQ_UNBOUND | WQ_FREEZABLE | WQ_SYSFS,
0);
if (!ni->notify_wq)
goto err;
ni->registered_protocols = devm_kcalloc(handle->dev, SCMI_MAX_PROTO,
sizeof(char *), GFP_KERNEL);
if (!ni->registered_protocols)
......@@ -1162,5 +1514,12 @@ void scmi_notification_exit(struct scmi_handle *handle)
return;
ni = handle->notify_priv;
handle->notify_priv = NULL;
/* Ensure handle is up to date */
smp_wmb();
/* Destroy while letting pending work complete */
destroy_workqueue(ni->notify_wq);
devres_release_group(ni->handle->dev, ni->gid);
}
......@@ -35,6 +35,11 @@ struct scmi_event {
* @set_notify_enabled: Enable/disable the required evt_id/src_id notifications
* using the proper custom protocol commands.
* Return 0 on Success
* @fill_custom_report: fills a custom event report from the provided
* event message payld identifying the event
* specific src_id.
* Return NULL on failure otherwise @report now fully
* populated
*
* Context: Helpers described in &struct scmi_event_ops are called only in
* process context.
......@@ -42,6 +47,9 @@ struct scmi_event {
struct scmi_event_ops {
int (*set_notify_enabled)(const struct scmi_handle *handle,
u8 evt_id, u32 src_id, bool enabled);
void *(*fill_custom_report)(const struct scmi_handle *handle,
u8 evt_id, u64 timestamp, const void *payld,
size_t payld_sz, void *report, u32 *src_id);
};
int scmi_notification_init(struct scmi_handle *handle);
......@@ -52,5 +60,7 @@ int scmi_register_protocol_events(const struct scmi_handle *handle,
const struct scmi_event_ops *ops,
const struct scmi_event *evt, int num_events,
int num_sources);
int scmi_notify(const struct scmi_handle *handle, u8 proto_id, u8 evt_id,
const void *buf, size_t len, u64 ts);
#endif /* _SCMI_NOTIFY_H */
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