163 lines
6.5 KiB
C
163 lines
6.5 KiB
C
// Copyright 2021 Nick Brassel (@tzarc)
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include <stddef.h>
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#include <timer.h>
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#include <deferred_exec.h>
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#ifndef MAX_DEFERRED_EXECUTORS
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# define MAX_DEFERRED_EXECUTORS 8
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#endif
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//------------------------------------
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// Helpers
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//
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static deferred_token current_token = 0;
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static inline bool token_can_be_used(deferred_executor_t *table, size_t table_count, deferred_token token) {
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if (token == INVALID_DEFERRED_TOKEN) {
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return false;
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}
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for (int i = 0; i < table_count; ++i) {
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if (table[i].token == token) {
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return false;
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}
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}
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return true;
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}
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static inline deferred_token allocate_token(deferred_executor_t *table, size_t table_count) {
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deferred_token first = ++current_token;
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while (!token_can_be_used(table, table_count, current_token)) {
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++current_token;
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if (current_token == first) {
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// If we've looped back around to the first, everything is already allocated (yikes!). Need to exit with a failure.
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return INVALID_DEFERRED_TOKEN;
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}
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}
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return current_token;
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}
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//------------------------------------
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// Advanced API: used when a custom-allocated table is used, primarily for core code.
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//
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deferred_token defer_exec_advanced(deferred_executor_t *table, size_t table_count, uint32_t delay_ms, deferred_exec_callback callback, void *cb_arg) {
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// Ignore queueing if the table isn't valid, it's a zero-time delay, or the token is not valid
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if (!table || table_count == 0 || delay_ms == 0 || !callback) {
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return INVALID_DEFERRED_TOKEN;
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}
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// Find an unused slot and claim it
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for (int i = 0; i < table_count; ++i) {
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deferred_executor_t *entry = &table[i];
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if (entry->token == INVALID_DEFERRED_TOKEN) {
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// Work out the new token value, dropping out if none were available
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deferred_token token = allocate_token(table, table_count);
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if (token == INVALID_DEFERRED_TOKEN) {
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return false;
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}
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// Set up the executor table entry
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entry->token = current_token;
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entry->trigger_time = timer_read32() + delay_ms;
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entry->callback = callback;
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entry->cb_arg = cb_arg;
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return current_token;
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}
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}
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// None available
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return INVALID_DEFERRED_TOKEN;
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}
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bool extend_deferred_exec_advanced(deferred_executor_t *table, size_t table_count, deferred_token token, uint32_t delay_ms) {
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// Ignore queueing if the table isn't valid, it's a zero-time delay, or the token is not valid
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if (!table || table_count == 0 || delay_ms == 0 || token == INVALID_DEFERRED_TOKEN) {
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return false;
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}
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// Find the entry corresponding to the token
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for (int i = 0; i < table_count; ++i) {
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deferred_executor_t *entry = &table[i];
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if (entry->token == token) {
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// Found it, extend the delay
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entry->trigger_time = timer_read32() + delay_ms;
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return true;
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}
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}
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// Not found
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return false;
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}
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bool cancel_deferred_exec_advanced(deferred_executor_t *table, size_t table_count, deferred_token token) {
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// Ignore request if the table/token are not valid
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if (!table || table_count == 0 || token == INVALID_DEFERRED_TOKEN) {
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return false;
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}
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// Find the entry corresponding to the token
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for (int i = 0; i < table_count; ++i) {
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deferred_executor_t *entry = &table[i];
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if (entry->token == token) {
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// Found it, cancel and clear the table entry
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entry->token = INVALID_DEFERRED_TOKEN;
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entry->trigger_time = 0;
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entry->callback = NULL;
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entry->cb_arg = NULL;
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return true;
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}
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}
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// Not found
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return false;
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}
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void deferred_exec_advanced_task(deferred_executor_t *table, size_t table_count, uint32_t *last_execution_time) {
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uint32_t now = timer_read32();
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// Throttle only once per millisecond
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if (((int32_t)TIMER_DIFF_32(now, (*last_execution_time))) > 0) {
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*last_execution_time = now;
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// Run through each of the executors
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for (int i = 0; i < table_count; ++i) {
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deferred_executor_t *entry = &table[i];
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// Check if we're supposed to execute this entry
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if (entry->token != INVALID_DEFERRED_TOKEN && ((int32_t)TIMER_DIFF_32(entry->trigger_time, now)) <= 0) {
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// Invoke the callback and work work out if we should be requeued
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uint32_t delay_ms = entry->callback(entry->trigger_time, entry->cb_arg);
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// Update the trigger time if we have to repeat, otherwise clear it out
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if (delay_ms > 0) {
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// Intentionally add just the delay to the existing trigger time -- this ensures the next
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// invocation is with respect to the previous trigger, rather than when it got to execution. Under
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// normal circumstances this won't cause issue, but if another executor is invoked that takes a
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// considerable length of time, then this ensures best-effort timing between invocations.
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entry->trigger_time += delay_ms;
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} else {
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// If it was zero, then the callback is cancelling repeated execution. Free up the slot.
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entry->token = INVALID_DEFERRED_TOKEN;
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entry->trigger_time = 0;
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entry->callback = NULL;
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entry->cb_arg = NULL;
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}
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}
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}
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}
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}
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//------------------------------------
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// Basic API: used by user-mode code, guaranteed to not collide with core deferred execution
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//
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static uint32_t last_deferred_exec_check = 0;
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static deferred_executor_t basic_executors[MAX_DEFERRED_EXECUTORS] = {0};
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deferred_token defer_exec(uint32_t delay_ms, deferred_exec_callback callback, void *cb_arg) { return defer_exec_advanced(basic_executors, MAX_DEFERRED_EXECUTORS, delay_ms, callback, cb_arg); }
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bool extend_deferred_exec(deferred_token token, uint32_t delay_ms) { return extend_deferred_exec_advanced(basic_executors, MAX_DEFERRED_EXECUTORS, token, delay_ms); }
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bool cancel_deferred_exec(deferred_token token) { return cancel_deferred_exec_advanced(basic_executors, MAX_DEFERRED_EXECUTORS, token); }
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void deferred_exec_task(void) { deferred_exec_advanced_task(basic_executors, MAX_DEFERRED_EXECUTORS, &last_deferred_exec_check); }
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