feat: smp_call: added signaling call_req
This patch introduces `rt_smp_call_request` API to handle queued requests across cores with user provided data buffer, which provides a way to request IPI through a non-blocking pattern. It also resolved several issues in the old implementation: - Multiple requests from different cores can not be queued in the work object of the target core. - Data racing on `rt_smp_work` of same core. If multiple requests came in turns, or if the call is used by the target cpu, while a new request is coming, the value will be overwrite. - Memory vulnerability. The rt_smp_event is allocated on stack, though the caller may not wait until the call is done. - API naming problem. Actually we don't provide a way to issue an IPI to ANY core in mask. What the API do is aligned to MANY pattern. - FUNC_IPI registering to PIC. Changes: - Declared and configured the new `RT_SMP_CALL_IPI` to support functional IPIs for task requests across cores. - Replaced the single `rt_smp_work` array with `call_req_cores` to manage per-core call requests safely. - Added `_call_req_take` and `_call_req_release` functions for atomic handling of request lifetimes, preventing data race conditions. - Replaced single event handling with a queue-based approach (`call_queue`) for efficient multi-request processing per core. - Introduced `rt_smp_call_ipi_handler` to process queued requests, reducing IPI contention by only sending new requests when needed. - Implemented `_smp_call_remote_request` to handle remote requests with specific flags, enabling more flexible core-to-core task signaling. - Refined `rt_smp_call_req_init` to initialize and track requests with atomic usage flags, mitigating potential memory vulnerabilities. Signed-off-by: Shell <smokewood@qq.com>
This commit is contained in:
parent
ca9aa271a2
commit
733109996a
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@ -71,8 +71,9 @@ void gic_common_sgi_config(void *base, void *data, int irq_base)
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pirq = rt_pic_find_ipi(data, ipi); \
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pirq->mode = RT_IRQ_MODE_EDGE_RISING; \
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DECLARE_GIC_IPI(RT_SCHEDULE_IPI, 0);
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DECLARE_GIC_IPI(RT_STOP_IPI, 1);
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DECLARE_GIC_IPI(RT_SCHEDULE_IPI, RT_SCHEDULE_IPI);
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DECLARE_GIC_IPI(RT_STOP_IPI, RT_STOP_IPI);
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DECLARE_GIC_IPI(RT_SMP_CALL_IPI, RT_SMP_CALL_IPI);
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#undef DECLARE_GIC_IPI
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}
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@ -31,6 +31,7 @@ static int _ipi_hash[] =
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#ifdef RT_USING_SMP
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[RT_SCHEDULE_IPI] = RT_SCHEDULE_IPI,
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[RT_STOP_IPI] = RT_STOP_IPI,
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[RT_SMP_CALL_IPI] = RT_SMP_CALL_IPI,
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#endif
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};
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@ -6,6 +6,8 @@
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* Change Logs:
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* Date Author Notes
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* 2024/9/12 zhujiale the first version
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* 2024/10/24 Shell added non-blocking IPI calling method;
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* fixup data racing
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*/
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#include "smp.h"
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@ -14,37 +16,299 @@
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#define DBG_LVL DBG_INFO
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#include <rtdbg.h>
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static struct rt_smp_call rt_smp_work[RT_CPUS_NR];
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static rt_atomic_t rt_smp_wait;
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static rt_err_t smp_call_handler(struct rt_smp_event *event)
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static struct smp_data
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{
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switch (event->event_id)
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/* call request data to each cores */
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struct rt_smp_call_req call_req_cores[RT_CPUS_NR];
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/* call queue of this core */
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rt_ll_slist_t call_queue;
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} _smp_data_cores[RT_CPUS_NR];
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#define _CALL_REQ_USAGE_FREED 0
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#define _CALL_REQ_USAGE_BUSY 1
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static void _call_req_take(struct rt_smp_call_req *req)
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{
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rt_base_t exp;
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do
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{
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case SMP_CALL_EVENT_FUNC:
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event->func(event->data);
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rt_atomic_add(&rt_smp_wait, 1);
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exp = _CALL_REQ_USAGE_FREED;
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}
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while (!rt_atomic_compare_exchange_strong(&req->event.typed.usage_tracer, &exp, _CALL_REQ_USAGE_BUSY));
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}
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static void _call_req_release(struct rt_smp_call_req *req)
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{
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rt_atomic_store(&req->event.typed.usage_tracer, _CALL_REQ_USAGE_FREED);
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}
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void rt_smp_request_wait_freed(struct rt_smp_call_req *req)
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{
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rt_base_t usage_tracer;
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RT_DEBUG_IN_THREAD_CONTEXT;
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usage_tracer = rt_atomic_load(&req->event.typed.usage_tracer);
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while (usage_tracer != _CALL_REQ_USAGE_FREED)
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{
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rt_thread_yield();
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usage_tracer = rt_atomic_load(&req->event.typed.usage_tracer);
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}
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}
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static void _mask_out_cpu(struct rt_smp_event *event, int oncpu)
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{
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rt_base_t new_mask, old_mask;
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rt_atomic_t *maskp = event->typed.calling_cpu_mask;
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do
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{
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old_mask = rt_atomic_load(maskp);
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new_mask = old_mask & ~(1ul << oncpu);
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} while (!rt_atomic_compare_exchange_strong(maskp, &old_mask, new_mask));
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}
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static void _do_glob_request(struct rt_smp_call_req *req_global,
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struct rt_smp_call_req *req_local)
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{
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struct rt_smp_event *event;
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/* release the global request data */
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rt_memcpy(req_local, req_global, sizeof(struct rt_smp_call_req));
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rt_hw_spin_unlock(&req_global->freed_lock);
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event = &req_local->event;
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RT_ASSERT(!!event->func);
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event->func(event->data);
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return ;
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}
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static void _do_request(struct rt_smp_call_req *req)
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{
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struct rt_smp_event *event;
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event = &req->event;
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RT_ASSERT(!!event->func);
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event->func(event->data);
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_call_req_release(req);
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return ;
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}
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static rt_err_t _smp_call_handler(struct rt_smp_call_req *req, int oncpu)
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{
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switch (req->event.event_id)
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{
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case SMP_CALL_EVENT_GLOB_SYNC:
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{
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struct rt_smp_call_req req_local;
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_do_glob_request(req, &req_local);
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_mask_out_cpu(&req_local.event, oncpu);
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break;
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}
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case SMP_CALL_EVENT_GLOB_ASYNC:
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{
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struct rt_smp_call_req req_local;
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_do_glob_request(req, &req_local);
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break;
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}
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case SMP_CALL_EVENT_REQUEST:
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{
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_do_request(req);
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break;
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}
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default:
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LOG_E("error event id\n");
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return -RT_ERROR;
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}
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return RT_EOK;
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}
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void rt_smp_call_ipi_handler(int vector, void *param)
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{
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int cur_cpu = rt_hw_cpu_id();
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int oncpu = rt_hw_cpu_id();
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struct rt_smp_call_req *request;
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rt_spin_lock(&rt_smp_work[cur_cpu].lock);
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if (rt_smp_work[cur_cpu].event.event_id)
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RT_ASSERT(rt_interrupt_get_nest());
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while (1)
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{
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if (smp_call_handler(&rt_smp_work[cur_cpu].event) != RT_EOK)
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rt_ll_slist_t *node = rt_ll_slist_dequeue(&_smp_data_cores[oncpu].call_queue);
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if (node)
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{
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LOG_E("Have no event\n");
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request = rt_list_entry(node, struct rt_smp_call_req, slist_node);
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_smp_call_handler(request, oncpu);
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}
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else
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{
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break;
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}
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rt_memset(&rt_smp_work[cur_cpu].event, 0, sizeof(struct rt_smp_event));
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}
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rt_spin_unlock(&rt_smp_work[cur_cpu].lock);
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}
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static void _smp_call_remote_request(int callcpu, rt_smp_call_cb_t func,
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void *data, rt_uint8_t flags,
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struct rt_smp_call_req *call_req)
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{
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rt_base_t cpu_mask = 1ul << callcpu;
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_call_req_take(call_req);
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rt_ll_slist_enqueue(&_smp_data_cores[callcpu].call_queue, &call_req->slist_node);
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rt_hw_ipi_send(RT_SMP_CALL_IPI, cpu_mask);
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}
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/**
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* @brief SMP call request with user provided @call_req. Compare to
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* rt_smp_call_func* family, you can call it in ISR or IRQ-masked
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* environment.
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*
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* @param callcpu the logical core id of the target
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* @param flags control flags of your request
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* @param call_req the pre-initialized request data
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* @return rt_err_t RT_EOK on succeed, otherwise the errno to failure
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*/
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rt_err_t rt_smp_call_request(int callcpu, rt_uint8_t flags, struct rt_smp_call_req *call_req)
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{
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rt_ubase_t clvl;
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int oncpu;
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if (rt_atomic_load(&call_req->event.typed.usage_tracer) ==
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_CALL_REQ_USAGE_BUSY)
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{
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return -RT_EBUSY;
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}
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if (flags & SMP_CALL_WAIT_ALL)
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{
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return -RT_EINVAL;
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}
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clvl = rt_enter_critical();
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oncpu = rt_hw_cpu_id();
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if (oncpu == callcpu && !(flags & SMP_CALL_NO_LOCAL))
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{
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rt_ubase_t level;
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/* handle IPI on irq-masked environment */
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level = rt_hw_local_irq_disable();
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call_req->event.func(call_req->event.data);
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rt_hw_local_irq_enable(level);
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}
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else if (callcpu < RT_CPUS_NR)
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{
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_smp_call_remote_request(callcpu, call_req->event.func, call_req->event.data, flags, call_req);
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}
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rt_exit_critical_safe(clvl);
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return RT_EOK;
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}
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void rt_smp_call_req_init(struct rt_smp_call_req *call_req,
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rt_smp_call_cb_t func, void *data)
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{
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call_req->event.typed.usage_tracer = 0;
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call_req->event.data = data;
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call_req->event.func = func;
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call_req->event.event_id = SMP_CALL_EVENT_REQUEST;
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}
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static void _smp_call_func_cond(int oncpu, rt_ubase_t cpu_mask,
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rt_smp_call_cb_t func, void *data,
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rt_uint8_t flags, rt_smp_cond_t cond)
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{
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rt_ubase_t tmp_mask;
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rt_bool_t sync_call = RT_FALSE;
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rt_ubase_t oncpu_mask = 1 << oncpu;
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rt_atomic_t calling_cpu_mask, *maskp;
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int tmp_id = 0, rcpu_cnt = 0, event_id, call_local;
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if (!(flags & SMP_CALL_NO_LOCAL) && (oncpu_mask & cpu_mask))
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{
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call_local = RT_TRUE;
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cpu_mask = cpu_mask & (~oncpu_mask);
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}
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else
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{
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call_local = RT_FALSE;
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}
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if (cpu_mask)
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{
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tmp_mask = cpu_mask;
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if (flags & SMP_CALL_WAIT_ALL)
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{
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sync_call = RT_TRUE;
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maskp = &calling_cpu_mask;
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event_id = SMP_CALL_EVENT_GLOB_SYNC;
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rt_atomic_store(maskp, cpu_mask);
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}
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else
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{
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event_id = SMP_CALL_EVENT_GLOB_ASYNC;
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maskp = RT_NULL;
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}
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while (tmp_mask)
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{
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struct rt_smp_call_req *call_req;
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struct rt_smp_event *event;
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int lz_bit = __rt_ffsl(tmp_mask);
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tmp_id = lz_bit - 1;
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tmp_mask &= ~(1ul << tmp_id);
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if (cond && !cond(tmp_id, data))
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{
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cpu_mask &= ~(1ul << tmp_id);
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continue;
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}
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/* need to wait one more */
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rcpu_cnt++;
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call_req = &_smp_data_cores[oncpu].call_req_cores[tmp_id];
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/* very careful here, spinning wait on previous occupation */
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rt_hw_spin_lock(&call_req->freed_lock);
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event = &call_req->event;
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event->event_id = event_id;
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event->func = func;
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event->data = data;
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event->typed.calling_cpu_mask = maskp;
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rt_ll_slist_enqueue(&_smp_data_cores[tmp_id].call_queue, &call_req->slist_node);
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}
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if (cpu_mask)
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{
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RT_ASSERT(rcpu_cnt);
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rt_hw_ipi_send(RT_SMP_CALL_IPI, cpu_mask);
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}
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}
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if (call_local && (!cond || cond(tmp_id, data)))
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{
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rt_ubase_t level;
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/* callback on local with sims ISR */
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level = rt_hw_local_irq_disable();
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func(data);
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rt_hw_local_irq_enable(level);
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}
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if (sync_call && rcpu_cnt)
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{
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while (rt_atomic_load(maskp) & cpu_mask)
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;
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}
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}
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/**
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@ -58,86 +322,53 @@ void rt_smp_call_ipi_handler(int vector, void *param)
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* else it will call function on specified CPU and return immediately
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* @param cond the condition function pointer,if you set it then it will call function only when cond return true
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*/
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void rt_smp_call_func_cond(int cpu_mask, rt_smp_call_func_back func, void *data, rt_uint8_t flag, rt_smp_cond cond)
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void rt_smp_call_func_cond(rt_ubase_t cpu_mask, rt_smp_call_cb_t func, void *data, rt_uint8_t flag, rt_smp_cond_t cond)
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{
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RT_DEBUG_NOT_IN_INTERRUPT;
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struct rt_smp_event event;
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rt_bool_t need_call = RT_TRUE, need_wait = RT_FALSE;
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int cur_cpu = rt_hw_cpu_id();
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int cpuid = 1 << cur_cpu;
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int tmp_id = 0, cpu_nr = 0;
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int tmp_mask;
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int irq_flag;
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int oncpu;
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rt_ubase_t clvl;
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if (flag == SMP_CALL_WAIT_ALL)
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RT_ASSERT(!rt_hw_interrupt_is_disabled());
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clvl = rt_enter_critical();
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oncpu = rt_hw_cpu_id();
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if (cpu_mask <= RT_ALL_CPU)
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{
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need_wait = RT_TRUE;
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rt_atomic_store(&rt_smp_wait, 0);
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_smp_call_func_cond(oncpu, cpu_mask, func, data, flag, cond);
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}
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if (cpuid & cpu_mask)
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{
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func(data);
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cpu_mask = cpu_mask & (~cpuid);
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}
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if (!cpu_mask)
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need_call = RT_FALSE;
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tmp_mask = cpu_mask;
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if (need_call)
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{
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while (tmp_mask)
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{
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if ((tmp_mask & 1) && (tmp_id < RT_CPUS_NR))
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{
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if (cond && !cond(tmp_id, data))
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continue;
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cpu_nr++;
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event.event_id = SMP_CALL_EVENT_FUNC;
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event.func = func;
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event.data = data;
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event.cpu_mask = cpu_mask;
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irq_flag = rt_spin_lock_irqsave(&rt_smp_work[tmp_id].lock);
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rt_smp_work[tmp_id].event = event;
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rt_spin_unlock_irqrestore(&rt_smp_work[tmp_id].lock,irq_flag);
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}
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tmp_id++;
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tmp_mask = tmp_mask >> 1;
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}
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rt_hw_ipi_send(RT_FUNC_IPI, cpu_mask);
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}
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if (need_wait)
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{
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while (rt_atomic_load(&rt_smp_wait) != cpu_nr);
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}
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rt_exit_critical_safe(clvl);
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}
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void rt_smp_call_each_cpu(rt_smp_call_func_back func, void *data, rt_uint8_t flag)
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void rt_smp_call_each_cpu(rt_smp_call_cb_t func, void *data, rt_uint8_t flag)
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{
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rt_smp_call_func_cond(RT_ALL_CPU, func, data, flag, RT_NULL);
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}
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void rt_smp_call_each_cpu_cond(rt_smp_call_func_back func, void *data, rt_uint8_t flag, rt_smp_cond cond_func)
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void rt_smp_call_each_cpu_cond(rt_smp_call_cb_t func, void *data, rt_uint8_t flag, rt_smp_cond_t cond_func)
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{
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rt_smp_call_func_cond(RT_ALL_CPU, func, data, flag, cond_func);
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}
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void rt_smp_call_any_cpu(int cpu_mask, rt_smp_call_func_back func, void *data, rt_uint8_t flag)
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void rt_smp_call_cpu_mask(rt_ubase_t cpu_mask, rt_smp_call_cb_t func, void *data, rt_uint8_t flag)
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{
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rt_smp_call_func_cond(cpu_mask, func, data, flag, RT_NULL);
|
||||
}
|
||||
|
||||
void rt_smp_call_any_cpu_cond(int cpu_mask, rt_smp_call_func_back func, void *data, rt_uint8_t flag, rt_smp_cond cond_func)
|
||||
void rt_smp_call_cpu_mask_cond(rt_ubase_t cpu_mask, rt_smp_call_cb_t func, void *data, rt_uint8_t flag, rt_smp_cond_t cond_func)
|
||||
{
|
||||
rt_smp_call_func_cond(cpu_mask, func, data, flag, cond_func);
|
||||
}
|
||||
|
||||
void rt_smp_init(void)
|
||||
void rt_smp_call_init(void)
|
||||
{
|
||||
rt_memset(&_smp_data_cores, 0, sizeof(_smp_data_cores));
|
||||
|
||||
for (int i = 0; i < RT_CPUS_NR; i++)
|
||||
{
|
||||
rt_memset(&rt_smp_work[i], 0, sizeof(struct rt_smp_call));
|
||||
rt_spin_lock_init(&rt_smp_work[i].lock);
|
||||
for (int j = 0; j < RT_CPUS_NR; j++)
|
||||
{
|
||||
rt_hw_spin_lock_init(&_smp_data_cores[i].call_req_cores[j].freed_lock);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
|
|
@ -1,34 +1,69 @@
|
|||
/*
|
||||
* Copyright (c) 2006-2024 RT-Thread Development Team
|
||||
*
|
||||
* SPDX-License-Identifier: Apache-2.0
|
||||
*
|
||||
* Change Logs:
|
||||
* Date Author Notes
|
||||
* 2024/9/12 zhujiale the first version
|
||||
* 2024/10/24 Shell added non-blocking IPI calling method
|
||||
*/
|
||||
|
||||
#ifndef __SMP_IPI_H__
|
||||
#define __SMP_IPI_H__
|
||||
#include <rtthread.h>
|
||||
typedef void (*rt_smp_call_func_back)(void *data);
|
||||
typedef rt_bool_t (*rt_smp_cond)(int cpu, void *info);
|
||||
|
||||
#define SMP_CALL_EVENT_FUNC 0x1
|
||||
/* callback of smp call */
|
||||
typedef void (*rt_smp_call_cb_t)(void *data);
|
||||
typedef rt_bool_t (*rt_smp_cond_t)(int cpu, void *info);
|
||||
|
||||
#define SMP_CALL_WAIT_ALL (1 << 0)
|
||||
#define SMP_CALL_NO_WAIT (1 << 1)
|
||||
#define SMP_CALL_EVENT_GLOB_ASYNC 0x1
|
||||
#define SMP_CALL_EVENT_GLOB_SYNC 0x2
|
||||
#define SMP_CALL_EVENT_REQUEST 0x4
|
||||
|
||||
#define SMP_CALL_WAIT_ALL (1ul << 0)
|
||||
#define SMP_CALL_NO_LOCAL (1ul << 1)
|
||||
#define SMP_CALL_SIGNAL (1ul << 2)
|
||||
|
||||
#define RT_ALL_CPU ((1 << RT_CPUS_NR) - 1)
|
||||
struct rt_smp_event
|
||||
{
|
||||
int cpu_mask;
|
||||
int event_id;
|
||||
void *data;
|
||||
rt_smp_call_func_back func;
|
||||
};
|
||||
struct rt_smp_call
|
||||
{
|
||||
struct rt_spinlock lock;
|
||||
struct rt_smp_event event;
|
||||
rt_smp_call_cb_t func;
|
||||
|
||||
union
|
||||
{
|
||||
rt_atomic_t *calling_cpu_mask;
|
||||
rt_atomic_t usage_tracer;
|
||||
} typed;
|
||||
};
|
||||
|
||||
struct rt_smp_call_req
|
||||
{
|
||||
/* handle the busy status synchronization */
|
||||
rt_hw_spinlock_t freed_lock;
|
||||
struct rt_smp_event event;
|
||||
rt_ll_slist_t slist_node;
|
||||
};
|
||||
|
||||
void rt_smp_call_ipi_handler(int vector, void *param);
|
||||
void rt_smp_call_each_cpu(rt_smp_call_func_back func, void *data, rt_uint8_t flag);
|
||||
void rt_smp_call_each_cpu_cond(rt_smp_call_func_back func, void *data, rt_uint8_t flag, rt_smp_cond cond_func);
|
||||
void rt_smp_call_any_cpu(int cpu_mask, rt_smp_call_func_back func, void *data, rt_uint8_t flag);
|
||||
void rt_smp_call_any_cpu_cond(int cpu_mask, rt_smp_call_func_back func, void *data, rt_uint8_t flag, rt_smp_cond cond_func);
|
||||
void rt_smp_init(void);
|
||||
void rt_smp_call_each_cpu(rt_smp_call_cb_t func, void *data, rt_uint8_t flags);
|
||||
void rt_smp_call_each_cpu_cond(rt_smp_call_cb_t func, void *data, rt_uint8_t flag, rt_smp_cond_t cond_func);
|
||||
void rt_smp_call_cpu_mask(rt_ubase_t cpu_mask, rt_smp_call_cb_t func, void *data, rt_uint8_t flags);
|
||||
void rt_smp_call_cpu_mask_cond(rt_ubase_t cpu_mask, rt_smp_call_cb_t func, void *data, rt_uint8_t flag, rt_smp_cond_t cond_func);
|
||||
void rt_smp_call_init(void);
|
||||
|
||||
rt_err_t rt_smp_call_request(int callcpu, rt_uint8_t flags, struct rt_smp_call_req *call_req);
|
||||
void rt_smp_call_req_init(struct rt_smp_call_req *call_req,
|
||||
rt_smp_call_cb_t func, void *data);
|
||||
void rt_smp_request_wait_freed(struct rt_smp_call_req *req);
|
||||
|
||||
#define rt_smp_for_each_cpu(_iter) for (_iter = 0; (_iter) < RT_CPUS_NR; (_iter)++)
|
||||
rt_inline size_t rt_smp_get_next_remote(size_t iter, size_t cpuid)
|
||||
{
|
||||
iter++;
|
||||
return iter == cpuid ? iter + 1 : iter;
|
||||
}
|
||||
#define rt_smp_for_each_remote_cpu(_iter, _cpuid) for (_iter = rt_smp_get_next_remote(-1, _cpuid); (_iter) < RT_CPUS_NR; _iter=rt_smp_get_next_remote(_iter, _cpuid))
|
||||
#endif
|
||||
|
|
|
@ -674,8 +674,8 @@ typedef struct rt_cpu_usage_stats *rt_cpu_usage_stats_t;
|
|||
#define RT_STOP_IPI 1
|
||||
#endif /* RT_STOP_IPI */
|
||||
|
||||
#ifndef RT_FUNC_IPI
|
||||
#define RT_FUNC_IPI 2
|
||||
#ifndef RT_SMP_CALL_IPI
|
||||
#define RT_SMP_CALL_IPI 2
|
||||
#endif
|
||||
|
||||
#define RT_MAX_IPI 3
|
||||
|
|
|
@ -302,14 +302,14 @@ void rt_hw_common_setup(void)
|
|||
rt_thread_idle_sethook(rt_hw_idle_wfi);
|
||||
|
||||
#ifdef RT_USING_SMP
|
||||
rt_smp_init();
|
||||
rt_smp_call_init();
|
||||
/* Install the IPI handle */
|
||||
rt_hw_ipi_handler_install(RT_SCHEDULE_IPI, rt_scheduler_ipi_handler);
|
||||
rt_hw_ipi_handler_install(RT_STOP_IPI, rt_scheduler_ipi_handler);
|
||||
rt_hw_ipi_handler_install(RT_FUNC_IPI, rt_smp_call_ipi_handler);
|
||||
rt_hw_ipi_handler_install(RT_SMP_CALL_IPI, rt_smp_call_ipi_handler);
|
||||
rt_hw_interrupt_umask(RT_SCHEDULE_IPI);
|
||||
rt_hw_interrupt_umask(RT_STOP_IPI);
|
||||
rt_hw_interrupt_umask(RT_FUNC_IPI);
|
||||
rt_hw_interrupt_umask(RT_SMP_CALL_IPI);
|
||||
#endif
|
||||
}
|
||||
|
||||
|
@ -391,6 +391,7 @@ rt_weak void rt_hw_secondary_cpu_bsp_start(void)
|
|||
|
||||
rt_hw_interrupt_umask(RT_SCHEDULE_IPI);
|
||||
rt_hw_interrupt_umask(RT_STOP_IPI);
|
||||
rt_hw_interrupt_umask(RT_SMP_CALL_IPI);
|
||||
|
||||
LOG_I("Call cpu %d on %s", cpu_id, "success");
|
||||
|
||||
|
|
Loading…
Reference in New Issue