Advanced deferred_exec for core-side code. (#15579)
parent
05b6fbb1f5
commit
0c402157fc
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@ -9,32 +9,27 @@
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# define MAX_DEFERRED_EXECUTORS 8
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# define MAX_DEFERRED_EXECUTORS 8
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#endif
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#endif
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typedef struct deferred_executor_t {
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//------------------------------------
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deferred_token token;
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// Helpers
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uint32_t trigger_time;
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//
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deferred_exec_callback callback;
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void * cb_arg;
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} deferred_executor_t;
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static deferred_token current_token = 0;
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static deferred_token current_token = 0;
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static uint32_t last_deferred_exec_check = 0;
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static deferred_executor_t executors[MAX_DEFERRED_EXECUTORS] = {0};
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static inline bool token_can_be_used(deferred_token token) {
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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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if (token == INVALID_DEFERRED_TOKEN) {
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return false;
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return false;
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}
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}
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for (int i = 0; i < MAX_DEFERRED_EXECUTORS; ++i) {
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for (int i = 0; i < table_count; ++i) {
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if (executors[i].token == token) {
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if (table[i].token == token) {
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return false;
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return false;
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}
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}
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}
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}
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return true;
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return true;
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}
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}
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static inline deferred_token allocate_token(void) {
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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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deferred_token first = ++current_token;
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while (!token_can_be_used(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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++current_token;
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if (current_token == first) {
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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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// If we've looped back around to the first, everything is already allocated (yikes!). Need to exit with a failure.
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@ -44,18 +39,22 @@ static inline deferred_token allocate_token(void) {
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return current_token;
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return current_token;
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}
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}
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deferred_token defer_exec(uint32_t delay_ms, deferred_exec_callback callback, void *cb_arg) {
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//------------------------------------
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// Ignore queueing if it's a zero-time delay, or invalid callback
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// Advanced API: used when a custom-allocated table is used, primarily for core code.
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if (delay_ms == 0 || !callback) {
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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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return INVALID_DEFERRED_TOKEN;
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}
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}
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// Find an unused slot and claim it
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// Find an unused slot and claim it
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for (int i = 0; i < MAX_DEFERRED_EXECUTORS; ++i) {
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for (int i = 0; i < table_count; ++i) {
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deferred_executor_t *entry = &executors[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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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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// Work out the new token value, dropping out if none were available
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deferred_token token = allocate_token();
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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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if (token == INVALID_DEFERRED_TOKEN) {
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return false;
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return false;
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}
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}
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@ -73,15 +72,15 @@ deferred_token defer_exec(uint32_t delay_ms, deferred_exec_callback callback, vo
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return INVALID_DEFERRED_TOKEN;
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return INVALID_DEFERRED_TOKEN;
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}
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}
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bool extend_deferred_exec(deferred_token token, uint32_t delay_ms) {
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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 it's a zero-time delay, or the token is not valid
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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 (delay_ms == 0 || token == INVALID_DEFERRED_TOKEN) {
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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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return false;
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}
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}
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// Find the entry corresponding to the token
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// Find the entry corresponding to the token
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for (int i = 0; i < MAX_DEFERRED_EXECUTORS; ++i) {
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for (int i = 0; i < table_count; ++i) {
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deferred_executor_t *entry = &executors[i];
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deferred_executor_t *entry = &table[i];
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if (entry->token == token) {
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if (entry->token == token) {
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// Found it, extend the delay
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// Found it, extend the delay
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entry->trigger_time = timer_read32() + delay_ms;
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entry->trigger_time = timer_read32() + delay_ms;
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@ -93,15 +92,15 @@ bool extend_deferred_exec(deferred_token token, uint32_t delay_ms) {
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return false;
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return false;
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}
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}
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bool cancel_deferred_exec(deferred_token token) {
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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 token is not valid
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// Ignore request if the table/token are not valid
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if (token == INVALID_DEFERRED_TOKEN) {
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if (!table || table_count == 0 || token == INVALID_DEFERRED_TOKEN) {
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return false;
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return false;
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}
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}
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// Find the entry corresponding to the token
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// Find the entry corresponding to the token
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for (int i = 0; i < MAX_DEFERRED_EXECUTORS; ++i) {
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for (int i = 0; i < table_count; ++i) {
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deferred_executor_t *entry = &executors[i];
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deferred_executor_t *entry = &table[i];
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if (entry->token == token) {
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if (entry->token == token) {
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// Found it, cancel and clear the table entry
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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->token = INVALID_DEFERRED_TOKEN;
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@ -116,16 +115,16 @@ bool cancel_deferred_exec(deferred_token token) {
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return false;
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return false;
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}
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}
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void deferred_exec_task(void) {
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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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uint32_t now = timer_read32();
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// Throttle only once per millisecond
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// Throttle only once per millisecond
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if (((int32_t)TIMER_DIFF_32(now, last_deferred_exec_check)) > 0) {
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if (((int32_t)TIMER_DIFF_32(now, (*last_execution_time))) > 0) {
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last_deferred_exec_check = now;
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*last_execution_time = now;
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// Run through each of the executors
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// Run through each of the executors
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for (int i = 0; i < MAX_DEFERRED_EXECUTORS; ++i) {
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for (int i = 0; i < table_count; ++i) {
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deferred_executor_t *entry = &executors[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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// 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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if (entry->token != INVALID_DEFERRED_TOKEN && ((int32_t)TIMER_DIFF_32(entry->trigger_time, now)) <= 0) {
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@ -150,3 +149,15 @@ void deferred_exec_task(void) {
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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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//------------------------------------
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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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@ -5,34 +5,117 @@
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#include <stdbool.h>
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#include <stdbool.h>
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#include <stdint.h>
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#include <stdint.h>
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#include <stdlib.h>
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// A token that can be used to cancel an existing deferred execution.
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//------------------------------------
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// Common
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//------------------------------------
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/**
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* @typedef A token that can be used to cancel or extend an existing deferred execution.
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*/
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typedef uint8_t deferred_token;
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typedef uint8_t deferred_token;
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/**
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* @def The constant used to denote an invalid deferred execution token.
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*/
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#define INVALID_DEFERRED_TOKEN 0
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#define INVALID_DEFERRED_TOKEN 0
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// Callback to execute.
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/**
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// -- Parameter trigger_time: the intended trigger time to execute the callback -- equivalent time-space as timer_read32()
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* @typedef Callback to execute.
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// cb_arg: the callback argument specified when enqueueing the deferred executor
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* @param trigger_time[in] the intended trigger time to execute the callback -- equivalent time-space as timer_read32()
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// -- Return value: Non-zero re-queues the callback to execute after the returned number of milliseconds. Zero cancels repeated execution.
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* @param cb_arg[in] the callback argument specified when enqueueing the deferred executor
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* @return non-zero re-queues the callback to execute after the returned number of milliseconds. Zero cancels repeated execution.
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*/
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typedef uint32_t (*deferred_exec_callback)(uint32_t trigger_time, void *cb_arg);
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typedef uint32_t (*deferred_exec_callback)(uint32_t trigger_time, void *cb_arg);
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// Configures the supplied deferred executor to be executed after the required number of milliseconds.
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//------------------------------------
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// -- Parameter delay_ms: the number of milliseconds before executing the callback
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// Basic API: used by user-mode code, guaranteed to not collide with core deferred execution
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// -- callback: the executor to invoke
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//------------------------------------
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// -- cb_arg: the argument to pass to the executor, may be NULL if unused by the executor
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// -- Return value: a token usable for cancellation, or INVALID_DEFERRED_TOKEN if an error occurred
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/**
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* Configures the supplied deferred executor to be executed after the required number of milliseconds.
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*
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* @param delay_ms[in] the number of milliseconds before executing the callback
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* @param callback[in] the executor to invoke
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* @param cb_arg[in] the argument to pass to the executor, may be NULL if unused by the executor
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* @return a token usable for extension/cancellation, or INVALID_DEFERRED_TOKEN if an error occurred
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*/
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deferred_token defer_exec(uint32_t delay_ms, deferred_exec_callback callback, void *cb_arg);
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deferred_token defer_exec(uint32_t delay_ms, deferred_exec_callback callback, void *cb_arg);
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// Allows for extending the timeframe before an existing deferred execution is invoked.
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/**
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// -- Parameter token: the returned value from defer_exec for the deferred execution you wish to extend.
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* Allows for extending the timeframe before an existing deferred execution is invoked.
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// -- delay_ms: the new delay (with respect to the current time)
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*
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// -- Return value: if the token was found, and the delay was extended
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* @param token[in] the returned value from defer_exec for the deferred execution you wish to extend
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* @param delay_ms[in] the number of milliseconds before executing the callback
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* @return true if the token was extended successfully, otherwise false
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*/
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bool extend_deferred_exec(deferred_token token, uint32_t delay_ms);
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bool extend_deferred_exec(deferred_token token, uint32_t delay_ms);
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// Allows for cancellation of an existing deferred execution.
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/**
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// -- Parameter token: the returned value from defer_exec for the deferred execution you wish to cancel.
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* Allows for cancellation of an existing deferred execution.
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// -- Return value: if the token was found, and the executor was cancelled
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*
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* @param token[in] the returned value from defer_exec for the deferred execution you wish to cancel
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* @return true if the token was cancelled successfully, otherwise false
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*/
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bool cancel_deferred_exec(deferred_token token);
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bool cancel_deferred_exec(deferred_token token);
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// Forward declaration for the main loop in order to execute any deferred executors. Should not be invoked by keyboard/user code.
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/**
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* Forward declaration for the main loop in order to execute any deferred executors. Should not be invoked by keyboard/user code.
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*/
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void deferred_exec_task(void);
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void deferred_exec_task(void);
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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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/**
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* @struct Structure for containing self-hosted deferred executor tables.
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* @brief Core-side code can use this to create their own tables without impacting on the use of users' ability to add deferred execution.
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* Code outside deferred_exec.c should not worry about internals of this struct, and should just allocate the required number in an array.
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*/
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typedef struct deferred_executor_t {
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deferred_token token;
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uint32_t trigger_time;
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deferred_exec_callback callback;
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void * cb_arg;
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} deferred_executor_t;
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/**
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* Configures the supplied deferred executor to be executed after the required number of milliseconds.
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*
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* @param table[in] the custom table used for storage
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* @param table_count[in] the number of available items in the table
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* @param delay_ms[in] the number of milliseconds before executing the callback
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* @param callback[in] the executor to invoke
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* @param cb_arg[in] the argument to pass to the executor, may be NULL if unused by the executor
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* @return a token usable for extension/cancellation, or INVALID_DEFERRED_TOKEN if an error occurred
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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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/**
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* Allows for extending the timeframe before an existing deferred execution is invoked.
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*
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* @param token[in] the returned value from defer_exec for the deferred execution you wish to extend
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* @param delay_ms[in] the number of milliseconds before executing the callback
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* @return true if the token was extended successfully, otherwise false
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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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/**
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* Allows for cancellation of an existing deferred execution.
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*
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* @param token[in] the returned value from defer_exec for the deferred execution you wish to cancel
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* @return true if the token was cancelled successfully, otherwise 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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/**
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* Forward declaration for the main loop in order to execute any custom table deferred executors. Should not be invoked by keyboard/user code.
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* Needed for any custom-allocated deferred execution tables. Any core tasks should add appropriate invocation to quantum/main.c.
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*
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* @param table[in] the custom table used for storage
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* @param table_count[in] the number of available items in the table
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* @param last_execution_time[in,out] the last execution time -- this will be checked first to determine if execution is needed, and updated if execution occurred
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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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