X-Git-Url: https://codewiz.org/gitweb?a=blobdiff_plain;f=bertos%2Fkern%2Fproc_p.h;h=56c810819b56964d2d16c83fe29075fbde8f3e5b;hb=82aa9864bc5accc468d3c9ed109a8b44ef36da94;hp=a98f9428aa65f684ad414c4f2a0267c67f0547a1;hpb=8cfe12e5b95974d75b98ec964fc7edaf37919f0e;p=bertos.git

diff --git a/bertos/kern/proc_p.h b/bertos/kern/proc_p.h
index a98f9428..56c81081 100644
--- a/bertos/kern/proc_p.h
+++ b/bertos/kern/proc_p.h
@@ -40,53 +40,55 @@
 #ifndef KERN_PROC_P_H
 #define KERN_PROC_P_H
 
-#include "cfg/cfg_kern.h"
+#include "cfg/cfg_proc.h"
+#include "cfg/cfg_monitor.h"
+
 #include <cfg/compiler.h>
 
 #include <cpu/types.h>        /* for cpu_stack_t */
+#include <cpu/irq.h>          // IRQ_ASSERT_DISABLED()
 
-#include <struct/list.h>
-
-#if CONFIG_KERN_PREEMPTIVE
-	#include <ucontext.h> // XXX
-#endif
-
-typedef struct Process
-{
-	Node         link;        /**< Link Process into scheduler lists */
-	cpustack_t  *stack;       /**< Per-process SP */
-	iptr_t       user_data;   /**< Custom data passed to the process */
-
-#if CONFIG_KERN_SIGNALS
-	sigmask_t    sig_wait;    /**< Signals the process is waiting for */
-	sigmask_t    sig_recv;    /**< Received signals */
-#endif
-
-#if CONFIG_KERN_PREEMPTIVE
-	int          forbid_cnt;  /**< Nesting count for proc_forbid()/proc_permit(). */
-	bool         leaving;     /**< XXX: maybe global? */
-	ucontext_t   context;
-#endif
-
-#if CONFIG_KERN_HEAP
-	uint16_t     flags;       /**< Flags */
-#endif
+#include <kern/proc.h>   // struct Process
 
-#if CONFIG_KERN_HEAP | CONFIG_KERN_MONITOR | (ARCH & ARCH_EMUL)
-	cpustack_t  *stack_base;  /**< Base of process stack */
-	size_t       stack_size;  /**< Size of process stack */
-#endif
+/*
+ * Check if the process context switch can be performed directly by the
+ * architecture-dependent asm_switch_context() or if it must be delayed
+ * because we're in the middle of an ISR.
+ *
+ * Return true if asm_switch_context() can be executed, false
+ * otherwise.
+ *
+ * NOTE: if an architecture does not implement IRQ_RUNNING() this function
+ * always returns true.
+ */
+#define CONTEXT_SWITCH_FROM_ISR()	(!IRQ_RUNNING())
 
-#if CONFIG_KERN_MONITOR
-	struct ProcMonitor
-	{
-		Node        link;
-		const char *name;
-	} monitor;
+#ifndef asm_switch_context
+/**
+ * CPU dependent context switching routines.
+ *
+ * Saving and restoring the context on the stack is done by a CPU-dependent
+ * support routine which usually needs to be written in assembly.
+ */
+EXTERN_C void asm_switch_context(cpu_stack_t **new_sp, cpu_stack_t **save_sp);
 #endif
 
-} Process;
-
+/*
+ * Save context of old process and switch to new process.
+  */
+INLINE void proc_switchTo(Process *next, Process *prev)
+{
+	cpu_stack_t *dummy;
+
+	if (UNLIKELY(next == prev))
+		return;
+	/*
+	 * If there is no old process, we save the old stack pointer into a
+	 * dummy variable that we ignore.  In fact, this happens only when the
+	 * old process has just exited.
+	 */
+	asm_switch_context(&next->stack, prev ? &prev->stack : &dummy);
+}
 
 /**
  * \name Flags for Process.flags.
@@ -97,31 +99,107 @@ typedef struct Process
 
 
 /** Track running processes. */
-extern REGISTER Process	*CurrentProcess;
+extern REGISTER Process	*current_process;
 
 /**
  * Track ready processes.
  *
- * Access to this list must be protected with a proc_forbid() / proc_premit()
- * pair, or with SCHED_ATOMIC()
+ * Access to this list must be performed with interrupts disabled
  */
-extern REGISTER List     ProcReadyList;
-
+extern REGISTER List     proc_ready_list;
+
+#if CONFIG_KERN_PRI
+	#define prio_next()	(LIST_EMPTY(&proc_ready_list) ? INT_MIN : \
+					((PriNode *)LIST_HEAD(&proc_ready_list))->pri)
+	#define prio_proc(proc)	(proc->link.pri)
+	#define prio_curr()	prio_proc(current_process)
+
+	#define SCHED_ENQUEUE_INTERNAL(proc) \
+			LIST_ENQUEUE(&proc_ready_list, &(proc)->link)
+	#define SCHED_ENQUEUE_HEAD_INTERNAL(proc) \
+			LIST_ENQUEUE_HEAD(&proc_ready_list, &(proc)->link)
+#else
+	#define prio_next()	0
+	#define prio_proc(proc)	0
+	#define prio_curr()	0
+
+	#define SCHED_ENQUEUE_INTERNAL(proc) ADDTAIL(&proc_ready_list, &(proc)->link)
+	#define SCHED_ENQUEUE_HEAD_INTERNAL(proc) ADDHEAD(&proc_ready_list, &(proc)->link)
+#endif
 
 /**
- * Enqueue a task in the ready list.
+ * Enqueue a process in the ready list.
  *
  * Always use this macro to instert a process in the ready list, as its
  * might vary to implement a different scheduling algorithms.
  *
- * \note This macro is *NOT* protected against the scheduler.  Access to
- *       this list must be performed with interrupts disabled.
+ * \note Access to the scheduler ready list must be performed with
+ *       interrupts disabled.
  */
-#define SCHED_ENQUEUE(proc)  ADDTAIL(&ProcReadyList, &(proc)->link)
+#define SCHED_ENQUEUE(proc)  do { \
+		IRQ_ASSERT_DISABLED(); \
+		LIST_ASSERT_VALID(&proc_ready_list); \
+		SCHED_ENQUEUE_INTERNAL(proc); \
+	} while (0)
+
+#define SCHED_ENQUEUE_HEAD(proc)  do { \
+		IRQ_ASSERT_DISABLED(); \
+		LIST_ASSERT_VALID(&proc_ready_list); \
+		SCHED_ENQUEUE_HEAD_INTERNAL(proc); \
+	} while (0)
 
-/** Schedule to another process *without* adding the current to the ready list. */
+
+#if CONFIG_KERN_PRI
+/**
+ * Changes the priority of an already enqueued process.
+ *
+ * Searches and removes the process from the ready list, then uses LIST_ENQUEUE(()
+ * to insert again to fix priority.
+ *
+ * No action is performed for processes that aren't in the ready list, eg. in semaphore queues.
+ *
+ * \note Performance could be improved with a different implementation of priority list.
+ */
+INLINE void sched_reenqueue(struct Process *proc)
+{
+	IRQ_ASSERT_DISABLED();
+	LIST_ASSERT_VALID(&proc_ready_list);
+	Node *n;
+	PriNode *pos = NULL;
+	FOREACH_NODE(n, &proc_ready_list)
+	{
+		if (n == &proc->link.link)
+		{
+			pos = (PriNode *)n;
+			break;
+		}
+	}
+
+	// only remove and enqueue again if process is already in the ready list
+	// otherwise leave it alone
+	if (pos)
+	{
+		REMOVE(&proc->link.link);
+		LIST_ENQUEUE(&proc_ready_list, &proc->link);
+	}
+}
+#endif //CONFIG_KERN_PRI
+
+/* Process trampoline */
+void proc_entry(void);
+
+/* Schedule another process *without* adding the current one to the ready list. */
+void proc_switch(void);
+
+/* Low level scheduling routine. */
 void proc_schedule(void);
 
+/* Low level context switch routine. */
+void proc_switchTo(Process *next, Process *prev);
+
+/* Initialize a scheduler class. */
+void proc_schedInit(void);
+
 #if CONFIG_KERN_MONITOR
 	/** Initialize the monitor */
 	void monitor_init(void);