/*
- * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
+ * Copyright (c) 2000-2012 Apple Inc. All rights reserved.
*
- * @APPLE_LICENSE_HEADER_START@
+ * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
*
- * The contents of this file constitute Original Code as defined in and
- * are subject to the Apple Public Source License Version 1.1 (the
- * "License"). You may not use this file except in compliance with the
- * License. Please obtain a copy of the License at
- * http://www.apple.com/publicsource and read it before using this file.
+ * This file contains Original Code and/or Modifications of Original Code
+ * as defined in and that are subject to the Apple Public Source License
+ * Version 2.0 (the 'License'). You may not use this file except in
+ * compliance with the License. The rights granted to you under the License
+ * may not be used to create, or enable the creation or redistribution of,
+ * unlawful or unlicensed copies of an Apple operating system, or to
+ * circumvent, violate, or enable the circumvention or violation of, any
+ * terms of an Apple operating system software license agreement.
*
- * This Original Code and all software distributed under the License are
- * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * Please obtain a copy of the License at
+ * http://www.opensource.apple.com/apsl/ and read it before using this file.
+ *
+ * The Original Code and all software distributed under the License are
+ * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
- * License for the specific language governing rights and limitations
- * under the License.
+ * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
+ * Please see the License for the specific language governing rights and
+ * limitations under the License.
*
- * @APPLE_LICENSE_HEADER_END@
+ * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
*/
/*
* @OSF_COPYRIGHT@
* the terms and conditions for use and redistribution.
*/
-#include <mach_rt.h>
-#include <platforms.h>
#include <mach_ldebug.h>
#include <i386/asm.h>
+#include <i386/eflags.h>
+#include <i386/trap.h>
+#include <config_dtrace.h>
+#include <i386/mp.h>
#include "assym.s"
#define PAUSE rep; nop
-/*
- * When performance isn't the only concern, it's
- * nice to build stack frames...
- */
-#define BUILD_STACK_FRAMES (GPROF || \
- ((MACH_LDEBUG || ETAP_LOCK_TRACE) && MACH_KDB))
-
-#if BUILD_STACK_FRAMES
-
-/* STack-frame-relative: */
-#define L_PC B_PC
-#define L_ARG0 B_ARG0
-#define L_ARG1 B_ARG1
-
-#define LEAF_ENTRY(name) \
- Entry(name); \
- FRAME; \
- MCOUNT
-
-#define LEAF_ENTRY2(n1,n2) \
- Entry(n1); \
- Entry(n2); \
- FRAME; \
- MCOUNT
-
-#define LEAF_RET \
- EMARF; \
- ret
-
-#else /* BUILD_STACK_FRAMES */
-
-/* Stack-pointer-relative: */
-#define L_PC S_PC
-#define L_ARG0 S_ARG0
-#define L_ARG1 S_ARG1
+#include <i386/pal_lock_asm.h>
#define LEAF_ENTRY(name) \
Entry(name)
-#define LEAF_ENTRY2(n1,n2) \
- Entry(n1); \
- Entry(n2)
-
#define LEAF_RET \
ret
-#endif /* BUILD_STACK_FRAMES */
-
-
-/* Non-leaf routines always have a stack frame: */
-
-#define NONLEAF_ENTRY(name) \
- Entry(name); \
- FRAME; \
- MCOUNT
-
-#define NONLEAF_ENTRY2(n1,n2) \
- Entry(n1); \
- Entry(n2); \
- FRAME; \
- MCOUNT
-
-#define NONLEAF_RET \
- EMARF; \
- ret
-
-
-#define M_ILK (%edx)
-#define M_LOCKED MUTEX_LOCKED(%edx)
-#define M_WAITERS MUTEX_WAITERS(%edx)
-#define M_PROMOTED_PRI MUTEX_PROMOTED_PRI(%edx)
-#define M_ITAG MUTEX_ITAG(%edx)
-#define M_PTR MUTEX_PTR(%edx)
-#if MACH_LDEBUG
-#define M_TYPE MUTEX_TYPE(%edx)
-#define M_PC MUTEX_PC(%edx)
-#define M_THREAD MUTEX_THREAD(%edx)
-#endif /* MACH_LDEBUG */
-
-#include <i386/mp.h>
-#define CX(addr,reg) addr(,reg,4)
-
-#if MACH_LDEBUG
-/*
- * Routines for general lock debugging.
- */
-#define S_TYPE SLOCK_TYPE(%edx)
-#define S_PC SLOCK_PC(%edx)
-#define S_THREAD SLOCK_THREAD(%edx)
-#define S_DURATIONH SLOCK_DURATIONH(%edx)
-#define S_DURATIONL SLOCK_DURATIONL(%edx)
-
-/*
- * Checks for expected lock types and calls "panic" on
- * mismatch. Detects calls to Mutex functions with
- * type simplelock and vice versa.
- */
-#define CHECK_MUTEX_TYPE() \
- cmpl $ MUTEX_TAG,M_TYPE ; \
- je 1f ; \
- pushl $2f ; \
- call EXT(panic) ; \
- hlt ; \
- .data ; \
-2: String "not a mutex!" ; \
- .text ; \
-1:
-
-#define CHECK_SIMPLE_LOCK_TYPE() \
- cmpl $ USLOCK_TAG,S_TYPE ; \
- je 1f ; \
- pushl $2f ; \
- call EXT(panic) ; \
- hlt ; \
- .data ; \
-2: String "not a simple lock!" ; \
- .text ; \
-1:
+/* For x86_64, the varargs ABI requires that %al indicate
+ * how many SSE register contain arguments. In our case, 0 */
+#define ALIGN_STACK() and $0xFFFFFFFFFFFFFFF0, %rsp ;
+#define LOAD_STRING_ARG0(label) leaq label(%rip), %rdi ;
+#define LOAD_ARG1(x) mov x, %esi ;
+#define LOAD_PTR_ARG1(x) mov x, %rsi ;
+#define CALL_PANIC() xorb %al,%al ; call EXT(panic) ;
+
+#define PREEMPTION_DISABLE \
+ incl %gs:CPU_PREEMPTION_LEVEL
+
+#define PREEMPTION_LEVEL_DEBUG 1
+#if PREEMPTION_LEVEL_DEBUG
+#define PREEMPTION_ENABLE \
+ decl %gs:CPU_PREEMPTION_LEVEL ; \
+ js 17f ; \
+ jnz 19f ; \
+ testl $AST_URGENT,%gs:CPU_PENDING_AST ; \
+ jz 19f ; \
+ PUSHF ; \
+ testl $EFL_IF, S_PC ; \
+ jz 18f ; \
+ POPF ; \
+ int $(T_PREEMPT) ; \
+ jmp 19f ; \
+17: \
+ call _preemption_underflow_panic ; \
+18: \
+ POPF ; \
+19:
+#else
+#define PREEMPTION_ENABLE \
+ decl %gs:CPU_PREEMPTION_LEVEL ; \
+ jnz 19f ; \
+ testl $AST_URGENT,%gs:CPU_PENDING_AST ; \
+ jz 19f ; \
+ PUSHF ; \
+ testl $EFL_IF, S_PC ; \
+ jz 18f ; \
+ POPF ; \
+ int $(T_PREEMPT) ; \
+ jmp 19f ; \
+18: \
+ POPF ; \
+19:
+#endif
/*
- * If one or more simplelocks are currently held by a thread,
- * an attempt to acquire a mutex will cause this check to fail
- * (since a mutex lock may context switch, holding a simplelock
- * is not a good thing).
- */
-#if MACH_RT
-#define CHECK_PREEMPTION_LEVEL() \
- cmpl $0,%gs:CPU_PREEMPTION_LEVEL ; \
- je 1f ; \
- pushl $2f ; \
- call EXT(panic) ; \
- hlt ; \
- .data ; \
-2: String "preemption_level != 0!" ; \
- .text ; \
-1:
-#else /* MACH_RT */
-#define CHECK_PREEMPTION_LEVEL()
-#endif /* MACH_RT */
-
-#define CHECK_NO_SIMPLELOCKS() \
- cmpl $0,%gs:CPU_SIMPLE_LOCK_COUNT ; \
- je 1f ; \
- pushl $2f ; \
- call EXT(panic) ; \
- hlt ; \
- .data ; \
-2: String "simple_locks_held!" ; \
- .text ; \
-1:
-
-/*
- * Verifies return to the correct thread in "unlock" situations.
+ * For most routines, the hw_lock_t pointer is loaded into a
+ * register initially, and then either a byte or register-sized
+ * word is loaded/stored to the pointer
*/
-#define CHECK_THREAD(thd) \
- movl %gs:CPU_ACTIVE_THREAD,%ecx ; \
- testl %ecx,%ecx ; \
- je 1f ; \
- cmpl %ecx,thd ; \
- je 1f ; \
- pushl $2f ; \
- call EXT(panic) ; \
- hlt ; \
- .data ; \
-2: String "wrong thread!" ; \
- .text ; \
-1:
-
-#define CHECK_MYLOCK(thd) \
- movl %gs:CPU_ACTIVE_THREAD,%ecx ; \
- testl %ecx,%ecx ; \
- je 1f ; \
- cmpl %ecx,thd ; \
- jne 1f ; \
- pushl $2f ; \
- call EXT(panic) ; \
- hlt ; \
- .data ; \
-2: String "mylock attempt!" ; \
- .text ; \
-1:
-
-#define METER_SIMPLE_LOCK_LOCK(reg) \
- pushl reg ; \
- call EXT(meter_simple_lock) ; \
- popl reg
-
-#define METER_SIMPLE_LOCK_UNLOCK(reg) \
- pushl reg ; \
- call EXT(meter_simple_unlock) ; \
- popl reg
-
-#else /* MACH_LDEBUG */
-#define CHECK_MUTEX_TYPE()
-#define CHECK_SIMPLE_LOCK_TYPE
-#define CHECK_THREAD(thd)
-#define CHECK_PREEMPTION_LEVEL()
-#define CHECK_NO_SIMPLELOCKS()
-#define CHECK_MYLOCK(thd)
-#define METER_SIMPLE_LOCK_LOCK(reg)
-#define METER_SIMPLE_LOCK_UNLOCK(reg)
-#endif /* MACH_LDEBUG */
-
/*
- * void hw_lock_init(hw_lock_t)
+ * void hw_lock_byte_init(volatile uint8_t *)
*
- * Initialize a hardware lock.
+ * Initialize a hardware byte lock.
*/
-LEAF_ENTRY(hw_lock_init)
- movl L_ARG0,%edx /* fetch lock pointer */
- movl $0,0(%edx) /* clear the lock */
+LEAF_ENTRY(hw_lock_byte_init)
+ movb $0, (%rdi) /* clear the lock */
LEAF_RET
/*
- * void hw_lock_lock(hw_lock_t)
+ * void hw_lock_byte_lock(uint8_t *lock_byte)
*
- * Acquire lock, spinning until it becomes available.
- * MACH_RT: also return with preemption disabled.
+ * Acquire byte sized lock operand, spinning until it becomes available.
+ * return with preemption disabled.
*/
-LEAF_ENTRY(hw_lock_lock)
- movl L_ARG0,%edx /* fetch lock pointer */
- movl L_PC,%ecx
-1: DISABLE_PREEMPTION
- movl 0(%edx), %eax
- testl %eax,%eax /* lock locked? */
+LEAF_ENTRY(hw_lock_byte_lock)
+ PREEMPTION_DISABLE
+ movl $1, %ecx /* Set lock value */
+1:
+ movb (%rdi), %al /* Load byte at address */
+ testb %al,%al /* lock locked? */
jne 3f /* branch if so */
- lock; cmpxchgl %ecx,0(%edx) /* try to acquire the HW lock */
+ lock; cmpxchg %cl,(%rdi) /* attempt atomic compare exchange */
jne 3f
- movl $1,%eax /* In case this was a timeout call */
LEAF_RET /* if yes, then nothing left to do */
-
-3: ENABLE_PREEMPTION /* no reason we can't be preemptable */
- PAUSE /* pause for hyper-threading */
- jmp 1b /* try again */
-
-/*
- * unsigned int hw_lock_to(hw_lock_t, unsigned int)
- *
- * Acquire lock, spinning until it becomes available or timeout.
- * MACH_RT: also return with preemption disabled.
- */
-LEAF_ENTRY(hw_lock_to)
-1:
- movl L_ARG0,%edx /* fetch lock pointer */
- movl L_PC,%ecx
- /*
- * Attempt to grab the lock immediately
- * - fastpath without timeout nonsense.
- */
- DISABLE_PREEMPTION
- movl 0(%edx), %eax
- testl %eax,%eax /* lock locked? */
- jne 2f /* branch if so */
- lock; cmpxchgl %ecx,0(%edx) /* try to acquire the HW lock */
- jne 2f /* branch on failure */
- movl $1,%eax
- LEAF_RET
-
-2:
-#define INNER_LOOP_COUNT 1000
- /*
- * Failed to get the lock so set the timeout
- * and then spin re-checking the lock but pausing
- * every so many (INNER_LOOP_COUNT) spins to check for timeout.
- */
- movl L_ARG1,%ecx /* fetch timeout */
- push %edi
- push %ebx
- mov %edx,%edi
-
- rdtsc /* read cyclecount into %edx:%eax */
- addl %ecx,%eax /* fetch and timeout */
- adcl $0,%edx /* add carry */
- mov %edx,%ecx
- mov %eax,%ebx /* %ecx:%ebx is the timeout expiry */
3:
- ENABLE_PREEMPTION /* no reason not to be preempted now */
-4:
- /*
- * The inner-loop spin to look for the lock being freed.
- */
- mov $(INNER_LOOP_COUNT),%edx
-5:
PAUSE /* pause for hyper-threading */
- movl 0(%edi),%eax /* spin checking lock value in cache */
- testl %eax,%eax
- je 6f /* zero => unlocked, try to grab it */
- decl %edx /* decrement inner loop count */
- jnz 5b /* time to check for timeout? */
-
- /*
- * Here after spinning INNER_LOOP_COUNT times, check for timeout
- */
- rdtsc /* cyclecount into %edx:%eax */
- cmpl %ecx,%edx /* compare high-order 32-bits */
- jb 4b /* continue spinning if less, or */
- cmpl %ebx,%eax /* compare low-order 32-bits */
- jb 5b /* continue if less, else bail */
- xor %eax,%eax /* with 0 return value */
- pop %ebx
- pop %edi
- LEAF_RET
-
-6:
- /*
- * Here to try to grab the lock that now appears to be free
- * after contention.
- */
- movl 8+L_PC,%edx /* calling pc (8+ for pushed regs) */
- DISABLE_PREEMPTION
- lock; cmpxchgl %edx,0(%edi) /* try to acquire the HW lock */
- jne 3b /* no - spin again */
- movl $1,%eax /* yes */
- pop %ebx
- pop %edi
- LEAF_RET
-
-/*
- * void hw_lock_unlock(hw_lock_t)
- *
- * Unconditionally release lock.
- * MACH_RT: release preemption level.
- */
-LEAF_ENTRY(hw_lock_unlock)
- movl L_ARG0,%edx /* fetch lock pointer */
- movl $0,0(%edx) /* clear the lock */
- ENABLE_PREEMPTION
- LEAF_RET
-
-/*
- * unsigned int hw_lock_try(hw_lock_t)
- * MACH_RT: returns with preemption disabled on success.
- */
-LEAF_ENTRY(hw_lock_try)
- movl L_ARG0,%edx /* fetch lock pointer */
-
- movl L_PC,%ecx
- DISABLE_PREEMPTION
- movl 0(%edx),%eax
- testl %eax,%eax
- jne 1f
- lock; cmpxchgl %ecx,0(%edx) /* try to acquire the HW lock */
- jne 1f
-
- movl $1,%eax /* success */
- LEAF_RET
-
-1: ENABLE_PREEMPTION /* failure: release preemption... */
- xorl %eax,%eax /* ...and return failure */
- LEAF_RET
-
-/*
- * unsigned int hw_lock_held(hw_lock_t)
- * MACH_RT: doesn't change preemption state.
- * N.B. Racy, of course.
- */
-LEAF_ENTRY(hw_lock_held)
- movl L_ARG0,%edx /* fetch lock pointer */
-
- movl 0(%edx),%eax /* check lock value */
- testl %eax,%eax
- movl $1,%ecx
- cmovne %ecx,%eax /* 0 => unlocked, 1 => locked */
- LEAF_RET
-
-LEAF_ENTRY(mutex_init)
- movl L_ARG0,%edx /* fetch lock pointer */
- xorl %eax,%eax
- movl %eax,M_ILK /* clear interlock */
- movl %eax,M_LOCKED /* clear locked flag */
- movw %ax,M_WAITERS /* init waiter count */
- movw %ax,M_PROMOTED_PRI
-
-#if MACH_LDEBUG
- movl $ MUTEX_TAG,M_TYPE /* set lock type */
- movl %eax,M_PC /* init caller pc */
- movl %eax,M_THREAD /* and owning thread */
-#endif
-
- LEAF_RET
-
-NONLEAF_ENTRY2(mutex_lock,_mutex_lock)
-
- movl B_ARG0,%edx /* fetch lock pointer */
-
- CHECK_MUTEX_TYPE()
- CHECK_NO_SIMPLELOCKS()
- CHECK_PREEMPTION_LEVEL()
-
- pushf /* save interrupt state */
- cli /* disable interrupts */
-
-ml_retry:
- movl B_PC,%ecx
-
-ml_get_hw:
- movl M_ILK,%eax /* read interlock */
- testl %eax,%eax /* unlocked? */
- je 1f /* yes - attempt to lock it */
- PAUSE /* no - pause */
- jmp ml_get_hw /* try again */
-1:
- lock; cmpxchgl %ecx,M_ILK /* atomic compare and exchange */
- jne ml_get_hw /* branch on failure to retry */
-
- movl M_LOCKED,%ecx /* get lock owner */
- testl %ecx,%ecx /* is the mutex locked? */
- jne ml_fail /* yes, we lose */
- movl %gs:CPU_ACTIVE_THREAD,%ecx
- movl %ecx,M_LOCKED
-
-#if MACH_LDEBUG
- movl %ecx,M_THREAD
- movl B_PC,%ecx
- movl %ecx,M_PC
-#endif
-
- pushl %edx /* save mutex address */
- pushl %edx
- call EXT(lck_mtx_lock_acquire)
- addl $4,%esp
- popl %edx /* restore mutex address */
-
- xorl %eax,%eax
- movl %eax,M_ILK
-
- popf /* restore interrupt state */
-
- NONLEAF_RET
-
-ml_fail:
-ml_block:
- CHECK_MYLOCK(M_THREAD)
- pushl M_LOCKED
- pushl %edx /* push mutex address */
- call EXT(lck_mtx_lock_wait) /* wait for the lock */
- addl $8,%esp
- movl B_ARG0,%edx /* refetch mutex address */
- jmp ml_retry /* and try again */
-
-NONLEAF_ENTRY2(mutex_try,_mutex_try)
-
- movl B_ARG0,%edx /* fetch lock pointer */
-
- CHECK_MUTEX_TYPE()
- CHECK_NO_SIMPLELOCKS()
-
- movl B_PC,%ecx
-
- pushf /* save interrupt state */
- cli /* disable interrupts */
-
-mt_get_hw:
- movl M_ILK,%eax /* read interlock */
- testl %eax,%eax /* unlocked? */
- je 1f /* yes - attempt to lock it */
- PAUSE /* no - pause */
- jmp mt_get_hw /* try again */
-1:
- lock; cmpxchgl %ecx,M_ILK /* atomic compare and exchange */
- jne mt_get_hw /* branch on failure to retry */
-
- movl M_LOCKED,%ecx /* get lock owner */
- testl %ecx,%ecx /* is the mutex locked? */
- jne mt_fail /* yes, we lose */
- movl %gs:CPU_ACTIVE_THREAD,%ecx
- movl %ecx,M_LOCKED
-
-#if MACH_LDEBUG
- movl %ecx,M_THREAD
- movl B_PC,%ecx
- movl %ecx,M_PC
-#endif
-
- pushl %edx /* save mutex address */
- pushl %edx
- call EXT(lck_mtx_lock_acquire)
- addl $4,%esp
- popl %edx /* restore mutex address */
-
- xorl %eax,%eax
- movl %eax,M_ILK
-
- popf /* restore interrupt state */
-
- movl $1,%eax
-
- NONLEAF_RET
-
-mt_fail:
- xorl %eax,%eax
- movl %eax,M_ILK
-
- popf /* restore interrupt state */
-
- xorl %eax,%eax
-
- NONLEAF_RET
-
-NONLEAF_ENTRY(mutex_unlock)
- movl B_ARG0,%edx /* fetch lock pointer */
-
- CHECK_MUTEX_TYPE()
- CHECK_THREAD(M_THREAD)
-
- movl B_PC,%ecx
-
- pushf /* save interrupt state */
- cli /* disable interrupts */
-
-mu_get_hw:
- movl M_ILK,%eax /* read interlock */
- testl %eax,%eax /* unlocked? */
- je 1f /* yes - attempt to lock it */
- PAUSE /* no - pause */
- jmp mu_get_hw /* try again */
-1:
- lock; cmpxchgl %ecx,M_ILK /* atomic compare and exchange */
- jne mu_get_hw /* branch on failure to retry */
-
- cmpw $0,M_WAITERS /* are there any waiters? */
- jne mu_wakeup /* yes, more work to do */
-
-mu_doit:
-
-#if MACH_LDEBUG
- movl $0,M_THREAD /* disown thread */
-#endif
-
- xorl %ecx,%ecx
- movl %ecx,M_LOCKED /* unlock the mutex */
-
- movl %ecx,M_ILK
-
- popf /* restore interrupt state */
-
- NONLEAF_RET
-
-mu_wakeup:
- pushl M_LOCKED
- pushl %edx /* push mutex address */
- call EXT(lck_mtx_unlock_wakeup)/* yes, wake a thread */
- addl $8,%esp
- movl B_ARG0,%edx /* restore lock pointer */
- jmp mu_doit
+ jmp 1b /* try again */
/*
- * lck_mtx_lock()
- * lck_mtx_try_lock()
- * lck_mutex_unlock()
+ * void hw_lock_byte_unlock(uint8_t *lock_byte)
*
- * These are variants of mutex_lock(), mutex_try() and mutex_unlock() without
- * DEBUG checks (which require fields not present in lck_mtx_t's).
+ * Unconditionally release byte sized lock operand,
+ * release preemption level.
*/
-NONLEAF_ENTRY(lck_mtx_lock)
-
- movl B_ARG0,%edx /* fetch lock pointer */
- cmpl $(MUTEX_IND),M_ITAG /* is this indirect? */
- cmove M_PTR,%edx /* yes - take indirection */
-
- CHECK_NO_SIMPLELOCKS()
- CHECK_PREEMPTION_LEVEL()
-
- pushf /* save interrupt state */
- cli /* disable interrupts */
-
-lml_retry:
- movl B_PC,%ecx
-
-lml_get_hw:
- movl M_ILK,%eax /* read interlock */
- testl %eax,%eax /* unlocked? */
- je 1f /* yes - attempt to lock it */
- PAUSE /* no - pause */
- jmp lml_get_hw /* try again */
-1:
- lock; cmpxchgl %ecx,M_ILK /* atomic compare and exchange */
- jne lml_get_hw /* branch on failure to retry */
-
- movl M_LOCKED,%ecx /* get lock owner */
- testl %ecx,%ecx /* is the mutex locked? */
- jne lml_fail /* yes, we lose */
- movl %gs:CPU_ACTIVE_THREAD,%ecx
- movl %ecx,M_LOCKED
-
- pushl %edx /* save mutex address */
- pushl %edx
- call EXT(lck_mtx_lock_acquire)
- addl $4,%esp
- popl %edx /* restore mutex address */
-
- xorl %eax,%eax
- movl %eax,M_ILK
-
- popf /* restore interrupt state */
-
- NONLEAF_RET
-
-lml_fail:
- CHECK_MYLOCK(M_THREAD)
- pushl %edx /* save mutex address */
- pushl M_LOCKED
- pushl %edx /* push mutex address */
- call EXT(lck_mtx_lock_wait) /* wait for the lock */
- addl $8,%esp
- popl %edx /* restore mutex address */
- jmp lml_retry /* and try again */
-
-NONLEAF_ENTRY(lck_mtx_try_lock)
-
- movl B_ARG0,%edx /* fetch lock pointer */
- cmpl $(MUTEX_IND),M_ITAG /* is this indirect? */
- cmove M_PTR,%edx /* yes - take indirection */
-
- CHECK_NO_SIMPLELOCKS()
- CHECK_PREEMPTION_LEVEL()
-
- movl B_PC,%ecx
-
- pushf /* save interrupt state */
- cli /* disable interrupts */
-
-lmt_get_hw:
- movl M_ILK,%eax /* read interlock */
- testl %eax,%eax /* unlocked? */
- je 1f /* yes - attempt to lock it */
- PAUSE /* no - pause */
- jmp lmt_get_hw /* try again */
-1:
- lock; cmpxchgl %ecx,M_ILK /* atomic compare and exchange */
- jne lmt_get_hw /* branch on failure to retry */
-
- movl M_LOCKED,%ecx /* get lock owner */
- testl %ecx,%ecx /* is the mutex locked? */
- jne lmt_fail /* yes, we lose */
- movl %gs:CPU_ACTIVE_THREAD,%ecx
- movl %ecx,M_LOCKED
- pushl %edx /* save mutex address */
- pushl %edx
- call EXT(lck_mtx_lock_acquire)
- addl $4,%esp
- popl %edx /* restore mutex address */
-
- xorl %eax,%eax
- movl %eax,M_ILK
-
- popf /* restore interrupt state */
-
- movl $1,%eax /* return success */
- NONLEAF_RET
-
-lmt_fail:
- xorl %eax,%eax
- movl %eax,M_ILK
-
- popf /* restore interrupt state */
-
- xorl %eax,%eax /* return failure */
- NONLEAF_RET
-
-NONLEAF_ENTRY(lck_mtx_unlock)
-
- movl B_ARG0,%edx /* fetch lock pointer */
- cmpl $(MUTEX_IND),M_ITAG /* is this indirect? */
- cmove M_PTR,%edx /* yes - take indirection */
-
- movl B_PC,%ecx
-
- pushf /* save interrupt state */
- cli /* disable interrupts */
-
-lmu_get_hw:
- movl M_ILK,%eax /* read interlock */
- testl %eax,%eax /* unlocked? */
- je 1f /* yes - attempt to lock it */
- PAUSE /* no - pause */
- jmp lmu_get_hw /* try again */
-1:
- lock; cmpxchgl %ecx,M_ILK /* atomic compare and exchange */
- jne lmu_get_hw /* branch on failure to retry */
-
- cmpw $0,M_WAITERS /* are there any waiters? */
- jne lmu_wakeup /* yes, more work to do */
-
-lmu_doit:
- xorl %ecx,%ecx
- movl %ecx,M_LOCKED /* unlock the mutex */
-
- movl %ecx,M_ILK
-
- popf /* restore interrupt state */
-
- NONLEAF_RET
-
-lmu_wakeup:
- pushl %edx /* save mutex address */
- pushl M_LOCKED
- pushl %edx /* push mutex address */
- call EXT(lck_mtx_unlock_wakeup)/* yes, wake a thread */
- addl $8,%esp
- popl %edx /* restore mutex pointer */
- jmp lmu_doit
-
-LEAF_ENTRY(lck_mtx_ilk_unlock)
- movl L_ARG0,%edx /* no indirection here */
-
- xorl %eax,%eax
- movl %eax,M_ILK
-
- LEAF_RET
-
-LEAF_ENTRY(_disable_preemption)
-#if MACH_RT
- _DISABLE_PREEMPTION
-#endif /* MACH_RT */
- LEAF_RET
-
-LEAF_ENTRY(_enable_preemption)
-#if MACH_RT
-#if MACH_ASSERT
- cmpl $0,%gs:CPU_PREEMPTION_LEVEL
- jg 1f
- pushl %gs:CPU_PREEMPTION_LEVEL
- pushl $2f
- call EXT(panic)
- hlt
- .data
-2: String "_enable_preemption: preemption_level(%d) < 0!"
- .text
-1:
-#endif /* MACH_ASSERT */
- _ENABLE_PREEMPTION
-#endif /* MACH_RT */
- LEAF_RET
-
-LEAF_ENTRY(_enable_preemption_no_check)
-#if MACH_RT
-#if MACH_ASSERT
- cmpl $0,%gs:CPU_PREEMPTION_LEVEL
- jg 1f
- pushl $2f
- call EXT(panic)
- hlt
- .data
-2: String "_enable_preemption_no_check: preemption_level <= 0!"
- .text
-1:
-#endif /* MACH_ASSERT */
- _ENABLE_PREEMPTION_NO_CHECK
-#endif /* MACH_RT */
- LEAF_RET
-
-
-LEAF_ENTRY(_mp_disable_preemption)
-#if MACH_RT
- _DISABLE_PREEMPTION
-#endif /* MACH_RT */
- LEAF_RET
-
-LEAF_ENTRY(_mp_enable_preemption)
-#if MACH_RT
-#if MACH_ASSERT
- cmpl $0,%gs:CPU_PREEMPTION_LEVEL
- jg 1f
- pushl %gs:CPU_PREEMPTION_LEVEL
- pushl $2f
- call EXT(panic)
- hlt
- .data
-2: String "_mp_enable_preemption: preemption_level (%d) <= 0!"
- .text
-1:
-#endif /* MACH_ASSERT */
- _ENABLE_PREEMPTION
-#endif /* MACH_RT */
+LEAF_ENTRY(hw_lock_byte_unlock)
+ movb $0, (%rdi) /* Clear the lock byte */
+ PREEMPTION_ENABLE
LEAF_RET
-LEAF_ENTRY(_mp_enable_preemption_no_check)
-#if MACH_RT
-#if MACH_ASSERT
- cmpl $0,%gs:CPU_PREEMPTION_LEVEL
- jg 1f
- pushl $2f
- call EXT(panic)
+LEAF_ENTRY(preemption_underflow_panic)
+ FRAME
+ incl %gs:CPU_PREEMPTION_LEVEL
+ ALIGN_STACK()
+ LOAD_STRING_ARG0(16f)
+ CALL_PANIC()
hlt
.data
-2: String "_mp_enable_preemption_no_check: preemption_level <= 0!"
+16: String "Preemption level underflow, possible cause unlocking an unlocked mutex or spinlock"
.text
-1:
-#endif /* MACH_ASSERT */
- _ENABLE_PREEMPTION_NO_CHECK
-#endif /* MACH_RT */
- LEAF_RET
-
-
-LEAF_ENTRY(i_bit_set)
- movl L_ARG0,%edx
- movl L_ARG1,%eax
- lock
- bts %edx,(%eax)
- LEAF_RET
-
-LEAF_ENTRY(i_bit_clear)
- movl L_ARG0,%edx
- movl L_ARG1,%eax
- lock
- btr %edx,(%eax)
- LEAF_RET
-LEAF_ENTRY(bit_lock)
- movl L_ARG0,%ecx
- movl L_ARG1,%eax
-1:
- lock
- bts %ecx,(%eax)
- jb 1b
- LEAF_RET
-
-LEAF_ENTRY(bit_lock_try)
- movl L_ARG0,%ecx
- movl L_ARG1,%eax
- lock
- bts %ecx,(%eax)
- jb bit_lock_failed
- LEAF_RET /* %eax better not be null ! */
-bit_lock_failed:
- xorl %eax,%eax
- LEAF_RET
-
-LEAF_ENTRY(bit_unlock)
- movl L_ARG0,%ecx
- movl L_ARG1,%eax
- lock
- btr %ecx,(%eax)
- LEAF_RET