From: John Hodge Date: Thu, 9 Sep 2010 01:52:54 +0000 (+0800) Subject: Moved spinlocks out of arch.h into lib.c X-Git-Tag: rel0.06~23 X-Git-Url: https://git.ucc.asn.au/?a=commitdiff_plain;h=b8a91f439c2721992885557cebae762495fe4348;p=tpg%2Facess2.git Moved spinlocks out of arch.h into lib.c --- diff --git a/Kernel/arch/x86/include/arch.h b/Kernel/arch/x86/include/arch.h index 16a04022..045986fe 100644 --- a/Kernel/arch/x86/include/arch.h +++ b/Kernel/arch/x86/include/arch.h @@ -11,7 +11,7 @@ #define BITS 32 // Allow nested spinlocks? -#define STACKED_LOCKS 1 +#define STACKED_LOCKS 2 // 0: No, 1: Per-CPU, 2: Per-Thread #define LOCK_DISABLE_INTS 0 // - Processor/Machine Specific Features @@ -38,7 +38,12 @@ * \brief Short Spinlock structure */ struct sShortSpinlock { + #if STACKED_LOCKS == 2 + volatile void *Lock; //!< Lock value + #else volatile int Lock; //!< Lock value + #endif + #if LOCK_DISABLE_INTS int IF; //!< Interrupt state on call to SHORTLOCK #endif @@ -46,103 +51,6 @@ struct sShortSpinlock { int Depth; #endif }; -/** - * \brief Determine if a short spinlock is locked - * \param Lock Lock pointer - */ -static inline int IS_LOCKED(struct sShortSpinlock *Lock) { - return !!Lock->Lock; -} - -/** - * \brief Check if the current CPU has the lock - * \param Lock Lock pointer - */ -static inline int CPU_HAS_LOCK(struct sShortSpinlock *Lock) { - extern int GetCPUNum(void); - return Lock->Lock == GetCPUNum() + 1; -} - -/** - * \brief Acquire a Short Spinlock - * \param Lock Lock pointer - * - * This type of mutex should only be used for very short sections of code, - * or in places where a Mutex_* would be overkill, such as appending - * an element to linked list (usually two assignement lines in C) - * - * \note This type of lock halts interrupts, so ensure that no timing - * functions are called while it is held. As a matter of fact, spend as - * little time as possible with this lock held - * \note If \a STACKED_LOCKS is set, this type of spinlock can be nested - */ -static inline void SHORTLOCK(struct sShortSpinlock *Lock) { - int v = 1; - #if LOCK_DISABLE_INTS - int IF; - #endif - #if STACKED_LOCKS - extern int GetCPUNum(void); - int cpu = GetCPUNum() + 1; - #endif - - #if LOCK_DISABLE_INTS - // Save interrupt state and clear interrupts - __ASM__ ("pushf;\n\tpop %%eax\n\tcli" : "=a"(IF)); - IF &= 0x200; // AND out all but the interrupt flag - #endif - - #if STACKED_LOCKS - if( Lock->Lock == cpu ) { - Lock->Depth ++; - return ; - } - #endif - - // Wait for another CPU to release - while(v) { - #if STACKED_LOCKS - // CMPXCHG: - // If r/m32 == EAX, set ZF and set r/m32 = r32 - // Else, clear ZF and set EAX = r/m32 - __ASM__("lock cmpxchgl %2, (%3)" - : "=a"(v) - : "a"(0), "r"(cpu), "r"(&Lock->Lock) - ); - #else - __ASM__("xchgl %%eax, (%%edi)":"=a"(v):"a"(1),"D"(&Lock->Lock)); - #endif - } - - #if LOCK_DISABLE_INTS - Lock->IF = IF; - #endif -} -/** - * \brief Release a short lock - * \param Lock Lock pointer - */ -static inline void SHORTREL(struct sShortSpinlock *Lock) { - #if STACKED_LOCKS - if( Lock->Depth ) { - Lock->Depth --; - return ; - } - #endif - - #if LOCK_DISABLE_INTS - // Lock->IF can change anytime once Lock->Lock is zeroed - if(Lock->IF) { - Lock->Lock = 0; - __ASM__ ("sti"); - } - else { - Lock->Lock = 0; - } - #else - Lock->Lock = 0; - #endif -} // === MACROS === /** @@ -215,4 +123,10 @@ typedef struct { Uint EIP, ESP, EBP; } tTaskState; +// === FUNCTIONS === +extern int IS_LOCKED(struct sShortSpinlock *Lock); +extern int CPU_HAS_LOCK(struct sShortSpinlock *Lock); +extern void SHORTLOCK(struct sShortSpinlock *Lock); +extern void SHORTREL(struct sShortSpinlock *Lock); + #endif // !defined(_ARCH_H_) diff --git a/Kernel/arch/x86/lib.c b/Kernel/arch/x86/lib.c index c499c7a8..0ca98f9e 100644 --- a/Kernel/arch/x86/lib.c +++ b/Kernel/arch/x86/lib.c @@ -3,17 +3,127 @@ * lib.c */ #include +#include + +extern int GetCPUNum(void); // === CODE === -void Spinlock(int *lock) +/** + * \brief Determine if a short spinlock is locked + * \param Lock Lock pointer + */ +int IS_LOCKED(struct sShortSpinlock *Lock) { - int v = 1; - while(v) __asm__ __volatile__ ("lock xchgl %%eax, (%%edi)":"=a"(v):"a"(1),"D"(lock)); + return !!Lock->Lock; +} + +/** + * \brief Check if the current CPU has the lock + * \param Lock Lock pointer + */ +int CPU_HAS_LOCK(struct sShortSpinlock *Lock) +{ + #if STACKED_LOCKS == 1 + return Lock->Lock == GetCPUNum() + 1; + #elif STACKED_LOCKS == 2 + return Lock->Lock == Proc_GetCurThread(); + #else + return 0; + #endif } -void Release(int *lock) +/** + * \brief Acquire a Short Spinlock + * \param Lock Lock pointer + * + * This type of mutex should only be used for very short sections of code, + * or in places where a Mutex_* would be overkill, such as appending + * an element to linked list (usually two assignement lines in C) + * + * \note This type of lock halts interrupts, so ensure that no timing + * functions are called while it is held. As a matter of fact, spend as + * little time as possible with this lock held + * \note If \a STACKED_LOCKS is set, this type of spinlock can be nested + */ +void SHORTLOCK(struct sShortSpinlock *Lock) +{ + int v = 1; + #if LOCK_DISABLE_INTS + int IF; + #endif + #if STACKED_LOCKS == 1 + int cpu = GetCPUNum() + 1; + #elif STACKED_LOCKS == 2 + void *thread = Proc_GetCurThread(); + #endif + + #if LOCK_DISABLE_INTS + // Save interrupt state and clear interrupts + __ASM__ ("pushf;\n\tpop %%eax\n\tcli" : "=a"(IF)); + IF &= 0x200; // AND out all but the interrupt flag + #endif + + #if STACKED_LOCKS == 1 + if( Lock->Lock == cpu ) { + Lock->Depth ++; + return ; + } + #elif STACKED_LOCKS == 2 + if( Lock->Lock == thread ) { + Lock->Depth ++; + return ; + } + #endif + + // Wait for another CPU to release + while(v) { + // CMPXCHG: + // If r/m32 == EAX, set ZF and set r/m32 = r32 + // Else, clear ZF and set EAX = r/m32 + #if STACKED_LOCKS == 1 + __ASM__("lock cmpxchgl %2, (%3)" + : "=a"(v) + : "a"(0), "r"(cpu), "r"(&Lock->Lock) + ); + #elseif STACKED_LOCKS == 2 + __ASM__("lock cmpxchgl %2, (%3)" + : "=a"(v) + : "a"(0), "r"(thread), "r"(&Lock->Lock) + ); + #else + __ASM__("xchgl %%eax, (%%edi)":"=a"(v):"a"(1),"D"(&Lock->Lock)); + #endif + } + + #if LOCK_DISABLE_INTS + Lock->IF = IF; + #endif +} +/** + * \brief Release a short lock + * \param Lock Lock pointer + */ +void SHORTREL(struct sShortSpinlock *Lock) { - __asm__ __volatile__ ("lock andl $0, (%0)"::"r"(lock)); + #if STACKED_LOCKS + if( Lock->Depth ) { + Lock->Depth --; + return ; + } + #endif + + #if LOCK_DISABLE_INTS + // Lock->IF can change anytime once Lock->Lock is zeroed + if(Lock->IF) { + Lock->Lock = 0; + __ASM__ ("sti"); + } + else { + Lock->Lock = 0; + } + #else + Lock->Lock = 0; + #endif } // === IO Commands ===