1 // Copyright (c) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).

     2 // All rights reserved.

     3 // This component and the accompanying materials are made available

     4 // under the terms of the License "Eclipse Public License v1.0"

     5 // which accompanies this distribution, and is available

     6 // at the URL "http://www.eclipse.org/legal/epl-v10.html".

     7 //

     8 // Initial Contributors:

     9 // Nokia Corporation - initial contribution.

    10 //

    11 // Contributors:

    12 //

    13 // Description:

    14 // e32\common\arm\atomics.cia

    15 // 

    16 //

    17 

    18 

    19 #include <cpudefs.h>

    20 #include <e32def.h>

    21 //#include <e32atomics.h>

    22 

    23 #if defined(__KERNEL_MODE__)

    24 #include "nk_cpu.h"

    25 #elif defined(__ATOMIC_USE_FAST_EXEC__) || defined(__ATOMIC64_USE_FAST_EXEC__) || defined(__ATOMIC64_USE_SLOW_EXEC__)

    26 #include <u32exec.h>

    27 #endif

    28 

    29 #define	__concat__(a,b)	a##b

    30 #define	__concat3__(a,b,c)	a##b##c

    31 #define	__concat5__(a,b,c,d,e)	a##b##c##d##e

    32 #define	__fname__(type,order,size)	__concat5__(__e32_atomic_,type,_,order,size)

    33 //	__e32_atomic_##type##_##order##size

    34 

    35 #undef	__BARRIERS_NEEDED__

    36 #undef	__AVOID_READ_SIDE_EFFECTS__

    37 #ifdef __SMP__

    38 #define	__BARRIERS_NEEDED__

    39 #else

    40 #ifdef __KERNEL_MODE__

    41 // On non-SMP use interrupt disabling even on V6 and V6K just in case someone

    42 // has used the atomic operations on I/O addresses.

    43 #define __AVOID_READ_SIDE_EFFECTS__

    44 #endif

    45 #endif

    46 

    47 #ifdef	__BARRIERS_NEEDED__

    48 #define	__LOCAL_DATA_MEMORY_BARRIER__(reg)		__DATA_MEMORY_BARRIER__(reg)

    49 #define	__LOCAL_DATA_MEMORY_BARRIER_Z__(reg)	__DATA_MEMORY_BARRIER_Z__(reg)

    50 #define	__LOCAL_DATA_SYNC_BARRIER__(reg)		__DATA_SYNC_BARRIER__(reg)

    51 #define	__LOCAL_DATA_SYNC_BARRIER_Z__(reg)		__DATA_SYNC_BARRIER_Z__(reg)

    52 #define	__LOCAL_INST_SYNC_BARRIER__(reg)		__INST_SYNC_BARRIER__(reg)

    53 #define	__LOCAL_INST_SYNC_BARRIER_Z__(reg)		__INST_SYNC_BARRIER_Z__(reg)

    54 #else	// __BARRIERS_NEEDED__

    55 #define	__LOCAL_DATA_MEMORY_BARRIER__(reg)

    56 #define	__LOCAL_DATA_MEMORY_BARRIER_Z__(reg)

    57 #define	__LOCAL_DATA_SYNC_BARRIER__(reg)

    58 #define	__LOCAL_DATA_SYNC_BARRIER_Z__(reg)

    59 #define	__LOCAL_INST_SYNC_BARRIER__(reg)

    60 #define	__LOCAL_INST_SYNC_BARRIER_Z__(reg)

    61 #endif	// __BARRIERS_NEEDED__

    62 

    63 #ifdef	__CPU_ARM_HAS_CPS

    64 #define	__DISABLE_INTERRUPTS__(keep,temp)	asm("mrs "#keep ", cpsr"); CPSIDAIF

    65 #define	__RESTORE_INTERRUPTS__(keep)		asm("msr cpsr_c, "#keep )	// flags preserved

    66 #else

    67 #define	__DISABLE_INTERRUPTS__(keep,temp)	asm("mrs "#keep ", cpsr"); asm("orr "#temp ", "#keep ", #0xc0" ); asm("msr cpsr, "#temp )

    68 #define	__RESTORE_INTERRUPTS__(keep)		asm("msr cpsr_c, "#keep )	// flags preserved

    69 #endif

    70 

    71 /******************************************************************************

    72  * Barriers

    73  ******************************************************************************/

    74 

    75 extern "C" EXPORT_C __NAKED__ void __e32_memory_barrier()

    76 	{

    77 	__LOCAL_DATA_MEMORY_BARRIER_Z__(r0);

    78 	__JUMP(,lr);

    79 	}

    80 

    81 /** Barrier guaranteeing completion as well as ordering

    82 

    83 */

    84 #if defined(__KERNEL_MODE__) || defined(__CPU_ARM_SUPPORTS_USER_MODE_BARRIERS)

    85 extern "C" EXPORT_C __NAKED__ void __e32_io_completion_barrier()

    86 	{

    87 	__DATA_SYNC_BARRIER_Z__(r0);

    88 	__JUMP(,lr);

    89 	}

    90 #else

    91 extern "C" EXPORT_C __NAKED__ void __e32_io_completion_barrier()

    92 	{

    93 	asm("mov	r0, sp ");

    94 	asm("mov	r1, #0 ");

    95 	SLOW_EXEC2(EExecIMBRange);

    96 	}

    97 #endif

    98 

    99 

   100 /******************************************************************************

   101  * Miscellaneous utility functions

   102  ******************************************************************************/

   103 

   104 /** Find the most significant 1 in a 32 bit word

   105 

   106 	@param	v	The word to be scanned

   107 	@return		The bit number of the most significant 1 if v != 0

   108 				-1 if v == 0

   109 */

   110 extern "C" EXPORT_C __NAKED__ TInt __e32_find_ms1_32(TUint32 /*v*/)

   111 	{

   112 #ifdef __CPU_ARM_HAS_CLZ

   113 	CLZ(		1,0);						// r1=31-MSB(r0), 32 if r0=0

   114 	asm("rsb	r0, r1, #31 ");				// r0=MSB(r0), -1 if r0=0

   115 #else

   116 	asm("movs	r1, r0 ");

   117 	asm("beq	0f ");

   118 	asm("mov	r0, #31 ");

   119 	asm("cmp	r1, #0x00010000 ");

   120 	asm("movcc	r1, r1, lsl #16 ");

   121 	asm("subcc	r0, r0, #16 ");

   122 	asm("cmp	r1, #0x01000000 ");

   123 	asm("movcc	r1, r1, lsl #8 ");

   124 	asm("subcc	r0, r0, #8 ");

   125 	asm("cmp	r1, #0x10000000 ");

   126 	asm("movcc	r1, r1, lsl #4 ");

   127 	asm("subcc	r0, r0, #4 ");

   128 	asm("cmp	r1, #0x40000000 ");

   129 	asm("movcc	r1, r1, lsl #2 ");

   130 	asm("subcc	r0, r0, #2 ");

   131 	asm("cmp	r1, #0x80000000 ");

   132 	asm("subcc	r0, r0, #1 ");

   133 	__JUMP(,	lr);

   134 	asm("0: ");

   135 	asm("mvn	r0, #0 ");					// if input zero, return -1

   136 #endif

   137 	__JUMP(,	lr);

   138 	}

   139 

   140 

   141 /** Find the least significant 1 in a 32 bit word

   142 

   143 	@param	v	The word to be scanned

   144 	@return		The bit number of the least significant 1 if v != 0

   145 				-1 if v == 0

   146 */

   147 extern "C" EXPORT_C __NAKED__ TInt __e32_find_ls1_32(TUint32 /*v*/)

   148 	{

   149 #ifdef __CPU_ARM_HAS_CLZ

   150 	asm("subs	r1, r0, #1 ");				// r1 = arg - 1

   151 	asm("eorcs	r0, r0, r1 ");				// if arg=0, leave alone else mask upper bits

   152 	CLZ(		1,0);						// r1=31-MSB(r0), 32 if r0=0

   153 	asm("rsb	r0, r1, #31 ");				// r0=MSB(r0), -1 if r0=0

   154 #else

   155 	asm("movs	r1, r0 ");

   156 	asm("beq	0f ");

   157 	asm("mov	r0, #0 ");

   158 	asm("movs	r2, r1, lsl #16 ");

   159 	asm("movne	r1, r2 ");

   160 	asm("addeq	r0, r0, #16 ");

   161 	asm("movs	r2, r1, lsl #8 ");

   162 	asm("movne	r1, r2 ");

   163 	asm("addeq	r0, r0, #8 ");

   164 	asm("movs	r2, r1, lsl #4 ");

   165 	asm("movne	r1, r2 ");

   166 	asm("addeq	r0, r0, #4 ");

   167 	asm("movs	r2, r1, lsl #2 ");

   168 	asm("movne	r1, r2 ");

   169 	asm("addeq	r0, r0, #2 ");

   170 	asm("movs	r2, r1, lsl #1 ");

   171 	asm("addeq	r0, r0, #1 ");

   172 	__JUMP(,	lr);

   173 	asm("0: ");

   174 	asm("mvn	r0, #0 ");					// if input zero, return -1

   175 #endif

   176 	__JUMP(,	lr);

   177 	}

   178 

   179 

   180 /** Count the number of 1's in a 32 bit word

   181 

   182 	@param	v	The word to be scanned

   183 	@return		The number of 1's

   184 */

   185 extern "C" EXPORT_C __NAKED__ TInt __e32_bit_count_32(TUint32 /*v*/)

   186 	{

   187 	asm("mov	r2, #0x0f ");				// r2=0x0000000f

   188 	asm("orr	r2, r2, r2, lsl #8 ");		// r2=0x00000f0f

   189 	asm("orr	r2, r2, r2, lsl #16 ");		// r2=0x0f0f0f0f

   190 	asm("eor	r3, r2, r2, lsl #2 ");		// r3=0x33333333

   191 	asm("eor	ip, r3, r3, lsl #1 ");		// ip=0x55555555

   192 	asm("bic	r1, r0, ip ");				// r1=odd bits of input

   193 	asm("and	r0, r0, ip ");				// r0=even bits of input

   194 	asm("add	r0, r0, r1, lsr #1 ");		// r0[2n:2n+1] = in[2n]+in[2n+1], 0<=n<=15

   195 	asm("bic	r1, r0, r3 ");				// r1 = r0[4n+2:4n+3] for 0<=n<=7, other bits 0

   196 	asm("and	r0, r0, r3 ");				// r0 = r0[4n:4n+1] for 0<=n<=7, other bits 0

   197 	asm("add	r0, r0, r1, lsr #2 ");		// r0 bits 4n:4n+3 = in[4n]+in[4n+1]+in[4n+2]+in[4n+3], 0<=n<=7

   198 	asm("add	r0, r0, r0, lsr #4 ");		// r0[8n:8n+3]=in[8n]+in[8n+1]+...+in[8n+7], 0<=n<=3

   199 	asm("and	r0, r0, r2 ");				// make sure other bits of r0 are zero

   200 	asm("add	r0, r0, r0, lsr #8 ");		// r0[16n:16n+7]=in[16n]+in[16n+1]+...+in[16n+15], n=0,1

   201 	asm("add	r0, r0, r0, lsr #16 ");		// r0[0:7]=SUM{ in[n] : 0<=n<=31 }

   202 	asm("and	r0, r0, #0xff ");			// mask other unwanted bits

   203 	__JUMP(,	lr);

   204 	}

   205 

   206 

   207 /** Find the most significant 1 in a 64 bit word

   208 

   209 	@param	v	The word to be scanned

   210 	@return		The bit number of the most significant 1 if v != 0

   211 				-1 if v == 0

   212 */

   213 extern "C" EXPORT_C __NAKED__ TInt __e32_find_ms1_64(TUint64 /*v*/)

   214 	{

   215 	/* On entry argument in R1:R0 */

   216 #ifdef __CPU_ARM_HAS_CLZ

   217 	CLZ(		2,1);						// r2=31-MSB(r1), 32 if r1=0

   218 	asm("subs	r2, r2, #32 ");				// r2=-1-MSB(r1), 0 if r1=0

   219 	CLZcc(CC_EQ,2,0);						// if r1=0, r2=31-MSB(r0), 32 if r0=0

   220 	asm("rsb	r0, r2, #31 ");				// if r1!=0, r0=32+MSB(r1) else if r0!=0 r0=MSB(r0) else r0=-1

   221 #else

   222 	asm("cmp	r1, #1 ");					// r1>=1 ?

   223 	asm("movcs	r0, #63 ");					// if so r0=63

   224 	asm("movccs	r1, r0 ");					// else r1=r0, test for zero (C unaffected)

   225 	asm("beq	0f ");

   226 	asm("movcc	r0, #31 ");					// if r1=0 and r0!=0, r1=original r0 and r0=31

   227 	asm("cmp	r1, #0x00010000 ");

   228 	asm("movcc	r1, r1, lsl #16 ");

   229 	asm("subcc	r0, r0, #16 ");

   230 	asm("cmp	r1, #0x01000000 ");

   231 	asm("movcc	r1, r1, lsl #8 ");

   232 	asm("subcc	r0, r0, #8 ");

   233 	asm("cmp	r1, #0x10000000 ");

   234 	asm("movcc	r1, r1, lsl #4 ");

   235 	asm("subcc	r0, r0, #4 ");

   236 	asm("cmp	r1, #0x40000000 ");

   237 	asm("movcc	r1, r1, lsl #2 ");

   238 	asm("subcc	r0, r0, #2 ");

   239 	asm("cmp	r1, #0x80000000 ");

   240 	asm("subcc	r0, r0, #1 ");

   241 	__JUMP(,	lr);

   242 	asm("0: ");

   243 	asm("mvn	r0, #0 ");					// if input zero, return -1

   244 #endif

   245 	__JUMP(,	lr);

   246 	}

   247 

   248 

   249 /** Find the least significant 1 in a 64 bit word

   250 

   251 	@param	v	The word to be scanned

   252 	@return		The bit number of the least significant 1 if v != 0

   253 				-1 if v == 0

   254 */

   255 extern "C" EXPORT_C __NAKED__ TInt __e32_find_ls1_64(TUint64 /*v*/)

   256 	{

   257 	/* On entry argument in R1:R0 */

   258 #ifdef __CPU_ARM_HAS_CLZ

   259 	asm("subs	r2, r0, #1 ");

   260 	asm("sbcs	r3, r1, #0 ");				// r3:r2 = arg - 1

   261 	asm("eorcs	r0, r0, r2 ");				// if arg=0 leave alone else mask upper bits

   262 	asm("eorcs	r1, r1, r3 ");

   263 	CLZ(		2,1);						// r2=31-MSB(r1), 32 if r1=0

   264 	asm("subs	r2, r2, #32 ");				// r2=-1-MSB(r1), 0 if r1=0

   265 	CLZcc(CC_EQ,2,0);						// if r1=0, r2=31-MSB(r0), 32 if r0=0

   266 	asm("rsb	r0, r2, #31 ");				// if r1!=0, r0=32+MSB(r1) else if r0!=0 r0=MSB(r0) else r0=-1

   267 #else

   268 	asm("cmp	r0, #1 ");					// LSW(arg) >= 1?

   269 	asm("movcs	r1, r0 ");					// if so r1=r0

   270 	asm("movcs	r0, #32 ");					// and r0=32

   271 	asm("movcc	r0, #0 ");					// else r0=0

   272 	asm("cmpcc	r1, #1 ");					// and test if MSW(arg) >= 1

   273 	asm("bcc	0f ");						// if not, return -1

   274 	asm("movs	r2, r1, lsl #16 ");

   275 	asm("movne	r1, r2 ");

   276 	asm("addeq	r0, r0, #16 ");

   277 	asm("movs	r2, r1, lsl #8 ");

   278 	asm("movne	r1, r2 ");

   279 	asm("addeq	r0, r0, #8 ");

   280 	asm("movs	r2, r1, lsl #4 ");

   281 	asm("movne	r1, r2 ");

   282 	asm("addeq	r0, r0, #4 ");

   283 	asm("movs	r2, r1, lsl #2 ");

   284 	asm("movne	r1, r2 ");

   285 	asm("addeq	r0, r0, #2 ");

   286 	asm("movs	r2, r1, lsl #1 ");

   287 	asm("addeq	r0, r0, #1 ");

   288 	__JUMP(,	lr);

   289 	asm("0: ");

   290 	asm("mvn	r0, #0 ");					// if input zero, return -1

   291 #endif

   292 	__JUMP(,	lr);

   293 	}

   294 

   295 

   296 /** Count the number of 1's in a 64 bit word

   297 

   298 	@param	v	The word to be scanned

   299 	@return		The number of 1's

   300 */

   301 extern "C" EXPORT_C __NAKED__ TInt __e32_bit_count_64(TUint64 /*v*/)

   302 	{

   303 	/* On entry argument in R1:R0 */

   304 	asm("str	r4, [sp, #-4]! ");

   305 	asm("mov	r2, #0x0f ");				// r2=0x0000000f

   306 	asm("orr	r2, r2, r2, lsl #8 ");		// r2=0x00000f0f

   307 	asm("orr	r2, r2, r2, lsl #16 ");		// r2=0x0f0f0f0f

   308 	asm("eor	r3, r2, r2, lsl #2 ");		// r3=0x33333333

   309 	asm("eor	ip, r3, r3, lsl #1 ");		// ip=0x55555555

   310 

   311 	asm("bic	r4, r0, ip ");				// r4=odd bits of input LSW

   312 	asm("and	r0, r0, ip ");				// r0=even bits of input LSW

   313 	asm("add	r0, r0, r4, lsr #1 ");		// r0[2n:2n+1] = in[2n]+in[2n+1], 0<=n<=15

   314 	asm("bic	r4, r0, r3 ");				// r4 = r0[4n+2:4n+3] for 0<=n<=7, other bits 0

   315 	asm("and	r0, r0, r3 ");				// r0 = r0[4n:4n+1] for 0<=n<=7, other bits 0

   316 	asm("add	r0, r0, r4, lsr #2 ");		// r0 bits 4n:4n+3 = in[4n]+in[4n+1]+in[4n+2]+in[4n+3], 0<=n<=7

   317 

   318 	asm("bic	r4, r1, ip ");				// r4=odd bits of input MSW

   319 	asm("and	r1, r1, ip ");				// r1=even bits of input MSW

   320 	asm("add	r1, r1, r4, lsr #1 ");		// r1[2n:2n+1] = in[2n+32]+in[2n+33], 0<=n<=15

   321 	asm("bic	r4, r1, r3 ");				// r4 = r1[4n+34:4n+35] for 0<=n<=7, other bits 0

   322 	asm("and	r1, r1, r3 ");				// r1 = r1[4n+32:4n+33] for 0<=n<=7, other bits 0

   323 	asm("add	r1, r1, r4, lsr #2 ");		// r1 bits 4n:4n+3 = in[4n+32]+in[4n+33]+in[4n+34]+in[4n+35], 0<=n<=7

   324 	asm("ldr	r4, [sp], #4 ");

   325 

   326 	asm("add	r0, r0, r1 ");				// r0 bits 4n:4n+3 = in[4n]+in[4n+1]+in[4n+2]+in[4n+3]+in[4n+32]+in[4n+33]+in[4n+34]+in[4n+35], 0<=n<=7

   327 	asm("bic	r1, r0, r2 ");				// odd nibbles only

   328 	asm("and	r0, r0, r2 ");				// even nibbles only

   329 	asm("add	r0, r0, r1, lsr #4 ");		// r0[8n:8n+7]=bit count of byte n of MSW + bit count of byte n of LSW

   330 	asm("add	r0, r0, r0, lsr #8 ");		// r0[16n:16n+7]=bit count of hword n of MSW + bit count of hword n of LSW

   331 	asm("add	r0, r0, r0, lsr #16 ");		// r0[0:7]=total bit count

   332 	asm("and	r0, r0, #0xff ");			// mask other unwanted bits

   333 	__JUMP(,	lr);

   334 	}

   335 

   336 

   337 

   338 /******************************************************************************

   339  * 64 bit operations

   340  ******************************************************************************/

   341 #define	__DATA_SIZE__ 64

   342 #if defined(__CPU_ARM_HAS_LDREX_STREX_V6K) && !defined(__AVOID_READ_SIDE_EFFECTS__)

   343 

   344 // Include LDREXD/STREXD-based 64 bit operations

   345 #define	__OP_LOAD__

   346 #include "atomic_64_v6k.h"

   347 #define	__OP_STORE__

   348 #include "atomic_64_v6k.h"

   349 #define	__OP_SWP__

   350 #include "atomic_64_v6k.h"

   351 #define	__OP_CAS__

   352 #include "atomic_64_v6k.h"

   353 #define	__OP_ADD__

   354 #include "atomic_64_v6k.h"

   355 #define	__OP_AND__

   356 #include "atomic_64_v6k.h"

   357 #define	__OP_IOR__

   358 #include "atomic_64_v6k.h"

   359 #define	__OP_XOR__

   360 #include "atomic_64_v6k.h"

   361 #define	__OP_AXO__

   362 #include "atomic_64_v6k.h"

   363 #define	__OP_TAU__

   364 #include "atomic_64_v6k.h"

   365 #define	__OP_TAS__

   366 #include "atomic_64_v6k.h"

   367 

   368 #else

   369 #ifdef __KERNEL_MODE__

   370 

   371 // Include interrupt-disabling 64 bit operations

   372 #define	__OP_LOAD__

   373 #include "atomic_64_v6_v5.h"

   374 #define	__OP_STORE__

   375 #include "atomic_64_v6_v5.h"

   376 #define	__OP_SWP__

   377 #include "atomic_64_v6_v5.h"

   378 #define	__OP_CAS__

   379 #include "atomic_64_v6_v5.h"

   380 #define	__OP_ADD__

   381 #include "atomic_64_v6_v5.h"

   382 #define	__OP_AND__

   383 #include "atomic_64_v6_v5.h"

   384 #define	__OP_IOR__

   385 #include "atomic_64_v6_v5.h"

   386 #define	__OP_XOR__

   387 #include "atomic_64_v6_v5.h"

   388 #define	__OP_AXO__

   389 #include "atomic_64_v6_v5.h"

   390 #define	__OP_TAU__

   391 #include "atomic_64_v6_v5.h"

   392 #define	__OP_TAS__

   393 #include "atomic_64_v6_v5.h"

   394 

   395 #else

   396 

   397 // Include 64 bit operations using Exec calls

   398 #define	__OP_LOAD__

   399 #include "atomic_64_v6_v5.h"

   400 #define	__OP_STORE__

   401 #include "atomic_64_v6_v5.h"

   402 #define	__OP_SWP__

   403 #include "atomic_64_exec.h"

   404 #define	__OP_CAS__

   405 #include "atomic_64_exec.h"

   406 #define	__OP_ADD__

   407 #include "atomic_64_exec.h"

   408 #define	__OP_AND__

   409 #include "atomic_64_exec.h"

   410 #define	__OP_IOR__

   411 #include "atomic_64_exec.h"

   412 #define	__OP_XOR__

   413 #include "atomic_64_exec.h"

   414 #define	__OP_AXO__

   415 #include "atomic_64_exec.h"

   416 #define	__OP_TAU__

   417 #include "atomic_64_exec.h"

   418 #define	__OP_TAS__

   419 #include "atomic_64_exec.h"

   420 

   421 #endif

   422 #endif

   423 #undef	__DATA_SIZE__

   424 

   425 /******************************************************************************

   426  * 8,16,32 bit load/store operations

   427  ******************************************************************************/

   428 

   429 #define	__DATA_SIZE__ 8

   430 #define	__OP_LOAD__

   431 #include "atomic_32_v6.h"

   432 #define	__OP_STORE__

   433 #include "atomic_32_v6.h"

   434 #undef	__DATA_SIZE__

   435 

   436 #define	__DATA_SIZE__ 16

   437 #define	__OP_LOAD__

   438 #include "atomic_32_v6.h"

   439 #define	__OP_STORE__

   440 #include "atomic_32_v6.h"

   441 #undef	__DATA_SIZE__

   442 

   443 #define	__DATA_SIZE__ 32

   444 #define	__OP_LOAD__

   445 #include "atomic_32_v6.h"

   446 #define	__OP_STORE__

   447 #include "atomic_32_v6.h"

   448 #undef	__DATA_SIZE__

   449 

   450 /******************************************************************************

   451  * 8,16,32 bit RMW operations

   452  ******************************************************************************/

   453 

   454 #if defined(__CPU_ARM_HAS_LDREX_STREX_V6K) && !defined(__AVOID_READ_SIDE_EFFECTS__)

   455 // V6K - Use variants of LDREX/STREX for everything

   456 #define	__ATOMIC_8_IMPL__	"atomic_32_v6.h"

   457 #define	__ATOMIC_16_IMPL__	"atomic_32_v6.h"

   458 #define	__ATOMIC_32_IMPL__	"atomic_32_v6.h"

   459 #elif defined(__CPU_ARM_HAS_LDREX_STREX) && !defined(__AVOID_READ_SIDE_EFFECTS__)

   460 // V6 - Use LDREX/STREX for 32 bit operations

   461 //		Use LDREX/STREX with shifts/rotates for 8/16 bit operations

   462 #define	__ATOMIC_8_IMPL__	"atomic_8_16_v6.h"

   463 #define	__ATOMIC_16_IMPL__	"atomic_8_16_v6.h"

   464 #define	__ATOMIC_32_IMPL__	"atomic_32_v6.h"

   465 #else

   466 // V5 - Use interrupt disabling kernel side, Exec calls user side

   467 #ifdef __KERNEL_MODE__

   468 #define	__ATOMIC_8_IMPL__	"atomic_8_16_32_irq.h"

   469 #define	__ATOMIC_16_IMPL__	"atomic_8_16_32_irq.h"

   470 #define	__ATOMIC_32_IMPL__	"atomic_8_16_32_irq.h"

   471 #else

   472 #define	__ATOMIC_8_IMPL__	"atomic_8_16_32_exec.h"

   473 #define	__ATOMIC_16_IMPL__	"atomic_8_16_32_exec.h"

   474 #define	__ATOMIC_32_IMPL__	"atomic_8_16_32_exec.h"

   475 #endif

   476 #endif

   477 

   478 #define	__DATA_SIZE__ 8

   479 #define	__OP_SWP__

   480 #include __ATOMIC_8_IMPL__

   481 #define	__OP_CAS__

   482 #include __ATOMIC_8_IMPL__

   483 #define	__OP_ADD__

   484 #include __ATOMIC_8_IMPL__

   485 #define	__OP_AND__

   486 #include __ATOMIC_8_IMPL__

   487 #define	__OP_IOR__

   488 #include __ATOMIC_8_IMPL__

   489 #define	__OP_XOR__

   490 #include __ATOMIC_8_IMPL__

   491 #define	__OP_AXO__

   492 #include __ATOMIC_8_IMPL__

   493 #define	__OP_TAU__

   494 #include __ATOMIC_8_IMPL__

   495 #define	__OP_TAS__

   496 #include __ATOMIC_8_IMPL__

   497 #undef	__DATA_SIZE__

   498 

   499 #define	__DATA_SIZE__ 16

   500 #define	__OP_SWP__

   501 #include __ATOMIC_16_IMPL__

   502 #define	__OP_CAS__

   503 #include __ATOMIC_16_IMPL__

   504 #define	__OP_ADD__

   505 #include __ATOMIC_16_IMPL__

   506 #define	__OP_AND__

   507 #include __ATOMIC_16_IMPL__

   508 #define	__OP_IOR__

   509 #include __ATOMIC_16_IMPL__

   510 #define	__OP_XOR__

   511 #include __ATOMIC_16_IMPL__

   512 #define	__OP_AXO__

   513 #include __ATOMIC_16_IMPL__

   514 #define	__OP_TAU__

   515 #include __ATOMIC_16_IMPL__

   516 #define	__OP_TAS__

   517 #include __ATOMIC_16_IMPL__

   518 #undef	__DATA_SIZE__

   519 

   520 #define	__DATA_SIZE__ 32

   521 #define	__OP_SWP__

   522 #include __ATOMIC_32_IMPL__

   523 #define	__OP_CAS__

   524 #include __ATOMIC_32_IMPL__

   525 #define	__OP_ADD__

   526 #include __ATOMIC_32_IMPL__

   527 #define	__OP_AND__

   528 #include __ATOMIC_32_IMPL__

   529 #define	__OP_IOR__

   530 #include __ATOMIC_32_IMPL__

   531 #define	__OP_XOR__

   532 #include __ATOMIC_32_IMPL__

   533 #define	__OP_AXO__

   534 #include __ATOMIC_32_IMPL__

   535 #define	__OP_TAU__

   536 #include __ATOMIC_32_IMPL__

   537 #define	__OP_TAS__

   538 #include __ATOMIC_32_IMPL__

   539 #undef	__DATA_SIZE__

   540