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TARGET_NRF51_MICROBIT/core_caFunc.h@136:ef9c61f8c49f, 2017-02-14 (annotated)

Committer:: Kojto
Date:: Tue Feb 14 11:24:20 2017 +0000
Revision:: 136:ef9c61f8c49f
Parent:: 130:d75b3fe1f5cb

Release 136 of the mbed library

Ports for Upcoming Targets

Fixes and Changes

3432: Target STM USBHOST support https://github.com/ARMmbed/mbed-os/pull/3432

3181: NUCLEO_F207ZG extending PeripheralPins.c: all available alternate functions can be used now https://github.com/ARMmbed/mbed-os/pull/3181

3626: NUCLEO_F412ZG : Add USB Device +Host https://github.com/ARMmbed/mbed-os/pull/3626

3628: Fix warnings https://github.com/ARMmbed/mbed-os/pull/3628

3629: STM32: L0 LL layer https://github.com/ARMmbed/mbed-os/pull/3629

3632: IDE Export support for platform VK_RZ_A1H https://github.com/ARMmbed/mbed-os/pull/3632

3642: Missing IRQ pin fix for platform VK_RZ_A1H https://github.com/ARMmbed/mbed-os/pull/3642

3664: Fix ncs36510 sleep definitions https://github.com/ARMmbed/mbed-os/pull/3664

3655: [STM32F4] Modify folder structure https://github.com/ARMmbed/mbed-os/pull/3655

3657: [STM32L4] Modify folder structure https://github.com/ARMmbed/mbed-os/pull/3657

3658: [STM32F3] Modify folder structure https://github.com/ARMmbed/mbed-os/pull/3658

3685: STM32: I2C: reset state machine https://github.com/ARMmbed/mbed-os/pull/3685

3692: uVisor: Standardize available legacy heap and stack https://github.com/ARMmbed/mbed-os/pull/3692

3621: Fix for #2884, LPC824: export to LPCXpresso, target running with wron https://github.com/ARMmbed/mbed-os/pull/3621

3649: [STM32F7] Modify folder structure https://github.com/ARMmbed/mbed-os/pull/3649

3695: Enforce device_name is valid in targets.json https://github.com/ARMmbed/mbed-os/pull/3695

3723: NCS36510: spi_format function bug fix https://github.com/ARMmbed/mbed-os/pull/3723

Who changed what in which revision?

User	Revision	Line number	New contents of line
Kojto	104:b9ad9a133dc7	1	/************************************************************************//
Kojto	104:b9ad9a133dc7	2	* @file core_caFunc.h
Kojto	104:b9ad9a133dc7	3	* @brief CMSIS Cortex-A Core Function Access Header File
Kojto	104:b9ad9a133dc7	4	* @version V3.10
Kojto	108:34e6b704fe68	5	* @date 30 Oct 2013
Kojto	104:b9ad9a133dc7	6	*
Kojto	104:b9ad9a133dc7	7	* @note
Kojto	104:b9ad9a133dc7	8	*
Kojto	104:b9ad9a133dc7	9	******************************************************************************/
Kojto	108:34e6b704fe68	10	/* Copyright (c) 2009 - 2013 ARM LIMITED
Kojto	104:b9ad9a133dc7	11
Kojto	104:b9ad9a133dc7	12	All rights reserved.
Kojto	104:b9ad9a133dc7	13	Redistribution and use in source and binary forms, with or without
Kojto	104:b9ad9a133dc7	14	modification, are permitted provided that the following conditions are met:
Kojto	104:b9ad9a133dc7	15	- Redistributions of source code must retain the above copyright
Kojto	104:b9ad9a133dc7	16	notice, this list of conditions and the following disclaimer.
Kojto	104:b9ad9a133dc7	17	- Redistributions in binary form must reproduce the above copyright
Kojto	104:b9ad9a133dc7	18	notice, this list of conditions and the following disclaimer in the
Kojto	104:b9ad9a133dc7	19	documentation and/or other materials provided with the distribution.
Kojto	104:b9ad9a133dc7	20	- Neither the name of ARM nor the names of its contributors may be used
Kojto	104:b9ad9a133dc7	21	to endorse or promote products derived from this software without
Kojto	104:b9ad9a133dc7	22	specific prior written permission.
Kojto	104:b9ad9a133dc7	23	*
Kojto	104:b9ad9a133dc7	24	THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
Kojto	104:b9ad9a133dc7	25	AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
Kojto	104:b9ad9a133dc7	26	IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
Kojto	104:b9ad9a133dc7	27	ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE
Kojto	104:b9ad9a133dc7	28	LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
Kojto	104:b9ad9a133dc7	29	CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
Kojto	104:b9ad9a133dc7	30	SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
Kojto	104:b9ad9a133dc7	31	INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
Kojto	104:b9ad9a133dc7	32	CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
Kojto	104:b9ad9a133dc7	33	ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
Kojto	104:b9ad9a133dc7	34	POSSIBILITY OF SUCH DAMAGE.
Kojto	104:b9ad9a133dc7	35	---------------------------------------------------------------------------*/
Kojto	104:b9ad9a133dc7	36
Kojto	104:b9ad9a133dc7	37
Kojto	104:b9ad9a133dc7	38	#ifndef __CORE_CAFUNC_H__
Kojto	104:b9ad9a133dc7	39	#define __CORE_CAFUNC_H__
Kojto	104:b9ad9a133dc7	40
Kojto	104:b9ad9a133dc7	41
Kojto	104:b9ad9a133dc7	42	/* ########################### Core Function Access ########################### */
Kojto	104:b9ad9a133dc7	43	/** \ingroup CMSIS_Core_FunctionInterface
Kojto	104:b9ad9a133dc7	44	\defgroup CMSIS_Core_RegAccFunctions CMSIS Core Register Access Functions
Kojto	104:b9ad9a133dc7	45	@{
Kojto	104:b9ad9a133dc7	46	*/
Kojto	104:b9ad9a133dc7	47
Kojto	104:b9ad9a133dc7	48	#if defined ( __CC_ARM ) /------------------RealView Compiler -----------------/
Kojto	104:b9ad9a133dc7	49	/* ARM armcc specific functions */
Kojto	104:b9ad9a133dc7	50
Kojto	104:b9ad9a133dc7	51	#if (__ARMCC_VERSION < 400677)
Kojto	104:b9ad9a133dc7	52	#error "Please use ARM Compiler Toolchain V4.0.677 or later!"
Kojto	104:b9ad9a133dc7	53	#endif
Kojto	104:b9ad9a133dc7	54
Kojto	104:b9ad9a133dc7	55	#define MODE_USR 0x10
Kojto	104:b9ad9a133dc7	56	#define MODE_FIQ 0x11
Kojto	104:b9ad9a133dc7	57	#define MODE_IRQ 0x12
Kojto	104:b9ad9a133dc7	58	#define MODE_SVC 0x13
Kojto	104:b9ad9a133dc7	59	#define MODE_MON 0x16
Kojto	104:b9ad9a133dc7	60	#define MODE_ABT 0x17
Kojto	104:b9ad9a133dc7	61	#define MODE_HYP 0x1A
Kojto	104:b9ad9a133dc7	62	#define MODE_UND 0x1B
Kojto	104:b9ad9a133dc7	63	#define MODE_SYS 0x1F
Kojto	104:b9ad9a133dc7	64
Kojto	104:b9ad9a133dc7	65	/** \brief Get APSR Register
Kojto	104:b9ad9a133dc7	66
Kojto	104:b9ad9a133dc7	67	This function returns the content of the APSR Register.
Kojto	104:b9ad9a133dc7	68
Kojto	104:b9ad9a133dc7	69	\return APSR Register value
Kojto	104:b9ad9a133dc7	70	*/
Kojto	104:b9ad9a133dc7	71	__STATIC_INLINE uint32_t __get_APSR(void)
Kojto	104:b9ad9a133dc7	72	{
Kojto	104:b9ad9a133dc7	73	register uint32_t __regAPSR __ASM("apsr");
Kojto	104:b9ad9a133dc7	74	return(__regAPSR);
Kojto	104:b9ad9a133dc7	75	}
Kojto	104:b9ad9a133dc7	76
Kojto	104:b9ad9a133dc7	77
Kojto	104:b9ad9a133dc7	78	/** \brief Get CPSR Register
Kojto	104:b9ad9a133dc7	79
Kojto	104:b9ad9a133dc7	80	This function returns the content of the CPSR Register.
Kojto	104:b9ad9a133dc7	81
Kojto	104:b9ad9a133dc7	82	\return CPSR Register value
Kojto	104:b9ad9a133dc7	83	*/
Kojto	104:b9ad9a133dc7	84	__STATIC_INLINE uint32_t __get_CPSR(void)
Kojto	104:b9ad9a133dc7	85	{
Kojto	104:b9ad9a133dc7	86	register uint32_t __regCPSR __ASM("cpsr");
Kojto	104:b9ad9a133dc7	87	return(__regCPSR);
Kojto	104:b9ad9a133dc7	88	}
Kojto	104:b9ad9a133dc7	89
Kojto	104:b9ad9a133dc7	90	/** \brief Set Stack Pointer
Kojto	104:b9ad9a133dc7	91
Kojto	104:b9ad9a133dc7	92	This function assigns the given value to the current stack pointer.
Kojto	104:b9ad9a133dc7	93
Kojto	104:b9ad9a133dc7	94	\param [in] topOfStack Stack Pointer value to set
Kojto	104:b9ad9a133dc7	95	*/
Kojto	104:b9ad9a133dc7	96	register uint32_t __regSP __ASM("sp");
Kojto	104:b9ad9a133dc7	97	__STATIC_INLINE void __set_SP(uint32_t topOfStack)
Kojto	104:b9ad9a133dc7	98	{
Kojto	104:b9ad9a133dc7	99	__regSP = topOfStack;
Kojto	104:b9ad9a133dc7	100	}
Kojto	104:b9ad9a133dc7	101
Kojto	104:b9ad9a133dc7	102
Kojto	104:b9ad9a133dc7	103	/** \brief Get link register
Kojto	104:b9ad9a133dc7	104
Kojto	104:b9ad9a133dc7	105	This function returns the value of the link register
Kojto	104:b9ad9a133dc7	106
Kojto	104:b9ad9a133dc7	107	\return Value of link register
Kojto	104:b9ad9a133dc7	108	*/
Kojto	104:b9ad9a133dc7	109	register uint32_t __reglr __ASM("lr");
Kojto	104:b9ad9a133dc7	110	__STATIC_INLINE uint32_t __get_LR(void)
Kojto	104:b9ad9a133dc7	111	{
Kojto	104:b9ad9a133dc7	112	return(__reglr);
Kojto	104:b9ad9a133dc7	113	}
Kojto	104:b9ad9a133dc7	114
Kojto	104:b9ad9a133dc7	115	/** \brief Set link register
Kojto	104:b9ad9a133dc7	116
Kojto	104:b9ad9a133dc7	117	This function sets the value of the link register
Kojto	104:b9ad9a133dc7	118
Kojto	104:b9ad9a133dc7	119	\param [in] lr LR value to set
Kojto	104:b9ad9a133dc7	120	*/
Kojto	104:b9ad9a133dc7	121	__STATIC_INLINE void __set_LR(uint32_t lr)
Kojto	104:b9ad9a133dc7	122	{
Kojto	104:b9ad9a133dc7	123	__reglr = lr;
Kojto	104:b9ad9a133dc7	124	}
Kojto	104:b9ad9a133dc7	125
Kojto	104:b9ad9a133dc7	126	/** \brief Set Process Stack Pointer
Kojto	104:b9ad9a133dc7	127
Kojto	104:b9ad9a133dc7	128	This function assigns the given value to the USR/SYS Stack Pointer (PSP).
Kojto	104:b9ad9a133dc7	129
Kojto	104:b9ad9a133dc7	130	\param [in] topOfProcStack USR/SYS Stack Pointer value to set
Kojto	104:b9ad9a133dc7	131	*/
Kojto	104:b9ad9a133dc7	132	__STATIC_ASM void __set_PSP(uint32_t topOfProcStack)
Kojto	104:b9ad9a133dc7	133	{
Kojto	104:b9ad9a133dc7	134	ARM
Kojto	104:b9ad9a133dc7	135	PRESERVE8
Kojto	104:b9ad9a133dc7	136
Kojto	104:b9ad9a133dc7	137	BIC R0, R0, #7 ;ensure stack is 8-byte aligned
Kojto	104:b9ad9a133dc7	138	MRS R1, CPSR
Kojto	104:b9ad9a133dc7	139	CPS #MODE_SYS ;no effect in USR mode
Kojto	104:b9ad9a133dc7	140	MOV SP, R0
Kojto	104:b9ad9a133dc7	141	MSR CPSR_c, R1 ;no effect in USR mode
Kojto	104:b9ad9a133dc7	142	ISB
Kojto	104:b9ad9a133dc7	143	BX LR
Kojto	104:b9ad9a133dc7	144
Kojto	104:b9ad9a133dc7	145	}
Kojto	104:b9ad9a133dc7	146
Kojto	104:b9ad9a133dc7	147	/** \brief Set User Mode
Kojto	104:b9ad9a133dc7	148
Kojto	104:b9ad9a133dc7	149	This function changes the processor state to User Mode
Kojto	104:b9ad9a133dc7	150	*/
Kojto	104:b9ad9a133dc7	151	__STATIC_ASM void __set_CPS_USR(void)
Kojto	104:b9ad9a133dc7	152	{
Kojto	104:b9ad9a133dc7	153	ARM
Kojto	104:b9ad9a133dc7	154
Kojto	104:b9ad9a133dc7	155	CPS #MODE_USR
Kojto	104:b9ad9a133dc7	156	BX LR
Kojto	104:b9ad9a133dc7	157	}
Kojto	104:b9ad9a133dc7	158
Kojto	104:b9ad9a133dc7	159
Kojto	104:b9ad9a133dc7	160	/** \brief Enable FIQ
Kojto	104:b9ad9a133dc7	161
Kojto	104:b9ad9a133dc7	162	This function enables FIQ interrupts by clearing the F-bit in the CPSR.
Kojto	104:b9ad9a133dc7	163	Can only be executed in Privileged modes.
Kojto	104:b9ad9a133dc7	164	*/
Kojto	104:b9ad9a133dc7	165	#define __enable_fault_irq __enable_fiq
Kojto	104:b9ad9a133dc7	166
Kojto	104:b9ad9a133dc7	167
Kojto	104:b9ad9a133dc7	168	/** \brief Disable FIQ
Kojto	104:b9ad9a133dc7	169
Kojto	104:b9ad9a133dc7	170	This function disables FIQ interrupts by setting the F-bit in the CPSR.
Kojto	104:b9ad9a133dc7	171	Can only be executed in Privileged modes.
Kojto	104:b9ad9a133dc7	172	*/
Kojto	104:b9ad9a133dc7	173	#define __disable_fault_irq __disable_fiq
Kojto	104:b9ad9a133dc7	174
Kojto	104:b9ad9a133dc7	175
Kojto	104:b9ad9a133dc7	176	/** \brief Get FPSCR
Kojto	104:b9ad9a133dc7	177
Kojto	104:b9ad9a133dc7	178	This function returns the current value of the Floating Point Status/Control register.
Kojto	104:b9ad9a133dc7	179
Kojto	104:b9ad9a133dc7	180	\return Floating Point Status/Control register value
Kojto	104:b9ad9a133dc7	181	*/
Kojto	104:b9ad9a133dc7	182	__STATIC_INLINE uint32_t __get_FPSCR(void)
Kojto	104:b9ad9a133dc7	183	{
Kojto	104:b9ad9a133dc7	184	#if (__FPU_PRESENT == 1) && (__FPU_USED == 1)
Kojto	104:b9ad9a133dc7	185	register uint32_t __regfpscr __ASM("fpscr");
Kojto	104:b9ad9a133dc7	186	return(__regfpscr);
Kojto	104:b9ad9a133dc7	187	#else
Kojto	104:b9ad9a133dc7	188	return(0);
Kojto	104:b9ad9a133dc7	189	#endif
Kojto	104:b9ad9a133dc7	190	}
Kojto	104:b9ad9a133dc7	191
Kojto	104:b9ad9a133dc7	192
Kojto	104:b9ad9a133dc7	193	/** \brief Set FPSCR
Kojto	104:b9ad9a133dc7	194
Kojto	104:b9ad9a133dc7	195	This function assigns the given value to the Floating Point Status/Control register.
Kojto	104:b9ad9a133dc7	196
Kojto	104:b9ad9a133dc7	197	\param [in] fpscr Floating Point Status/Control value to set
Kojto	104:b9ad9a133dc7	198	*/
Kojto	104:b9ad9a133dc7	199	__STATIC_INLINE void __set_FPSCR(uint32_t fpscr)
Kojto	104:b9ad9a133dc7	200	{
Kojto	104:b9ad9a133dc7	201	#if (__FPU_PRESENT == 1) && (__FPU_USED == 1)
Kojto	104:b9ad9a133dc7	202	register uint32_t __regfpscr __ASM("fpscr");
Kojto	104:b9ad9a133dc7	203	__regfpscr = (fpscr);
Kojto	104:b9ad9a133dc7	204	#endif
Kojto	104:b9ad9a133dc7	205	}
Kojto	104:b9ad9a133dc7	206
Kojto	104:b9ad9a133dc7	207	/** \brief Get FPEXC
Kojto	104:b9ad9a133dc7	208
Kojto	104:b9ad9a133dc7	209	This function returns the current value of the Floating Point Exception Control register.
Kojto	104:b9ad9a133dc7	210
Kojto	104:b9ad9a133dc7	211	\return Floating Point Exception Control register value
Kojto	104:b9ad9a133dc7	212	*/
Kojto	104:b9ad9a133dc7	213	__STATIC_INLINE uint32_t __get_FPEXC(void)
Kojto	104:b9ad9a133dc7	214	{
Kojto	104:b9ad9a133dc7	215	#if (__FPU_PRESENT == 1)
Kojto	104:b9ad9a133dc7	216	register uint32_t __regfpexc __ASM("fpexc");
Kojto	104:b9ad9a133dc7	217	return(__regfpexc);
Kojto	104:b9ad9a133dc7	218	#else
Kojto	104:b9ad9a133dc7	219	return(0);
Kojto	104:b9ad9a133dc7	220	#endif
Kojto	104:b9ad9a133dc7	221	}
Kojto	104:b9ad9a133dc7	222
Kojto	104:b9ad9a133dc7	223
Kojto	104:b9ad9a133dc7	224	/** \brief Set FPEXC
Kojto	104:b9ad9a133dc7	225
Kojto	104:b9ad9a133dc7	226	This function assigns the given value to the Floating Point Exception Control register.
Kojto	104:b9ad9a133dc7	227
Kojto	104:b9ad9a133dc7	228	\param [in] fpscr Floating Point Exception Control value to set
Kojto	104:b9ad9a133dc7	229	*/
Kojto	104:b9ad9a133dc7	230	__STATIC_INLINE void __set_FPEXC(uint32_t fpexc)
Kojto	104:b9ad9a133dc7	231	{
Kojto	104:b9ad9a133dc7	232	#if (__FPU_PRESENT == 1)
Kojto	104:b9ad9a133dc7	233	register uint32_t __regfpexc __ASM("fpexc");
Kojto	104:b9ad9a133dc7	234	__regfpexc = (fpexc);
Kojto	104:b9ad9a133dc7	235	#endif
Kojto	104:b9ad9a133dc7	236	}
Kojto	104:b9ad9a133dc7	237
Kojto	104:b9ad9a133dc7	238	/** \brief Get CPACR
Kojto	104:b9ad9a133dc7	239
Kojto	104:b9ad9a133dc7	240	This function returns the current value of the Coprocessor Access Control register.
Kojto	104:b9ad9a133dc7	241
Kojto	104:b9ad9a133dc7	242	\return Coprocessor Access Control register value
Kojto	104:b9ad9a133dc7	243	*/
Kojto	104:b9ad9a133dc7	244	__STATIC_INLINE uint32_t __get_CPACR(void)
Kojto	104:b9ad9a133dc7	245	{
Kojto	104:b9ad9a133dc7	246	register uint32_t __regCPACR __ASM("cp15:0:c1:c0:2");
Kojto	104:b9ad9a133dc7	247	return __regCPACR;
Kojto	104:b9ad9a133dc7	248	}
Kojto	104:b9ad9a133dc7	249
Kojto	104:b9ad9a133dc7	250	/** \brief Set CPACR
Kojto	104:b9ad9a133dc7	251
Kojto	104:b9ad9a133dc7	252	This function assigns the given value to the Coprocessor Access Control register.
Kojto	104:b9ad9a133dc7	253
Kojto	108:34e6b704fe68	254	\param [in] cpacr Coprocessor Acccess Control value to set
Kojto	104:b9ad9a133dc7	255	*/
Kojto	104:b9ad9a133dc7	256	__STATIC_INLINE void __set_CPACR(uint32_t cpacr)
Kojto	104:b9ad9a133dc7	257	{
Kojto	104:b9ad9a133dc7	258	register uint32_t __regCPACR __ASM("cp15:0:c1:c0:2");
Kojto	104:b9ad9a133dc7	259	__regCPACR = cpacr;
Kojto	104:b9ad9a133dc7	260	__ISB();
Kojto	104:b9ad9a133dc7	261	}
Kojto	104:b9ad9a133dc7	262
Kojto	104:b9ad9a133dc7	263	/** \brief Get CBAR
Kojto	104:b9ad9a133dc7	264
Kojto	104:b9ad9a133dc7	265	This function returns the value of the Configuration Base Address register.
Kojto	104:b9ad9a133dc7	266
Kojto	104:b9ad9a133dc7	267	\return Configuration Base Address register value
Kojto	104:b9ad9a133dc7	268	*/
Kojto	104:b9ad9a133dc7	269	__STATIC_INLINE uint32_t __get_CBAR() {
Kojto	104:b9ad9a133dc7	270	register uint32_t __regCBAR __ASM("cp15:4:c15:c0:0");
Kojto	104:b9ad9a133dc7	271	return(__regCBAR);
Kojto	104:b9ad9a133dc7	272	}
Kojto	104:b9ad9a133dc7	273
Kojto	104:b9ad9a133dc7	274	/** \brief Get TTBR0
Kojto	104:b9ad9a133dc7	275
Kojto	108:34e6b704fe68	276	This function returns the value of the Translation Table Base Register 0.
Kojto	104:b9ad9a133dc7	277
Kojto	104:b9ad9a133dc7	278	\return Translation Table Base Register 0 value
Kojto	104:b9ad9a133dc7	279	*/
Kojto	104:b9ad9a133dc7	280	__STATIC_INLINE uint32_t __get_TTBR0() {
Kojto	104:b9ad9a133dc7	281	register uint32_t __regTTBR0 __ASM("cp15:0:c2:c0:0");
Kojto	104:b9ad9a133dc7	282	return(__regTTBR0);
Kojto	104:b9ad9a133dc7	283	}
Kojto	104:b9ad9a133dc7	284
Kojto	104:b9ad9a133dc7	285	/** \brief Set TTBR0
Kojto	104:b9ad9a133dc7	286
Kojto	108:34e6b704fe68	287	This function assigns the given value to the Translation Table Base Register 0.
Kojto	104:b9ad9a133dc7	288
Kojto	104:b9ad9a133dc7	289	\param [in] ttbr0 Translation Table Base Register 0 value to set
Kojto	104:b9ad9a133dc7	290	*/
Kojto	104:b9ad9a133dc7	291	__STATIC_INLINE void __set_TTBR0(uint32_t ttbr0) {
Kojto	104:b9ad9a133dc7	292	register uint32_t __regTTBR0 __ASM("cp15:0:c2:c0:0");
Kojto	104:b9ad9a133dc7	293	__regTTBR0 = ttbr0;
Kojto	104:b9ad9a133dc7	294	__ISB();
Kojto	104:b9ad9a133dc7	295	}
Kojto	104:b9ad9a133dc7	296
Kojto	104:b9ad9a133dc7	297	/** \brief Get DACR
Kojto	104:b9ad9a133dc7	298
Kojto	104:b9ad9a133dc7	299	This function returns the value of the Domain Access Control Register.
Kojto	104:b9ad9a133dc7	300
Kojto	104:b9ad9a133dc7	301	\return Domain Access Control Register value
Kojto	104:b9ad9a133dc7	302	*/
Kojto	104:b9ad9a133dc7	303	__STATIC_INLINE uint32_t __get_DACR() {
Kojto	104:b9ad9a133dc7	304	register uint32_t __regDACR __ASM("cp15:0:c3:c0:0");
Kojto	104:b9ad9a133dc7	305	return(__regDACR);
Kojto	104:b9ad9a133dc7	306	}
Kojto	104:b9ad9a133dc7	307
Kojto	104:b9ad9a133dc7	308	/** \brief Set DACR
Kojto	104:b9ad9a133dc7	309
Kojto	108:34e6b704fe68	310	This function assigns the given value to the Domain Access Control Register.
Kojto	104:b9ad9a133dc7	311
Kojto	104:b9ad9a133dc7	312	\param [in] dacr Domain Access Control Register value to set
Kojto	104:b9ad9a133dc7	313	*/
Kojto	104:b9ad9a133dc7	314	__STATIC_INLINE void __set_DACR(uint32_t dacr) {
Kojto	104:b9ad9a133dc7	315	register uint32_t __regDACR __ASM("cp15:0:c3:c0:0");
Kojto	104:b9ad9a133dc7	316	__regDACR = dacr;
Kojto	104:b9ad9a133dc7	317	__ISB();
Kojto	104:b9ad9a133dc7	318	}
Kojto	104:b9ad9a133dc7	319
Kojto	104:b9ad9a133dc7	320	/****************************** Cache and BTAC enable **************************************************/
Kojto	104:b9ad9a133dc7	321
Kojto	104:b9ad9a133dc7	322	/** \brief Set SCTLR
Kojto	104:b9ad9a133dc7	323
Kojto	104:b9ad9a133dc7	324	This function assigns the given value to the System Control Register.
Kojto	104:b9ad9a133dc7	325
Kojto	108:34e6b704fe68	326	\param [in] sctlr System Control Register value to set
Kojto	104:b9ad9a133dc7	327	*/
Kojto	104:b9ad9a133dc7	328	__STATIC_INLINE void __set_SCTLR(uint32_t sctlr)
Kojto	104:b9ad9a133dc7	329	{
Kojto	104:b9ad9a133dc7	330	register uint32_t __regSCTLR __ASM("cp15:0:c1:c0:0");
Kojto	104:b9ad9a133dc7	331	__regSCTLR = sctlr;
Kojto	104:b9ad9a133dc7	332	}
Kojto	104:b9ad9a133dc7	333
Kojto	104:b9ad9a133dc7	334	/** \brief Get SCTLR
Kojto	104:b9ad9a133dc7	335
Kojto	104:b9ad9a133dc7	336	This function returns the value of the System Control Register.
Kojto	104:b9ad9a133dc7	337
Kojto	104:b9ad9a133dc7	338	\return System Control Register value
Kojto	104:b9ad9a133dc7	339	*/
Kojto	104:b9ad9a133dc7	340	__STATIC_INLINE uint32_t __get_SCTLR() {
Kojto	104:b9ad9a133dc7	341	register uint32_t __regSCTLR __ASM("cp15:0:c1:c0:0");
Kojto	104:b9ad9a133dc7	342	return(__regSCTLR);
Kojto	104:b9ad9a133dc7	343	}
Kojto	104:b9ad9a133dc7	344
Kojto	104:b9ad9a133dc7	345	/** \brief Enable Caches
Kojto	104:b9ad9a133dc7	346
Kojto	104:b9ad9a133dc7	347	Enable Caches
Kojto	104:b9ad9a133dc7	348	*/
Kojto	104:b9ad9a133dc7	349	__STATIC_INLINE void __enable_caches(void) {
Kojto	104:b9ad9a133dc7	350	// Set I bit 12 to enable I Cache
Kojto	104:b9ad9a133dc7	351	// Set C bit 2 to enable D Cache
Kojto	104:b9ad9a133dc7	352	__set_SCTLR( __get_SCTLR() \| (1 << 12) \| (1 << 2));
Kojto	104:b9ad9a133dc7	353	}
Kojto	104:b9ad9a133dc7	354
Kojto	104:b9ad9a133dc7	355	/** \brief Disable Caches
Kojto	104:b9ad9a133dc7	356
Kojto	104:b9ad9a133dc7	357	Disable Caches
Kojto	104:b9ad9a133dc7	358	*/
Kojto	104:b9ad9a133dc7	359	__STATIC_INLINE void __disable_caches(void) {
Kojto	104:b9ad9a133dc7	360	// Clear I bit 12 to disable I Cache
Kojto	104:b9ad9a133dc7	361	// Clear C bit 2 to disable D Cache
Kojto	104:b9ad9a133dc7	362	__set_SCTLR( __get_SCTLR() & ~(1 << 12) & ~(1 << 2));
Kojto	104:b9ad9a133dc7	363	__ISB();
Kojto	104:b9ad9a133dc7	364	}
Kojto	104:b9ad9a133dc7	365
Kojto	104:b9ad9a133dc7	366	/** \brief Enable BTAC
Kojto	104:b9ad9a133dc7	367
Kojto	104:b9ad9a133dc7	368	Enable BTAC
Kojto	104:b9ad9a133dc7	369	*/
Kojto	104:b9ad9a133dc7	370	__STATIC_INLINE void __enable_btac(void) {
Kojto	104:b9ad9a133dc7	371	// Set Z bit 11 to enable branch prediction
Kojto	104:b9ad9a133dc7	372	__set_SCTLR( __get_SCTLR() \| (1 << 11));
Kojto	104:b9ad9a133dc7	373	__ISB();
Kojto	104:b9ad9a133dc7	374	}
Kojto	104:b9ad9a133dc7	375
Kojto	104:b9ad9a133dc7	376	/** \brief Disable BTAC
Kojto	104:b9ad9a133dc7	377
Kojto	104:b9ad9a133dc7	378	Disable BTAC
Kojto	104:b9ad9a133dc7	379	*/
Kojto	104:b9ad9a133dc7	380	__STATIC_INLINE void __disable_btac(void) {
Kojto	104:b9ad9a133dc7	381	// Clear Z bit 11 to disable branch prediction
Kojto	104:b9ad9a133dc7	382	__set_SCTLR( __get_SCTLR() & ~(1 << 11));
Kojto	104:b9ad9a133dc7	383	}
Kojto	104:b9ad9a133dc7	384
Kojto	104:b9ad9a133dc7	385
Kojto	104:b9ad9a133dc7	386	/** \brief Enable MMU
Kojto	104:b9ad9a133dc7	387
Kojto	104:b9ad9a133dc7	388	Enable MMU
Kojto	104:b9ad9a133dc7	389	*/
Kojto	104:b9ad9a133dc7	390	__STATIC_INLINE void __enable_mmu(void) {
Kojto	104:b9ad9a133dc7	391	// Set M bit 0 to enable the MMU
Kojto	104:b9ad9a133dc7	392	// Set AFE bit to enable simplified access permissions model
Kojto	104:b9ad9a133dc7	393	// Clear TRE bit to disable TEX remap and A bit to disable strict alignment fault checking
Kojto	104:b9ad9a133dc7	394	__set_SCTLR( (__get_SCTLR() & ~(1 << 28) & ~(1 << 1)) \| 1 \| (1 << 29));
Kojto	104:b9ad9a133dc7	395	__ISB();
Kojto	104:b9ad9a133dc7	396	}
Kojto	104:b9ad9a133dc7	397
Kojto	108:34e6b704fe68	398	/** \brief Disable MMU
Kojto	104:b9ad9a133dc7	399
Kojto	108:34e6b704fe68	400	Disable MMU
Kojto	104:b9ad9a133dc7	401	*/
Kojto	104:b9ad9a133dc7	402	__STATIC_INLINE void __disable_mmu(void) {
Kojto	104:b9ad9a133dc7	403	// Clear M bit 0 to disable the MMU
Kojto	104:b9ad9a133dc7	404	__set_SCTLR( __get_SCTLR() & ~1);
Kojto	104:b9ad9a133dc7	405	__ISB();
Kojto	104:b9ad9a133dc7	406	}
Kojto	104:b9ad9a133dc7	407
Kojto	104:b9ad9a133dc7	408	/****************************** TLB maintenance operations **********************************************/
Kojto	104:b9ad9a133dc7	409	/** \brief Invalidate the whole tlb
Kojto	104:b9ad9a133dc7	410
Kojto	104:b9ad9a133dc7	411	TLBIALL. Invalidate the whole tlb
Kojto	104:b9ad9a133dc7	412	*/
Kojto	104:b9ad9a133dc7	413
Kojto	104:b9ad9a133dc7	414	__STATIC_INLINE void __ca9u_inv_tlb_all(void) {
Kojto	104:b9ad9a133dc7	415	register uint32_t __TLBIALL __ASM("cp15:0:c8:c7:0");
Kojto	104:b9ad9a133dc7	416	__TLBIALL = 0;
Kojto	104:b9ad9a133dc7	417	__DSB();
Kojto	104:b9ad9a133dc7	418	__ISB();
Kojto	104:b9ad9a133dc7	419	}
Kojto	104:b9ad9a133dc7	420
Kojto	104:b9ad9a133dc7	421	/****************************** BTB maintenance operations **********************************************/
Kojto	104:b9ad9a133dc7	422	/** \brief Invalidate entire branch predictor array
Kojto	104:b9ad9a133dc7	423
Kojto	104:b9ad9a133dc7	424	BPIALL. Branch Predictor Invalidate All.
Kojto	104:b9ad9a133dc7	425	*/
Kojto	104:b9ad9a133dc7	426
Kojto	104:b9ad9a133dc7	427	__STATIC_INLINE void __v7_inv_btac(void) {
Kojto	104:b9ad9a133dc7	428	register uint32_t __BPIALL __ASM("cp15:0:c7:c5:6");
Kojto	104:b9ad9a133dc7	429	__BPIALL = 0;
Kojto	104:b9ad9a133dc7	430	__DSB(); //ensure completion of the invalidation
Kojto	104:b9ad9a133dc7	431	__ISB(); //ensure instruction fetch path sees new state
Kojto	104:b9ad9a133dc7	432	}
Kojto	104:b9ad9a133dc7	433
Kojto	104:b9ad9a133dc7	434
Kojto	104:b9ad9a133dc7	435	/****************************** L1 cache operations ****************************************************/
Kojto	104:b9ad9a133dc7	436
Kojto	104:b9ad9a133dc7	437	/** \brief Invalidate the whole I$
Kojto	104:b9ad9a133dc7	438
Kojto	104:b9ad9a133dc7	439	ICIALLU. Instruction Cache Invalidate All to PoU
Kojto	104:b9ad9a133dc7	440	*/
Kojto	104:b9ad9a133dc7	441	__STATIC_INLINE void __v7_inv_icache_all(void) {
Kojto	104:b9ad9a133dc7	442	register uint32_t __ICIALLU __ASM("cp15:0:c7:c5:0");
Kojto	104:b9ad9a133dc7	443	__ICIALLU = 0;
Kojto	104:b9ad9a133dc7	444	__DSB(); //ensure completion of the invalidation
Kojto	104:b9ad9a133dc7	445	__ISB(); //ensure instruction fetch path sees new I cache state
Kojto	104:b9ad9a133dc7	446	}
Kojto	104:b9ad9a133dc7	447
Kojto	104:b9ad9a133dc7	448	/** \brief Clean D$ by MVA
Kojto	104:b9ad9a133dc7	449
Kojto	104:b9ad9a133dc7	450	DCCMVAC. Data cache clean by MVA to PoC
Kojto	104:b9ad9a133dc7	451	*/
Kojto	104:b9ad9a133dc7	452	__STATIC_INLINE void __v7_clean_dcache_mva(void *va) {
Kojto	104:b9ad9a133dc7	453	register uint32_t __DCCMVAC __ASM("cp15:0:c7:c10:1");
Kojto	104:b9ad9a133dc7	454	__DCCMVAC = (uint32_t)va;
Kojto	104:b9ad9a133dc7	455	__DMB(); //ensure the ordering of data cache maintenance operations and their effects
Kojto	104:b9ad9a133dc7	456	}
Kojto	104:b9ad9a133dc7	457
Kojto	104:b9ad9a133dc7	458	/** \brief Invalidate D$ by MVA
Kojto	104:b9ad9a133dc7	459
Kojto	104:b9ad9a133dc7	460	DCIMVAC. Data cache invalidate by MVA to PoC
Kojto	104:b9ad9a133dc7	461	*/
Kojto	104:b9ad9a133dc7	462	__STATIC_INLINE void __v7_inv_dcache_mva(void *va) {
Kojto	104:b9ad9a133dc7	463	register uint32_t __DCIMVAC __ASM("cp15:0:c7:c6:1");
Kojto	104:b9ad9a133dc7	464	__DCIMVAC = (uint32_t)va;
Kojto	104:b9ad9a133dc7	465	__DMB(); //ensure the ordering of data cache maintenance operations and their effects
Kojto	104:b9ad9a133dc7	466	}
Kojto	104:b9ad9a133dc7	467
Kojto	104:b9ad9a133dc7	468	/** \brief Clean and Invalidate D$ by MVA
Kojto	104:b9ad9a133dc7	469
Kojto	104:b9ad9a133dc7	470	DCCIMVAC. Data cache clean and invalidate by MVA to PoC
Kojto	104:b9ad9a133dc7	471	*/
Kojto	104:b9ad9a133dc7	472	__STATIC_INLINE void __v7_clean_inv_dcache_mva(void *va) {
Kojto	104:b9ad9a133dc7	473	register uint32_t __DCCIMVAC __ASM("cp15:0:c7:c14:1");
Kojto	104:b9ad9a133dc7	474	__DCCIMVAC = (uint32_t)va;
Kojto	104:b9ad9a133dc7	475	__DMB(); //ensure the ordering of data cache maintenance operations and their effects
Kojto	104:b9ad9a133dc7	476	}
Kojto	104:b9ad9a133dc7	477
Kojto	108:34e6b704fe68	478	/** \brief Clean and Invalidate the entire data or unified cache
Kojto	108:34e6b704fe68	479
Kojto	108:34e6b704fe68	480	Generic mechanism for cleaning/invalidating the entire data or unified cache to the point of coherency.
Kojto	104:b9ad9a133dc7	481	*/
Kojto	104:b9ad9a133dc7	482	#pragma push
Kojto	104:b9ad9a133dc7	483	#pragma arm
Kojto	104:b9ad9a133dc7	484	__STATIC_ASM void __v7_all_cache(uint32_t op) {
Kojto	104:b9ad9a133dc7	485	ARM
Kojto	104:b9ad9a133dc7	486
Kojto	104:b9ad9a133dc7	487	PUSH {R4-R11}
Kojto	104:b9ad9a133dc7	488
Kojto	104:b9ad9a133dc7	489	MRC p15, 1, R6, c0, c0, 1 // Read CLIDR
Kojto	104:b9ad9a133dc7	490	ANDS R3, R6, #0x07000000 // Extract coherency level
Kojto	104:b9ad9a133dc7	491	MOV R3, R3, LSR #23 // Total cache levels << 1
Kojto	104:b9ad9a133dc7	492	BEQ Finished // If 0, no need to clean
Kojto	104:b9ad9a133dc7	493
Kojto	104:b9ad9a133dc7	494	MOV R10, #0 // R10 holds current cache level << 1
Kojto	104:b9ad9a133dc7	495	Loop1 ADD R2, R10, R10, LSR #1 // R2 holds cache "Set" position
Kojto	104:b9ad9a133dc7	496	MOV R1, R6, LSR R2 // Bottom 3 bits are the Cache-type for this level
Kojto	104:b9ad9a133dc7	497	AND R1, R1, #7 // Isolate those lower 3 bits
Kojto	104:b9ad9a133dc7	498	CMP R1, #2
Kojto	104:b9ad9a133dc7	499	BLT Skip // No cache or only instruction cache at this level
Kojto	104:b9ad9a133dc7	500
Kojto	104:b9ad9a133dc7	501	MCR p15, 2, R10, c0, c0, 0 // Write the Cache Size selection register
Kojto	104:b9ad9a133dc7	502	ISB // ISB to sync the change to the CacheSizeID reg
Kojto	104:b9ad9a133dc7	503	MRC p15, 1, R1, c0, c0, 0 // Reads current Cache Size ID register
Kojto	104:b9ad9a133dc7	504	AND R2, R1, #7 // Extract the line length field
Kojto	104:b9ad9a133dc7	505	ADD R2, R2, #4 // Add 4 for the line length offset (log2 16 bytes)
Kojto	104:b9ad9a133dc7	506	LDR R4, =0x3FF
Kojto	104:b9ad9a133dc7	507	ANDS R4, R4, R1, LSR #3 // R4 is the max number on the way size (right aligned)
Kojto	104:b9ad9a133dc7	508	CLZ R5, R4 // R5 is the bit position of the way size increment
Kojto	104:b9ad9a133dc7	509	LDR R7, =0x7FFF
Kojto	104:b9ad9a133dc7	510	ANDS R7, R7, R1, LSR #13 // R7 is the max number of the index size (right aligned)
Kojto	104:b9ad9a133dc7	511
Kojto	104:b9ad9a133dc7	512	Loop2 MOV R9, R4 // R9 working copy of the max way size (right aligned)
Kojto	104:b9ad9a133dc7	513
Kojto	104:b9ad9a133dc7	514	Loop3 ORR R11, R10, R9, LSL R5 // Factor in the Way number and cache number into R11
Kojto	104:b9ad9a133dc7	515	ORR R11, R11, R7, LSL R2 // Factor in the Set number
Kojto	104:b9ad9a133dc7	516	CMP R0, #0
Kojto	104:b9ad9a133dc7	517	BNE Dccsw
Kojto	104:b9ad9a133dc7	518	MCR p15, 0, R11, c7, c6, 2 // DCISW. Invalidate by Set/Way
Kojto	104:b9ad9a133dc7	519	B cont
Kojto	104:b9ad9a133dc7	520	Dccsw CMP R0, #1
Kojto	104:b9ad9a133dc7	521	BNE Dccisw
Kojto	104:b9ad9a133dc7	522	MCR p15, 0, R11, c7, c10, 2 // DCCSW. Clean by Set/Way
Kojto	104:b9ad9a133dc7	523	B cont
Kojto	108:34e6b704fe68	524	Dccisw MCR p15, 0, R11, c7, c14, 2 // DCCISW. Clean and Invalidate by Set/Way
Kojto	104:b9ad9a133dc7	525	cont SUBS R9, R9, #1 // Decrement the Way number
Kojto	104:b9ad9a133dc7	526	BGE Loop3
Kojto	104:b9ad9a133dc7	527	SUBS R7, R7, #1 // Decrement the Set number
Kojto	104:b9ad9a133dc7	528	BGE Loop2
Kojto	108:34e6b704fe68	529	Skip ADD R10, R10, #2 // Increment the cache number
Kojto	104:b9ad9a133dc7	530	CMP R3, R10
Kojto	104:b9ad9a133dc7	531	BGT Loop1
Kojto	104:b9ad9a133dc7	532
Kojto	104:b9ad9a133dc7	533	Finished
Kojto	104:b9ad9a133dc7	534	DSB
Kojto	104:b9ad9a133dc7	535	POP {R4-R11}
Kojto	104:b9ad9a133dc7	536	BX lr
Kojto	104:b9ad9a133dc7	537
Kojto	104:b9ad9a133dc7	538	}
Kojto	104:b9ad9a133dc7	539	#pragma pop
Kojto	104:b9ad9a133dc7	540
Kojto	104:b9ad9a133dc7	541
Kojto	104:b9ad9a133dc7	542	/** \brief Invalidate the whole D$
Kojto	104:b9ad9a133dc7	543
Kojto	104:b9ad9a133dc7	544	DCISW. Invalidate by Set/Way
Kojto	104:b9ad9a133dc7	545	*/
Kojto	104:b9ad9a133dc7	546
Kojto	104:b9ad9a133dc7	547	__STATIC_INLINE void __v7_inv_dcache_all(void) {
Kojto	104:b9ad9a133dc7	548	__v7_all_cache(0);
Kojto	104:b9ad9a133dc7	549	}
Kojto	104:b9ad9a133dc7	550
Kojto	104:b9ad9a133dc7	551	/** \brief Clean the whole D$
Kojto	104:b9ad9a133dc7	552
Kojto	104:b9ad9a133dc7	553	DCCSW. Clean by Set/Way
Kojto	104:b9ad9a133dc7	554	*/
Kojto	104:b9ad9a133dc7	555
Kojto	104:b9ad9a133dc7	556	__STATIC_INLINE void __v7_clean_dcache_all(void) {
Kojto	104:b9ad9a133dc7	557	__v7_all_cache(1);
Kojto	104:b9ad9a133dc7	558	}
Kojto	104:b9ad9a133dc7	559
Kojto	104:b9ad9a133dc7	560	/** \brief Clean and invalidate the whole D$
Kojto	104:b9ad9a133dc7	561
Kojto	104:b9ad9a133dc7	562	DCCISW. Clean and Invalidate by Set/Way
Kojto	104:b9ad9a133dc7	563	*/
Kojto	104:b9ad9a133dc7	564
Kojto	104:b9ad9a133dc7	565	__STATIC_INLINE void __v7_clean_inv_dcache_all(void) {
Kojto	104:b9ad9a133dc7	566	__v7_all_cache(2);
Kojto	104:b9ad9a133dc7	567	}
Kojto	104:b9ad9a133dc7	568
Kojto	104:b9ad9a133dc7	569	#include "core_ca_mmu.h"
Kojto	104:b9ad9a133dc7	570
Kojto	104:b9ad9a133dc7	571	#elif (defined (__ICCARM__)) /---------------- ICC Compiler ---------------------/
Kojto	104:b9ad9a133dc7	572
Kojto	115:87f2f5183dfb	573	#define __inline inline
Kojto	115:87f2f5183dfb	574
Kojto	115:87f2f5183dfb	575	inline static uint32_t __disable_irq_iar() {
Kojto	115:87f2f5183dfb	576	int irq_dis = __get_CPSR() & 0x80; // 7bit CPSR.I
Kojto	115:87f2f5183dfb	577	__disable_irq();
Kojto	115:87f2f5183dfb	578	return irq_dis;
Kojto	115:87f2f5183dfb	579	}
Kojto	115:87f2f5183dfb	580
Kojto	115:87f2f5183dfb	581	#define MODE_USR 0x10
Kojto	115:87f2f5183dfb	582	#define MODE_FIQ 0x11
Kojto	115:87f2f5183dfb	583	#define MODE_IRQ 0x12
Kojto	115:87f2f5183dfb	584	#define MODE_SVC 0x13
Kojto	115:87f2f5183dfb	585	#define MODE_MON 0x16
Kojto	115:87f2f5183dfb	586	#define MODE_ABT 0x17
Kojto	115:87f2f5183dfb	587	#define MODE_HYP 0x1A
Kojto	115:87f2f5183dfb	588	#define MODE_UND 0x1B
Kojto	115:87f2f5183dfb	589	#define MODE_SYS 0x1F
Kojto	115:87f2f5183dfb	590
Kojto	115:87f2f5183dfb	591	/** \brief Set Process Stack Pointer
Kojto	115:87f2f5183dfb	592
Kojto	115:87f2f5183dfb	593	This function assigns the given value to the USR/SYS Stack Pointer (PSP).
Kojto	115:87f2f5183dfb	594
Kojto	115:87f2f5183dfb	595	\param [in] topOfProcStack USR/SYS Stack Pointer value to set
Kojto	115:87f2f5183dfb	596	*/
Kojto	115:87f2f5183dfb	597	// from rt_CMSIS.c
Kojto	115:87f2f5183dfb	598	__arm static inline void __set_PSP(uint32_t topOfProcStack) {
Kojto	115:87f2f5183dfb	599	__asm(
Kojto	115:87f2f5183dfb	600	" ARM\n"
Kojto	115:87f2f5183dfb	601	// " PRESERVE8\n"
Kojto	115:87f2f5183dfb	602
Kojto	115:87f2f5183dfb	603	" BIC R0, R0, #7 ;ensure stack is 8-byte aligned \n"
Kojto	115:87f2f5183dfb	604	" MRS R1, CPSR \n"
Kojto	115:87f2f5183dfb	605	" CPS #0x1F ;no effect in USR mode \n" // MODE_SYS
Kojto	115:87f2f5183dfb	606	" MOV SP, R0 \n"
Kojto	115:87f2f5183dfb	607	" MSR CPSR_c, R1 ;no effect in USR mode \n"
Kojto	115:87f2f5183dfb	608	" ISB \n"
Kojto	115:87f2f5183dfb	609	" BX LR \n");
Kojto	115:87f2f5183dfb	610	}
Kojto	115:87f2f5183dfb	611
Kojto	115:87f2f5183dfb	612	/** \brief Set User Mode
Kojto	115:87f2f5183dfb	613
Kojto	115:87f2f5183dfb	614	This function changes the processor state to User Mode
Kojto	115:87f2f5183dfb	615	*/
Kojto	115:87f2f5183dfb	616	// from rt_CMSIS.c
Kojto	115:87f2f5183dfb	617	__arm static inline void __set_CPS_USR(void) {
Kojto	115:87f2f5183dfb	618	__asm(
Kojto	115:87f2f5183dfb	619	" ARM \n"
Kojto	115:87f2f5183dfb	620
Kojto	115:87f2f5183dfb	621	" CPS #0x10 \n" // MODE_USR
Kojto	115:87f2f5183dfb	622	" BX LR\n");
Kojto	115:87f2f5183dfb	623	}
Kojto	115:87f2f5183dfb	624
Kojto	115:87f2f5183dfb	625	/** \brief Set TTBR0
Kojto	115:87f2f5183dfb	626
Kojto	115:87f2f5183dfb	627	This function assigns the given value to the Translation Table Base Register 0.
Kojto	115:87f2f5183dfb	628
Kojto	115:87f2f5183dfb	629	\param [in] ttbr0 Translation Table Base Register 0 value to set
Kojto	115:87f2f5183dfb	630	*/
Kojto	115:87f2f5183dfb	631	// from mmu_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	632	__STATIC_INLINE void __set_TTBR0(uint32_t ttbr0) {
Kojto	115:87f2f5183dfb	633	__MCR(15, 0, ttbr0, 2, 0, 0); // reg to cp15
Kojto	115:87f2f5183dfb	634	__ISB();
Kojto	115:87f2f5183dfb	635	}
Kojto	115:87f2f5183dfb	636
Kojto	115:87f2f5183dfb	637	/** \brief Set DACR
Kojto	115:87f2f5183dfb	638
Kojto	115:87f2f5183dfb	639	This function assigns the given value to the Domain Access Control Register.
Kojto	115:87f2f5183dfb	640
Kojto	115:87f2f5183dfb	641	\param [in] dacr Domain Access Control Register value to set
Kojto	115:87f2f5183dfb	642	*/
Kojto	115:87f2f5183dfb	643	// from mmu_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	644	__STATIC_INLINE void __set_DACR(uint32_t dacr) {
Kojto	115:87f2f5183dfb	645	__MCR(15, 0, dacr, 3, 0, 0); // reg to cp15
Kojto	115:87f2f5183dfb	646	__ISB();
Kojto	115:87f2f5183dfb	647	}
Kojto	115:87f2f5183dfb	648
Kojto	115:87f2f5183dfb	649
Kojto	115:87f2f5183dfb	650	/****************************** Cache and BTAC enable **************************************************/
Kojto	115:87f2f5183dfb	651	/** \brief Set SCTLR
Kojto	115:87f2f5183dfb	652
Kojto	115:87f2f5183dfb	653	This function assigns the given value to the System Control Register.
Kojto	115:87f2f5183dfb	654
Kojto	115:87f2f5183dfb	655	\param [in] sctlr System Control Register value to set
Kojto	115:87f2f5183dfb	656	*/
Kojto	115:87f2f5183dfb	657	// from __enable_mmu()
Kojto	115:87f2f5183dfb	658	__STATIC_INLINE void __set_SCTLR(uint32_t sctlr) {
Kojto	115:87f2f5183dfb	659	__MCR(15, 0, sctlr, 1, 0, 0); // reg to cp15
Kojto	115:87f2f5183dfb	660	}
Kojto	115:87f2f5183dfb	661
Kojto	115:87f2f5183dfb	662	/** \brief Get SCTLR
Kojto	115:87f2f5183dfb	663
Kojto	115:87f2f5183dfb	664	This function returns the value of the System Control Register.
Kojto	115:87f2f5183dfb	665
Kojto	115:87f2f5183dfb	666	\return System Control Register value
Kojto	115:87f2f5183dfb	667	*/
Kojto	115:87f2f5183dfb	668	// from __enable_mmu()
Kojto	115:87f2f5183dfb	669	__STATIC_INLINE uint32_t __get_SCTLR() {
Kojto	115:87f2f5183dfb	670	uint32_t __regSCTLR = __MRC(15, 0, 1, 0, 0);
Kojto	115:87f2f5183dfb	671	return __regSCTLR;
Kojto	115:87f2f5183dfb	672	}
Kojto	115:87f2f5183dfb	673
Kojto	115:87f2f5183dfb	674	/** \brief Enable Caches
Kojto	115:87f2f5183dfb	675
Kojto	115:87f2f5183dfb	676	Enable Caches
Kojto	115:87f2f5183dfb	677	*/
Kojto	115:87f2f5183dfb	678	// from system_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	679	__STATIC_INLINE void __enable_caches(void) {
Kojto	115:87f2f5183dfb	680	__set_SCTLR( __get_SCTLR() \| (1 << 12) \| (1 << 2));
Kojto	115:87f2f5183dfb	681	}
Kojto	115:87f2f5183dfb	682
Kojto	115:87f2f5183dfb	683	/** \brief Enable BTAC
Kojto	115:87f2f5183dfb	684
Kojto	115:87f2f5183dfb	685	Enable BTAC
Kojto	115:87f2f5183dfb	686	*/
Kojto	115:87f2f5183dfb	687	// from system_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	688	__STATIC_INLINE void __enable_btac(void) {
Kojto	115:87f2f5183dfb	689	__set_SCTLR( __get_SCTLR() \| (1 << 11));
Kojto	115:87f2f5183dfb	690	__ISB();
Kojto	115:87f2f5183dfb	691	}
Kojto	115:87f2f5183dfb	692
Kojto	115:87f2f5183dfb	693	/** \brief Enable MMU
Kojto	115:87f2f5183dfb	694
Kojto	115:87f2f5183dfb	695	Enable MMU
Kojto	115:87f2f5183dfb	696	*/
Kojto	115:87f2f5183dfb	697	// from system_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	698	__STATIC_INLINE void __enable_mmu(void) {
Kojto	115:87f2f5183dfb	699	// Set M bit 0 to enable the MMU
Kojto	115:87f2f5183dfb	700	// Set AFE bit to enable simplified access permissions model
Kojto	115:87f2f5183dfb	701	// Clear TRE bit to disable TEX remap and A bit to disable strict alignment fault checking
Kojto	115:87f2f5183dfb	702	__set_SCTLR( (__get_SCTLR() & ~(1 << 28) & ~(1 << 1)) \| 1 \| (1 << 29));
Kojto	115:87f2f5183dfb	703	__ISB();
Kojto	115:87f2f5183dfb	704	}
Kojto	115:87f2f5183dfb	705
Kojto	115:87f2f5183dfb	706	/****************************** TLB maintenance operations **********************************************/
Kojto	115:87f2f5183dfb	707	/** \brief Invalidate the whole tlb
Kojto	115:87f2f5183dfb	708
Kojto	115:87f2f5183dfb	709	TLBIALL. Invalidate the whole tlb
Kojto	115:87f2f5183dfb	710	*/
Kojto	115:87f2f5183dfb	711	// from system_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	712	__STATIC_INLINE void __ca9u_inv_tlb_all(void) {
Kojto	115:87f2f5183dfb	713	uint32_t val = 0;
Kojto	115:87f2f5183dfb	714	__MCR(15, 0, val, 8, 7, 0); // reg to cp15
Kojto	115:87f2f5183dfb	715	__MCR(15, 0, val, 8, 6, 0); // reg to cp15
Kojto	115:87f2f5183dfb	716	__MCR(15, 0, val, 8, 5, 0); // reg to cp15
Kojto	115:87f2f5183dfb	717	__DSB();
Kojto	115:87f2f5183dfb	718	__ISB();
Kojto	115:87f2f5183dfb	719	}
Kojto	115:87f2f5183dfb	720
Kojto	115:87f2f5183dfb	721	/****************************** BTB maintenance operations **********************************************/
Kojto	115:87f2f5183dfb	722	/** \brief Invalidate entire branch predictor array
Kojto	115:87f2f5183dfb	723
Kojto	115:87f2f5183dfb	724	BPIALL. Branch Predictor Invalidate All.
Kojto	115:87f2f5183dfb	725	*/
Kojto	115:87f2f5183dfb	726	// from system_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	727	__STATIC_INLINE void __v7_inv_btac(void) {
Kojto	115:87f2f5183dfb	728	uint32_t val = 0;
Kojto	115:87f2f5183dfb	729	__MCR(15, 0, val, 7, 5, 6); // reg to cp15
Kojto	115:87f2f5183dfb	730	__DSB(); //ensure completion of the invalidation
Kojto	115:87f2f5183dfb	731	__ISB(); //ensure instruction fetch path sees new state
Kojto	115:87f2f5183dfb	732	}
Kojto	115:87f2f5183dfb	733
Kojto	115:87f2f5183dfb	734
Kojto	115:87f2f5183dfb	735	/****************************** L1 cache operations ****************************************************/
Kojto	115:87f2f5183dfb	736
Kojto	115:87f2f5183dfb	737	/** \brief Invalidate the whole I$
Kojto	115:87f2f5183dfb	738
Kojto	115:87f2f5183dfb	739	ICIALLU. Instruction Cache Invalidate All to PoU
Kojto	115:87f2f5183dfb	740	*/
Kojto	115:87f2f5183dfb	741	// from system_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	742	__STATIC_INLINE void __v7_inv_icache_all(void) {
Kojto	115:87f2f5183dfb	743	uint32_t val = 0;
Kojto	115:87f2f5183dfb	744	__MCR(15, 0, val, 7, 5, 0); // reg to cp15
Kojto	115:87f2f5183dfb	745	__DSB(); //ensure completion of the invalidation
Kojto	115:87f2f5183dfb	746	__ISB(); //ensure instruction fetch path sees new I cache state
Kojto	115:87f2f5183dfb	747	}
Kojto	115:87f2f5183dfb	748
Kojto	115:87f2f5183dfb	749	// from __v7_inv_dcache_all()
Kojto	115:87f2f5183dfb	750	__arm static inline void __v7_all_cache(uint32_t op) {
Kojto	115:87f2f5183dfb	751	__asm(
Kojto	115:87f2f5183dfb	752	" ARM \n"
Kojto	115:87f2f5183dfb	753
Kojto	115:87f2f5183dfb	754	" PUSH {R4-R11} \n"
Kojto	115:87f2f5183dfb	755
Kojto	115:87f2f5183dfb	756	" MRC p15, 1, R6, c0, c0, 1\n" // Read CLIDR
Kojto	115:87f2f5183dfb	757	" ANDS R3, R6, #0x07000000\n" // Extract coherency level
Kojto	115:87f2f5183dfb	758	" MOV R3, R3, LSR #23\n" // Total cache levels << 1
Kojto	115:87f2f5183dfb	759	" BEQ Finished\n" // If 0, no need to clean
Kojto	115:87f2f5183dfb	760
Kojto	115:87f2f5183dfb	761	" MOV R10, #0\n" // R10 holds current cache level << 1
Kojto	115:87f2f5183dfb	762	"Loop1: ADD R2, R10, R10, LSR #1\n" // R2 holds cache "Set" position
Kojto	115:87f2f5183dfb	763	" MOV R1, R6, LSR R2 \n" // Bottom 3 bits are the Cache-type for this level
Kojto	115:87f2f5183dfb	764	" AND R1, R1, #7 \n" // Isolate those lower 3 bits
Kojto	115:87f2f5183dfb	765	" CMP R1, #2 \n"
Kojto	115:87f2f5183dfb	766	" BLT Skip \n" // No cache or only instruction cache at this level
Kojto	115:87f2f5183dfb	767
Kojto	115:87f2f5183dfb	768	" MCR p15, 2, R10, c0, c0, 0 \n" // Write the Cache Size selection register
Kojto	115:87f2f5183dfb	769	" ISB \n" // ISB to sync the change to the CacheSizeID reg
Kojto	115:87f2f5183dfb	770	" MRC p15, 1, R1, c0, c0, 0 \n" // Reads current Cache Size ID register
Kojto	115:87f2f5183dfb	771	" AND R2, R1, #7 \n" // Extract the line length field
Kojto	115:87f2f5183dfb	772	" ADD R2, R2, #4 \n" // Add 4 for the line length offset (log2 16 bytes)
Kojto	115:87f2f5183dfb	773	" movw R4, #0x3FF \n"
Kojto	115:87f2f5183dfb	774	" ANDS R4, R4, R1, LSR #3 \n" // R4 is the max number on the way size (right aligned)
Kojto	115:87f2f5183dfb	775	" CLZ R5, R4 \n" // R5 is the bit position of the way size increment
Kojto	115:87f2f5183dfb	776	" movw R7, #0x7FFF \n"
Kojto	115:87f2f5183dfb	777	" ANDS R7, R7, R1, LSR #13 \n" // R7 is the max number of the index size (right aligned)
Kojto	115:87f2f5183dfb	778
Kojto	115:87f2f5183dfb	779	"Loop2: MOV R9, R4 \n" // R9 working copy of the max way size (right aligned)
Kojto	115:87f2f5183dfb	780
Kojto	115:87f2f5183dfb	781	"Loop3: ORR R11, R10, R9, LSL R5 \n" // Factor in the Way number and cache number into R11
Kojto	115:87f2f5183dfb	782	" ORR R11, R11, R7, LSL R2 \n" // Factor in the Set number
Kojto	115:87f2f5183dfb	783	" CMP R0, #0 \n"
Kojto	115:87f2f5183dfb	784	" BNE Dccsw \n"
Kojto	115:87f2f5183dfb	785	" MCR p15, 0, R11, c7, c6, 2 \n" // DCISW. Invalidate by Set/Way
Kojto	115:87f2f5183dfb	786	" B cont \n"
Kojto	115:87f2f5183dfb	787	"Dccsw: CMP R0, #1 \n"
Kojto	115:87f2f5183dfb	788	" BNE Dccisw \n"
Kojto	115:87f2f5183dfb	789	" MCR p15, 0, R11, c7, c10, 2 \n" // DCCSW. Clean by Set/Way
Kojto	115:87f2f5183dfb	790	" B cont \n"
Kojto	115:87f2f5183dfb	791	"Dccisw: MCR p15, 0, R11, c7, c14, 2 \n" // DCCISW, Clean and Invalidate by Set/Way
Kojto	115:87f2f5183dfb	792	"cont: SUBS R9, R9, #1 \n" // Decrement the Way number
Kojto	115:87f2f5183dfb	793	" BGE Loop3 \n"
Kojto	115:87f2f5183dfb	794	" SUBS R7, R7, #1 \n" // Decrement the Set number
Kojto	115:87f2f5183dfb	795	" BGE Loop2 \n"
Kojto	115:87f2f5183dfb	796	"Skip: ADD R10, R10, #2 \n" // increment the cache number
Kojto	115:87f2f5183dfb	797	" CMP R3, R10 \n"
Kojto	115:87f2f5183dfb	798	" BGT Loop1 \n"
Kojto	115:87f2f5183dfb	799
Kojto	115:87f2f5183dfb	800	"Finished: \n"
Kojto	115:87f2f5183dfb	801	" DSB \n"
Kojto	115:87f2f5183dfb	802	" POP {R4-R11} \n"
Kojto	115:87f2f5183dfb	803	" BX lr \n" );
Kojto	115:87f2f5183dfb	804	}
Kojto	115:87f2f5183dfb	805
Kojto	115:87f2f5183dfb	806	/** \brief Invalidate the whole D$
Kojto	115:87f2f5183dfb	807
Kojto	115:87f2f5183dfb	808	DCISW. Invalidate by Set/Way
Kojto	115:87f2f5183dfb	809	*/
Kojto	115:87f2f5183dfb	810	// from system_Renesas_RZ_A1.c
Kojto	115:87f2f5183dfb	811	__STATIC_INLINE void __v7_inv_dcache_all(void) {
Kojto	115:87f2f5183dfb	812	__v7_all_cache(0);
Kojto	115:87f2f5183dfb	813	}
<>	130:d75b3fe1f5cb	814	/** \brief Clean the whole D$
<>	130:d75b3fe1f5cb	815
<>	130:d75b3fe1f5cb	816	DCCSW. Clean by Set/Way
<>	130:d75b3fe1f5cb	817	*/
<>	130:d75b3fe1f5cb	818
<>	130:d75b3fe1f5cb	819	__STATIC_INLINE void __v7_clean_dcache_all(void) {
<>	130:d75b3fe1f5cb	820	__v7_all_cache(1);
<>	130:d75b3fe1f5cb	821	}
<>	130:d75b3fe1f5cb	822
<>	130:d75b3fe1f5cb	823	/** \brief Clean and invalidate the whole D$
<>	130:d75b3fe1f5cb	824
<>	130:d75b3fe1f5cb	825	DCCISW. Clean and Invalidate by Set/Way
<>	130:d75b3fe1f5cb	826	*/
<>	130:d75b3fe1f5cb	827
<>	130:d75b3fe1f5cb	828	__STATIC_INLINE void __v7_clean_inv_dcache_all(void) {
<>	130:d75b3fe1f5cb	829	__v7_all_cache(2);
<>	130:d75b3fe1f5cb	830	}
Kojto	121:6c34061e7c34	831	/** \brief Clean and Invalidate D$ by MVA
Kojto	121:6c34061e7c34	832
Kojto	121:6c34061e7c34	833	DCCIMVAC. Data cache clean and invalidate by MVA to PoC
Kojto	121:6c34061e7c34	834	*/
Kojto	121:6c34061e7c34	835	__STATIC_INLINE void __v7_clean_inv_dcache_mva(void *va) {
Kojto	121:6c34061e7c34	836	__MCR(15, 0, (uint32_t)va, 7, 14, 1);
Kojto	121:6c34061e7c34	837	__DMB();
Kojto	121:6c34061e7c34	838	}
Kojto	121:6c34061e7c34	839
Kojto	115:87f2f5183dfb	840	#include "core_ca_mmu.h"
Kojto	104:b9ad9a133dc7	841
Kojto	104:b9ad9a133dc7	842	#elif (defined (__GNUC__)) /------------------ GNU Compiler ---------------------/
Kojto	104:b9ad9a133dc7	843	/* GNU gcc specific functions */
Kojto	104:b9ad9a133dc7	844
Kojto	104:b9ad9a133dc7	845	#define MODE_USR 0x10
Kojto	104:b9ad9a133dc7	846	#define MODE_FIQ 0x11
Kojto	104:b9ad9a133dc7	847	#define MODE_IRQ 0x12
Kojto	104:b9ad9a133dc7	848	#define MODE_SVC 0x13
Kojto	104:b9ad9a133dc7	849	#define MODE_MON 0x16
Kojto	104:b9ad9a133dc7	850	#define MODE_ABT 0x17
Kojto	104:b9ad9a133dc7	851	#define MODE_HYP 0x1A
Kojto	104:b9ad9a133dc7	852	#define MODE_UND 0x1B
Kojto	104:b9ad9a133dc7	853	#define MODE_SYS 0x1F
Kojto	104:b9ad9a133dc7	854
Kojto	104:b9ad9a133dc7	855
Kojto	104:b9ad9a133dc7	856	__attribute__( ( always_inline ) ) __STATIC_INLINE void __enable_irq(void)
Kojto	104:b9ad9a133dc7	857	{
Kojto	104:b9ad9a133dc7	858	__ASM volatile ("cpsie i");
Kojto	104:b9ad9a133dc7	859	}
Kojto	104:b9ad9a133dc7	860
Kojto	104:b9ad9a133dc7	861	/** \brief Disable IRQ Interrupts
Kojto	104:b9ad9a133dc7	862
Kojto	104:b9ad9a133dc7	863	This function disables IRQ interrupts by setting the I-bit in the CPSR.
Kojto	104:b9ad9a133dc7	864	Can only be executed in Privileged modes.
Kojto	104:b9ad9a133dc7	865	*/
Kojto	104:b9ad9a133dc7	866	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __disable_irq(void)
Kojto	104:b9ad9a133dc7	867	{
Kojto	104:b9ad9a133dc7	868	uint32_t result;
Kojto	104:b9ad9a133dc7	869
Kojto	104:b9ad9a133dc7	870	__ASM volatile ("mrs %0, cpsr" : "=r" (result));
Kojto	104:b9ad9a133dc7	871	__ASM volatile ("cpsid i");
Kojto	104:b9ad9a133dc7	872	return(result & 0x80);
Kojto	104:b9ad9a133dc7	873	}
Kojto	104:b9ad9a133dc7	874
Kojto	104:b9ad9a133dc7	875
Kojto	104:b9ad9a133dc7	876	/** \brief Get APSR Register
Kojto	104:b9ad9a133dc7	877
Kojto	104:b9ad9a133dc7	878	This function returns the content of the APSR Register.
Kojto	104:b9ad9a133dc7	879
Kojto	104:b9ad9a133dc7	880	\return APSR Register value
Kojto	104:b9ad9a133dc7	881	*/
Kojto	104:b9ad9a133dc7	882	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_APSR(void)
Kojto	104:b9ad9a133dc7	883	{
Kojto	104:b9ad9a133dc7	884	#if 1
Kojto	108:34e6b704fe68	885	register uint32_t __regAPSR;
Kojto	108:34e6b704fe68	886	__ASM volatile ("mrs %0, apsr" : "=r" (__regAPSR) );
Kojto	104:b9ad9a133dc7	887	#else
Kojto	104:b9ad9a133dc7	888	register uint32_t __regAPSR __ASM("apsr");
Kojto	108:34e6b704fe68	889	#endif
Kojto	104:b9ad9a133dc7	890	return(__regAPSR);
Kojto	104:b9ad9a133dc7	891	}
Kojto	104:b9ad9a133dc7	892
Kojto	104:b9ad9a133dc7	893
Kojto	104:b9ad9a133dc7	894	/** \brief Get CPSR Register
Kojto	104:b9ad9a133dc7	895
Kojto	104:b9ad9a133dc7	896	This function returns the content of the CPSR Register.
Kojto	104:b9ad9a133dc7	897
Kojto	104:b9ad9a133dc7	898	\return CPSR Register value
Kojto	104:b9ad9a133dc7	899	*/
Kojto	104:b9ad9a133dc7	900	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_CPSR(void)
Kojto	104:b9ad9a133dc7	901	{
Kojto	104:b9ad9a133dc7	902	#if 1
Kojto	104:b9ad9a133dc7	903	register uint32_t __regCPSR;
Kojto	104:b9ad9a133dc7	904	__ASM volatile ("mrs %0, cpsr" : "=r" (__regCPSR));
Kojto	104:b9ad9a133dc7	905	#else
Kojto	104:b9ad9a133dc7	906	register uint32_t __regCPSR __ASM("cpsr");
Kojto	104:b9ad9a133dc7	907	#endif
Kojto	104:b9ad9a133dc7	908	return(__regCPSR);
Kojto	104:b9ad9a133dc7	909	}
Kojto	104:b9ad9a133dc7	910
Kojto	104:b9ad9a133dc7	911	#if 0
Kojto	104:b9ad9a133dc7	912	/** \brief Set Stack Pointer
Kojto	104:b9ad9a133dc7	913
Kojto	104:b9ad9a133dc7	914	This function assigns the given value to the current stack pointer.
Kojto	104:b9ad9a133dc7	915
Kojto	104:b9ad9a133dc7	916	\param [in] topOfStack Stack Pointer value to set
Kojto	104:b9ad9a133dc7	917	*/
Kojto	104:b9ad9a133dc7	918	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_SP(uint32_t topOfStack)
Kojto	104:b9ad9a133dc7	919	{
Kojto	104:b9ad9a133dc7	920	register uint32_t __regSP __ASM("sp");
Kojto	104:b9ad9a133dc7	921	__regSP = topOfStack;
Kojto	104:b9ad9a133dc7	922	}
Kojto	104:b9ad9a133dc7	923	#endif
Kojto	104:b9ad9a133dc7	924
Kojto	104:b9ad9a133dc7	925	/** \brief Get link register
Kojto	104:b9ad9a133dc7	926
Kojto	104:b9ad9a133dc7	927	This function returns the value of the link register
Kojto	104:b9ad9a133dc7	928
Kojto	104:b9ad9a133dc7	929	\return Value of link register
Kojto	104:b9ad9a133dc7	930	*/
Kojto	104:b9ad9a133dc7	931	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_LR(void)
Kojto	104:b9ad9a133dc7	932	{
Kojto	104:b9ad9a133dc7	933	register uint32_t __reglr __ASM("lr");
Kojto	104:b9ad9a133dc7	934	return(__reglr);
Kojto	104:b9ad9a133dc7	935	}
Kojto	104:b9ad9a133dc7	936
Kojto	104:b9ad9a133dc7	937	#if 0
Kojto	104:b9ad9a133dc7	938	/** \brief Set link register
Kojto	104:b9ad9a133dc7	939
Kojto	104:b9ad9a133dc7	940	This function sets the value of the link register
Kojto	104:b9ad9a133dc7	941
Kojto	104:b9ad9a133dc7	942	\param [in] lr LR value to set
Kojto	104:b9ad9a133dc7	943	*/
Kojto	104:b9ad9a133dc7	944	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_LR(uint32_t lr)
Kojto	104:b9ad9a133dc7	945	{
Kojto	104:b9ad9a133dc7	946	register uint32_t __reglr __ASM("lr");
Kojto	104:b9ad9a133dc7	947	__reglr = lr;
Kojto	104:b9ad9a133dc7	948	}
Kojto	104:b9ad9a133dc7	949	#endif
Kojto	104:b9ad9a133dc7	950
Kojto	104:b9ad9a133dc7	951	/** \brief Set Process Stack Pointer
Kojto	104:b9ad9a133dc7	952
Kojto	104:b9ad9a133dc7	953	This function assigns the given value to the USR/SYS Stack Pointer (PSP).
Kojto	104:b9ad9a133dc7	954
Kojto	104:b9ad9a133dc7	955	\param [in] topOfProcStack USR/SYS Stack Pointer value to set
Kojto	104:b9ad9a133dc7	956	*/
Kojto	108:34e6b704fe68	957	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_PSP(uint32_t topOfProcStack)
Kojto	108:34e6b704fe68	958	{
Kojto	108:34e6b704fe68	959	__asm__ volatile (
Kojto	108:34e6b704fe68	960	".ARM;"
Kojto	108:34e6b704fe68	961	".eabi_attribute Tag_ABI_align8_preserved,1;"
Kojto	108:34e6b704fe68	962
Kojto	108:34e6b704fe68	963	"BIC R0, R0, #7;" /* ;ensure stack is 8-byte aligned */
Kojto	108:34e6b704fe68	964	"MRS R1, CPSR;"
Kojto	108:34e6b704fe68	965	"CPS %0;" /* ;no effect in USR mode */
Kojto	108:34e6b704fe68	966	"MOV SP, R0;"
Kojto	108:34e6b704fe68	967	"MSR CPSR_c, R1;" /* ;no effect in USR mode */
Kojto	108:34e6b704fe68	968	"ISB;"
Kojto	108:34e6b704fe68	969	//"BX LR;"
Kojto	108:34e6b704fe68	970	:
Kojto	108:34e6b704fe68	971	: "i"(MODE_SYS)
Kojto	108:34e6b704fe68	972	: "r0", "r1");
Kojto	108:34e6b704fe68	973	return;
Kojto	108:34e6b704fe68	974	}
Kojto	104:b9ad9a133dc7	975
Kojto	104:b9ad9a133dc7	976	/** \brief Set User Mode
Kojto	104:b9ad9a133dc7	977
Kojto	104:b9ad9a133dc7	978	This function changes the processor state to User Mode
Kojto	108:34e6b704fe68	979	*/
Kojto	108:34e6b704fe68	980	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_CPS_USR(void)
Kojto	108:34e6b704fe68	981	{
Kojto	108:34e6b704fe68	982	__asm__ volatile (
Kojto	108:34e6b704fe68	983	".ARM;"
Kojto	104:b9ad9a133dc7	984
Kojto	108:34e6b704fe68	985	"CPS %0;"
Kojto	108:34e6b704fe68	986	//"BX LR;"
Kojto	108:34e6b704fe68	987	:
Kojto	108:34e6b704fe68	988	: "i"(MODE_USR)
Kojto	108:34e6b704fe68	989	: );
Kojto	108:34e6b704fe68	990	return;
Kojto	108:34e6b704fe68	991	}
Kojto	108:34e6b704fe68	992
Kojto	104:b9ad9a133dc7	993
Kojto	104:b9ad9a133dc7	994	/** \brief Enable FIQ
Kojto	104:b9ad9a133dc7	995
Kojto	104:b9ad9a133dc7	996	This function enables FIQ interrupts by clearing the F-bit in the CPSR.
Kojto	104:b9ad9a133dc7	997	Can only be executed in Privileged modes.
Kojto	104:b9ad9a133dc7	998	*/
Kojto	108:34e6b704fe68	999	#define __enable_fault_irq() __asm__ volatile ("cpsie f")
Kojto	104:b9ad9a133dc7	1000
Kojto	104:b9ad9a133dc7	1001
Kojto	104:b9ad9a133dc7	1002	/** \brief Disable FIQ
Kojto	104:b9ad9a133dc7	1003
Kojto	104:b9ad9a133dc7	1004	This function disables FIQ interrupts by setting the F-bit in the CPSR.
Kojto	104:b9ad9a133dc7	1005	Can only be executed in Privileged modes.
Kojto	104:b9ad9a133dc7	1006	*/
Kojto	108:34e6b704fe68	1007	#define __disable_fault_irq() __asm__ volatile ("cpsid f")
Kojto	104:b9ad9a133dc7	1008
Kojto	104:b9ad9a133dc7	1009
Kojto	104:b9ad9a133dc7	1010	/** \brief Get FPSCR
Kojto	104:b9ad9a133dc7	1011
Kojto	104:b9ad9a133dc7	1012	This function returns the current value of the Floating Point Status/Control register.
Kojto	104:b9ad9a133dc7	1013
Kojto	104:b9ad9a133dc7	1014	\return Floating Point Status/Control register value
Kojto	104:b9ad9a133dc7	1015	*/
Kojto	104:b9ad9a133dc7	1016	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_FPSCR(void)
Kojto	104:b9ad9a133dc7	1017	{
Kojto	104:b9ad9a133dc7	1018	#if (__FPU_PRESENT == 1) && (__FPU_USED == 1)
Kojto	104:b9ad9a133dc7	1019	#if 1
Kojto	104:b9ad9a133dc7	1020	uint32_t result;
Kojto	104:b9ad9a133dc7	1021
Kojto	104:b9ad9a133dc7	1022	__ASM volatile ("vmrs %0, fpscr" : "=r" (result) );
Kojto	104:b9ad9a133dc7	1023	return (result);
Kojto	104:b9ad9a133dc7	1024	#else
Kojto	104:b9ad9a133dc7	1025	register uint32_t __regfpscr __ASM("fpscr");
Kojto	104:b9ad9a133dc7	1026	return(__regfpscr);
Kojto	104:b9ad9a133dc7	1027	#endif
Kojto	104:b9ad9a133dc7	1028	#else
Kojto	104:b9ad9a133dc7	1029	return(0);
Kojto	104:b9ad9a133dc7	1030	#endif
Kojto	104:b9ad9a133dc7	1031	}
Kojto	104:b9ad9a133dc7	1032
Kojto	104:b9ad9a133dc7	1033
Kojto	104:b9ad9a133dc7	1034	/** \brief Set FPSCR
Kojto	104:b9ad9a133dc7	1035
Kojto	104:b9ad9a133dc7	1036	This function assigns the given value to the Floating Point Status/Control register.
Kojto	104:b9ad9a133dc7	1037
Kojto	104:b9ad9a133dc7	1038	\param [in] fpscr Floating Point Status/Control value to set
Kojto	104:b9ad9a133dc7	1039	*/
Kojto	104:b9ad9a133dc7	1040	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_FPSCR(uint32_t fpscr)
Kojto	104:b9ad9a133dc7	1041	{
Kojto	104:b9ad9a133dc7	1042	#if (__FPU_PRESENT == 1) && (__FPU_USED == 1)
Kojto	104:b9ad9a133dc7	1043	#if 1
Kojto	104:b9ad9a133dc7	1044	__ASM volatile ("vmsr fpscr, %0" : : "r" (fpscr) );
Kojto	104:b9ad9a133dc7	1045	#else
Kojto	104:b9ad9a133dc7	1046	register uint32_t __regfpscr __ASM("fpscr");
Kojto	104:b9ad9a133dc7	1047	__regfpscr = (fpscr);
Kojto	104:b9ad9a133dc7	1048	#endif
Kojto	104:b9ad9a133dc7	1049	#endif
Kojto	104:b9ad9a133dc7	1050	}
Kojto	104:b9ad9a133dc7	1051
Kojto	104:b9ad9a133dc7	1052	/** \brief Get FPEXC
Kojto	104:b9ad9a133dc7	1053
Kojto	104:b9ad9a133dc7	1054	This function returns the current value of the Floating Point Exception Control register.
Kojto	104:b9ad9a133dc7	1055
Kojto	104:b9ad9a133dc7	1056	\return Floating Point Exception Control register value
Kojto	104:b9ad9a133dc7	1057	*/
Kojto	104:b9ad9a133dc7	1058	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_FPEXC(void)
Kojto	104:b9ad9a133dc7	1059	{
Kojto	104:b9ad9a133dc7	1060	#if (__FPU_PRESENT == 1)
Kojto	104:b9ad9a133dc7	1061	#if 1
Kojto	104:b9ad9a133dc7	1062	uint32_t result;
Kojto	104:b9ad9a133dc7	1063
Kojto	104:b9ad9a133dc7	1064	__ASM volatile ("vmrs %0, fpexc" : "=r" (result));
Kojto	104:b9ad9a133dc7	1065	return (result);
Kojto	104:b9ad9a133dc7	1066	#else
Kojto	104:b9ad9a133dc7	1067	register uint32_t __regfpexc __ASM("fpexc");
Kojto	104:b9ad9a133dc7	1068	return(__regfpexc);
Kojto	104:b9ad9a133dc7	1069	#endif
Kojto	104:b9ad9a133dc7	1070	#else
Kojto	104:b9ad9a133dc7	1071	return(0);
Kojto	104:b9ad9a133dc7	1072	#endif
Kojto	104:b9ad9a133dc7	1073	}
Kojto	104:b9ad9a133dc7	1074
Kojto	104:b9ad9a133dc7	1075
Kojto	104:b9ad9a133dc7	1076	/** \brief Set FPEXC
Kojto	104:b9ad9a133dc7	1077
Kojto	104:b9ad9a133dc7	1078	This function assigns the given value to the Floating Point Exception Control register.
Kojto	104:b9ad9a133dc7	1079
Kojto	104:b9ad9a133dc7	1080	\param [in] fpscr Floating Point Exception Control value to set
Kojto	104:b9ad9a133dc7	1081	*/
Kojto	104:b9ad9a133dc7	1082	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_FPEXC(uint32_t fpexc)
Kojto	104:b9ad9a133dc7	1083	{
Kojto	104:b9ad9a133dc7	1084	#if (__FPU_PRESENT == 1)
Kojto	104:b9ad9a133dc7	1085	#if 1
Kojto	104:b9ad9a133dc7	1086	__ASM volatile ("vmsr fpexc, %0" : : "r" (fpexc));
Kojto	104:b9ad9a133dc7	1087	#else
Kojto	104:b9ad9a133dc7	1088	register uint32_t __regfpexc __ASM("fpexc");
Kojto	104:b9ad9a133dc7	1089	__regfpexc = (fpexc);
Kojto	104:b9ad9a133dc7	1090	#endif
Kojto	104:b9ad9a133dc7	1091	#endif
Kojto	104:b9ad9a133dc7	1092	}
Kojto	104:b9ad9a133dc7	1093
Kojto	104:b9ad9a133dc7	1094	/** \brief Get CPACR
Kojto	104:b9ad9a133dc7	1095
Kojto	104:b9ad9a133dc7	1096	This function returns the current value of the Coprocessor Access Control register.
Kojto	104:b9ad9a133dc7	1097
Kojto	104:b9ad9a133dc7	1098	\return Coprocessor Access Control register value
Kojto	104:b9ad9a133dc7	1099	*/
Kojto	104:b9ad9a133dc7	1100	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_CPACR(void)
Kojto	104:b9ad9a133dc7	1101	{
Kojto	104:b9ad9a133dc7	1102	#if 1
Kojto	104:b9ad9a133dc7	1103	register uint32_t __regCPACR;
Kojto	104:b9ad9a133dc7	1104	__ASM volatile ("mrc p15, 0, %0, c1, c0, 2" : "=r" (__regCPACR));
Kojto	104:b9ad9a133dc7	1105	#else
Kojto	104:b9ad9a133dc7	1106	register uint32_t __regCPACR __ASM("cp15:0:c1:c0:2");
Kojto	104:b9ad9a133dc7	1107	#endif
Kojto	104:b9ad9a133dc7	1108	return __regCPACR;
Kojto	104:b9ad9a133dc7	1109	}
Kojto	104:b9ad9a133dc7	1110
Kojto	104:b9ad9a133dc7	1111	/** \brief Set CPACR
Kojto	104:b9ad9a133dc7	1112
Kojto	104:b9ad9a133dc7	1113	This function assigns the given value to the Coprocessor Access Control register.
Kojto	104:b9ad9a133dc7	1114
Kojto	108:34e6b704fe68	1115	\param [in] cpacr Coprocessor Acccess Control value to set
Kojto	104:b9ad9a133dc7	1116	*/
Kojto	104:b9ad9a133dc7	1117	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_CPACR(uint32_t cpacr)
Kojto	104:b9ad9a133dc7	1118	{
Kojto	104:b9ad9a133dc7	1119	#if 1
Kojto	104:b9ad9a133dc7	1120	__ASM volatile ("mcr p15, 0, %0, c1, c0, 2" : : "r" (cpacr));
Kojto	104:b9ad9a133dc7	1121	#else
Kojto	104:b9ad9a133dc7	1122	register uint32_t __regCPACR __ASM("cp15:0:c1:c0:2");
Kojto	104:b9ad9a133dc7	1123	__regCPACR = cpacr;
Kojto	104:b9ad9a133dc7	1124	#endif
Kojto	104:b9ad9a133dc7	1125	__ISB();
Kojto	104:b9ad9a133dc7	1126	}
Kojto	104:b9ad9a133dc7	1127
Kojto	104:b9ad9a133dc7	1128	/** \brief Get CBAR
Kojto	104:b9ad9a133dc7	1129
Kojto	104:b9ad9a133dc7	1130	This function returns the value of the Configuration Base Address register.
Kojto	104:b9ad9a133dc7	1131
Kojto	104:b9ad9a133dc7	1132	\return Configuration Base Address register value
Kojto	104:b9ad9a133dc7	1133	*/
Kojto	104:b9ad9a133dc7	1134	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_CBAR() {
Kojto	104:b9ad9a133dc7	1135	#if 1
Kojto	104:b9ad9a133dc7	1136	register uint32_t __regCBAR;
Kojto	104:b9ad9a133dc7	1137	__ASM volatile ("mrc p15, 4, %0, c15, c0, 0" : "=r" (__regCBAR));
Kojto	104:b9ad9a133dc7	1138	#else
Kojto	104:b9ad9a133dc7	1139	register uint32_t __regCBAR __ASM("cp15:4:c15:c0:0");
Kojto	104:b9ad9a133dc7	1140	#endif
Kojto	104:b9ad9a133dc7	1141	return(__regCBAR);
Kojto	104:b9ad9a133dc7	1142	}
Kojto	104:b9ad9a133dc7	1143
Kojto	104:b9ad9a133dc7	1144	/** \brief Get TTBR0
Kojto	104:b9ad9a133dc7	1145
Kojto	108:34e6b704fe68	1146	This function returns the value of the Translation Table Base Register 0.
Kojto	104:b9ad9a133dc7	1147
Kojto	104:b9ad9a133dc7	1148	\return Translation Table Base Register 0 value
Kojto	104:b9ad9a133dc7	1149	*/
Kojto	104:b9ad9a133dc7	1150	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_TTBR0() {
Kojto	104:b9ad9a133dc7	1151	#if 1
Kojto	104:b9ad9a133dc7	1152	register uint32_t __regTTBR0;
Kojto	104:b9ad9a133dc7	1153	__ASM volatile ("mrc p15, 0, %0, c2, c0, 0" : "=r" (__regTTBR0));
Kojto	104:b9ad9a133dc7	1154	#else
Kojto	104:b9ad9a133dc7	1155	register uint32_t __regTTBR0 __ASM("cp15:0:c2:c0:0");
Kojto	104:b9ad9a133dc7	1156	#endif
Kojto	104:b9ad9a133dc7	1157	return(__regTTBR0);
Kojto	104:b9ad9a133dc7	1158	}
Kojto	104:b9ad9a133dc7	1159
Kojto	104:b9ad9a133dc7	1160	/** \brief Set TTBR0
Kojto	104:b9ad9a133dc7	1161
Kojto	108:34e6b704fe68	1162	This function assigns the given value to the Translation Table Base Register 0.
Kojto	104:b9ad9a133dc7	1163
Kojto	104:b9ad9a133dc7	1164	\param [in] ttbr0 Translation Table Base Register 0 value to set
Kojto	104:b9ad9a133dc7	1165	*/
Kojto	104:b9ad9a133dc7	1166	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_TTBR0(uint32_t ttbr0) {
Kojto	104:b9ad9a133dc7	1167	#if 1
Kojto	104:b9ad9a133dc7	1168	__ASM volatile ("mcr p15, 0, %0, c2, c0, 0" : : "r" (ttbr0));
Kojto	104:b9ad9a133dc7	1169	#else
Kojto	104:b9ad9a133dc7	1170	register uint32_t __regTTBR0 __ASM("cp15:0:c2:c0:0");
Kojto	104:b9ad9a133dc7	1171	__regTTBR0 = ttbr0;
Kojto	104:b9ad9a133dc7	1172	#endif
Kojto	104:b9ad9a133dc7	1173	__ISB();
Kojto	104:b9ad9a133dc7	1174	}
Kojto	104:b9ad9a133dc7	1175
Kojto	104:b9ad9a133dc7	1176	/** \brief Get DACR
Kojto	104:b9ad9a133dc7	1177
Kojto	104:b9ad9a133dc7	1178	This function returns the value of the Domain Access Control Register.
Kojto	104:b9ad9a133dc7	1179
Kojto	104:b9ad9a133dc7	1180	\return Domain Access Control Register value
Kojto	104:b9ad9a133dc7	1181	*/
Kojto	104:b9ad9a133dc7	1182	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_DACR() {
Kojto	104:b9ad9a133dc7	1183	#if 1
Kojto	104:b9ad9a133dc7	1184	register uint32_t __regDACR;
Kojto	104:b9ad9a133dc7	1185	__ASM volatile ("mrc p15, 0, %0, c3, c0, 0" : "=r" (__regDACR));
Kojto	104:b9ad9a133dc7	1186	#else
Kojto	104:b9ad9a133dc7	1187	register uint32_t __regDACR __ASM("cp15:0:c3:c0:0");
Kojto	104:b9ad9a133dc7	1188	#endif
Kojto	104:b9ad9a133dc7	1189	return(__regDACR);
Kojto	104:b9ad9a133dc7	1190	}
Kojto	104:b9ad9a133dc7	1191
Kojto	104:b9ad9a133dc7	1192	/** \brief Set DACR
Kojto	104:b9ad9a133dc7	1193
Kojto	108:34e6b704fe68	1194	This function assigns the given value to the Domain Access Control Register.
Kojto	104:b9ad9a133dc7	1195
Kojto	104:b9ad9a133dc7	1196	\param [in] dacr Domain Access Control Register value to set
Kojto	104:b9ad9a133dc7	1197	*/
Kojto	104:b9ad9a133dc7	1198	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_DACR(uint32_t dacr) {
Kojto	104:b9ad9a133dc7	1199	#if 1
Kojto	104:b9ad9a133dc7	1200	__ASM volatile ("mcr p15, 0, %0, c3, c0, 0" : : "r" (dacr));
Kojto	104:b9ad9a133dc7	1201	#else
Kojto	104:b9ad9a133dc7	1202	register uint32_t __regDACR __ASM("cp15:0:c3:c0:0");
Kojto	104:b9ad9a133dc7	1203	__regDACR = dacr;
Kojto	104:b9ad9a133dc7	1204	#endif
Kojto	104:b9ad9a133dc7	1205	__ISB();
Kojto	104:b9ad9a133dc7	1206	}
Kojto	104:b9ad9a133dc7	1207
Kojto	104:b9ad9a133dc7	1208	/****************************** Cache and BTAC enable **************************************************/
Kojto	104:b9ad9a133dc7	1209
Kojto	104:b9ad9a133dc7	1210	/** \brief Set SCTLR
Kojto	104:b9ad9a133dc7	1211
Kojto	104:b9ad9a133dc7	1212	This function assigns the given value to the System Control Register.
Kojto	104:b9ad9a133dc7	1213
Kojto	108:34e6b704fe68	1214	\param [in] sctlr System Control Register value to set
Kojto	104:b9ad9a133dc7	1215	*/
Kojto	104:b9ad9a133dc7	1216	__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_SCTLR(uint32_t sctlr)
Kojto	104:b9ad9a133dc7	1217	{
Kojto	104:b9ad9a133dc7	1218	#if 1
Kojto	104:b9ad9a133dc7	1219	__ASM volatile ("mcr p15, 0, %0, c1, c0, 0" : : "r" (sctlr));
Kojto	104:b9ad9a133dc7	1220	#else
Kojto	104:b9ad9a133dc7	1221	register uint32_t __regSCTLR __ASM("cp15:0:c1:c0:0");
Kojto	104:b9ad9a133dc7	1222	__regSCTLR = sctlr;
Kojto	104:b9ad9a133dc7	1223	#endif
Kojto	104:b9ad9a133dc7	1224	}
Kojto	104:b9ad9a133dc7	1225
Kojto	104:b9ad9a133dc7	1226	/** \brief Get SCTLR
Kojto	104:b9ad9a133dc7	1227
Kojto	104:b9ad9a133dc7	1228	This function returns the value of the System Control Register.
Kojto	104:b9ad9a133dc7	1229
Kojto	104:b9ad9a133dc7	1230	\return System Control Register value
Kojto	104:b9ad9a133dc7	1231	*/
Kojto	104:b9ad9a133dc7	1232	__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_SCTLR() {
Kojto	104:b9ad9a133dc7	1233	#if 1
Kojto	104:b9ad9a133dc7	1234	register uint32_t __regSCTLR;
Kojto	104:b9ad9a133dc7	1235	__ASM volatile ("mrc p15, 0, %0, c1, c0, 0" : "=r" (__regSCTLR));
Kojto	104:b9ad9a133dc7	1236	#else
Kojto	104:b9ad9a133dc7	1237	register uint32_t __regSCTLR __ASM("cp15:0:c1:c0:0");
Kojto	104:b9ad9a133dc7	1238	#endif
Kojto	104:b9ad9a133dc7	1239	return(__regSCTLR);
Kojto	104:b9ad9a133dc7	1240	}
Kojto	104:b9ad9a133dc7	1241
Kojto	104:b9ad9a133dc7	1242	/** \brief Enable Caches
Kojto	104:b9ad9a133dc7	1243
Kojto	104:b9ad9a133dc7	1244	Enable Caches
Kojto	104:b9ad9a133dc7	1245	*/
Kojto	104:b9ad9a133dc7	1246	__attribute__( ( always_inline ) ) __STATIC_INLINE void __enable_caches(void) {
Kojto	104:b9ad9a133dc7	1247	// Set I bit 12 to enable I Cache
Kojto	104:b9ad9a133dc7	1248	// Set C bit 2 to enable D Cache
Kojto	104:b9ad9a133dc7	1249	__set_SCTLR( __get_SCTLR() \| (1 << 12) \| (1 << 2));
Kojto	104:b9ad9a133dc7	1250	}
Kojto	104:b9ad9a133dc7	1251
Kojto	104:b9ad9a133dc7	1252	/** \brief Disable Caches
Kojto	104:b9ad9a133dc7	1253
Kojto	104:b9ad9a133dc7	1254	Disable Caches
Kojto	104:b9ad9a133dc7	1255	*/
Kojto	104:b9ad9a133dc7	1256	__attribute__( ( always_inline ) ) __STATIC_INLINE void __disable_caches(void) {
Kojto	104:b9ad9a133dc7	1257	// Clear I bit 12 to disable I Cache
Kojto	104:b9ad9a133dc7	1258	// Clear C bit 2 to disable D Cache
Kojto	104:b9ad9a133dc7	1259	__set_SCTLR( __get_SCTLR() & ~(1 << 12) & ~(1 << 2));
Kojto	104:b9ad9a133dc7	1260	__ISB();
Kojto	104:b9ad9a133dc7	1261	}
Kojto	104:b9ad9a133dc7	1262
Kojto	104:b9ad9a133dc7	1263	/** \brief Enable BTAC
Kojto	104:b9ad9a133dc7	1264
Kojto	104:b9ad9a133dc7	1265	Enable BTAC
Kojto	104:b9ad9a133dc7	1266	*/
Kojto	104:b9ad9a133dc7	1267	__attribute__( ( always_inline ) ) __STATIC_INLINE void __enable_btac(void) {
Kojto	104:b9ad9a133dc7	1268	// Set Z bit 11 to enable branch prediction
Kojto	104:b9ad9a133dc7	1269	__set_SCTLR( __get_SCTLR() \| (1 << 11));
Kojto	104:b9ad9a133dc7	1270	__ISB();
Kojto	104:b9ad9a133dc7	1271	}
Kojto	104:b9ad9a133dc7	1272
Kojto	104:b9ad9a133dc7	1273	/** \brief Disable BTAC
Kojto	104:b9ad9a133dc7	1274
Kojto	104:b9ad9a133dc7	1275	Disable BTAC
Kojto	104:b9ad9a133dc7	1276	*/
Kojto	104:b9ad9a133dc7	1277	__attribute__( ( always_inline ) ) __STATIC_INLINE void __disable_btac(void) {
Kojto	104:b9ad9a133dc7	1278	// Clear Z bit 11 to disable branch prediction
Kojto	104:b9ad9a133dc7	1279	__set_SCTLR( __get_SCTLR() & ~(1 << 11));
Kojto	104:b9ad9a133dc7	1280	}
Kojto	104:b9ad9a133dc7	1281
Kojto	104:b9ad9a133dc7	1282
Kojto	104:b9ad9a133dc7	1283	/** \brief Enable MMU
Kojto	104:b9ad9a133dc7	1284
Kojto	104:b9ad9a133dc7	1285	Enable MMU
Kojto	104:b9ad9a133dc7	1286	*/
Kojto	104:b9ad9a133dc7	1287	__attribute__( ( always_inline ) ) __STATIC_INLINE void __enable_mmu(void) {
Kojto	104:b9ad9a133dc7	1288	// Set M bit 0 to enable the MMU
Kojto	104:b9ad9a133dc7	1289	// Set AFE bit to enable simplified access permissions model
Kojto	104:b9ad9a133dc7	1290	// Clear TRE bit to disable TEX remap and A bit to disable strict alignment fault checking
Kojto	104:b9ad9a133dc7	1291	__set_SCTLR( (__get_SCTLR() & ~(1 << 28) & ~(1 << 1)) \| 1 \| (1 << 29));
Kojto	104:b9ad9a133dc7	1292	__ISB();
Kojto	104:b9ad9a133dc7	1293	}
Kojto	104:b9ad9a133dc7	1294
Kojto	108:34e6b704fe68	1295	/** \brief Disable MMU
Kojto	104:b9ad9a133dc7	1296
Kojto	108:34e6b704fe68	1297	Disable MMU
Kojto	104:b9ad9a133dc7	1298	*/
Kojto	104:b9ad9a133dc7	1299	__attribute__( ( always_inline ) ) __STATIC_INLINE void __disable_mmu(void) {
Kojto	104:b9ad9a133dc7	1300	// Clear M bit 0 to disable the MMU
Kojto	104:b9ad9a133dc7	1301	__set_SCTLR( __get_SCTLR() & ~1);
Kojto	104:b9ad9a133dc7	1302	__ISB();
Kojto	104:b9ad9a133dc7	1303	}
Kojto	104:b9ad9a133dc7	1304
Kojto	104:b9ad9a133dc7	1305	/****************************** TLB maintenance operations **********************************************/
Kojto	104:b9ad9a133dc7	1306	/** \brief Invalidate the whole tlb
Kojto	104:b9ad9a133dc7	1307
Kojto	104:b9ad9a133dc7	1308	TLBIALL. Invalidate the whole tlb
Kojto	104:b9ad9a133dc7	1309	*/
Kojto	104:b9ad9a133dc7	1310
Kojto	104:b9ad9a133dc7	1311	__attribute__( ( always_inline ) ) __STATIC_INLINE void __ca9u_inv_tlb_all(void) {
Kojto	104:b9ad9a133dc7	1312	#if 1
Kojto	104:b9ad9a133dc7	1313	__ASM volatile ("mcr p15, 0, %0, c8, c7, 0" : : "r" (0));
Kojto	104:b9ad9a133dc7	1314	#else
Kojto	104:b9ad9a133dc7	1315	register uint32_t __TLBIALL __ASM("cp15:0:c8:c7:0");
Kojto	104:b9ad9a133dc7	1316	__TLBIALL = 0;
Kojto	104:b9ad9a133dc7	1317	#endif
Kojto	104:b9ad9a133dc7	1318	__DSB();
Kojto	104:b9ad9a133dc7	1319	__ISB();
Kojto	104:b9ad9a133dc7	1320	}
Kojto	104:b9ad9a133dc7	1321
Kojto	104:b9ad9a133dc7	1322	/****************************** BTB maintenance operations **********************************************/
Kojto	104:b9ad9a133dc7	1323	/** \brief Invalidate entire branch predictor array
Kojto	104:b9ad9a133dc7	1324
Kojto	104:b9ad9a133dc7	1325	BPIALL. Branch Predictor Invalidate All.
Kojto	104:b9ad9a133dc7	1326	*/
Kojto	104:b9ad9a133dc7	1327
Kojto	104:b9ad9a133dc7	1328	__attribute__( ( always_inline ) ) __STATIC_INLINE void __v7_inv_btac(void) {
Kojto	104:b9ad9a133dc7	1329	#if 1
Kojto	104:b9ad9a133dc7	1330	__ASM volatile ("mcr p15, 0, %0, c7, c5, 6" : : "r" (0));
Kojto	104:b9ad9a133dc7	1331	#else
Kojto	104:b9ad9a133dc7	1332	register uint32_t __BPIALL __ASM("cp15:0:c7:c5:6");
Kojto	104:b9ad9a133dc7	1333	__BPIALL = 0;
Kojto	104:b9ad9a133dc7	1334	#endif
Kojto	104:b9ad9a133dc7	1335	__DSB(); //ensure completion of the invalidation
Kojto	104:b9ad9a133dc7	1336	__ISB(); //ensure instruction fetch path sees new state
Kojto	104:b9ad9a133dc7	1337	}
Kojto	104:b9ad9a133dc7	1338
Kojto	104:b9ad9a133dc7	1339
Kojto	104:b9ad9a133dc7	1340	/****************************** L1 cache operations ****************************************************/
Kojto	104:b9ad9a133dc7	1341
Kojto	104:b9ad9a133dc7	1342	/** \brief Invalidate the whole I$
Kojto	104:b9ad9a133dc7	1343
Kojto	104:b9ad9a133dc7	1344	ICIALLU. Instruction Cache Invalidate All to PoU
Kojto	104:b9ad9a133dc7	1345	*/
Kojto	104:b9ad9a133dc7	1346	__attribute__( ( always_inline ) ) __STATIC_INLINE void __v7_inv_icache_all(void) {
Kojto	104:b9ad9a133dc7	1347	#if 1
Kojto	104:b9ad9a133dc7	1348	__ASM volatile ("mcr p15, 0, %0, c7, c5, 0" : : "r" (0));
Kojto	104:b9ad9a133dc7	1349	#else
Kojto	104:b9ad9a133dc7	1350	register uint32_t __ICIALLU __ASM("cp15:0:c7:c5:0");
Kojto	104:b9ad9a133dc7	1351	__ICIALLU = 0;
Kojto	104:b9ad9a133dc7	1352	#endif
Kojto	104:b9ad9a133dc7	1353	__DSB(); //ensure completion of the invalidation
Kojto	104:b9ad9a133dc7	1354	__ISB(); //ensure instruction fetch path sees new I cache state
Kojto	104:b9ad9a133dc7	1355	}
Kojto	104:b9ad9a133dc7	1356
Kojto	104:b9ad9a133dc7	1357	/** \brief Clean D$ by MVA
Kojto	104:b9ad9a133dc7	1358
Kojto	104:b9ad9a133dc7	1359	DCCMVAC. Data cache clean by MVA to PoC
Kojto	104:b9ad9a133dc7	1360	*/
Kojto	104:b9ad9a133dc7	1361	__attribute__( ( always_inline ) ) __STATIC_INLINE void __v7_clean_dcache_mva(void *va) {
Kojto	104:b9ad9a133dc7	1362	#if 1
Kojto	104:b9ad9a133dc7	1363	__ASM volatile ("mcr p15, 0, %0, c7, c10, 1" : : "r" ((uint32_t)va));
Kojto	104:b9ad9a133dc7	1364	#else
Kojto	104:b9ad9a133dc7	1365	register uint32_t __DCCMVAC __ASM("cp15:0:c7:c10:1");
Kojto	104:b9ad9a133dc7	1366	__DCCMVAC = (uint32_t)va;
Kojto	104:b9ad9a133dc7	1367	#endif
Kojto	104:b9ad9a133dc7	1368	__DMB(); //ensure the ordering of data cache maintenance operations and their effects
Kojto	104:b9ad9a133dc7	1369	}
Kojto	104:b9ad9a133dc7	1370
Kojto	104:b9ad9a133dc7	1371	/** \brief Invalidate D$ by MVA
Kojto	104:b9ad9a133dc7	1372
Kojto	104:b9ad9a133dc7	1373	DCIMVAC. Data cache invalidate by MVA to PoC
Kojto	104:b9ad9a133dc7	1374	*/
Kojto	104:b9ad9a133dc7	1375	__attribute__( ( always_inline ) ) __STATIC_INLINE void __v7_inv_dcache_mva(void *va) {
Kojto	104:b9ad9a133dc7	1376	#if 1
Kojto	104:b9ad9a133dc7	1377	__ASM volatile ("mcr p15, 0, %0, c7, c6, 1" : : "r" ((uint32_t)va));
Kojto	104:b9ad9a133dc7	1378	#else
Kojto	104:b9ad9a133dc7	1379	register uint32_t __DCIMVAC __ASM("cp15:0:c7:c6:1");
Kojto	104:b9ad9a133dc7	1380	__DCIMVAC = (uint32_t)va;
Kojto	104:b9ad9a133dc7	1381	#endif
Kojto	104:b9ad9a133dc7	1382	__DMB(); //ensure the ordering of data cache maintenance operations and their effects
Kojto	104:b9ad9a133dc7	1383	}
Kojto	104:b9ad9a133dc7	1384
Kojto	104:b9ad9a133dc7	1385	/** \brief Clean and Invalidate D$ by MVA
Kojto	104:b9ad9a133dc7	1386
Kojto	104:b9ad9a133dc7	1387	DCCIMVAC. Data cache clean and invalidate by MVA to PoC
Kojto	104:b9ad9a133dc7	1388	*/
Kojto	104:b9ad9a133dc7	1389	__attribute__( ( always_inline ) ) __STATIC_INLINE void __v7_clean_inv_dcache_mva(void *va) {
Kojto	104:b9ad9a133dc7	1390	#if 1
Kojto	104:b9ad9a133dc7	1391	__ASM volatile ("mcr p15, 0, %0, c7, c14, 1" : : "r" ((uint32_t)va));
Kojto	104:b9ad9a133dc7	1392	#else
Kojto	104:b9ad9a133dc7	1393	register uint32_t __DCCIMVAC __ASM("cp15:0:c7:c14:1");
Kojto	104:b9ad9a133dc7	1394	__DCCIMVAC = (uint32_t)va;
Kojto	104:b9ad9a133dc7	1395	#endif
Kojto	104:b9ad9a133dc7	1396	__DMB(); //ensure the ordering of data cache maintenance operations and their effects
Kojto	104:b9ad9a133dc7	1397	}
Kojto	104:b9ad9a133dc7	1398
Kojto	108:34e6b704fe68	1399	/** \brief Clean and Invalidate the entire data or unified cache
Kojto	104:b9ad9a133dc7	1400
Kojto	108:34e6b704fe68	1401	Generic mechanism for cleaning/invalidating the entire data or unified cache to the point of coherency.
Kojto	104:b9ad9a133dc7	1402	*/
Kojto	104:b9ad9a133dc7	1403	extern void __v7_all_cache(uint32_t op);
Kojto	104:b9ad9a133dc7	1404
Kojto	104:b9ad9a133dc7	1405
Kojto	104:b9ad9a133dc7	1406	/** \brief Invalidate the whole D$
Kojto	104:b9ad9a133dc7	1407
Kojto	104:b9ad9a133dc7	1408	DCISW. Invalidate by Set/Way
Kojto	104:b9ad9a133dc7	1409	*/
Kojto	104:b9ad9a133dc7	1410
Kojto	104:b9ad9a133dc7	1411	__attribute__( ( always_inline ) ) __STATIC_INLINE void __v7_inv_dcache_all(void) {
Kojto	104:b9ad9a133dc7	1412	__v7_all_cache(0);
Kojto	104:b9ad9a133dc7	1413	}
Kojto	104:b9ad9a133dc7	1414
Kojto	104:b9ad9a133dc7	1415	/** \brief Clean the whole D$
Kojto	104:b9ad9a133dc7	1416
Kojto	104:b9ad9a133dc7	1417	DCCSW. Clean by Set/Way
Kojto	104:b9ad9a133dc7	1418	*/
Kojto	104:b9ad9a133dc7	1419
Kojto	104:b9ad9a133dc7	1420	__attribute__( ( always_inline ) ) __STATIC_INLINE void __v7_clean_dcache_all(void) {
Kojto	104:b9ad9a133dc7	1421	__v7_all_cache(1);
Kojto	104:b9ad9a133dc7	1422	}
Kojto	104:b9ad9a133dc7	1423
Kojto	104:b9ad9a133dc7	1424	/** \brief Clean and invalidate the whole D$
Kojto	104:b9ad9a133dc7	1425
Kojto	104:b9ad9a133dc7	1426	DCCISW. Clean and Invalidate by Set/Way
Kojto	104:b9ad9a133dc7	1427	*/
Kojto	104:b9ad9a133dc7	1428
Kojto	104:b9ad9a133dc7	1429	__attribute__( ( always_inline ) ) __STATIC_INLINE void __v7_clean_inv_dcache_all(void) {
Kojto	104:b9ad9a133dc7	1430	__v7_all_cache(2);
Kojto	104:b9ad9a133dc7	1431	}
Kojto	104:b9ad9a133dc7	1432
Kojto	104:b9ad9a133dc7	1433	#include "core_ca_mmu.h"
Kojto	104:b9ad9a133dc7	1434
Kojto	104:b9ad9a133dc7	1435	#elif (defined (__TASKING__)) /--------------- TASKING Compiler -----------------/
Kojto	104:b9ad9a133dc7	1436
Kojto	104:b9ad9a133dc7	1437	#error TASKING Compiler support not implemented for Cortex-A
Kojto	104:b9ad9a133dc7	1438
Kojto	104:b9ad9a133dc7	1439	#endif
Kojto	104:b9ad9a133dc7	1440
Kojto	104:b9ad9a133dc7	1441	/@} end of CMSIS_Core_RegAccFunctions /
Kojto	104:b9ad9a133dc7	1442
Kojto	104:b9ad9a133dc7	1443
Kojto	104:b9ad9a133dc7	1444	#endif /* __CORE_CAFUNC_H__ */