X-Git-Url: https://codewiz.org/gitweb?a=blobdiff_plain;f=bertos%2Fkern%2Fproc.h;h=afb9639f28b68a6c30decee00eae6f220dcc6977;hb=48fa213cd00cd385ee7274baf83761099a6ceead;hp=a668c18f4b0b1e3e7273d48b16033d87ee4d1a8f;hpb=4cc44c9888a0336b9d01121ec0b7ad95f4a76195;p=bertos.git diff --git a/bertos/kern/proc.h b/bertos/kern/proc.h index a668c18f..afb9639f 100644 --- a/bertos/kern/proc.h +++ b/bertos/kern/proc.h @@ -26,15 +26,13 @@ * invalidate any other reasons why the executable file might be covered by * the GNU General Public License. * - * Copyright 2001,2004 Develer S.r.l. (http://www.develer.com/) - * Copyright 1999,2000,2001 Bernie Innocenti - * + * Copyright 2001, 2004 Develer S.r.l. (http://www.develer.com/) + * Copyright 1999, 2000, 2001, 2008 Bernie Innocenti * --> * * \brief Process scheduler (public interface). * * \version $Id$ - * * \author Bernie Innocenti */ #ifndef KERN_PROC_H @@ -43,9 +41,17 @@ #include "cfg/cfg_kern.h" #include -#include +#if CONFIG_KERN_PREEMPT + #include // ASSERT() +#endif + +#include // cpustack_t +#include // CPU_SAVED_REGS_CNT -/* Fwd decl */ +/* + * Forward declaration. The definition of struct Process is private to the + * scheduler and hidden in proc_p.h. + */ struct Process; /* Task scheduling services */ @@ -59,20 +65,89 @@ struct Process *proc_new_with_name(const char* name, void (*entry)(void), iptr_t #endif void proc_exit(void); -void proc_switch(void); -void proc_test(void); +void proc_yield(void); + +int proc_testSetup(void); +int proc_testRun(void); +int proc_testTearDown(void); + struct Process *proc_current(void); -iptr_t proc_current_user_data(void); -void proc_rename(struct Process *proc, const char* name); +iptr_t proc_currentUserData(void); +void proc_rename(struct Process *proc, const char *name); +const char *proc_name(struct Process *proc); +const char *proc_currentName(void); -#if CONFIG_KERN_PREEMPTIVE - void proc_forbid(void); - void proc_permit(void); +#if CONFIG_KERN_PRI + void proc_setPri(struct Process *proc, int pri); #else - INLINE void proc_forbid(void) { /* nop */ } - INLINE void proc_permit(void) { /* nop */ } + INLINE void proc_setPri(UNUSED_ARG(struct Process *,proc), UNUSED_ARG(int, pri)) + { + } #endif +/** + * Disable preemptive task switching. + * + * The scheduler maintains a global nesting counter. Task switching is + * effectively re-enabled only when the number of calls to proc_permit() + * matches the number of calls to proc_forbid(). + * + * \note Calling functions that could sleep while task switching is disabled + * is dangerous and unsupported. + * + * \note proc_permit() expands inline to 1-2 asm instructions, so it's a + * very efficient locking primitive in simple but performance-critical + * situations. In all other cases, semaphores offer a more flexible and + * fine-grained locking primitive. + * + * \sa proc_permit() + */ +INLINE void proc_forbid(void) +{ + #if CONFIG_KERN_PREEMPT + // No need to protect against interrupts here. + extern int preempt_forbid_cnt; + ++preempt_forbid_cnt; + + /* + * Make sure preempt_forbid_cnt is flushed to memory so the + * preemption softirq will see the correct value from now on. + */ + MEMORY_BARRIER; + #endif +} + +/** + * Re-enable preemptive task switching. + * + * \sa proc_forbid() + */ +INLINE void proc_permit(void) +{ + #if CONFIG_KERN_PREEMPT + + /* + * This is to ensure any global state changed by the process gets + * flushed to memory before task switching is re-enabled. + */ + MEMORY_BARRIER; + + /* No need to protect against interrupts here. */ + extern int preempt_forbid_cnt; + --preempt_forbid_cnt; + ASSERT(preempt_forbid_cnt >= 0); + + /* + * This ensures preempt_forbid_cnt is flushed to memory immediately + * so the preemption interrupt sees the correct value. + */ + MEMORY_BARRIER; + + #endif +} + +extern int preempt_forbid_cnt; + /** * Execute a block of \a CODE atomically with respect to task scheduling. */ @@ -83,4 +158,59 @@ void proc_rename(struct Process *proc, const char* name); proc_permit(); \ } while(0) +#ifndef CONFIG_KERN_MINSTACKSIZE + + #if (ARCH & ARCH_EMUL) + /* We need a large stack because system libraries are bloated */ + #define CONFIG_KERN_MINSTACKSIZE 65536 + #else + /** + * Default stack size for each thread, in bytes. + * + * The goal here is to allow a minimal task to save all of its + * registers twice, plus push a maximum of 32 variables on the + * stack. + * + * The actual size computed by the default formula is: + * AVR: 102 + * i386: 156 + * ARM: 164 + * x86_64: 184 + * + * Note that on most 16bit architectures, interrupts will also + * run on the stack of the currently running process. Nested + * interrupts will greatly increases the amount of stack space + * required per process. Use irqmanager to minimize stack + * usage. + */ + #define CONFIG_KERN_MINSTACKSIZE \ + (CPU_SAVED_REGS_CNT * 2 * sizeof(cpustack_t) \ + + 32 * sizeof(int)) + #endif +#endif + +/* Memory fill codes to help debugging */ +#if CONFIG_KERN_MONITOR + #include + #if (SIZEOF_CPUSTACK_T == 1) + /* 8bit cpustack_t */ + #define CONFIG_KERN_STACKFILLCODE 0xA5 + #define CONFIG_KERN_MEMFILLCODE 0xDB + #elif (SIZEOF_CPUSTACK_T == 2) + /* 16bit cpustack_t */ + #define CONFIG_KERN_STACKFILLCODE 0xA5A5 + #define CONFIG_KERN_MEMFILLCODE 0xDBDB + #elif (SIZEOF_CPUSTACK_T == 4) + /* 32bit cpustack_t */ + #define CONFIG_KERN_STACKFILLCODE 0xA5A5A5A5UL + #define CONFIG_KERN_MEMFILLCODE 0xDBDBDBDBUL + #elif (SIZEOF_CPUSTACK_T == 8) + /* 64bit cpustack_t */ + #define CONFIG_KERN_STACKFILLCODE 0xA5A5A5A5A5A5A5A5ULL + #define CONFIG_KERN_MEMFILLCODE 0xDBDBDBDBDBDBDBDBULL + #else + #error No cpustack_t size supported! + #endif +#endif + #endif /* KERN_PROC_H */