arch: convert to using newly introduced integer sized types

Convert code to use u{8,16,32,64}_t and s{8,16,32,64}_t instead of C99
integer types.  There are few places we dont convert over to the new
types because of compatiability with ext/HALs or for ease of transition
at this point.  Fixup a few of the PRI formatters so we build with newlib.

Jira: ZEP-2051

Change-Id: I7d2d3697cad04f20aaa8f6e77228f502cd9c8286
Signed-off-by: Kumar Gala <kumar.gala@linaro.org>

arch/arc/core/cache.c

@@ -56,7 +56,7 @@ static int dcache_available(void)
 	return (val == 0)?0:1;
 }
 
-static void dcache_dc_ctrl(uint32_t dcache_en_mask)
+static void dcache_dc_ctrl(u32_t dcache_en_mask)
 {
 	if (!dcache_available())
 		return;
@@ -85,9 +85,9 @@ static void dcache_enable(void)
  *
  * @return N/A
  */
-static void dcache_flush_mlines(uint32_t start_addr, uint32_t size)
+static void dcache_flush_mlines(u32_t start_addr, u32_t size)
 {
-	uint32_t end_addr;
+	u32_t end_addr;
 	unsigned int key;
 
 	if (!dcache_available() || (size == 0)) {
@@ -95,7 +95,7 @@ static void dcache_flush_mlines(uint32_t start_addr, uint32_t size)
 	}
 
 	end_addr = start_addr + size - 1;
-	start_addr &= (uint32_t)(~(DCACHE_LINE_SIZE - 1));
+	start_addr &= (u32_t)(~(DCACHE_LINE_SIZE - 1));
 
 	key = irq_lock(); /* --enter critical section-- */
 
@@ -137,7 +137,7 @@ static void dcache_flush_mlines(uint32_t start_addr, uint32_t size)
 
 void sys_cache_flush(vaddr_t start_addr, size_t size)
 {
-	dcache_flush_mlines((uint32_t)start_addr, (uint32_t)size);
+	dcache_flush_mlines((u32_t)start_addr, (u32_t)size);
 }
 
 
@@ -145,7 +145,7 @@ void sys_cache_flush(vaddr_t start_addr, size_t size)
 size_t sys_cache_line_size;
 static void init_dcache_line_size(void)
 {
-	uint32_t val;
+	u32_t val;
 
 	val = _arc_v2_aux_reg_read(_ARC_V2_D_CACHE_BUILD);
 	__ASSERT((val&0xff) != 0, "d-cache is not present");

arch/arc/core/fault.c

@@ -50,15 +50,14 @@ void _FaultDump(const NANO_ESF *esf, int fault)
 	ARG_UNUSED(fault);
 
 #ifdef CONFIG_PRINTK
-	uint32_t exc_addr = _arc_v2_aux_reg_read(_ARC_V2_EFA);
-	uint32_t ecr = _arc_v2_aux_reg_read(_ARC_V2_ECR);
+	u32_t exc_addr = _arc_v2_aux_reg_read(_ARC_V2_EFA);
+	u32_t ecr = _arc_v2_aux_reg_read(_ARC_V2_ECR);
 
-	PR_EXC("Exception vector: 0x%" PRIx32 ", cause code: 0x%" PRIx32
-	       ", parameter 0x%" PRIx32 "\n",
+	PR_EXC("Exception vector: 0x%x, cause code: 0x%x, parameter 0x%xn",
 	       _ARC_V2_ECR_VECTOR(ecr),
 	       _ARC_V2_ECR_CODE(ecr),
 	       _ARC_V2_ECR_PARAMETER(ecr));
-	PR_EXC("Address 0x%" PRIx32 "\n", exc_addr);
+	PR_EXC("Address 0x%x\n", exc_addr);
 #endif
 }
 #endif /* CONFIG_FAULT_DUMP */
@@ -75,7 +74,7 @@ void _FaultDump(const NANO_ESF *esf, int fault)
  */
 void _Fault(void)
 {
-	uint32_t ecr = _arc_v2_aux_reg_read(_ARC_V2_ECR);
+	u32_t ecr = _arc_v2_aux_reg_read(_ARC_V2_ECR);
 
 	FAULT_DUMP(&_default_esf, ecr);
 

arch/arc/core/thread.c

@@ -21,12 +21,12 @@
 #endif /* CONFIG_INIT_STACKS */
 /*  initial stack frame */
 struct init_stack_frame {
-	uint32_t pc;
-	uint32_t status32;
-	uint32_t r3;
-	uint32_t r2;
-	uint32_t r1;
-	uint32_t r0;
+	u32_t pc;
+	u32_t status32;
+	u32_t r3;
+	u32_t r2;
+	u32_t r1;
+	u32_t r0;
 };
 
 #if defined(CONFIG_THREAD_MONITOR)
@@ -94,11 +94,11 @@ void _new_thread(char *pStackMem, size_t stackSize,
 	pInitCtx = (struct init_stack_frame *)(STACK_ROUND_DOWN(stackEnd) -
 				       sizeof(struct init_stack_frame));
 
-	pInitCtx->pc = ((uint32_t)_thread_entry_wrapper);
-	pInitCtx->r0 = (uint32_t)pEntry;
-	pInitCtx->r1 = (uint32_t)parameter1;
-	pInitCtx->r2 = (uint32_t)parameter2;
-	pInitCtx->r3 = (uint32_t)parameter3;
+	pInitCtx->pc = ((u32_t)_thread_entry_wrapper);
+	pInitCtx->r0 = (u32_t)pEntry;
+	pInitCtx->r1 = (u32_t)parameter1;
+	pInitCtx->r2 = (u32_t)parameter2;
+	pInitCtx->r3 = (u32_t)parameter3;
 	/*
 	 * For now set the interrupt priority to 15
 	 * we can leave interrupt enable flag set to 0 as
@@ -108,7 +108,7 @@ void _new_thread(char *pStackMem, size_t stackSize,
 	 */
 #ifdef CONFIG_ARC_STACK_CHECKING
 	pInitCtx->status32 = _ARC_V2_STATUS32_SC | _ARC_V2_STATUS32_E(_ARC_V2_DEF_IRQ_LEVEL);
-	thread->arch.stack_top = (uint32_t) stackEnd;
+	thread->arch.stack_top = (u32_t) stackEnd;
 #else
 	pInitCtx->status32 = _ARC_V2_STATUS32_E(_ARC_V2_DEF_IRQ_LEVEL);
 #endif
@@ -142,7 +142,7 @@ void _new_thread(char *pStackMem, size_t stackSize,
 	thread->arch.intlock_key = 0x3F;
 	thread->arch.relinquish_cause = _CAUSE_COOP;
 	thread->callee_saved.sp =
-		(uint32_t)pInitCtx - ___callee_saved_stack_t_SIZEOF;
+		(u32_t)pInitCtx - ___callee_saved_stack_t_SIZEOF;
 
 	/* initial values in all other regs/k_thread entries are irrelevant */
 

arch/arc/core/timestamp.c

@@ -15,7 +15,7 @@
 #include <toolchain.h>
 #include <kernel_structs.h>
 
-extern int64_t _sys_clock_tick_count;
+extern s64_t _sys_clock_tick_count;
 extern int sys_clock_hw_cycles_per_tick;
 
 /*
@@ -26,17 +26,17 @@ extern int sys_clock_hw_cycles_per_tick;
  *
  * @return 64-bit time stamp value
  */
-uint64_t _tsc_read(void)
+u64_t _tsc_read(void)
 {
 	unsigned int key;
-	uint64_t t;
-	uint32_t count;
+	u64_t t;
+	u32_t count;
 
 	key = irq_lock();
-	t = (uint64_t)_sys_clock_tick_count;
+	t = (u64_t)_sys_clock_tick_count;
 	count = _arc_v2_aux_reg_read(_ARC_V2_TMR0_COUNT);
 	irq_unlock(key);
-	t *= (uint64_t)sys_clock_hw_cycles_per_tick;
-	t += (uint64_t)count;
+	t *= (u64_t)sys_clock_hw_cycles_per_tick;
+	t += (u64_t)count;
 	return t;
 }

arch/arc/core/vector_table.c

@@ -28,39 +28,39 @@
 #include "vector_table.h"
 
 struct vector_table {
-	uint32_t reset;
-	uint32_t memory_error;
-	uint32_t instruction_error;
-	uint32_t ev_machine_check;
-	uint32_t ev_tlb_miss_i;
-	uint32_t ev_tlb_miss_d;
-	uint32_t ev_prot_v;
-	uint32_t ev_privilege_v;
-	uint32_t ev_swi;
-	uint32_t ev_trap;
-	uint32_t ev_extension;
-	uint32_t ev_div_zero;
-	uint32_t ev_dc_error;
-	uint32_t ev_maligned;
-	uint32_t unused_1;
-	uint32_t unused_2;
+	u32_t reset;
+	u32_t memory_error;
+	u32_t instruction_error;
+	u32_t ev_machine_check;
+	u32_t ev_tlb_miss_i;
+	u32_t ev_tlb_miss_d;
+	u32_t ev_prot_v;
+	u32_t ev_privilege_v;
+	u32_t ev_swi;
+	u32_t ev_trap;
+	u32_t ev_extension;
+	u32_t ev_div_zero;
+	u32_t ev_dc_error;
+	u32_t ev_maligned;
+	u32_t unused_1;
+	u32_t unused_2;
 };
 
 struct vector_table _VectorTable _GENERIC_SECTION(.exc_vector_table) = {
-	(uint32_t)__reset,
-	(uint32_t)__memory_error,
-	(uint32_t)__instruction_error,
-	(uint32_t)__ev_machine_check,
-	(uint32_t)__ev_tlb_miss_i,
-	(uint32_t)__ev_tlb_miss_d,
-	(uint32_t)__ev_prot_v,
-	(uint32_t)__ev_privilege_v,
-	(uint32_t)__ev_swi,
-	(uint32_t)__ev_trap,
-	(uint32_t)__ev_extension,
-	(uint32_t)__ev_div_zero,
-	(uint32_t)__ev_dc_error,
-	(uint32_t)__ev_maligned,
+	(u32_t)__reset,
+	(u32_t)__memory_error,
+	(u32_t)__instruction_error,
+	(u32_t)__ev_machine_check,
+	(u32_t)__ev_tlb_miss_i,
+	(u32_t)__ev_tlb_miss_d,
+	(u32_t)__ev_prot_v,
+	(u32_t)__ev_privilege_v,
+	(u32_t)__ev_swi,
+	(u32_t)__ev_trap,
+	(u32_t)__ev_extension,
+	(u32_t)__ev_div_zero,
+	(u32_t)__ev_dc_error,
+	(u32_t)__ev_maligned,
 	0,
 	0
 };

arch/arc/include/kernel_arch_data.h

@@ -49,65 +49,65 @@ struct _caller_saved {
 typedef struct _caller_saved _caller_saved_t;
 
 struct _irq_stack_frame {
-	uint32_t r0;
-	uint32_t r1;
-	uint32_t r2;
-	uint32_t r3;
-	uint32_t r4;
-	uint32_t r5;
-	uint32_t r6;
-	uint32_t r7;
-	uint32_t r8;
-	uint32_t r9;
-	uint32_t r10;
-	uint32_t r11;
-	uint32_t r12;
-	uint32_t r13;
-	uint32_t blink;
-	uint32_t lp_end;
-	uint32_t lp_start;
-	uint32_t lp_count;
+	u32_t r0;
+	u32_t r1;
+	u32_t r2;
+	u32_t r3;
+	u32_t r4;
+	u32_t r5;
+	u32_t r6;
+	u32_t r7;
+	u32_t r8;
+	u32_t r9;
+	u32_t r10;
+	u32_t r11;
+	u32_t r12;
+	u32_t r13;
+	u32_t blink;
+	u32_t lp_end;
+	u32_t lp_start;
+	u32_t lp_count;
 #ifdef CONFIG_CODE_DENSITY
 	/*
 	 * Currently unsupported. This is where those registers are
 	 * automatically pushed on the stack by the CPU when taking a regular
 	 * IRQ.
 	 */
-	uint32_t ei_base;
-	uint32_t ldi_base;
-	uint32_t jli_base;
+	u32_t ei_base;
+	u32_t ldi_base;
+	u32_t jli_base;
 #endif
-	uint32_t pc;
-	uint32_t status32;
+	u32_t pc;
+	u32_t status32;
 };
 
 typedef struct _irq_stack_frame _isf_t;
 
 struct _callee_saved {
-	uint32_t sp; /* r28 */
+	u32_t sp; /* r28 */
 };
 typedef struct _callee_saved _callee_saved_t;
 
 /* callee-saved registers pushed on the stack, not in k_thread */
 struct _callee_saved_stack {
-	uint32_t r13;
-	uint32_t r14;
-	uint32_t r15;
-	uint32_t r16;
-	uint32_t r17;
-	uint32_t r18;
-	uint32_t r19;
-	uint32_t r20;
-	uint32_t r21;
-	uint32_t r22;
-	uint32_t r23;
-	uint32_t r24;
-	uint32_t r25;
-	uint32_t r26;
-	uint32_t fp; /* r27 */
+	u32_t r13;
+	u32_t r14;
+	u32_t r15;
+	u32_t r16;
+	u32_t r17;
+	u32_t r18;
+	u32_t r19;
+	u32_t r20;
+	u32_t r21;
+	u32_t r22;
+	u32_t r23;
+	u32_t r24;
+	u32_t r25;
+	u32_t r26;
+	u32_t fp; /* r27 */
 	/* r28 is the stack pointer and saved separately */
 	/* r29 is ILINK and does not need to be saved */
-	uint32_t r30;
+	u32_t r30;
 	/*
 	 * No need to save r31 (blink), it's either alread pushed as the pc or
 	 * blink on an irq stack frame.
@@ -139,7 +139,7 @@ typedef struct _callee_saved_stack _callee_saved_stack_t;
 struct _thread_arch {
 
 	/* interrupt key when relinquishing control */
-	uint32_t intlock_key;
+	u32_t intlock_key;
 
 	/* one of the _CAUSE_xxxx definitions above */
 	int relinquish_cause;
@@ -149,7 +149,7 @@ struct _thread_arch {
 
 #ifdef CONFIG_ARC_STACK_CHECKING
 	/* top of stack for hardware stack checking */
-	uint32_t stack_top;
+	u32_t stack_top;
 #endif
 };
 

arch/arc/include/kernel_arch_func.h

@@ -44,7 +44,7 @@ _set_thread_return_value(struct k_thread *thread, unsigned int value)
 
 static ALWAYS_INLINE int _is_in_isr(void)
 {
-	uint32_t act = _arc_v2_aux_reg_read(_ARC_V2_AUX_IRQ_ACT);
+	u32_t act = _arc_v2_aux_reg_read(_ARC_V2_AUX_IRQ_ACT);
 #if CONFIG_IRQ_OFFLOAD
 	/* Check if we're in a TRAP_S exception as well */
 	if (_arc_v2_aux_reg_read(_ARC_V2_STATUS32) & _ARC_V2_STATUS32_AE &&
@@ -65,7 +65,7 @@ static ALWAYS_INLINE int _is_in_isr(void)
  */
 static ALWAYS_INLINE int _INTERRUPT_CAUSE(void)
 {
-	uint32_t irq_num = _arc_v2_aux_reg_read(_ARC_V2_ICAUSE);
+	u32_t irq_num = _arc_v2_aux_reg_read(_ARC_V2_ICAUSE);
 
 	return irq_num;
 }

arch/arc/include/v2/cache.h

@@ -36,11 +36,11 @@ extern "C" {
  */
 static ALWAYS_INLINE void _icache_setup(void)
 {
-	uint32_t icache_config = (
+	u32_t icache_config = (
 		IC_CACHE_DIRECT | /* direct mapping (one-way assoc.) */
 		IC_CACHE_ENABLE   /* i-cache enabled */
 	);
-	uint32_t val;
+	u32_t val;
 
 	val = _arc_v2_aux_reg_read(_ARC_V2_I_CACHE_BUILD);
 	val &= 0xff;

arch/arc/include/v2/irq.h

@@ -41,7 +41,7 @@ extern char _interrupt_stack[];
  */
 static ALWAYS_INLINE void _irq_setup(void)
 {
-	uint32_t aux_irq_ctrl_value = (
+	u32_t aux_irq_ctrl_value = (
 		_ARC_V2_AUX_IRQ_CTRL_LOOP_REGS | /* save lp_xxx registers */
 		_ARC_V2_AUX_IRQ_CTRL_BLINK     | /* save blink */
 		_ARC_V2_AUX_IRQ_CTRL_14_REGS     /* save r0 -> r13 (caller-saved) */

arch/arc/soc/quark_se_c1000_ss/power.c

@@ -70,7 +70,7 @@ void _sys_soc_set_power_state(enum power_states state)
 
 void _sys_soc_power_state_post_ops(enum power_states state)
 {
-	uint32_t limit;
+	u32_t limit;
 
 	switch (state) {
 	case SYS_POWER_STATE_CPU_LPS:

arch/arm/core/cpu_idle.S

@@ -67,7 +67,7 @@ SECTION_FUNC(TEXT, _CpuIdleInit)
  *
  * C function prototype:
  *
- * int32_t _NanoIdleValGet (void);
+ * s32_t _NanoIdleValGet (void);
  */
 
 SECTION_FUNC(TEXT, _NanoIdleValGet)

arch/arm/core/irq_manage.c

@@ -162,7 +162,7 @@ void _arch_isr_direct_pm(void)
 #endif /* CONFIG_ARMV6_M */
 
 	if (_kernel.idle) {
-		int32_t idle_val = _kernel.idle;
+		s32_t idle_val = _kernel.idle;
 
 		_kernel.idle = 0;
 		_sys_power_save_idle_exit(idle_val);

arch/arm/core/thread.c

@@ -75,7 +75,7 @@ void _new_thread(char *pStackMem, size_t stackSize,
 {
 	_ASSERT_VALID_PRIO(priority, pEntry);
 
-	__ASSERT(!((uint32_t)pStackMem & (STACK_ALIGN - 1)),
+	__ASSERT(!((u32_t)pStackMem & (STACK_ALIGN - 1)),
 		 "stack is not aligned properly\n"
 		 "%d-byte alignment required\n", STACK_ALIGN);
 
@@ -92,11 +92,11 @@ void _new_thread(char *pStackMem, size_t stackSize,
 	pInitCtx = (struct __esf *)(STACK_ROUND_DOWN(stackEnd) -
 				    sizeof(struct __esf));
 
-	pInitCtx->pc = ((uint32_t)_thread_entry) & 0xfffffffe;
-	pInitCtx->a1 = (uint32_t)pEntry;
-	pInitCtx->a2 = (uint32_t)parameter1;
-	pInitCtx->a3 = (uint32_t)parameter2;
-	pInitCtx->a4 = (uint32_t)parameter3;
+	pInitCtx->pc = ((u32_t)_thread_entry) & 0xfffffffe;
+	pInitCtx->a1 = (u32_t)pEntry;
+	pInitCtx->a2 = (u32_t)parameter1;
+	pInitCtx->a3 = (u32_t)parameter2;
+	pInitCtx->a4 = (u32_t)parameter3;
 	pInitCtx->xpsr =
 		0x01000000UL; /* clear all, thumb bit is 1, even if RO */
 
@@ -120,7 +120,7 @@ void _new_thread(char *pStackMem, size_t stackSize,
 	thread->entry = (struct __thread_entry *)(pInitCtx);
 #endif
 
-	thread->callee_saved.psp = (uint32_t)pInitCtx;
+	thread->callee_saved.psp = (u32_t)pInitCtx;
 	thread->arch.basepri = 0;
 
 	/* swap_return_value can contain garbage */

arch/arm/include/cortex_m/asm_inline_gcc.h

@@ -28,9 +28,9 @@ extern "C" {
  *
  * @return the contents of the IPSR register
  */
-static ALWAYS_INLINE uint32_t _IpsrGet(void)
+static ALWAYS_INLINE u32_t _IpsrGet(void)
 {
-	uint32_t vector;
+	u32_t vector;
 
 	__asm__ volatile("mrs %0, IPSR\n\t" : "=r"(vector));
 	return vector;
@@ -44,7 +44,7 @@ static ALWAYS_INLINE uint32_t _IpsrGet(void)
  *
  * @return N/A
  */
-static ALWAYS_INLINE void _MspSet(uint32_t msp /* value to store in MSP */
+static ALWAYS_INLINE void _MspSet(u32_t msp /* value to store in MSP */
 				  )
 {
 	__asm__ volatile("msr MSP, %0\n\t" :  : "r"(msp));

arch/arm/include/cortex_m/exc.h

@@ -42,7 +42,7 @@ extern "C" {
  */
 static ALWAYS_INLINE int _IsInIsr(void)
 {
-	uint32_t vector = _IpsrGet();
+	u32_t vector = _IpsrGet();
 
 	/*
 	 * IRQs + PendSV (14) + SVC (11) + SYSTICK (15) are interrupts.

arch/arm/include/cortex_m/stack.h

@@ -46,7 +46,7 @@ extern char _interrupt_stack[CONFIG_ISR_STACK_SIZE];
  */
 static ALWAYS_INLINE void _InterruptStackSetup(void)
 {
-	uint32_t msp = (uint32_t)(_interrupt_stack + CONFIG_ISR_STACK_SIZE);
+	u32_t msp = (u32_t)(_interrupt_stack + CONFIG_ISR_STACK_SIZE);
 
 	_MspSet(msp);
 }

arch/arm/include/kernel_arch_data.h

@@ -45,29 +45,29 @@ struct _caller_saved {
 	 *
 	 * For Cortex-A, this may be:
 	 *
-	 * uint32_t a1;    // r0
-	 * uint32_t a2;    // r1
-	 * uint32_t a3;    // r2
-	 * uint32_t a4;    // r3
-	 * uint32_t ip;    // r12
-	 * uint32_t lr;    // r14
-	 * uint32_t pc;    // r15
-	 * uint32_t xpsr;
+	 * u32_t a1;    // r0
+	 * u32_t a2;    // r1
+	 * u32_t a3;    // r2
+	 * u32_t a4;    // r3
+	 * u32_t ip;    // r12
+	 * u32_t lr;    // r14
+	 * u32_t pc;    // r15
+	 * u32_t xpsr;
 	 */
 };
 
 typedef struct _caller_saved _caller_saved_t;
 
 struct _callee_saved {
-	uint32_t v1;  /* r4 */
-	uint32_t v2;  /* r5 */
-	uint32_t v3;  /* r6 */
-	uint32_t v4;  /* r7 */
-	uint32_t v5;  /* r8 */
-	uint32_t v6;  /* r9 */
-	uint32_t v7;  /* r10 */
-	uint32_t v8;  /* r11 */
-	uint32_t psp; /* r13 */
+	u32_t v1;  /* r4 */
+	u32_t v2;  /* r5 */
+	u32_t v3;  /* r6 */
+	u32_t v4;  /* r7 */
+	u32_t v5;  /* r8 */
+	u32_t v6;  /* r9 */
+	u32_t v7;  /* r10 */
+	u32_t v8;  /* r11 */
+	u32_t psp; /* r13 */
 };
 
 typedef struct _callee_saved _callee_saved_t;
@@ -112,10 +112,10 @@ struct _preempt_float {
 struct _thread_arch {
 
 	/* interrupt locking key */
-	uint32_t basepri;
+	u32_t basepri;
 
 	/* r0 in stack frame cannot be written to reliably */
-	uint32_t swap_return_value;
+	u32_t swap_return_value;
 
 #ifdef CONFIG_FLOAT
 	/*

arch/arm/soc/arm/beetle/soc.c

@@ -32,7 +32,7 @@
  */
 static int arm_beetle_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 

arch/arm/soc/arm/beetle/soc_registers.h

@@ -15,99 +15,99 @@
 /* System Control Register (SYSCON) */
 struct syscon {
 	/* Offset: 0x000 (r/w) remap control register */
-	volatile uint32_t remap;
+	volatile u32_t remap;
 	/* Offset: 0x004 (r/w) pmu control register */
-	volatile uint32_t pmuctrl;
+	volatile u32_t pmuctrl;
 	/* Offset: 0x008 (r/w) reset option register */
-	volatile uint32_t resetop;
+	volatile u32_t resetop;
 	/* Offset: 0x00c (r/w) emi control register */
-	volatile uint32_t emictrl;
+	volatile u32_t emictrl;
 	/* Offset: 0x010 (r/w) reset information register */
-	volatile uint32_t rstinfo;
-	volatile uint32_t reserved0[3];
+	volatile u32_t rstinfo;
+	volatile u32_t reserved0[3];
 	/* Offset: 0x020 (r/w)AHB peripheral access control set */
-	volatile uint32_t ahbper0set;
+	volatile u32_t ahbper0set;
 	/* Offset: 0x024 (r/w)AHB peripheral access control clear */
-	volatile uint32_t ahbper0clr;
-	volatile uint32_t reserved1[2];
+	volatile u32_t ahbper0clr;
+	volatile u32_t reserved1[2];
 	/* Offset: 0x030 (r/w)APB peripheral access control set */
-	volatile uint32_t apbper0set;
+	volatile u32_t apbper0set;
 	/* Offset: 0x034 (r/w)APB peripheral access control clear */
-	volatile uint32_t apbper0clr;
-	volatile uint32_t reserved2[2];
+	volatile u32_t apbper0clr;
+	volatile u32_t reserved2[2];
 	/* Offset: 0x040 (r/w) main clock control register */
-	volatile uint32_t mainclk;
+	volatile u32_t mainclk;
 	/* Offset: 0x044 (r/w) auxiliary / rtc control register */
-	volatile uint32_t auxclk;
+	volatile u32_t auxclk;
 	/* Offset: 0x048 (r/w) pll control register */
-	volatile uint32_t pllctrl;
+	volatile u32_t pllctrl;
 	/* Offset: 0x04c (r/w) pll status register */
-	volatile uint32_t pllstatus;
+	volatile u32_t pllstatus;
 	/* Offset: 0x050 (r/w) sleep control register */
-	volatile uint32_t sleepcfg;
+	volatile u32_t sleepcfg;
 	/* Offset: 0x054 (r/w) flash auxiliary settings control register */
-	volatile uint32_t flashauxcfg;
-	volatile uint32_t reserved3[10];
+	volatile u32_t flashauxcfg;
+	volatile u32_t reserved3[10];
 	/* Offset: 0x080 (r/w) AHB peripheral clock set in active state */
-	volatile uint32_t ahbclkcfg0set;
+	volatile u32_t ahbclkcfg0set;
 	/* Offset: 0x084 (r/w) AHB peripheral clock clear in active state */
-	volatile uint32_t ahbclkcfg0clr;
+	volatile u32_t ahbclkcfg0clr;
 	/* Offset: 0x088 (r/w) AHB peripheral clock set in sleep state */
-	volatile uint32_t ahbclkcfg1set;
+	volatile u32_t ahbclkcfg1set;
 	/* Offset: 0x08c (r/w) AHB peripheral clock clear in sleep state */
-	volatile uint32_t ahbclkcfg1clr;
+	volatile u32_t ahbclkcfg1clr;
 	/* Offset: 0x090 (r/w) AHB peripheral clock set in deep sleep state */
-	volatile uint32_t ahbclkcfg2set;
+	volatile u32_t ahbclkcfg2set;
 	/* Offset: 0x094 (r/w) AHB peripheral clock clear in deep sleep state */
-	volatile uint32_t ahbclkcfg2clr;
-	volatile uint32_t reserved4[2];
+	volatile u32_t ahbclkcfg2clr;
+	volatile u32_t reserved4[2];
 	/* Offset: 0x0a0 (r/w) APB peripheral clock set in active state */
-	volatile uint32_t apbclkcfg0set;
+	volatile u32_t apbclkcfg0set;
 	/* Offset: 0x0a4 (r/w) APB peripheral clock clear in active state */
-	volatile uint32_t apbclkcfg0clr;
+	volatile u32_t apbclkcfg0clr;
 	/* Offset: 0x0a8 (r/w) APB peripheral clock set in sleep state */
-	volatile uint32_t apbclkcfg1set;
+	volatile u32_t apbclkcfg1set;
 	/* Offset: 0x0ac (r/w) APB peripheral clock clear in sleep state */
-	volatile uint32_t apbclkcfg1clr;
+	volatile u32_t apbclkcfg1clr;
 	/* Offset: 0x0b0 (r/w) APB peripheral clock set in deep sleep state */
-	volatile uint32_t apbclkcfg2set;
+	volatile u32_t apbclkcfg2set;
 	/* Offset: 0x0b4 (r/w) APB peripheral clock clear in deep sleep state */
-	volatile uint32_t apbclkcfg2clr;
-	volatile uint32_t reserved5[2];
+	volatile u32_t apbclkcfg2clr;
+	volatile u32_t reserved5[2];
 	/* Offset: 0x0c0 (r/w) AHB peripheral reset select set */
-	volatile uint32_t ahbprst0set;
+	volatile u32_t ahbprst0set;
 	/* Offset: 0x0c4 (r/w) AHB peripheral reset select clear */
-	volatile uint32_t ahbprst0clr;
+	volatile u32_t ahbprst0clr;
 	/* Offset: 0x0c8 (r/w) APB peripheral reset select set */
-	volatile uint32_t apbprst0set;
+	volatile u32_t apbprst0set;
 	/* Offset: 0x0cc (r/w) APB peripheral reset select clear */
-	volatile uint32_t apbprst0clr;
+	volatile u32_t apbprst0clr;
 	/* Offset: 0x0d0 (r/w) AHB power down sleep wakeup source set */
-	volatile uint32_t pwrdncfg0set;
+	volatile u32_t pwrdncfg0set;
 	/* Offset: 0x0d4 (r/w) AHB power down sleep wakeup source clear */
-	volatile uint32_t pwrdncfg0clr;
+	volatile u32_t pwrdncfg0clr;
 	/* Offset: 0x0d8 (r/w) APB power down sleep wakeup source set */
-	volatile uint32_t pwrdncfg1set;
+	volatile u32_t pwrdncfg1set;
 	/* Offset: 0x0dc (r/w) APB power down sleep wakeup source clear */
-	volatile uint32_t pwrdncfg1clr;
+	volatile u32_t pwrdncfg1clr;
 	/* Offset: 0x0e0 ( /w) rtc reset */
-	volatile uint32_t rtcreset;
+	volatile u32_t rtcreset;
 	/* Offset: 0x0e4 (r/w) event interface control register */
-	volatile uint32_t eventcfg;
-	volatile uint32_t reserved6[2];
+	volatile u32_t eventcfg;
+	volatile u32_t reserved6[2];
 	/* Offset: 0x0f0 (r/w) sram power control overide */
-	volatile uint32_t pwrovride0;
+	volatile u32_t pwrovride0;
 	/* Offset: 0x0f4 (r/w) embedded flash power control overide */
-	volatile uint32_t pwrovride1;
+	volatile u32_t pwrovride1;
 	/* Offset: 0x0f8 (r/ ) memory status register */
-	volatile uint32_t memorystatus;
-	volatile uint32_t reserved7[1];
+	volatile u32_t memorystatus;
+	volatile u32_t reserved7[1];
 	/* Offset: 0x100 (r/w) io pad settings */
-	volatile uint32_t gpiopadcfg0;
+	volatile u32_t gpiopadcfg0;
 	/* Offset: 0x104 (r/w) io pad settings */
-	volatile uint32_t gpiopadcfg1;
+	volatile u32_t gpiopadcfg1;
 	/* Offset: 0x108 (r/w) testmode boot bypass */
-	volatile uint32_t testmodecfg;
+	volatile u32_t testmodecfg;
 };
 
 #endif /* _ARM_BEETLE_SOC_REGS_H_ */

arch/arm/soc/arm/mps2/soc_registers.h

@@ -18,41 +18,41 @@
 /* System Control Register (SYSCON) */
 struct mps2_syscon {
 	/* Offset: 0x000 (r/w) remap control register */
-	volatile uint32_t remap;
+	volatile u32_t remap;
 	/* Offset: 0x004 (r/w) pmu control register */
-	volatile uint32_t pmuctrl;
+	volatile u32_t pmuctrl;
 	/* Offset: 0x008 (r/w) reset option register */
-	volatile uint32_t resetop;
+	volatile u32_t resetop;
 	/* Offset: 0x00c (r/w) emi control register */
-	volatile uint32_t emictrl;
+	volatile u32_t emictrl;
 	/* Offset: 0x010 (r/w) reset information register */
-	volatile uint32_t rstinfo;
+	volatile u32_t rstinfo;
 };
 
 /* Registers in the FPGA system control block */
 struct mps2_fpgaio {
 	/* Offset: 0x000 LED connections */
-	volatile uint32_t led0;
+	volatile u32_t led0;
 	/* Offset: 0x004 RESERVED */
-	volatile uint32_t reserved1;
+	volatile u32_t reserved1;
 	/* Offset: 0x008 Buttons */
-	volatile uint32_t button;
+	volatile u32_t button;
 	/* Offset: 0x00c RESERVED */
-	volatile uint32_t reserved2;
+	volatile u32_t reserved2;
 	/* Offset: 0x010 1Hz up counter */
-	volatile uint32_t clk1hz;
+	volatile u32_t clk1hz;
 	/* Offset: 0x014 100Hz up counter */
-	volatile uint32_t clk100hz;
+	volatile u32_t clk100hz;
 	/* Offset: 0x018 Cycle up counter */
-	volatile uint32_t counter;
+	volatile u32_t counter;
 	/* Offset: 0x01c Reload value for prescale counter */
-	volatile uint32_t prescale;
+	volatile u32_t prescale;
 	/* Offset: 0x020 32-bit Prescale counter */
-	volatile uint32_t pscntr;
+	volatile u32_t pscntr;
 	/* Offset: 0x024 RESERVED */
-	volatile uint32_t reserved3[10];
+	volatile u32_t reserved3[10];
 	/* Offset: 0x04c Misc control */
-	volatile uint32_t misc;
+	volatile u32_t misc;
 };
 
 /* Defines for bits in fpgaio led0 register */

arch/arm/soc/atmel_sam/common/soc_gpio.c

@@ -11,7 +11,7 @@
 #include <misc/__assert.h>
 #include "soc_gpio.h"
 
-static void configure_common_attr(Pio *pio, uint32_t mask, uint32_t flags)
+static void configure_common_attr(Pio *pio, u32_t mask, u32_t flags)
 {
 	/* Disable interrupts on the pin(s) */
 	pio->PIO_IDR = mask;
@@ -38,7 +38,7 @@ static void configure_common_attr(Pio *pio, uint32_t mask, uint32_t flags)
 	}
 }
 
-static void configure_input_attr(Pio *pio, uint32_t mask, uint32_t flags)
+static void configure_input_attr(Pio *pio, u32_t mask, u32_t flags)
 {
 	/* Configure input filter */
 	if ((flags & SOC_GPIO_IN_FILTER_MASK) != 0) {
@@ -86,7 +86,7 @@ static void configure_input_attr(Pio *pio, uint32_t mask, uint32_t flags)
 	}
 }
 
-static void configure_output_attr(Pio *pio, uint32_t mask, uint32_t flags)
+static void configure_output_attr(Pio *pio, u32_t mask, u32_t flags)
 {
 	/* Enable control of the I/O line by the PIO_ODSR register */
 	pio->PIO_OWER = mask;
@@ -94,11 +94,11 @@ static void configure_output_attr(Pio *pio, uint32_t mask, uint32_t flags)
 
 void soc_gpio_configure(const struct soc_gpio_pin *pin)
 {
-	uint32_t mask = pin->mask;
+	u32_t mask = pin->mask;
 	Pio *pio = pin->regs;
-	uint8_t periph_id = pin->periph_id;
-	uint32_t flags = pin->flags;
-	uint32_t type = pin->flags & SOC_GPIO_FUNC_MASK;
+	u8_t periph_id = pin->periph_id;
+	u32_t flags = pin->flags;
+	u32_t type = pin->flags & SOC_GPIO_FUNC_MASK;
 
 	/* Configure pin attributes common to all functions */
 	configure_common_attr(pio, mask, flags);

arch/arm/soc/atmel_sam/common/soc_gpio.h

@@ -70,10 +70,10 @@
 #define SOC_GPIO_FUNC_OUT_1             (6 << SOC_GPIO_FUNC_POS)
 
 struct soc_gpio_pin {
-	uint32_t mask;     /** pin(s) bit mask */
+	u32_t mask;     /** pin(s) bit mask */
 	Pio *regs;         /** pointer to registers of the PIO controller */
-	uint8_t periph_id; /** peripheral ID of the PIO controller */
-	uint32_t flags;    /** pin flags/attributes */
+	u8_t periph_id; /** peripheral ID of the PIO controller */
+	u32_t flags;    /** pin flags/attributes */
 };
 
 /**
@@ -148,7 +148,7 @@ static inline void soc_gpio_clear(const struct soc_gpio_pin *pin)
  * @return pin(s) value. To assess value of a specific pin the pin's bit
  * field has to be read.
  */
-static inline uint32_t soc_gpio_get(const struct soc_gpio_pin *pin)
+static inline u32_t soc_gpio_get(const struct soc_gpio_pin *pin)
 {
 	return pin->regs->PIO_PDSR & pin->mask;
 }
@@ -173,7 +173,7 @@ static inline uint32_t soc_gpio_get(const struct soc_gpio_pin *pin)
  * @param div  slow clock divider, valid values: from 0 to 2^14 - 1
  */
 static inline void soc_gpio_debounce_length_set(const struct soc_gpio_pin *pin,
-						uint32_t div)
+						u32_t div)
 {
 	pin->regs->PIO_SCDR = PIO_SCDR_DIV(div);
 }

arch/arm/soc/atmel_sam/common/soc_pmc.c

@@ -16,7 +16,7 @@
 #error "Unsupported SoC, update soc_pmc.c functions"
 #endif
 
-void soc_pmc_peripheral_enable(uint32_t id)
+void soc_pmc_peripheral_enable(u32_t id)
 {
 	__ASSERT(id < ID_PERIPH_COUNT, "Invalid peripheral id");
 
@@ -29,7 +29,7 @@ void soc_pmc_peripheral_enable(uint32_t id)
 	}
 }
 
-void soc_pmc_peripheral_disable(uint32_t id)
+void soc_pmc_peripheral_disable(u32_t id)
 {
 	__ASSERT(id < ID_PERIPH_COUNT, "Invalid peripheral id");
 
@@ -42,7 +42,7 @@ void soc_pmc_peripheral_disable(uint32_t id)
 	}
 }
 
-uint32_t soc_pmc_peripheral_is_enabled(uint32_t id)
+u32_t soc_pmc_peripheral_is_enabled(u32_t id)
 {
 	__ASSERT(id < ID_PERIPH_COUNT, "Invalid peripheral id");
 

arch/arm/soc/atmel_sam/common/soc_pmc.h

@@ -18,14 +18,14 @@
  *
  * @param id   peripheral module id, as defined in data sheet.
  */
-void soc_pmc_peripheral_enable(uint32_t id);
+void soc_pmc_peripheral_enable(u32_t id);
 
 /**
  * @brief Disable the clock of specified peripheral module.
  *
  * @param id   peripheral module id, as defined in data sheet.
  */
-void soc_pmc_peripheral_disable(uint32_t id);
+void soc_pmc_peripheral_disable(u32_t id);
 
 /**
  * @brief Check if specified peripheral module is enabled.
@@ -33,6 +33,6 @@ void soc_pmc_peripheral_disable(uint32_t id);
  * @param id   peripheral module id, as defined in data sheet.
  * @return     1 if peripheral is enabled, 0 otherwise
  */
-uint32_t soc_pmc_peripheral_is_enabled(uint32_t id);
+u32_t soc_pmc_peripheral_is_enabled(u32_t id);
 
 #endif /* _ATMEL_SAM_SOC_PMC_H_ */

arch/arm/soc/atmel_sam/same70/soc.c

@@ -53,7 +53,7 @@
  */
 static ALWAYS_INLINE void clock_init(void)
 {
-	uint32_t reg_val;
+	u32_t reg_val;
 
 #ifdef CONFIG_SOC_ATMEL_SAME70_EXT_SLCK
 	/* Switch slow clock to the external 32 kHz crystal oscillator */
@@ -217,7 +217,7 @@ static ALWAYS_INLINE void clock_init(void)
  */
 static int atmel_same70_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 

arch/arm/soc/atmel_sam3/soc.c

@@ -31,7 +31,7 @@
  */
 static ALWAYS_INLINE void clock_init(void)
 {
-	uint32_t tmp;
+	u32_t tmp;
 
 	/* Note:
 	 * Magic numbers below are obtained by reading the registers
@@ -141,7 +141,7 @@ static ALWAYS_INLINE void clock_init(void)
  */
 static int atmel_sam3_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 

arch/arm/soc/atmel_sam3/soc_registers.h

@@ -21,215 +21,215 @@
  * Starts at offset 0x100.
  */
 struct __pdc {
-	uint32_t	rpr;	/* 0x100 Receive Pointer       */
-	uint32_t	rcr;	/* 0x104 Receive Counter       */
-	uint32_t	tpr;	/* 0x108 Transmit Pointer      */
-	uint32_t	tcr;	/* 0x10C Transmit Counter      */
-	uint32_t	rnpr;	/* 0x110 Receive Next Pointer  */
-	uint32_t	rncr;	/* 0x114 Receive Next Counter  */
-	uint32_t	tnpr;	/* 0x118 Transmit Next Pointer */
-	uint32_t	tncr;	/* 0x11C Transmit Next Counter */
-	uint32_t	ptcr;	/* 0x120 Transfer Control      */
-	uint32_t	ptsr;	/* 0x124 Transfer Status       */
+	u32_t	rpr;	/* 0x100 Receive Pointer       */
+	u32_t	rcr;	/* 0x104 Receive Counter       */
+	u32_t	tpr;	/* 0x108 Transmit Pointer      */
+	u32_t	tcr;	/* 0x10C Transmit Counter      */
+	u32_t	rnpr;	/* 0x110 Receive Next Pointer  */
+	u32_t	rncr;	/* 0x114 Receive Next Counter  */
+	u32_t	tnpr;	/* 0x118 Transmit Next Pointer */
+	u32_t	tncr;	/* 0x11C Transmit Next Counter */
+	u32_t	ptcr;	/* 0x120 Transfer Control      */
+	u32_t	ptsr;	/* 0x124 Transfer Status       */
 };
 
 /* Enhanced Embedded Flash Controller */
 struct __eefc {
-	uint32_t	fmr;	/* 0x00 Flash Mode Register    */
-	uint32_t	fcr;	/* 0x04 Flash Command Register */
-	uint32_t	fsr;	/* 0x08 Flash Status Register  */
-	uint32_t	frr;	/* 0x0C Flash Result Register  */
+	u32_t	fmr;	/* 0x00 Flash Mode Register    */
+	u32_t	fcr;	/* 0x04 Flash Command Register */
+	u32_t	fsr;	/* 0x08 Flash Status Register  */
+	u32_t	frr;	/* 0x0C Flash Result Register  */
 };
 
 /* PIO Controller */
 struct __pio {
-	uint32_t	per;	/* 0x00 Enable                      */
-	uint32_t	pdr;	/* 0x04 Disable                     */
-	uint32_t	psr;	/* 0x08 Status                      */
+	u32_t	per;	/* 0x00 Enable                      */
+	u32_t	pdr;	/* 0x04 Disable                     */
+	u32_t	psr;	/* 0x08 Status                      */
 
-	uint32_t	res0;	/* 0x0C reserved                    */
+	u32_t	res0;	/* 0x0C reserved                    */
 
-	uint32_t	oer;	/* 0x10 Output Enable               */
-	uint32_t	odr;	/* 0x14 Output Disable              */
-	uint32_t	osr;	/* 0x18 Output Status               */
+	u32_t	oer;	/* 0x10 Output Enable               */
+	u32_t	odr;	/* 0x14 Output Disable              */
+	u32_t	osr;	/* 0x18 Output Status               */
 
-	uint32_t	res1;	/* 0x1C reserved                    */
+	u32_t	res1;	/* 0x1C reserved                    */
 
-	uint32_t	ifer;	/* 0x20 Glitch Input Filter Enable  */
-	uint32_t	ifdr;	/* 0x24 Glitch Input Filter Disable */
-	uint32_t	ifsr;	/* 0x28 Glitch Input Fitler Status  */
+	u32_t	ifer;	/* 0x20 Glitch Input Filter Enable  */
+	u32_t	ifdr;	/* 0x24 Glitch Input Filter Disable */
+	u32_t	ifsr;	/* 0x28 Glitch Input Fitler Status  */
 
-	uint32_t	res2;	/* 0x2C reserved                    */
+	u32_t	res2;	/* 0x2C reserved                    */
 
-	uint32_t	sodr;	/* 0x30 Set Output Data             */
-	uint32_t	codr;	/* 0x34 Clear Output Data           */
-	uint32_t	odsr;	/* 0x38 Output Data Status          */
-	uint32_t	pdsr;	/* 0x3C Pin Data Status             */
+	u32_t	sodr;	/* 0x30 Set Output Data             */
+	u32_t	codr;	/* 0x34 Clear Output Data           */
+	u32_t	odsr;	/* 0x38 Output Data Status          */
+	u32_t	pdsr;	/* 0x3C Pin Data Status             */
 
-	uint32_t	ier;	/* 0x40 Interrupt Enable            */
-	uint32_t	idr;	/* 0x44 Interrupt Disable           */
-	uint32_t	imr;	/* 0x48 Interrupt Mask              */
-	uint32_t	isr;	/* 0x4C Interrupt Status            */
+	u32_t	ier;	/* 0x40 Interrupt Enable            */
+	u32_t	idr;	/* 0x44 Interrupt Disable           */
+	u32_t	imr;	/* 0x48 Interrupt Mask              */
+	u32_t	isr;	/* 0x4C Interrupt Status            */
 
-	uint32_t	mder;	/* 0x50 Multi-driver Enable         */
-	uint32_t	mddr;	/* 0x54 Multi-driver Disable        */
-	uint32_t	mdsr;	/* 0x58 Multi-driver Status         */
+	u32_t	mder;	/* 0x50 Multi-driver Enable         */
+	u32_t	mddr;	/* 0x54 Multi-driver Disable        */
+	u32_t	mdsr;	/* 0x58 Multi-driver Status         */
 
-	uint32_t	res3;	/* 0x5C reserved                    */
+	u32_t	res3;	/* 0x5C reserved                    */
 
-	uint32_t	pudr;	/* 0x60 Pull-up Disable             */
-	uint32_t	puer;	/* 0x64 Pull-up Enable              */
-	uint32_t	pusr;	/* 0x68 Pad Pull-up Status          */
+	u32_t	pudr;	/* 0x60 Pull-up Disable             */
+	u32_t	puer;	/* 0x64 Pull-up Enable              */
+	u32_t	pusr;	/* 0x68 Pad Pull-up Status          */
 
-	uint32_t	res4;	/* 0x6C reserved                    */
+	u32_t	res4;	/* 0x6C reserved                    */
 
-	uint32_t	absr;	/* 0x70 Peripheral AB Select        */
+	u32_t	absr;	/* 0x70 Peripheral AB Select        */
 
-	uint32_t	res5[3];	/* 0x74-0x7C reserved       */
+	u32_t	res5[3];	/* 0x74-0x7C reserved       */
 
-	uint32_t	scifsr;	/* 0x80 System Clock Glitch Input   */
+	u32_t	scifsr;	/* 0x80 System Clock Glitch Input   */
 				/*        Filter Select             */
 
-	uint32_t	difsr;	/* 0x84 Debouncing Input Filter     */
+	u32_t	difsr;	/* 0x84 Debouncing Input Filter     */
 				/*        Select                    */
 
-	uint32_t	ifdgsr;	/* 0x88 Glitch or Debouncing Input  */
+	u32_t	ifdgsr;	/* 0x88 Glitch or Debouncing Input  */
 				/*        Filter Clock Selection    */
 				/*        Status                    */
 
-	uint32_t	scdr;	/* 0x8C Slow Clock Divider Debounce */
+	u32_t	scdr;	/* 0x8C Slow Clock Divider Debounce */
 
-	uint32_t	res6[4];	/* 0x90-0x9C reserved       */
+	u32_t	res6[4];	/* 0x90-0x9C reserved       */
 
-	uint32_t	ower;	/* 0xA0 Output Write Enable         */
-	uint32_t	owdr;	/* 0xA4 Output Write Disable        */
-	uint32_t	owsr;	/* 0xA8 Output Write Status         */
+	u32_t	ower;	/* 0xA0 Output Write Enable         */
+	u32_t	owdr;	/* 0xA4 Output Write Disable        */
+	u32_t	owsr;	/* 0xA8 Output Write Status         */
 
-	uint32_t	res7;	/* 0xAC reserved                    */
+	u32_t	res7;	/* 0xAC reserved                    */
 
-	uint32_t	aimer;	/* 0xB0 Additional Interrupt Modes  */
+	u32_t	aimer;	/* 0xB0 Additional Interrupt Modes  */
 				/*        Enable                    */
-	uint32_t	aimdr;	/* 0xB4 Additional Interrupt Modes  */
+	u32_t	aimdr;	/* 0xB4 Additional Interrupt Modes  */
 				/*        Disable                   */
-	uint32_t	aimmr;	/* 0xB8 Additional Interrupt Modes  */
+	u32_t	aimmr;	/* 0xB8 Additional Interrupt Modes  */
 				/*        Mask                      */
 
-	uint32_t	res8;	/* 0xBC reserved                    */
+	u32_t	res8;	/* 0xBC reserved                    */
 
-	uint32_t	esr;	/* 0xC0 Edge Select                 */
-	uint32_t	lsr;	/* 0xC4 Level Select                */
-	uint32_t	elsr;	/* 0xC8 Edge/Level Status           */
+	u32_t	esr;	/* 0xC0 Edge Select                 */
+	u32_t	lsr;	/* 0xC4 Level Select                */
+	u32_t	elsr;	/* 0xC8 Edge/Level Status           */
 
-	uint32_t	res9;	/* 0xCC reserved                    */
+	u32_t	res9;	/* 0xCC reserved                    */
 
-	uint32_t	fellsr;	/* 0xD0 Falling Edge/Low Level Sel  */
-	uint32_t	rehlsr;	/* 0xD4 Rising Edge/High Level Sel  */
-	uint32_t	frlhsr;	/* 0xD8 Fall/Rise - Low/High Status */
+	u32_t	fellsr;	/* 0xD0 Falling Edge/Low Level Sel  */
+	u32_t	rehlsr;	/* 0xD4 Rising Edge/High Level Sel  */
+	u32_t	frlhsr;	/* 0xD8 Fall/Rise - Low/High Status */
 
-	uint32_t	res10;	/* 0xDC reserved                    */
+	u32_t	res10;	/* 0xDC reserved                    */
 
-	uint32_t	locksr;	/* 0xE0 Lock Status                 */
+	u32_t	locksr;	/* 0xE0 Lock Status                 */
 
-	uint32_t	wpmr;	/* 0xE4 Write Protect Mode          */
-	uint32_t	wpsr;	/* 0xE8 Write Protect Status        */
+	u32_t	wpmr;	/* 0xE4 Write Protect Mode          */
+	u32_t	wpsr;	/* 0xE8 Write Protect Status        */
 };
 
 /* Power Management Controller */
 struct __pmc {
-	uint32_t	scer;	/* 0x00 System Clock Enable         */
-	uint32_t	scdr;	/* 0x04 System Clock Disable        */
-	uint32_t	scsr;	/* 0x08 System Clock Status         */
+	u32_t	scer;	/* 0x00 System Clock Enable         */
+	u32_t	scdr;	/* 0x04 System Clock Disable        */
+	u32_t	scsr;	/* 0x08 System Clock Status         */
 
-	uint32_t	res0;	/* 0x0C reserved                    */
+	u32_t	res0;	/* 0x0C reserved                    */
 
-	uint32_t	pcer0;	/* 0x10 Peripheral Clock Enable 0   */
-	uint32_t	pcdr0;	/* 0x14 Peripheral Clock Disable 0  */
-	uint32_t	pcsr0;	/* 0x18 Peripheral Clock Status 0   */
+	u32_t	pcer0;	/* 0x10 Peripheral Clock Enable 0   */
+	u32_t	pcdr0;	/* 0x14 Peripheral Clock Disable 0  */
+	u32_t	pcsr0;	/* 0x18 Peripheral Clock Status 0   */
 
-	uint32_t	ckgr_uckr;	/* 0x1C UTMI Clock          */
-	uint32_t	ckgr_mor;	/* 0x20 Main Oscillator     */
-	uint32_t	ckgr_mcfr;	/* 0x24 Main Clock Freq.    */
-	uint32_t	ckgr_pllar;	/* 0x28 PLLA                */
+	u32_t	ckgr_uckr;	/* 0x1C UTMI Clock          */
+	u32_t	ckgr_mor;	/* 0x20 Main Oscillator     */
+	u32_t	ckgr_mcfr;	/* 0x24 Main Clock Freq.    */
+	u32_t	ckgr_pllar;	/* 0x28 PLLA                */
 
-	uint32_t	res1;	/* 0x2C reserved                    */
+	u32_t	res1;	/* 0x2C reserved                    */
 
-	uint32_t	mckr;	/* 0x30 Master Clock                */
+	u32_t	mckr;	/* 0x30 Master Clock                */
 
-	uint32_t	res2;	/* 0x34 reserved                    */
+	u32_t	res2;	/* 0x34 reserved                    */
 
-	uint32_t	usb;	/* 0x38 USB Clock                   */
+	u32_t	usb;	/* 0x38 USB Clock                   */
 
-	uint32_t	res3;	/* 0x3C reserved                    */
+	u32_t	res3;	/* 0x3C reserved                    */
 
-	uint32_t        pck0;	/* 0x40 Programmable Clock 0        */
-	uint32_t        pck1;	/* 0x44 Programmable Clock 1        */
-	uint32_t        pck2;	/* 0x48 Programmable Clock 2        */
+	u32_t        pck0;	/* 0x40 Programmable Clock 0        */
+	u32_t        pck1;	/* 0x44 Programmable Clock 1        */
+	u32_t        pck2;	/* 0x48 Programmable Clock 2        */
 
-	uint32_t	res4[5];	/* 0x4C-0x5C reserved       */
+	u32_t	res4[5];	/* 0x4C-0x5C reserved       */
 
-	uint32_t	ier;	/* 0x60 Interrupt Enable            */
-	uint32_t	idr;	/* 0x64 Interrupt Disable           */
-	uint32_t	sr;	/* 0x68 Status                      */
-	uint32_t	imr;	/* 0x6C Interrupt Mask              */
+	u32_t	ier;	/* 0x60 Interrupt Enable            */
+	u32_t	idr;	/* 0x64 Interrupt Disable           */
+	u32_t	sr;	/* 0x68 Status                      */
+	u32_t	imr;	/* 0x6C Interrupt Mask              */
 
-	uint32_t	fsmr;	/* 0x70 Fast Startup Mode           */
-	uint32_t	fspr;	/* 0x74 Fast Startup Polarity       */
+	u32_t	fsmr;	/* 0x70 Fast Startup Mode           */
+	u32_t	fspr;	/* 0x74 Fast Startup Polarity       */
 
-	uint32_t	focr;	/* 0x78 Fault Outpu Clear           */
+	u32_t	focr;	/* 0x78 Fault Outpu Clear           */
 
-	uint32_t	res5[26];	/* 0x7C-0xE0 reserved       */
+	u32_t	res5[26];	/* 0x7C-0xE0 reserved       */
 
-	uint32_t	wpmr;	/* 0xE4 Write Protect Mode          */
-	uint32_t	wpsr;	/* 0xE8 Write Protect Status        */
+	u32_t	wpmr;	/* 0xE4 Write Protect Mode          */
+	u32_t	wpsr;	/* 0xE8 Write Protect Status        */
 
-	uint32_t	res6[5];	/* 0xEC-0xFC reserved       */
+	u32_t	res6[5];	/* 0xEC-0xFC reserved       */
 
-	uint32_t	pcer1;	/* 0x100 Peripheral Clock Enable 1  */
-	uint32_t	pcdr1;	/* 0x104 Peripheral Clock Disable 1 */
-	uint32_t	pcsr1;	/* 0x108 Peripheral Clock Status 1  */
+	u32_t	pcer1;	/* 0x100 Peripheral Clock Enable 1  */
+	u32_t	pcdr1;	/* 0x104 Peripheral Clock Disable 1 */
+	u32_t	pcsr1;	/* 0x108 Peripheral Clock Status 1  */
 
-	uint32_t	pcr;	/* 0x10C Peripheral Control         */
+	u32_t	pcr;	/* 0x10C Peripheral Control         */
 };
 
 /* Supply Controller (SUPC) */
 struct __supc {
-	uint32_t	cr;	/* 0x00 Control                     */
-	uint32_t	smmr;	/* 0x04 Supply Monitor Mode         */
-	uint32_t	mr;	/* 0x08 Mode                        */
-	uint32_t	wumr;	/* 0x0C Wake Up Mode                */
-	uint32_t	wuir;	/* 0x10 Wake Up Inputs              */
-	uint32_t	sr;	/* 0x14 Status                      */
+	u32_t	cr;	/* 0x00 Control                     */
+	u32_t	smmr;	/* 0x04 Supply Monitor Mode         */
+	u32_t	mr;	/* 0x08 Mode                        */
+	u32_t	wumr;	/* 0x0C Wake Up Mode                */
+	u32_t	wuir;	/* 0x10 Wake Up Inputs              */
+	u32_t	sr;	/* 0x14 Status                      */
 };
 
 /* Two-wire Interface (TWI), aka I2C */
 struct __twi {
-	uint32_t	cr;	/* 0x00 Control                     */
-	uint32_t	mmr;	/* 0x04 Master Mode                 */
-	uint32_t	smr;	/* 0x08 Slave Mode                  */
-	uint32_t	iadr;	/* 0x0C Internal Address            */
-	uint32_t	cwgr;	/* 0x10 Clock Waveform Generator    */
+	u32_t	cr;	/* 0x00 Control                     */
+	u32_t	mmr;	/* 0x04 Master Mode                 */
+	u32_t	smr;	/* 0x08 Slave Mode                  */
+	u32_t	iadr;	/* 0x0C Internal Address            */
+	u32_t	cwgr;	/* 0x10 Clock Waveform Generator    */
 
-	uint32_t	rev0[3];	/* 0x14-0x1C reserved       */
+	u32_t	rev0[3];	/* 0x14-0x1C reserved       */
 
-	uint32_t	sr;	/* 0x20 Status                      */
+	u32_t	sr;	/* 0x20 Status                      */
 
-	uint32_t	ier;	/* 0x24 Interrupt Enable            */
-	uint32_t	idr;	/* 0x28 Interrupt Disable           */
-	uint32_t	imr;	/* 0x2C Interrupt Mask              */
+	u32_t	ier;	/* 0x24 Interrupt Enable            */
+	u32_t	idr;	/* 0x28 Interrupt Disable           */
+	u32_t	imr;	/* 0x2C Interrupt Mask              */
 
-	uint32_t	rhr;	/* 0x30 Receive Holding             */
-	uint32_t	thr;	/* 0x34 Transmit Holding            */
+	u32_t	rhr;	/* 0x30 Receive Holding             */
+	u32_t	thr;	/* 0x34 Transmit Holding            */
 
-	uint32_t	rev1[50];	/* 0x38-0xFC Reserved       */
+	u32_t	rev1[50];	/* 0x38-0xFC Reserved       */
 
 	struct __pdc	pdc;	/* 0x100 - 0x124 PDC                */
 };
 
 /* Watchdog timer (WDT) */
 struct __wdt {
-	uint32_t	cr;	/* 0x00 Control Register */
-	uint32_t	mr;	/* 0x04 Mode Register    */
-	uint32_t	sr;	/* 0x08 Status Register  */
+	u32_t	cr;	/* 0x00 Control Register */
+	u32_t	mr;	/* 0x04 Mode Register    */
+	u32_t	sr;	/* 0x08 Status Register  */
 };
 
 #endif /* _ATMEL_SAM3_SOC_REGS_H_ */

arch/arm/soc/nordic_nrf5/nrf51/soc.c

@@ -36,7 +36,7 @@ uint32_t SystemCoreClock __used = __SYSTEM_CLOCK;
 
 static int nordicsemi_nrf51_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 
@@ -57,8 +57,8 @@ static int nordicsemi_nrf51_init(struct device *arg)
 	 * will not be available.
 	 */
 	if (ftpan_26()) {
-		*(volatile uint32_t *)0x40000504 = 0xC007FFDF;
-		*(volatile uint32_t *)0x40006C18 = 0x00008000;
+		*(volatile u32_t *)0x40000504 = 0xC007FFDF;
+		*(volatile u32_t *)0x40006C18 = 0x00008000;
 	}
 
 	/* Disable PROTENSET registers under debug, as indicated by PAN 59
@@ -84,18 +84,18 @@ static int nordicsemi_nrf51_init(struct device *arg)
 
 static bool ftpan_26(void)
 {
-	if ((((*(uint32_t *)0xF0000FE0) & 0x000000FF) == 0x1) &&
-	    (((*(uint32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
-		if ((((*(uint32_t *)0xF0000FE8) & 0x000000F0) == 0x00) &&
-		    (((*(uint32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
+	if ((((*(u32_t *)0xF0000FE0) & 0x000000FF) == 0x1) &&
+	    (((*(u32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
+		if ((((*(u32_t *)0xF0000FE8) & 0x000000F0) == 0x00) &&
+		    (((*(u32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
 			return true;
 		}
-		if ((((*(uint32_t *)0xF0000FE8) & 0x000000F0) == 0x10) &&
-		    (((*(uint32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
+		if ((((*(u32_t *)0xF0000FE8) & 0x000000F0) == 0x10) &&
+		    (((*(u32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
 			return true;
 		}
-		if ((((*(uint32_t *)0xF0000FE8) & 0x000000F0) == 0x30) &&
-		    (((*(uint32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
+		if ((((*(u32_t *)0xF0000FE8) & 0x000000F0) == 0x30) &&
+		    (((*(u32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
 			return true;
 		}
 	}
@@ -105,10 +105,10 @@ static bool ftpan_26(void)
 
 static bool ftpan_59(void)
 {
-	if ((((*(uint32_t *)0xF0000FE0) & 0x000000FF) == 0x1) &&
-	    (((*(uint32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
-		if ((((*(uint32_t *)0xF0000FE8) & 0x000000F0) == 0x40) &&
-		    (((*(uint32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
+	if ((((*(u32_t *)0xF0000FE0) & 0x000000FF) == 0x1) &&
+	    (((*(u32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
+		if ((((*(u32_t *)0xF0000FE8) & 0x000000F0) == 0x40) &&
+		    (((*(u32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
 			return true;
 		}
 	}

arch/arm/soc/nordic_nrf5/nrf52/soc.c

@@ -32,10 +32,10 @@ extern void _NmiInit(void);
 #ifdef CONFIG_SOC_NRF52832
 static bool ftpan_32(void)
 {
-	if ((((*(uint32_t *)0xF0000FE0) & 0x000000FF) == 0x6) &&
-		(((*(uint32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
-		if ((((*(uint32_t *)0xF0000FE8) & 0x000000F0) == 0x30) &&
-			(((*(uint32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
+	if ((((*(u32_t *)0xF0000FE0) & 0x000000FF) == 0x6) &&
+		(((*(u32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
+		if ((((*(u32_t *)0xF0000FE8) & 0x000000F0) == 0x30) &&
+			(((*(u32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
 			return true;
 		}
 	}
@@ -45,10 +45,10 @@ static bool ftpan_32(void)
 
 static bool ftpan_37(void)
 {
-	if ((((*(uint32_t *)0xF0000FE0) & 0x000000FF) == 0x6) &&
-		(((*(uint32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
-		if ((((*(uint32_t *)0xF0000FE8) & 0x000000F0) == 0x30) &&
-			(((*(uint32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
+	if ((((*(u32_t *)0xF0000FE0) & 0x000000FF) == 0x6) &&
+		(((*(u32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
+		if ((((*(u32_t *)0xF0000FE8) & 0x000000F0) == 0x30) &&
+			(((*(u32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
 			return true;
 		}
 	}
@@ -58,10 +58,10 @@ static bool ftpan_37(void)
 
 static bool ftpan_36(void)
 {
-	if ((((*(uint32_t *)0xF0000FE0) & 0x000000FF) == 0x6) &&
-		(((*(uint32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
-		if ((((*(uint32_t *)0xF0000FE8) & 0x000000F0) == 0x30) &&
-			(((*(uint32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
+	if ((((*(u32_t *)0xF0000FE0) & 0x000000FF) == 0x6) &&
+		(((*(u32_t *)0xF0000FE4) & 0x0000000F) == 0x0)) {
+		if ((((*(u32_t *)0xF0000FE8) & 0x000000F0) == 0x30) &&
+			(((*(u32_t *)0xF0000FEC) & 0x000000F0) == 0x0)) {
 			return true;
 		}
 	}
@@ -84,7 +84,7 @@ static void nordicsemi_nrf52832_init(void)
 	* for your device located at https://www.nordicsemi.com/
 	*/
 	if (ftpan_37()) {
-		*(volatile uint32_t *)0x400005A0 = 0x3;
+		*(volatile u32_t *)0x400005A0 = 0x3;
 	}
 
 	/* Workaround for FTPAN-36 "CLOCK: Some registers are not
@@ -152,8 +152,8 @@ static void nordicsemi_nrf52832_init(void)
 #ifdef CONFIG_SOC_NRF52840
 static bool errata_36(void)
 {
-	if ((*(uint32_t *)0x10000130ul == 0x8ul) &&
-	    (*(uint32_t *)0x10000134ul == 0x0ul)) {
+	if ((*(u32_t *)0x10000130ul == 0x8ul) &&
+	    (*(u32_t *)0x10000134ul == 0x0ul)) {
 		return true;
 	}
 
@@ -163,8 +163,8 @@ static bool errata_36(void)
 
 static bool errata_98(void)
 {
-	if ((*(uint32_t *)0x10000130ul == 0x8ul) &&
-	    (*(uint32_t *)0x10000134ul == 0x0ul)) {
+	if ((*(u32_t *)0x10000130ul == 0x8ul) &&
+	    (*(u32_t *)0x10000134ul == 0x0ul)) {
 		return true;
 	}
 
@@ -174,8 +174,8 @@ static bool errata_98(void)
 
 static bool errata_103(void)
 {
-	if ((*(uint32_t *)0x10000130ul == 0x8ul) &&
-	    (*(uint32_t *)0x10000134ul == 0x0ul)) {
+	if ((*(u32_t *)0x10000130ul == 0x8ul) &&
+	    (*(u32_t *)0x10000134ul == 0x0ul)) {
 		return true;
 	}
 
@@ -185,8 +185,8 @@ static bool errata_103(void)
 
 static bool errata_115(void)
 {
-	if ((*(uint32_t *)0x10000130ul == 0x8ul) &&
-	    (*(uint32_t *)0x10000134ul == 0x0ul)) {
+	if ((*(u32_t *)0x10000130ul == 0x8ul) &&
+	    (*(u32_t *)0x10000134ul == 0x0ul)) {
 		return true;
 	}
 
@@ -196,8 +196,8 @@ static bool errata_115(void)
 
 static bool errata_120(void)
 {
-	if ((*(uint32_t *)0x10000130ul == 0x8ul) &&
-	    (*(uint32_t *)0x10000134ul == 0x0ul)) {
+	if ((*(u32_t *)0x10000130ul == 0x8ul) &&
+	    (*(u32_t *)0x10000134ul == 0x0ul)) {
 		return true;
 	}
 
@@ -221,7 +221,7 @@ static void nordicsemi_nrf52840_init(void)
 	 * https://infocenter.nordicsemi.com/
 	 */
 	if (errata_98()) {
-		*(volatile uint32_t *)0x4000568Cul = 0x00038148ul;
+		*(volatile u32_t *)0x4000568Cul = 0x00038148ul;
 	}
 
 	/* Workaround for Errata 103 "CCM: Wrong reset value of CCM
@@ -238,9 +238,9 @@ static void nordicsemi_nrf52840_init(void)
 	 * https://infocenter.nordicsemi.com/
 	 */
 	if (errata_115()) {
-		*(volatile uint32_t *)0x40000EE4 =
-			(*(volatile uint32_t *) 0x40000EE4 & 0xFFFFFFF0) |
-			(*(uint32_t *)0x10000258 & 0x0000000F);
+		*(volatile u32_t *)0x40000EE4 =
+			(*(volatile u32_t *) 0x40000EE4 & 0xFFFFFFF0) |
+			(*(u32_t *)0x10000258 & 0x0000000F);
 	}
 
 	/* Workaround for Errata 120 "QSPI: Data read or written is corrupted"
@@ -248,7 +248,7 @@ static void nordicsemi_nrf52840_init(void)
 	 * https://infocenter.nordicsemi.com/
 	 */
 	if (errata_120()) {
-		*(volatile uint32_t *)0x40029640ul = 0x200ul;
+		*(volatile u32_t *)0x40029640ul = 0x200ul;
 	}
 
 	/* Configure GPIO pads as pPin Reset pin if Pin Reset capabilities
@@ -329,7 +329,7 @@ static void clock_init(void)
 
 static int nordicsemi_nrf52_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 

arch/arm/soc/nxp_kinetis/k6x/soc.c

@@ -49,7 +49,7 @@
  * -Reserved, 1 byte, (EEPROM protection byte for FlexNVM)
  *
  */
-uint8_t __kinetis_flash_config_section __kinetis_flash_config[] = {
+u8_t __kinetis_flash_config_section __kinetis_flash_config[] = {
 	/* Backdoor Comparison Key (unused) */
 	0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
 	/* Program flash protection; 1 bit/region - 0=protected, 1=unprotected
@@ -153,7 +153,7 @@ static int fsl_frdm_k64f_init(struct device *arg)
 	ARG_UNUSED(arg);
 
 	int oldLevel; /* old interrupt lock level */
-	uint32_t temp_reg;
+	u32_t temp_reg;
 
 	/* disable interrupts */
 	oldLevel = irq_lock();

arch/arm/soc/nxp_kinetis/kl2x/soc.c

@@ -32,7 +32,7 @@
  * -Reserved, 1 byte, (EEPROM protection byte for FlexNVM)
  *
  */
-uint8_t __kinetis_flash_config_section __kinetis_flash_config[] = {
+u8_t __kinetis_flash_config_section __kinetis_flash_config[] = {
 	/* Backdoor Comparison Key (unused) */
 	0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
 	/* Program flash protection; 1 bit/region - 0=protected, 1=unprotected

arch/arm/soc/nxp_kinetis/kwx/soc.c

@@ -37,7 +37,7 @@
  * -Reserved, 1 byte, (EEPROM protection byte for FlexNVM)
  *
  */
-uint8_t __kinetis_flash_config_section __kinetis_flash_config[] = {
+u8_t __kinetis_flash_config_section __kinetis_flash_config[] = {
 	/* Backdoor Comparison Key (unused) */
 	0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
 	/* Program flash protection; 1 bit/region - 0=protected, 1=unprotected
@@ -77,7 +77,7 @@ static const sim_clock_config_t simConfig = {
  */
 static void CLOCK_SYS_FllStableDelay(void)
 {
-	uint32_t i = 30000U;
+	u32_t i = 30000U;
 	while (i--) {
 		__NOP();
 	}

arch/arm/soc/st_stm32/stm32f1/flash_registers.h

@@ -25,27 +25,27 @@ enum {
 
 /* 3.3.3 FLASH_ACR */
 union __ef_acr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t latency :3 __packed;
-		uint32_t hlfcya :1 __packed;
-		uint32_t prftbe :1 __packed;
-		uint32_t prftbs :1 __packed;
-		uint32_t rsvd__6_31 :26 __packed;
+		u32_t latency :3 __packed;
+		u32_t hlfcya :1 __packed;
+		u32_t prftbe :1 __packed;
+		u32_t prftbs :1 __packed;
+		u32_t rsvd__6_31 :26 __packed;
 	} bit;
 };
 
 /* 3.3.3 Embedded flash registers */
 struct stm32f10x_flash {
 	union __ef_acr acr;
-	uint32_t keyr;
-	uint32_t optkeyr;
-	uint32_t sr;
-	uint32_t cr;
-	uint32_t ar;
-	uint32_t rsvd;
-	uint32_t obr;
-	uint32_t wrpr;
+	u32_t keyr;
+	u32_t optkeyr;
+	u32_t sr;
+	u32_t cr;
+	u32_t ar;
+	u32_t rsvd;
+	u32_t obr;
+	u32_t wrpr;
 };
 
 #endif	/* _STM32F10X_FLASHREGISTERS_H_ */

arch/arm/soc/st_stm32/stm32f1/gpio_registers.h

@@ -20,74 +20,74 @@
 
 /* 9.2 GPIO registers - each GPIO port controls 16 pins */
 struct stm32f10x_gpio {
-	uint32_t crl;
-	uint32_t crh;
-	uint32_t idr;
-	uint32_t odr;
-	uint32_t bsrr;
-	uint32_t brr;
-	uint32_t lckr;
+	u32_t crl;
+	u32_t crh;
+	u32_t idr;
+	u32_t odr;
+	u32_t bsrr;
+	u32_t brr;
+	u32_t lckr;
 };
 
 /* 9.4.1 AFIO_EVCR */
 union __afio_evcr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t pin :4 __packed;
-		uint32_t port :3 __packed;
-		uint32_t evoe :1 __packed;
-		uint32_t rsvd__8_31 :24 __packed;
+		u32_t pin :4 __packed;
+		u32_t port :3 __packed;
+		u32_t evoe :1 __packed;
+		u32_t rsvd__8_31 :24 __packed;
 	} bit;
 };
 
 /* 9.4.2 AFIO_MAPR */
 /* TODO: support connectivity line devices */
 union __afio_mapr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t spi1_remap :1 __packed;
-		uint32_t i2c1_remap :1 __packed;
-		uint32_t usart1_remap :1 __packed;
-		uint32_t usart2_remap :1 __packed;
-		uint32_t usart3_remap :2 __packed;
-		uint32_t tim1_remap :2 __packed;
-		uint32_t tim2_remap :2 __packed;
-		uint32_t tim3_remap :2 __packed;
-		uint32_t tim4_remap :1 __packed;
-		uint32_t can_remap :2 __packed;
-		uint32_t pd01_remap :1 __packed;
-		uint32_t tim5ch4_iremap :1 __packed;
-		uint32_t adc1_etrginj_remap :1 __packed;
-		uint32_t adc1_etrgreg_remap :1 __packed;
-		uint32_t adc2_etrginj_remap :1 __packed;
-		uint32_t adc2_etrgreg_remap :1 __packed;
-		uint32_t rsvd__21_23 :3 __packed;
-		uint32_t swj_cfg :3 __packed;
-		uint32_t rsvd__27_31 :5 __packed;
+		u32_t spi1_remap :1 __packed;
+		u32_t i2c1_remap :1 __packed;
+		u32_t usart1_remap :1 __packed;
+		u32_t usart2_remap :1 __packed;
+		u32_t usart3_remap :2 __packed;
+		u32_t tim1_remap :2 __packed;
+		u32_t tim2_remap :2 __packed;
+		u32_t tim3_remap :2 __packed;
+		u32_t tim4_remap :1 __packed;
+		u32_t can_remap :2 __packed;
+		u32_t pd01_remap :1 __packed;
+		u32_t tim5ch4_iremap :1 __packed;
+		u32_t adc1_etrginj_remap :1 __packed;
+		u32_t adc1_etrgreg_remap :1 __packed;
+		u32_t adc2_etrginj_remap :1 __packed;
+		u32_t adc2_etrgreg_remap :1 __packed;
+		u32_t rsvd__21_23 :3 __packed;
+		u32_t swj_cfg :3 __packed;
+		u32_t rsvd__27_31 :5 __packed;
 	} bit;
 };
 
 /* 9.4.{3,4,5,6} AFIO_EXTICRx */
 union __afio_exticr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint16_t rsvd__16_31;
-		uint16_t exti;
+		u16_t rsvd__16_31;
+		u16_t exti;
 	} bit;
 };
 
 /* 9.4.7 AFIO_MAPR2 */
 union __afio_mapr2 {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t rsvd__0_4 :5 __packed;
-		uint32_t tim9_remap :1 __packed;
-		uint32_t tim10_remap :1 __packed;
-		uint32_t tim11_remap :1 __packed;
-		uint32_t tim13_remap :1 __packed;
-		uint32_t tim14_remap :1 __packed;
-		uint32_t fsmc_nadv :1 __packed;
-		uint32_t rsvd__11_31 :21 __packed;
+		u32_t rsvd__0_4 :5 __packed;
+		u32_t tim9_remap :1 __packed;
+		u32_t tim10_remap :1 __packed;
+		u32_t tim11_remap :1 __packed;
+		u32_t tim13_remap :1 __packed;
+		u32_t tim14_remap :1 __packed;
+		u32_t fsmc_nadv :1 __packed;
+		u32_t rsvd__11_31 :21 __packed;
 	} bit;
 };
 

arch/arm/soc/st_stm32/stm32f1/rcc_registers.h

@@ -95,78 +95,78 @@ enum {
   */
 
 union __rcc_cr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t hsion :1 __packed;
-		uint32_t hsirdy :1 __packed;
-		uint32_t rsvd__2 :1 __packed;
-		uint32_t hsitrim :5 __packed;
-		uint32_t hsical :8 __packed;
-		uint32_t hseon :1 __packed;
-		uint32_t hserdy :1 __packed;
-		uint32_t hsebyp :1 __packed;
-		uint32_t csson :1 __packed;
-		uint32_t rsvd__20_23 :4 __packed;
-		uint32_t pllon :1 __packed;
-		uint32_t pllrdy :1 __packed;
+		u32_t hsion :1 __packed;
+		u32_t hsirdy :1 __packed;
+		u32_t rsvd__2 :1 __packed;
+		u32_t hsitrim :5 __packed;
+		u32_t hsical :8 __packed;
+		u32_t hseon :1 __packed;
+		u32_t hserdy :1 __packed;
+		u32_t hsebyp :1 __packed;
+		u32_t csson :1 __packed;
+		u32_t rsvd__20_23 :4 __packed;
+		u32_t pllon :1 __packed;
+		u32_t pllrdy :1 __packed;
 #if CONFIG_SOC_STM32F10X_DENSITY_DEVICE
-		uint32_t rsvd__26_31 :6 __packed;
+		u32_t rsvd__26_31 :6 __packed;
 #elif CONFIG_SOC_STM32F10X_CONNECTIVITY_LINE_DEVICE
-		uint32_t pll2on :1 __packed;
-		uint32_t pll2rdy :1 __packed;
-		uint32_t pll3on :1 __packed;
-		uint32_t pll3rdy :1 __packed;
-		uint32_t rsvd__30_31 :2 __packed;
+		u32_t pll2on :1 __packed;
+		u32_t pll2rdy :1 __packed;
+		u32_t pll3on :1 __packed;
+		u32_t pll3rdy :1 __packed;
+		u32_t rsvd__30_31 :2 __packed;
 #endif
 	} bit;
 };
 
 union __rcc_cfgr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t sw :2 __packed;
-		uint32_t sws :2 __packed;
-		uint32_t hpre :4 __packed;
-		uint32_t ppre1 :3 __packed;
-		uint32_t ppre2 :3 __packed;
-		uint32_t adcpre :2 __packed;
-		uint32_t pllsrc :1 __packed;
-		uint32_t pllxtpre :1 __packed;
-		uint32_t pllmul :4 __packed;
-		uint32_t usbpre :1 __packed;
-		uint32_t rsvd__23 :1 __packed;
-		uint32_t mco :3 __packed;
-		uint32_t rsvd__27_31 :5 __packed;
+		u32_t sw :2 __packed;
+		u32_t sws :2 __packed;
+		u32_t hpre :4 __packed;
+		u32_t ppre1 :3 __packed;
+		u32_t ppre2 :3 __packed;
+		u32_t adcpre :2 __packed;
+		u32_t pllsrc :1 __packed;
+		u32_t pllxtpre :1 __packed;
+		u32_t pllmul :4 __packed;
+		u32_t usbpre :1 __packed;
+		u32_t rsvd__23 :1 __packed;
+		u32_t mco :3 __packed;
+		u32_t rsvd__27_31 :5 __packed;
 	} bit;
 };
 
 union __rcc_cfgr2 {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t prediv1 :4 __packed;
-		uint32_t prediv2 :4 __packed;
-		uint32_t pll2mul :4 __packed;
-		uint32_t pll3mul :4 __packed;
-		uint32_t prediv1src :1 __packed;
-		uint32_t i2s2sr :1 __packed;
-		uint32_t i2s3sr :1 __packed;
-		uint32_t rsvd__19_31 :13 __packed;
+		u32_t prediv1 :4 __packed;
+		u32_t prediv2 :4 __packed;
+		u32_t pll2mul :4 __packed;
+		u32_t pll3mul :4 __packed;
+		u32_t prediv1src :1 __packed;
+		u32_t i2s2sr :1 __packed;
+		u32_t i2s3sr :1 __packed;
+		u32_t rsvd__19_31 :13 __packed;
 	} bit;
 };
 
 struct stm32f10x_rcc {
 	union __rcc_cr cr;
 	union __rcc_cfgr cfgr;
-	uint32_t cir;
-	uint32_t apb2rstr;
-	uint32_t apb1rstr;
-	uint32_t ahbenr;
-	uint32_t apb2enr;
-	uint32_t apb1enr;
-	uint32_t bdcr;
-	uint32_t csr;
+	u32_t cir;
+	u32_t apb2rstr;
+	u32_t apb1rstr;
+	u32_t ahbenr;
+	u32_t apb2enr;
+	u32_t apb1enr;
+	u32_t bdcr;
+	u32_t csr;
 #ifdef CONFIG_SOC_STM32F10X_CONNECTIVITY_LINE_DEVICE
-	uint32_t ahbrstr;
+	u32_t ahbrstr;
 	union __rcc_cfgr2 cfgr2;
 #endif
 };

arch/arm/soc/st_stm32/stm32f1/soc.c

@@ -37,7 +37,7 @@ uint32_t HAL_GetTick(void)
  */
 static int stm32f1_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 

arch/arm/soc/st_stm32/stm32f1/soc_gpio.c

@@ -26,7 +26,7 @@
 /**
  * @brief map pin function to MODE register value
  */
-static uint32_t __func_to_mode(int func)
+static u32_t __func_to_mode(int func)
 {
 	switch (func) {
 	case STM32F10X_PIN_CONFIG_ANALOG:
@@ -46,7 +46,7 @@ static uint32_t __func_to_mode(int func)
 /**
  * @brief map pin function to CNF register value
  */
-static uint32_t __func_to_cnf(int func)
+static u32_t __func_to_cnf(int func)
 {
 	switch (func) {
 	case STM32F10X_PIN_CONFIG_ANALOG:
@@ -97,7 +97,7 @@ int stm32_gpio_flags_to_conf(int flags, int *pincfg)
 	return 0;
 }
 
-int stm32_gpio_configure(uint32_t *base_addr, int pin, int conf, int altf)
+int stm32_gpio_configure(u32_t *base_addr, int pin, int conf, int altf)
 {
 	volatile struct stm32f10x_gpio *gpio =
 		(struct stm32f10x_gpio *)(base_addr);
@@ -107,7 +107,7 @@ int stm32_gpio_configure(uint32_t *base_addr, int pin, int conf, int altf)
 	/* pins are configured in CRL (0-7) and CRH (8-15)
 	 * registers
 	 */
-	volatile uint32_t *reg = &gpio->crl;
+	volatile u32_t *reg = &gpio->crl;
 
 	ARG_UNUSED(altf);
 
@@ -144,7 +144,7 @@ int stm32_gpio_configure(uint32_t *base_addr, int pin, int conf, int altf)
 	return 0;
 }
 
-int stm32_gpio_set(uint32_t *base, int pin, int value)
+int stm32_gpio_set(u32_t *base, int pin, int value)
 {
 	struct stm32f10x_gpio *gpio = (struct stm32f10x_gpio *)base;
 
@@ -159,7 +159,7 @@ int stm32_gpio_set(uint32_t *base, int pin, int value)
 	return 0;
 }
 
-int stm32_gpio_get(uint32_t *base, int pin)
+int stm32_gpio_get(u32_t *base, int pin)
 {
 	struct stm32f10x_gpio *gpio = (struct stm32f10x_gpio *)base;
 

arch/arm/soc/st_stm32/stm32f3/flash_registers.h

@@ -29,27 +29,27 @@ enum {
 
 /* 3.3.3 FLASH_ACR */
 union ef_acr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t latency :3 __packed;
-		uint32_t hlfcya :1 __packed;
-		uint32_t prftbe :1 __packed;
-		uint32_t prftbs :1 __packed;
-		uint32_t rsvd__6_31 :26 __packed;
+		u32_t latency :3 __packed;
+		u32_t hlfcya :1 __packed;
+		u32_t prftbe :1 __packed;
+		u32_t prftbs :1 __packed;
+		u32_t rsvd__6_31 :26 __packed;
 	} bit;
 };
 
 /* 3.3.3 Embedded flash registers */
 struct stm32_flash {
 	union ef_acr acr;
-	uint32_t keyr;
-	uint32_t optkeyr;
-	uint32_t sr;
-	uint32_t cr;
-	uint32_t ar;
-	uint32_t rsvd;
-	uint32_t obr;
-	uint32_t wrpr;
+	u32_t keyr;
+	u32_t optkeyr;
+	u32_t sr;
+	u32_t cr;
+	u32_t ar;
+	u32_t rsvd;
+	u32_t obr;
+	u32_t wrpr;
 };
 
 /* list of device commands */

arch/arm/soc/st_stm32/stm32f3/gpio_registers.h

@@ -18,60 +18,60 @@
  */
 
 struct stm32f3x_gpio {
-	uint32_t moder;
-	uint32_t otyper;
-	uint32_t ospeedr;
-	uint32_t pupdr;
-	uint32_t idr;
-	uint32_t odr;
-	uint32_t bsrr;
-	uint32_t lckr;
-	uint32_t afrl;
-	uint32_t afrh;
-	uint32_t brr;
+	u32_t moder;
+	u32_t otyper;
+	u32_t ospeedr;
+	u32_t pupdr;
+	u32_t idr;
+	u32_t odr;
+	u32_t bsrr;
+	u32_t lckr;
+	u32_t afrl;
+	u32_t afrh;
+	u32_t brr;
 };
 
 union syscfg_cfgr1 {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t mem_mode :2 __packed;
-		uint32_t rsvd__2_5 :4 __packed;
-		uint32_t tim1_itr3_rmo :1 __packed;
-		uint32_t dac_trig_rmp :1 __packed;
-		uint32_t rsvd__8_10 :3 __packed;
-		uint32_t tim16_dma_rmp :1 __packed;
-		uint32_t tim17_dma_rmp :1 __packed;
-		uint32_t tim16_dac1_dma_rmp :1 __packed;
-		uint32_t tim17_dac2_dma_rmp :1 __packed;
-		uint32_t dac2_ch1_dma_rmp :1 __packed;
-		uint32_t i2c_pb6_fmp :1 __packed;
-		uint32_t i2c_pb7_fmp :1 __packed;
-		uint32_t i2c_pb8_fmp :1 __packed;
-		uint32_t i2c_pb9_fmp :1 __packed;
-		uint32_t i2c1_fmp :1 __packed;
-		uint32_t rsvd__21 :1 __packed;
-		uint32_t encoder_mode :2 __packed;
-		uint32_t rsvd__24_25 :2 __packed;
-		uint32_t fpu_ie :6 __packed;
+		u32_t mem_mode :2 __packed;
+		u32_t rsvd__2_5 :4 __packed;
+		u32_t tim1_itr3_rmo :1 __packed;
+		u32_t dac_trig_rmp :1 __packed;
+		u32_t rsvd__8_10 :3 __packed;
+		u32_t tim16_dma_rmp :1 __packed;
+		u32_t tim17_dma_rmp :1 __packed;
+		u32_t tim16_dac1_dma_rmp :1 __packed;
+		u32_t tim17_dac2_dma_rmp :1 __packed;
+		u32_t dac2_ch1_dma_rmp :1 __packed;
+		u32_t i2c_pb6_fmp :1 __packed;
+		u32_t i2c_pb7_fmp :1 __packed;
+		u32_t i2c_pb8_fmp :1 __packed;
+		u32_t i2c_pb9_fmp :1 __packed;
+		u32_t i2c1_fmp :1 __packed;
+		u32_t rsvd__21 :1 __packed;
+		u32_t encoder_mode :2 __packed;
+		u32_t rsvd__24_25 :2 __packed;
+		u32_t fpu_ie :6 __packed;
 	} bit;
 };
 
 union syscfg_rcr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t page0_wp :1 __packed;
-		uint32_t page1_wp :1 __packed;
-		uint32_t page2_wp :1 __packed;
-		uint32_t page3_wp :1 __packed;
-		uint32_t rsvd__4_31 :28 __packed;
+		u32_t page0_wp :1 __packed;
+		u32_t page1_wp :1 __packed;
+		u32_t page2_wp :1 __packed;
+		u32_t page3_wp :1 __packed;
+		u32_t rsvd__4_31 :28 __packed;
 	} bit;
 };
 
 union syscfg__exticr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint16_t exti;
-		uint16_t rsvd__16_31;
+		u16_t exti;
+		u16_t rsvd__16_31;
 	} bit;
 };
 
@@ -82,21 +82,21 @@ struct stm32f3x_syscfg {
 	union syscfg__exticr exticr2;
 	union syscfg__exticr exticr3;
 	union syscfg__exticr exticr4;
-	uint32_t cfgr2;
-	uint32_t rsvd_0x1C;
-	uint32_t rsvd_0x20;
-	uint32_t rsvd_0x24;
-	uint32_t rsvd_0x28;
-	uint32_t rsvd_0x2C;
-	uint32_t rsvd_0x30;
-	uint32_t rsvd_0x34;
-	uint32_t rsvd_0x38;
-	uint32_t rsvd_0x3C;
-	uint32_t rsvd_0x40;
-	uint32_t rsvd_0x44;
-	uint32_t rsvd_0x48;
-	uint32_t rsvd_0x4C;
-	uint32_t cfgr3;
+	u32_t cfgr2;
+	u32_t rsvd_0x1C;
+	u32_t rsvd_0x20;
+	u32_t rsvd_0x24;
+	u32_t rsvd_0x28;
+	u32_t rsvd_0x2C;
+	u32_t rsvd_0x30;
+	u32_t rsvd_0x34;
+	u32_t rsvd_0x38;
+	u32_t rsvd_0x3C;
+	u32_t rsvd_0x40;
+	u32_t rsvd_0x44;
+	u32_t rsvd_0x48;
+	u32_t rsvd_0x4C;
+	u32_t cfgr3;
 };
 
 #endif /* _STM32F3X_GPIO_REGISTERS_H_ */

arch/arm/soc/st_stm32/stm32f3/soc.c

@@ -37,7 +37,7 @@ uint32_t HAL_GetTick(void)
  */
 static int stm32f3_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 

arch/arm/soc/st_stm32/stm32f3/soc_gpio.c

@@ -25,7 +25,7 @@
 /**
  * @brief map pin function to MODE register value
  */
-static uint32_t func_to_mode(int func)
+static u32_t func_to_mode(int func)
 {
 	switch (func) {
 	case STM32F3X_PIN_CONFIG_ANALOG:
@@ -95,7 +95,7 @@ int stm32_gpio_flags_to_conf(int flags, int *pincfg)
 	return 0;
 }
 
-int stm32_gpio_configure(uint32_t *base_addr, int pin, int conf, int altf)
+int stm32_gpio_configure(u32_t *base_addr, int pin, int conf, int altf)
 {
 	volatile struct stm32f3x_gpio *gpio =
 		(struct stm32f3x_gpio *)(base_addr);
@@ -112,7 +112,7 @@ int stm32_gpio_configure(uint32_t *base_addr, int pin, int conf, int altf)
 	if (cmode == STM32F3X_PIN_CONFIG_AF) {
 		/* alternate function setup */
 		int af = STM32_AF(conf);
-		volatile uint32_t *afr = &gpio->afrl;
+		volatile u32_t *afr = &gpio->afrl;
 		int crpin = pin;
 
 		if (crpin > 7) {
@@ -156,7 +156,7 @@ int stm32_gpio_configure(uint32_t *base_addr, int pin, int conf, int altf)
 	return 0;
 }
 
-int stm32_gpio_set(uint32_t *base, int pin, int value)
+int stm32_gpio_set(u32_t *base, int pin, int value)
 {
 	struct stm32f3x_gpio *gpio = (struct stm32f3x_gpio *)base;
 
@@ -171,7 +171,7 @@ int stm32_gpio_set(uint32_t *base, int pin, int value)
 	return 0;
 }
 
-int stm32_gpio_get(uint32_t *base, int pin)
+int stm32_gpio_get(u32_t *base, int pin)
 {
 	struct stm32f3x_gpio *gpio = (struct stm32f3x_gpio *)base;
 

arch/arm/soc/st_stm32/stm32f4/flash_map.h

@@ -34,8 +34,8 @@ struct stm32f4x_flash_sector stm32f4xx_sectors[] = {
 #endif
 };
 
-#define STM32F4X_FLASH_TIMEOUT		((uint32_t) 0x000B0000)
-#define STM32F4X_SECTOR_MASK		((uint32_t) 0xFFFFFF07)
+#define STM32F4X_FLASH_TIMEOUT		((u32_t) 0x000B0000)
+#define STM32F4X_SECTOR_MASK		((u32_t) 0xFFFFFF07)
 #define STM32F4X_SECTORS		ARRAY_SIZE(stm32f4xx_sectors)
 
 #define STM32F4X_FLASH_END	\

arch/arm/soc/st_stm32/stm32f4/flash_registers.h

@@ -25,27 +25,27 @@ enum {
 };
 
 union __flash_acr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t latency :4 __packed;
-		uint32_t rsvd__4_7 :4 __packed;
-		uint32_t prften :1 __packed;
-		uint32_t icen :1 __packed;
-		uint32_t dcen :1 __packed;
-		uint32_t icrst :1 __packed;
-		uint32_t dcrst :1 __packed;
-		uint32_t rsvd__13_31 :19 __packed;
+		u32_t latency :4 __packed;
+		u32_t rsvd__4_7 :4 __packed;
+		u32_t prften :1 __packed;
+		u32_t icen :1 __packed;
+		u32_t dcen :1 __packed;
+		u32_t icrst :1 __packed;
+		u32_t dcrst :1 __packed;
+		u32_t rsvd__13_31 :19 __packed;
 	} bit;
 };
 
 /* 3.8.7 Embedded flash registers */
 struct stm32f4x_flash {
 	volatile union __flash_acr acr;
-	volatile uint32_t key;
-	volatile uint32_t optkey;
-	volatile uint32_t status;
-	volatile uint32_t ctrl;
-	volatile uint32_t optctrl;
+	volatile u32_t key;
+	volatile u32_t optkey;
+	volatile u32_t status;
+	volatile u32_t ctrl;
+	volatile u32_t optctrl;
 };
 
 /**
@@ -56,7 +56,7 @@ struct stm32f4x_flash {
 static inline void __setup_flash(void)
 {
 	volatile struct stm32f4x_flash *regs;
-	uint32_t tmpreg = 0;
+	u32_t tmpreg = 0;
 
 	regs = (struct stm32f4x_flash *) FLASH_R_BASE;
 

arch/arm/soc/st_stm32/stm32f4/gpio_registers.h

@@ -19,34 +19,34 @@
 
 /* 8.4 GPIO registers - each GPIO port controls 16 pins */
 struct stm32f4x_gpio {
-	uint32_t mode;
-	uint32_t otype;
-	uint32_t ospeed;
-	uint32_t pupdr;
-	uint32_t idr;
-	uint32_t odr;
-	uint32_t bsr;
-	uint32_t lck;
-	uint32_t afr[2];
+	u32_t mode;
+	u32_t otype;
+	u32_t ospeed;
+	u32_t pupdr;
+	u32_t idr;
+	u32_t odr;
+	u32_t bsr;
+	u32_t lck;
+	u32_t afr[2];
 };
 
 union syscfg_exticr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint16_t rsvd__16_31;
-		uint16_t exti;
+		u16_t rsvd__16_31;
+		u16_t exti;
 	} bit;
 };
 
 /* 7.2 SYSCFG registers */
 struct stm32f4x_syscfg {
-	uint32_t memrmp;
-	uint32_t pmc;
+	u32_t memrmp;
+	u32_t pmc;
 	union syscfg_exticr exticr1;
 	union syscfg_exticr exticr2;
 	union syscfg_exticr exticr3;
 	union syscfg_exticr exticr4;
-	uint32_t cmpcr;
+	u32_t cmpcr;
 };
 
 #endif /* _STM32F4X_GPIO_REGISTERS_H_ */

arch/arm/soc/st_stm32/stm32f4/rcc_registers.h

@@ -66,58 +66,58 @@ enum {
 };
 
 union __rcc_cr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t hsion :1 __packed;
-		uint32_t hsirdy :1 __packed;
-		uint32_t rsvd__2 :1 __packed;
-		uint32_t hsitrim :5 __packed;
-		uint32_t hsical :8 __packed;
-		uint32_t hseon :1 __packed;
-		uint32_t hserdy :1 __packed;
-		uint32_t hsebyp :1 __packed;
-		uint32_t csson :1 __packed;
-		uint32_t rsvd__20_23 :4 __packed;
-		uint32_t pllon :1 __packed;
-		uint32_t pllrdy :1 __packed;
-		uint32_t plli2son :1 __packed;
-		uint32_t plli2srdy :1 __packed;
-		uint32_t pllsaion :1 __packed;
-		uint32_t pllsairdy :1 __packed;
-		uint32_t rsvd__30_31 :2 __packed;
+		u32_t hsion :1 __packed;
+		u32_t hsirdy :1 __packed;
+		u32_t rsvd__2 :1 __packed;
+		u32_t hsitrim :5 __packed;
+		u32_t hsical :8 __packed;
+		u32_t hseon :1 __packed;
+		u32_t hserdy :1 __packed;
+		u32_t hsebyp :1 __packed;
+		u32_t csson :1 __packed;
+		u32_t rsvd__20_23 :4 __packed;
+		u32_t pllon :1 __packed;
+		u32_t pllrdy :1 __packed;
+		u32_t plli2son :1 __packed;
+		u32_t plli2srdy :1 __packed;
+		u32_t pllsaion :1 __packed;
+		u32_t pllsairdy :1 __packed;
+		u32_t rsvd__30_31 :2 __packed;
 	} bit;
 };
 
 union __rcc_pllcfgr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t pllm :6 __packed;
-		uint32_t plln :9 __packed;
-		uint32_t rsvd__15 :1 __packed;
-		uint32_t pllp :2 __packed;
-		uint32_t rsvd__18_21 :4 __packed;
-		uint32_t pllsrc :1 __packed;
-		uint32_t rsvd__23 :1 __packed;
-		uint32_t pllq :4 __packed;
-		uint32_t rsvd__28_31 :4 __packed;
+		u32_t pllm :6 __packed;
+		u32_t plln :9 __packed;
+		u32_t rsvd__15 :1 __packed;
+		u32_t pllp :2 __packed;
+		u32_t rsvd__18_21 :4 __packed;
+		u32_t pllsrc :1 __packed;
+		u32_t rsvd__23 :1 __packed;
+		u32_t pllq :4 __packed;
+		u32_t rsvd__28_31 :4 __packed;
 	} bit;
 };
 
 union __rcc_cfgr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t sw :2 __packed;
-		uint32_t sws :2 __packed;
-		uint32_t hpre :4 __packed;
-		uint32_t rsvd__8_9 :2 __packed;
-		uint32_t ppre1 :3 __packed;
-		uint32_t ppre2 :3 __packed;
-		uint32_t rtcpre :5 __packed;
-		uint32_t mco1 :2 __packed;
-		uint32_t i2sscr :1 __packed;
-		uint32_t mco1pre :3 __packed;
-		uint32_t mco2pre :3 __packed;
-		uint32_t mco2 :2 __packed;
+		u32_t sw :2 __packed;
+		u32_t sws :2 __packed;
+		u32_t hpre :4 __packed;
+		u32_t rsvd__8_9 :2 __packed;
+		u32_t ppre1 :3 __packed;
+		u32_t ppre2 :3 __packed;
+		u32_t rtcpre :5 __packed;
+		u32_t mco1 :2 __packed;
+		u32_t i2sscr :1 __packed;
+		u32_t mco1pre :3 __packed;
+		u32_t mco2pre :3 __packed;
+		u32_t mco2 :2 __packed;
 	} bit;
 };
 
@@ -125,35 +125,35 @@ struct stm32f4x_rcc {
 	union __rcc_cr cr;
 	union __rcc_pllcfgr pllcfgr;
 	union __rcc_cfgr cfgr;
-	uint32_t cir;
-	uint32_t ahb1rstr;
-	uint32_t ahb2rstr;
-	uint32_t ahb3rstr;
-	uint32_t rsvd0;
-	uint32_t apb1rstr;
-	uint32_t apb2rstr;
-	uint32_t rsvd1[2];
-	uint32_t ahb1enr;
-	uint32_t ahb2enr;
-	uint32_t ahb3enr;
-	uint32_t rsvd2;
-	uint32_t apb1enr;
-	uint32_t apb2enr;
-	uint32_t rsvd3[2];
-	uint32_t ahb1lpenr;
-	uint32_t ahb2lpenr;
-	uint32_t ahb3lpenr;
-	uint32_t rsvd4;
-	uint32_t apb1lpenr;
-	uint32_t apb2lpenr;
-	uint32_t rsvd5[2];
-	uint32_t bdcr;
-	uint32_t csr;
-	uint32_t rsvd6[2];
-	uint32_t sscgr;
-	uint32_t plli2scfgr;
-	uint32_t rsvd7;
-	uint32_t dckcfgr;
+	u32_t cir;
+	u32_t ahb1rstr;
+	u32_t ahb2rstr;
+	u32_t ahb3rstr;
+	u32_t rsvd0;
+	u32_t apb1rstr;
+	u32_t apb2rstr;
+	u32_t rsvd1[2];
+	u32_t ahb1enr;
+	u32_t ahb2enr;
+	u32_t ahb3enr;
+	u32_t rsvd2;
+	u32_t apb1enr;
+	u32_t apb2enr;
+	u32_t rsvd3[2];
+	u32_t ahb1lpenr;
+	u32_t ahb2lpenr;
+	u32_t ahb3lpenr;
+	u32_t rsvd4;
+	u32_t apb1lpenr;
+	u32_t apb2lpenr;
+	u32_t rsvd5[2];
+	u32_t bdcr;
+	u32_t csr;
+	u32_t rsvd6[2];
+	u32_t sscgr;
+	u32_t plli2scfgr;
+	u32_t rsvd7;
+	u32_t dckcfgr;
 };
 
 #endif /* _STM32F4X_CLOCK_H_ */

arch/arm/soc/st_stm32/stm32f4/soc.c

@@ -38,7 +38,7 @@ uint32_t HAL_GetTick(void)
  */
 static int st_stm32f4_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 

arch/arm/soc/st_stm32/stm32f4/soc_gpio.c

@@ -25,7 +25,7 @@
 /**
  * @brief map pin function to MODE register value
  */
-static uint32_t __func_to_mode(int func)
+static u32_t __func_to_mode(int func)
 {
 	switch (func) {
 	case STM32F4X_PIN_CONFIG_BIAS_HIGH_IMPEDANCE:
@@ -56,7 +56,7 @@ static uint32_t __func_to_mode(int func)
 /**
  * @brief map pin function to OTYPE register value
  */
-static uint32_t __func_to_otype(int func)
+static u32_t __func_to_otype(int func)
 {
 	switch (func) {
 	case STM32F4X_PIN_CONFIG_DRIVE_OPEN_DRAIN:
@@ -74,7 +74,7 @@ static uint32_t __func_to_otype(int func)
 /**
  * @brief map pin function to OSPEED register value
  */
-static uint32_t __func_to_ospeed(int func)
+static u32_t __func_to_ospeed(int func)
 {
 	switch (func) {
 	case STM32F4X_PIN_CONFIG_DRIVE_PUSH_PULL:
@@ -99,7 +99,7 @@ static uint32_t __func_to_ospeed(int func)
 /**
  * @brief map pin function to PUPD register value
  */
-static uint32_t __func_to_pupd(int func)
+static u32_t __func_to_pupd(int func)
 {
 	switch (func) {
 	case STM32F4X_PIN_CONFIG_DRIVE_PUSH_PULL:
@@ -159,15 +159,15 @@ int stm32_gpio_flags_to_conf(int flags, int *pincfg)
 	return 0;
 }
 
-int stm32_gpio_configure(uint32_t *base_addr, int pin, int conf, int altf)
+int stm32_gpio_configure(u32_t *base_addr, int pin, int conf, int altf)
 {
 	volatile struct stm32f4x_gpio *gpio =
 		(struct stm32f4x_gpio *)(base_addr);
-	uint32_t mode = __func_to_mode(conf);
-	uint32_t otype = __func_to_otype(conf);
-	uint32_t ospeed = __func_to_ospeed(conf);
-	uint32_t pupd = __func_to_pupd(conf);
-	uint32_t tmpreg = 0;
+	u32_t mode = __func_to_mode(conf);
+	u32_t otype = __func_to_otype(conf);
+	u32_t ospeed = __func_to_ospeed(conf);
+	u32_t pupd = __func_to_pupd(conf);
+	u32_t tmpreg = 0;
 
 	/* TODO: validate if indeed alternate */
 	if (altf) {
@@ -206,7 +206,7 @@ int stm32_gpio_configure(uint32_t *base_addr, int pin, int conf, int altf)
 	return 0;
 }
 
-int stm32_gpio_set(uint32_t *base, int pin, int value)
+int stm32_gpio_set(u32_t *base, int pin, int value)
 {
 	struct stm32f4x_gpio *gpio = (struct stm32f4x_gpio *)base;
 
@@ -221,7 +221,7 @@ int stm32_gpio_set(uint32_t *base, int pin, int value)
 	return 0;
 }
 
-int stm32_gpio_get(uint32_t *base, int pin)
+int stm32_gpio_get(u32_t *base, int pin)
 {
 	struct stm32f4x_gpio *gpio = (struct stm32f4x_gpio *)base;
 

arch/arm/soc/st_stm32/stm32l4/flash_registers.h

@@ -18,46 +18,46 @@ enum {
 
 /* 3.7.1 FLASH_ACR */
 union __ef_acr {
-	uint32_t val;
+	u32_t val;
 	struct {
-		uint32_t latency :3 __packed;
-		uint32_t rsvd__3_7 :5 __packed;
-		uint32_t prften :1 __packed;
-		uint32_t icen :1 __packed;
-		uint32_t dcen :1 __packed;
-		uint32_t icrst :1 __packed;
-		uint32_t dcrst :1 __packed;
-		uint32_t run_pd :1 __packed;
-		uint32_t sleep_pd :1 __packed;
-		uint32_t rsvd__16_31 :17 __packed;
+		u32_t latency :3 __packed;
+		u32_t rsvd__3_7 :5 __packed;
+		u32_t prften :1 __packed;
+		u32_t icen :1 __packed;
+		u32_t dcen :1 __packed;
+		u32_t icrst :1 __packed;
+		u32_t dcrst :1 __packed;
+		u32_t run_pd :1 __packed;
+		u32_t sleep_pd :1 __packed;
+		u32_t rsvd__16_31 :17 __packed;
 	} bit;
 };
 
 /*  FLASH register map */
 struct stm32l4x_flash {
 	union __ef_acr acr;
-	uint32_t pdkeyr;
-	uint32_t keyr;
-	uint32_t optkeyr;
-	uint32_t sr;
-	uint32_t cr;
-	uint32_t eccr;
-	uint32_t rsvd_0;
-	uint32_t optr;
-	uint32_t pcrop1sr;
-	uint32_t pcrop1er;
-	uint32_t wrp1ar;
-	uint32_t wrp1br;
-	uint32_t rsvd_2[4];
+	u32_t pdkeyr;
+	u32_t keyr;
+	u32_t optkeyr;
+	u32_t sr;
+	u32_t cr;
+	u32_t eccr;
+	u32_t rsvd_0;
+	u32_t optr;
+	u32_t pcrop1sr;
+	u32_t pcrop1er;
+	u32_t wrp1ar;
+	u32_t wrp1br;
+	u32_t rsvd_2[4];
 
 	/*
 	 * The registers below are only present on STM32L4x2, STM32L4x5,
 	 * STM32L4x6.
 	 */
-	uint32_t pcrop2sr;
-	uint32_t pcrop2er;
-	uint32_t wrp2ar;
-	uint32_t wrp2br;
+	u32_t pcrop2sr;
+	u32_t pcrop2er;
+	u32_t wrp2ar;
+	u32_t wrp2br;
 };
 
 #endif	/* _STM32L4X_FLASH_REGISTERS_H_ */

arch/arm/soc/st_stm32/stm32l4/soc.c

@@ -38,7 +38,7 @@ uint32_t HAL_GetTick(void)
  */
 static int stm32l4_init(struct device *arg)
 {
-	uint32_t key;
+	u32_t key;
 
 	ARG_UNUSED(arg);
 

arch/arm/soc/st_stm32/stm32l4/soc_gpio.c

@@ -57,23 +57,23 @@ enum {
 
 /* GPIO registers - each GPIO port controls 16 pins */
 struct stm32l4x_gpio {
-	uint32_t moder;
-	uint32_t otyper;
-	uint32_t ospeedr;
-	uint32_t pupdr;
-	uint32_t idr;
-	uint32_t odr;
-	uint32_t bsrr;
-	uint32_t lckr;
-	uint32_t afr[2];
-	uint32_t brr;
-	uint32_t ascr; /* Only present on STM32L4x1, STM32L4x5, STM32L4x6 */
+	u32_t moder;
+	u32_t otyper;
+	u32_t ospeedr;
+	u32_t pupdr;
+	u32_t idr;
+	u32_t odr;
+	u32_t bsrr;
+	u32_t lckr;
+	u32_t afr[2];
+	u32_t brr;
+	u32_t ascr; /* Only present on STM32L4x1, STM32L4x5, STM32L4x6 */
 };
 
 /**
  * @brief map pin function to MODE register value
  */
-static uint32_t func_to_mode(int conf, unsigned int afnum)
+static u32_t func_to_mode(int conf, unsigned int afnum)
 {
 	/* If an alternate function is specified */
 	if (afnum) {
@@ -94,7 +94,7 @@ static uint32_t func_to_mode(int conf, unsigned int afnum)
 	return STM32L4X_MODER_INPUT_MODE;
 }
 
-static uint32_t func_to_otype(int conf)
+static u32_t func_to_otype(int conf)
 {
 	switch (conf) {
 	case STM32L4X_PIN_CONFIG_OPEN_DRAIN:
@@ -108,7 +108,7 @@ static uint32_t func_to_otype(int conf)
 	return STM32L4X_OTYPER_PUSH_PULL;
 }
 
-static uint32_t func_to_pupd(int conf)
+static u32_t func_to_pupd(int conf)
 {
 	switch (conf) {
 	case STM32L4X_PIN_CONFIG_ANALOG:
@@ -158,7 +158,7 @@ int stm32_gpio_flags_to_conf(int flags, int *pincfg)
 	return 0;
 }
 
-int stm32_gpio_configure(uint32_t *base_addr, int pin, int pinconf, int afnum)
+int stm32_gpio_configure(u32_t *base_addr, int pin, int pinconf, int afnum)
 {
 	volatile struct stm32l4x_gpio *gpio =
 		(struct stm32l4x_gpio *)(base_addr);
@@ -166,7 +166,7 @@ int stm32_gpio_configure(uint32_t *base_addr, int pin, int pinconf, int afnum)
 	unsigned int pin_shift = pin << 1;
 	unsigned int afr_bank = pin / 8;
 	unsigned int afr_shift = (pin % 8) << 2;
-	uint32_t scratch;
+	u32_t scratch;
 
 	mode = func_to_mode(pinconf, afnum);
 	otype = func_to_otype(pinconf);
@@ -187,7 +187,7 @@ int stm32_gpio_configure(uint32_t *base_addr, int pin, int pinconf, int afnum)
 	return 0;
 }
 
-int stm32_gpio_set(uint32_t *base, int pin, int value)
+int stm32_gpio_set(u32_t *base, int pin, int value)
 {
 	struct stm32l4x_gpio *gpio = (struct stm32l4x_gpio *)base;
 	int pval = 1 << (pin & 0xf);
@@ -201,7 +201,7 @@ int stm32_gpio_set(uint32_t *base, int pin, int value)
 	return 0;
 }
 
-int stm32_gpio_get(uint32_t *base, int pin)
+int stm32_gpio_get(u32_t *base, int pin)
 {
 	struct stm32l4x_gpio *gpio = (struct stm32l4x_gpio *)base;
 
@@ -212,7 +212,7 @@ int stm32_gpio_enable_int(int port, int pin)
 {
 	struct stm32l4x_syscfg *syscfg = (struct stm32l4x_syscfg *)SYSCFG_BASE;
 	struct device *clk = device_get_binding(STM32_CLOCK_CONTROL_NAME);
-	uint32_t *reg;
+	u32_t *reg;
 
 	/* Enable SYSCFG clock */
 	struct stm32_pclken pclken = {

arch/arm/soc/st_stm32/stm32l4/syscfg_registers.h

@@ -11,16 +11,16 @@
 
 /* SYSCFG registers */
 struct stm32l4x_syscfg {
-	uint32_t memrmp;
-	uint32_t cfgr1;
-	uint32_t exticr1;
-	uint32_t exticr2;
-	uint32_t exticr3;
-	uint32_t exticr4;
-	uint32_t scsr;
-	uint32_t cfgr2;
-	uint32_t swpr;
-	uint32_t skr;
+	u32_t memrmp;
+	u32_t cfgr1;
+	u32_t exticr1;
+	u32_t exticr2;
+	u32_t exticr3;
+	u32_t exticr4;
+	u32_t scsr;
+	u32_t cfgr2;
+	u32_t swpr;
+	u32_t skr;
 };
 
 #endif /* _STM32L4X_SYSCFG_REGISTERS_H_ */

arch/arm/soc/ti_lm3s6965/scp.h

@@ -57,99 +57,99 @@ extern "C" {
 #define _SCP_CRYSTAL_8_192MHZ 15
 
 union __rcc {
-	uint32_t value;
+	u32_t value;
 	struct {
-		uint32_t moscdis : 1 __packed;
-		uint32_t ioscdis : 1 __packed;
-		uint32_t rsvd__2_3 : 2 __packed;
-		uint32_t oscsrc : 2 __packed;
-		uint32_t xtal : 4 __packed;
-		uint32_t rsvd__10 : 1 __packed;
-		uint32_t bypass : 1 __packed;
-		uint32_t rsvd__12 : 1 __packed;
-		uint32_t pwrdn : 1 __packed;
-		uint32_t rsvd__14_16 : 3 __packed;
-		uint32_t pwmdiv : 3 __packed; /* 2**(n+1) */
-		uint32_t usepwmdiv : 1 __packed;
-		uint32_t rsvd__21 : 1 __packed;
-		uint32_t usesysdiv : 1 __packed;
-		uint32_t sysdiv : 4 __packed;
-		uint32_t acg : 1 __packed;
-		uint32_t rsvd__28_31 : 4 __packed;
+		u32_t moscdis : 1 __packed;
+		u32_t ioscdis : 1 __packed;
+		u32_t rsvd__2_3 : 2 __packed;
+		u32_t oscsrc : 2 __packed;
+		u32_t xtal : 4 __packed;
+		u32_t rsvd__10 : 1 __packed;
+		u32_t bypass : 1 __packed;
+		u32_t rsvd__12 : 1 __packed;
+		u32_t pwrdn : 1 __packed;
+		u32_t rsvd__14_16 : 3 __packed;
+		u32_t pwmdiv : 3 __packed; /* 2**(n+1) */
+		u32_t usepwmdiv : 1 __packed;
+		u32_t rsvd__21 : 1 __packed;
+		u32_t usesysdiv : 1 __packed;
+		u32_t sysdiv : 4 __packed;
+		u32_t acg : 1 __packed;
+		u32_t rsvd__28_31 : 4 __packed;
 	} bit;
 };
 
 union __rcc2 {
-	uint32_t value;
+	u32_t value;
 	struct {
-		uint8_t rsvd__0_3 : 4 __packed;
-		uint8_t oscsrc2 : 3 __packed;
-		uint16_t rsvd__7_10 : 4 __packed;
-		uint8_t bypass2 : 1 __packed;
-		uint8_t rsvd__12 : 1 __packed;
-		uint8_t pwrdn2 : 1 __packed;
-		uint16_t rsvd__14_22 : 9 __packed;
-		uint16_t sysdiv2 : 6 __packed;
-		uint8_t rsvd__29_30 : 2 __packed;
-		uint8_t usercc2 : 1 __packed;
+		u8_t rsvd__0_3 : 4 __packed;
+		u8_t oscsrc2 : 3 __packed;
+		u16_t rsvd__7_10 : 4 __packed;
+		u8_t bypass2 : 1 __packed;
+		u8_t rsvd__12 : 1 __packed;
+		u8_t pwrdn2 : 1 __packed;
+		u16_t rsvd__14_22 : 9 __packed;
+		u16_t sysdiv2 : 6 __packed;
+		u8_t rsvd__29_30 : 2 __packed;
+		u8_t usercc2 : 1 __packed;
 	} bit;
 };
 
 struct __scp {
-	uint32_t did0; /* 0x000 RO Device ID*/
-	uint32_t did1; /* 0x004 RO Device ID*/
-	uint32_t dc0;  /* 0x008 RO Device Capabilities */
-	uint32_t dc1;  /* 0x00c RO Device Capabilities */
-	uint32_t dc2;  /* 0x010 RO Device Capabilities */
-	uint32_t dc3;  /* 0x014 RO Device Capabilities */
-	uint32_t dc4;  /* 0x018 RO Device capabilities */
+	u32_t did0; /* 0x000 RO Device ID*/
+	u32_t did1; /* 0x004 RO Device ID*/
+	u32_t dc0;  /* 0x008 RO Device Capabilities */
+	u32_t dc1;  /* 0x00c RO Device Capabilities */
+	u32_t dc2;  /* 0x010 RO Device Capabilities */
+	u32_t dc3;  /* 0x014 RO Device Capabilities */
+	u32_t dc4;  /* 0x018 RO Device capabilities */
 
-	uint32_t rsvd__01c_02f[(0x30 - 0x1c) / 4];
+	u32_t rsvd__01c_02f[(0x30 - 0x1c) / 4];
 
-	uint32_t pborctl; /* 0x030 RW Brown-Out Reset ConTroL */
-	uint32_t ldopctl; /* 0x034 RW LDO Power ConTroL */
+	u32_t pborctl; /* 0x030 RW Brown-Out Reset ConTroL */
+	u32_t ldopctl; /* 0x034 RW LDO Power ConTroL */
 
-	uint32_t rsvd__038_03f[(0x40 - 0x38) / 4];
+	u32_t rsvd__038_03f[(0x40 - 0x38) / 4];
 
-	uint32_t srcr0; /* 0x040 RW Software Reset Control Register */
-	uint32_t srcr1; /* 0x044 RW Software Reset Control Register */
-	uint32_t srcr2; /* 0x048 RW Software Reset Control Register */
+	u32_t srcr0; /* 0x040 RW Software Reset Control Register */
+	u32_t srcr1; /* 0x044 RW Software Reset Control Register */
+	u32_t srcr2; /* 0x048 RW Software Reset Control Register */
 
-	uint32_t rsvd__04c_04f;
+	u32_t rsvd__04c_04f;
 
-	uint32_t ris;  /* 0x050 RO Raw Interrupt Status */
-	uint32_t imc;  /* 0x054 RW Interrupt Mask Control */
-	uint32_t misc; /* 0x058 RW1C Masked Int. Status & Clear */
-	uint32_t resc; /* 0x05C RW RESet Cause */
+	u32_t ris;  /* 0x050 RO Raw Interrupt Status */
+	u32_t imc;  /* 0x054 RW Interrupt Mask Control */
+	u32_t misc; /* 0x058 RW1C Masked Int. Status & Clear */
+	u32_t resc; /* 0x05C RW RESet Cause */
 	struct {
 		union __rcc rcc; /* 0x060 RW Run-mode Clock Configuration */
-		uint32_t pllcfg; /* 0x064 RW xtal-to-pll translation */
+		u32_t pllcfg; /* 0x064 RW xtal-to-pll translation */
 
-		uint32_t rsvd__068_06f[(0x70 - 0x068) / 4];
+		u32_t rsvd__068_06f[(0x70 - 0x068) / 4];
 
 		union __rcc2 rcc2; /* 0x070 RW Run-mode Clock Configuration */
 
-		uint32_t rsvd__074_0ff[(0x100 - 0x074) / 4];
+		u32_t rsvd__074_0ff[(0x100 - 0x074) / 4];
 
-		uint32_t rcgc0; /* 0x100 RW Run-mode Clock Gating */
-		uint32_t rcgc1; /* 0x104 RW Run-mode Clock Gating */
-		uint32_t rcgc2; /* 0x108 RW Run-mode Clock Gating */
+		u32_t rcgc0; /* 0x100 RW Run-mode Clock Gating */
+		u32_t rcgc1; /* 0x104 RW Run-mode Clock Gating */
+		u32_t rcgc2; /* 0x108 RW Run-mode Clock Gating */
 
-		uint32_t rsvd__10c_10f;
+		u32_t rsvd__10c_10f;
 
-		uint32_t scgc0; /* 0x110 RW Sleep-mode Clock Gating */
-		uint32_t scgc1; /* 0x114 RW Sleep-mode Clock Gating */
-		uint32_t scgc2; /* 0x118 RW Sleep-mode Clock Gating */
+		u32_t scgc0; /* 0x110 RW Sleep-mode Clock Gating */
+		u32_t scgc1; /* 0x114 RW Sleep-mode Clock Gating */
+		u32_t scgc2; /* 0x118 RW Sleep-mode Clock Gating */
 
-		uint32_t rsvd__11c_11f;
+		u32_t rsvd__11c_11f;
 
-		uint32_t dcgc0; /* 0x120 RW Deep sleep mode Clock Gating */
-		uint32_t dcgc1; /* 0x124 RW Deep sleep mode Clock Gating */
-		uint32_t dcgc2; /* 0x128 RW Deep sleep mode Clock Gating */
+		u32_t dcgc0; /* 0x120 RW Deep sleep mode Clock Gating */
+		u32_t dcgc1; /* 0x124 RW Deep sleep mode Clock Gating */
+		u32_t dcgc2; /* 0x128 RW Deep sleep mode Clock Gating */
 
-		uint32_t rsvd__12c_143[(0x144 - 0x12c) / 4];
+		u32_t rsvd__12c_143[(0x144 - 0x12c) / 4];
 
-		uint32_t
+		u32_t
 			dslpclkcfg; /* 0x144 RW Deep SLeeP CLocK ConFiGuration
 				       */
 	} clock;

arch/arm/soc/ti_lm3s6965/soc_config.c

@@ -18,7 +18,7 @@
 #ifdef CONFIG_UART_STELLARIS
 #include <uart.h>
 
-#define RCGC1 (*((volatile uint32_t *)0x400FE104))
+#define RCGC1 (*((volatile u32_t *)0x400FE104))
 
 #define RCGC1_UART0_EN 0x00000001
 #define RCGC1_UART1_EN 0x00000002

arch/common/gen_isr_tables.py

@@ -34,8 +34,8 @@ def read_intlist(intlist_path):
      struct {
        void * spurious_irq_handler;
        void * sw_irq_handler;
-       uint32_t num_isrs;
-       uint32_t num_vectors; <- typically CONFIG_NUM_IRQS
+       u32_t num_isrs;
+       u32_t num_vectors; <- typically CONFIG_NUM_IRQS
        struct _isr_list isrs[];  <- of size num_isrs
     }
 
@@ -44,9 +44,9 @@ def read_intlist(intlist_path):
 
     struct _isr_list {
         /** IRQ line number */
-        int32_t irq;
+        s32_t irq;
         /** Flags for this IRQ, see ISR_FLAG_* definitions */
-        int32_t flags;
+        s32_t flags;
         /** ISR to call */
         void *func;
         /** Parameter for non-direct IRQs */
@@ -129,7 +129,7 @@ def write_source_file(fp, vt, swt, intlist):
     nv = intlist["num_vectors"]
 
     if vt:
-        fp.write("uint32_t __irq_vector_table _irq_vector_table[%d] = {\n" % nv)
+        fp.write("u32_t __irq_vector_table _irq_vector_table[%d] = {\n" % nv)
         for i in range(nv):
             fp.write("\t0x%x,\n" % vt[i])
         fp.write("};\n")

arch/common/isr_tables.c

@@ -21,8 +21,8 @@
 struct int_list_header {
 	void *spurious_ptr;
 	void *handler_ptr;
-	uint32_t table_size;
-	uint32_t offset;
+	u32_t table_size;
+	u32_t offset;
 };
 
 /* These values are not included in the resulting binary, but instead form the
@@ -44,7 +44,7 @@ _GENERIC_SECTION(.irq_info) struct int_list_header _iheader = {
  * point for all interrupts. Don't generate a table in this case.
  */
 #ifdef CONFIG_GEN_IRQ_VECTOR_TABLE
-uint32_t __irq_vector_table _irq_vector_table[IRQ_TABLE_SIZE] = {
+u32_t __irq_vector_table _irq_vector_table[IRQ_TABLE_SIZE] = {
 	[0 ...(IRQ_TABLE_SIZE - 1)] = 0xabababab,
 };
 #endif

arch/nios2/core/cache.c

@@ -24,7 +24,7 @@
 #if ALT_CPU_ICACHE_SIZE > 0
 void _nios2_icache_flush_all(void)
 {
-	uint32_t i;
+	u32_t i;
 
 	for (i = 0; i < ALT_CPU_ICACHE_SIZE; i += ALT_CPU_ICACHE_LINE_SIZE) {
 		_nios2_icache_flush(i);
@@ -53,7 +53,7 @@ void _nios2_icache_flush_all(void)
 #if ALT_CPU_DCACHE_SIZE > 0
 void _nios2_dcache_flush_all(void)
 {
-	uint32_t i;
+	u32_t i;
 
 	for (i = 0; i < ALT_CPU_DCACHE_SIZE; i += ALT_CPU_DCACHE_LINE_SIZE) {
 		_nios2_dcache_flush(i);

arch/nios2/core/crt0.S

@@ -112,7 +112,7 @@ SECTION_FUNC(TEXT, __start)
 	ori r3, r3, 0xaaaa
 1:
 	/* Loop through the _interrupt_stack treating it as an array of
-	 * uint32_t, setting each element to r3 */
+	 * u32_t, setting each element to r3 */
 	stw r3, (r1)
 	subi r2, r2, 4
 	addi r1, r1, 4

arch/nios2/core/fatal.c

@@ -100,7 +100,7 @@ FUNC_NORETURN void _NanoFatalErrorHandler(unsigned int reason,
 
 #if defined(CONFIG_EXTRA_EXCEPTION_INFO) && defined(CONFIG_PRINTK) \
 	&& defined(ALT_CPU_HAS_EXTRA_EXCEPTION_INFO)
-static char *cause_str(uint32_t cause_code)
+static char *cause_str(u32_t cause_code)
 {
 	switch (cause_code) {
 	case 0:
@@ -164,7 +164,7 @@ FUNC_NORETURN void _Fault(const NANO_ESF *esf)
 #ifdef CONFIG_PRINTK
 	/* Unfortunately, completely unavailable on Nios II/e cores */
 #ifdef ALT_CPU_HAS_EXTRA_EXCEPTION_INFO
-	uint32_t exc_reg, badaddr_reg, eccftl;
+	u32_t exc_reg, badaddr_reg, eccftl;
 	enum nios2_exception_cause cause;
 
 	exc_reg = _nios2_creg_read(NIOS2_CR_EXCEPTION);
@@ -176,13 +176,13 @@ FUNC_NORETURN void _Fault(const NANO_ESF *esf)
 	cause = (exc_reg & NIOS2_EXCEPTION_REG_CAUSE_MASK)
 		 >> NIOS2_EXCEPTION_REG_CAUSE_OFST;
 
-	printk("Exception cause: %d ECCFTL: 0x%" PRIu32 "\n", cause, eccftl);
+	printk("Exception cause: %d ECCFTL: 0x%x\n", cause, eccftl);
 #if CONFIG_EXTRA_EXCEPTION_INFO
 	printk("reason: %s\n", cause_str(cause));
 #endif
 	if (BIT(cause) & NIOS2_BADADDR_CAUSE_MASK) {
 		badaddr_reg = _nios2_creg_read(NIOS2_CR_BADADDR);
-		printk("Badaddr: 0x%" PRIx32 "\n", badaddr_reg);
+		printk("Badaddr: 0x%x\n", badaddr_reg);
 	}
 #endif /* ALT_CPU_HAS_EXTRA_EXCEPTION_INFO */
 #endif /* CONFIG_PRINTK */

arch/nios2/core/irq_manage.c

@@ -30,7 +30,7 @@ void _irq_spurious(void *unused)
 
 void _arch_irq_enable(unsigned int irq)
 {
-	uint32_t ienable;
+	u32_t ienable;
 	int key;
 
 	key = irq_lock();
@@ -46,7 +46,7 @@ void _arch_irq_enable(unsigned int irq)
 
 void _arch_irq_disable(unsigned int irq)
 {
-	uint32_t ienable;
+	u32_t ienable;
 	int key;
 
 	key = irq_lock();
@@ -66,7 +66,7 @@ void _arch_irq_disable(unsigned int irq)
  *
  * @param ipending Bitfield of interrupts
  */
-void _enter_irq(uint32_t ipending)
+void _enter_irq(u32_t ipending)
 {
 	int index;
 

arch/nios2/core/thread.c

@@ -86,8 +86,8 @@ void _new_thread(char *stack_memory, size_t stack_size,
 	/* Initialize custom data field (value is opaque to kernel) */
 	thread->custom_data = NULL;
 #endif
-	thread->callee_saved.sp = (uint32_t)iframe;
-	thread->callee_saved.ra = (uint32_t)_thread_entry_wrapper;
+	thread->callee_saved.sp = (u32_t)iframe;
+	thread->callee_saved.ra = (u32_t)_thread_entry_wrapper;
 	thread->callee_saved.key = NIOS2_STATUS_PIE_MSK;
 	/* Leave the rest of thread->callee_saved junk */
 

arch/nios2/include/kernel_arch_data.h

@@ -57,31 +57,31 @@ typedef struct _caller_saved _caller_saved_t;
 
 struct _callee_saved {
 	/* General purpose callee-saved registers */
-	uint32_t r16;
-	uint32_t r17;
-	uint32_t r18;
-	uint32_t r19;
-	uint32_t r20;
-	uint32_t r21;
-	uint32_t r22;
-	uint32_t r23;
+	u32_t r16;
+	u32_t r17;
+	u32_t r18;
+	u32_t r19;
+	u32_t r20;
+	u32_t r21;
+	u32_t r22;
+	u32_t r23;
 
 	 /* Normally used for the frame pointer but also a general purpose
 	  * register if frame pointers omitted
 	  */
-	uint32_t r28;
+	u32_t r28;
 
 	/* Return address */
-	uint32_t ra;
+	u32_t ra;
 
 	/* Stack pointer */
-	uint32_t sp;
+	u32_t sp;
 
 	/* IRQ status before irq_lock() and call to _Swap() */
-	uint32_t key;
+	u32_t key;
 
 	/* Return value of _Swap() */
-	uint32_t retval;
+	u32_t retval;
 };
 
 typedef struct _callee_saved _callee_saved_t;

arch/nios2/include/kernel_event_logger_arch.h

@@ -28,7 +28,7 @@ extern "C" {
  */
 static inline int _sys_current_irq_key_get(void)
 {
-	uint32_t ipending;
+	u32_t ipending;
 
 	ipending = _nios2_creg_read(NIOS2_CR_IPENDING);
 	return find_lsb_set(ipending) - 1;

arch/riscv32/core/fatal.c

@@ -164,7 +164,7 @@ void _SysFatalErrorHandler(unsigned int reason, const NANO_ESF *esf)
 
 
 #ifdef CONFIG_PRINTK
-static char *cause_str(uint32_t cause)
+static char *cause_str(u32_t cause)
 {
 	switch (cause) {
 	case 0:
@@ -188,7 +188,7 @@ static char *cause_str(uint32_t cause)
 
 FUNC_NORETURN void _Fault(const NANO_ESF *esf)
 {
-	uint32_t mcause;
+	u32_t mcause;
 
 	__asm__ volatile("csrr %0, mcause" : "=r" (mcause));
 

arch/riscv32/core/irq_manage.c

@@ -10,7 +10,7 @@
 
 void _irq_spurious(void *unused)
 {
-	uint32_t mcause;
+	u32_t mcause;
 
 	ARG_UNUSED(unused);
 

arch/riscv32/core/thread.c

@@ -53,10 +53,10 @@ void _new_thread(char *stack_memory, size_t stack_size,
 				 stack_size - sizeof(struct __esf));
 
 	/* Setup the initial stack frame */
-	stack_init->a0 = (uint32_t)thread_func;
-	stack_init->a1 = (uint32_t)arg1;
-	stack_init->a2 = (uint32_t)arg2;
-	stack_init->a3 = (uint32_t)arg3;
+	stack_init->a0 = (u32_t)thread_func;
+	stack_init->a1 = (u32_t)arg1;
+	stack_init->a2 = (u32_t)arg2;
+	stack_init->a3 = (u32_t)arg3;
 	/*
 	 * Following the RISC-V architecture,
 	 * the MSTATUS register (used to globally enable/disable interrupt),
@@ -81,7 +81,7 @@ void _new_thread(char *stack_memory, size_t stack_size,
 	 *    thread stack.
 	 */
 	stack_init->mstatus = SOC_MSTATUS_DEF_RESTORE;
-	stack_init->mepc = (uint32_t)_thread_entry_wrapper;
+	stack_init->mepc = (u32_t)_thread_entry_wrapper;
 
 	/* Initialize various struct k_thread members */
 	thread = (struct k_thread *)stack_memory;
@@ -97,7 +97,7 @@ void _new_thread(char *stack_memory, size_t stack_size,
 	thread->custom_data = NULL;
 #endif
 
-	thread->callee_saved.sp = (uint32_t)stack_init;
+	thread->callee_saved.sp = (u32_t)stack_init;
 
 	thread_monitor_init(thread);
 }

arch/riscv32/include/kernel_arch_data.h

@@ -35,20 +35,20 @@ extern "C" {
  * saved/restored when a cooperative context switch occurs.
  */
 struct _callee_saved {
-	uint32_t sp;       /* Stack pointer, (x2 register) */
-
-	uint32_t s0;       /* saved register/frame pointer */
-	uint32_t s1;       /* saved register */
-	uint32_t s2;       /* saved register */
-	uint32_t s3;       /* saved register */
-	uint32_t s4;       /* saved register */
-	uint32_t s5;       /* saved register */
-	uint32_t s6;       /* saved register */
-	uint32_t s7;       /* saved register */
-	uint32_t s8;       /* saved register */
-	uint32_t s9;       /* saved register */
-	uint32_t s10;      /* saved register */
-	uint32_t s11;      /* saved register */
+	u32_t sp;       /* Stack pointer, (x2 register) */
+
+	u32_t s0;       /* saved register/frame pointer */
+	u32_t s1;       /* saved register */
+	u32_t s2;       /* saved register */
+	u32_t s3;       /* saved register */
+	u32_t s4;       /* saved register */
+	u32_t s5;       /* saved register */
+	u32_t s6;       /* saved register */
+	u32_t s7;       /* saved register */
+	u32_t s8;       /* saved register */
+	u32_t s9;       /* saved register */
+	u32_t s10;      /* saved register */
+	u32_t s11;      /* saved register */
 };
 typedef struct _callee_saved _callee_saved_t;
 
@@ -62,7 +62,7 @@ struct _caller_saved {
 typedef struct _caller_saved _caller_saved_t;
 
 struct _thread_arch {
-	uint32_t swap_return_value; /* Return value of _Swap() */
+	u32_t swap_return_value; /* Return value of _Swap() */
 };
 
 typedef struct _thread_arch _thread_arch_t;

arch/riscv32/include/kernel_event_logger_arch.h

@@ -28,7 +28,7 @@ extern "C" {
  */
 static inline int _sys_current_irq_key_get(void)
 {
-	uint32_t mcause;
+	u32_t mcause;
 
 	__asm__ volatile("csrr %0, mcause" : "=r" (mcause));
 

arch/riscv32/soc/riscv-privilege/common/soc_common.h

@@ -60,10 +60,10 @@ void soc_interrupt_init(void);
 #endif
 
 #if defined(CONFIG_RISCV_HAS_PLIC)
-void riscv_plic_irq_enable(uint32_t irq);
-void riscv_plic_irq_disable(uint32_t irq);
-int riscv_plic_irq_is_enabled(uint32_t irq);
-void riscv_plic_set_priority(uint32_t irq, uint32_t priority);
+void riscv_plic_irq_enable(u32_t irq);
+void riscv_plic_irq_disable(u32_t irq);
+int riscv_plic_irq_is_enabled(u32_t irq);
+void riscv_plic_set_priority(u32_t irq, u32_t priority);
 int riscv_plic_get_irq(void);
 #endif
 

arch/riscv32/soc/riscv-privilege/common/soc_common_irq.c

@@ -13,7 +13,7 @@
 
 void _arch_irq_enable(unsigned int irq)
 {
-	uint32_t mie;
+	u32_t mie;
 
 #if defined(CONFIG_RISCV_HAS_PLIC)
 	if (irq > RISCV_MAX_GENERIC_IRQ) {
@@ -33,7 +33,7 @@ void _arch_irq_enable(unsigned int irq)
 
 void _arch_irq_disable(unsigned int irq)
 {
-	uint32_t mie;
+	u32_t mie;
 
 #if defined(CONFIG_RISCV_HAS_PLIC)
 	if (irq > RISCV_MAX_GENERIC_IRQ) {
@@ -53,7 +53,7 @@ void _arch_irq_disable(unsigned int irq)
 
 int _arch_irq_is_enabled(unsigned int irq)
 {
-	uint32_t mie;
+	u32_t mie;
 
 #if defined(CONFIG_RISCV_HAS_PLIC)
 	if (irq > RISCV_MAX_GENERIC_IRQ)

arch/x86/core/cpuhalt.c

@@ -28,7 +28,7 @@
 #include <arch/cpu.h>
 
 #ifdef CONFIG_BOOT_TIME_MEASUREMENT
-extern uint64_t __idle_tsc;  /* timestamp when CPU went idle */
+extern u64_t __idle_tsc;  /* timestamp when CPU went idle */
 #endif
 
 /**

arch/x86/core/excstub.S

@@ -47,7 +47,7 @@
  *
  * C function prototype:
  *
- * void _exception_enter(uint32_t error_code, void *handler)
+ * void _exception_enter(u32_t error_code, void *handler)
  *
  */
 

arch/x86/core/fatal.c

@@ -184,13 +184,13 @@ EXC_FUNC_NOCODE(IV_MACHINE_CHECK);
 
 FUNC_NORETURN void page_fault_handler(const NANO_ESF *pEsf)
 {
-	uint32_t err, cr2;
+	u32_t err, cr2;
 
 	/* See Section 6.15 of the IA32 Software Developer's Manual vol 3 */
 	__asm__ ("mov %%cr2, %0" : "=r" (cr2));
 
 	err = pEsf->errorCode;
-	printk("***** CPU Page Fault (error code 0x%08" PRIx32 ")\n", err);
+	printk("***** CPU Page Fault (error code 0x%08x)\n", err);
 
 	printk("%s thread %s address 0x%08" PRIx32 "\n",
 	       err & US ? "User" : "Supervisor",

arch/x86/core/float.c

@@ -48,7 +48,7 @@
 #ifdef CONFIG_FP_SHARING
 
 /* SSE control/status register default value (used by assembler code) */
-extern uint32_t _sse_mxcsr_default_value;
+extern u32_t _sse_mxcsr_default_value;
 
 /*
  * Save a thread's floating point context information.
@@ -104,7 +104,7 @@ void k_float_enable(struct tcs *tcs, unsigned int options)
 
 	/* Indicate thread requires floating point context saving */
 
-	tcs->base.user_options |= (uint8_t)options;
+	tcs->base.user_options |= (u8_t)options;
 
 	/*
 	 * The current thread might not allow FP instructions, so clear CR0[TS]

arch/x86/core/irq_manage.c

@@ -62,7 +62,7 @@ void *__attribute__((section(".spurNoErrIsr")))
 void _arch_irq_direct_pm(void)
 {
 	if (_kernel.idle) {
-		int32_t idle_val = _kernel.idle;
+		s32_t idle_val = _kernel.idle;
 
 		_kernel.idle = 0;
 		_sys_power_save_idle_exit(idle_val);

arch/x86/core/msr.c

@@ -29,7 +29,7 @@
  *
  * @return N/A
  */
-void _MsrWrite(unsigned int msr, uint64_t msr_data)
+void _MsrWrite(unsigned int msr, u64_t msr_data)
 {
 	__asm__ volatile (
 	    "movl %[msr], %%ecx\n\t"
@@ -38,8 +38,8 @@ void _MsrWrite(unsigned int msr, uint64_t msr_data)
 	    "wrmsr"
 	    :
 	    : [msr] "m" (msr),
-	      [data_lo] "rm" ((uint32_t)(msr_data & 0xFFFFFFFF)),
-	      [data_hi] "rm" ((uint32_t)(msr_data >> 32))
+	      [data_lo] "rm" ((u32_t)(msr_data & 0xFFFFFFFF)),
+	      [data_hi] "rm" ((u32_t)(msr_data >> 32))
 	    : "eax", "ecx", "edx");
 }
 
@@ -62,9 +62,9 @@ void _MsrWrite(unsigned int msr, uint64_t msr_data)
  *
  * @return N/A
  */
-uint64_t _MsrRead(unsigned int msr)
+u64_t _MsrRead(unsigned int msr)
 {
-	uint64_t ret;
+	u64_t ret;
 
 	__asm__ volatile (
 	    "movl %[msr], %%ecx\n\t"

arch/x86/core/reboot_rst_cnt.c

@@ -15,7 +15,7 @@
 
 static inline void cold_reboot(void)
 {
-	uint8_t reset_value = SYS_X86_RST_CNT_CPU_RST | SYS_X86_RST_CNT_SYS_RST |
+	u8_t reset_value = SYS_X86_RST_CNT_CPU_RST | SYS_X86_RST_CNT_SYS_RST |
 							SYS_X86_RST_CNT_FULL_RST;
 	sys_out8(reset_value, SYS_X86_RST_CNT_REG);
 }

arch/x86/debug/gdb_arch.c

@@ -149,27 +149,27 @@ void gdb_arch_regs_to_isf(struct gdb_reg_set *regs, NANO_ISF *isf)
 
 void gdb_arch_regs_get(struct gdb_reg_set *regs, char *buffer)
 {
-	*((uint32_t *) buffer) = regs->regs.eax;
+	*((u32_t *) buffer) = regs->regs.eax;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.ecx;
+	*((u32_t *) buffer) = regs->regs.ecx;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.edx;
+	*((u32_t *) buffer) = regs->regs.edx;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.ebx;
+	*((u32_t *) buffer) = regs->regs.ebx;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.esp;
+	*((u32_t *) buffer) = regs->regs.esp;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.ebp;
+	*((u32_t *) buffer) = regs->regs.ebp;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.esi;
+	*((u32_t *) buffer) = regs->regs.esi;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.edi;
+	*((u32_t *) buffer) = regs->regs.edi;
 	buffer += 4;
-	*((uint32_t *) buffer) = (uint32_t) regs->regs.eip;
+	*((u32_t *) buffer) = (u32_t) regs->regs.eip;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.eflags;
+	*((u32_t *) buffer) = regs->regs.eflags;
 	buffer += 4;
-	*((uint32_t *) buffer) = regs->regs.cs;
+	*((u32_t *) buffer) = regs->regs.cs;
 }
 
 /**
@@ -187,27 +187,27 @@ void gdb_arch_regs_get(struct gdb_reg_set *regs, char *buffer)
 
 void gdb_arch_regs_set(struct gdb_reg_set *regs, char *buffer)
 {
-	regs->regs.eax = *((uint32_t *)buffer);
+	regs->regs.eax = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.ecx = *((uint32_t *)buffer);
+	regs->regs.ecx = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.edx = *((uint32_t *)buffer);
+	regs->regs.edx = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.ebx = *((uint32_t *)buffer);
+	regs->regs.ebx = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.esp = *((uint32_t *)buffer);
+	regs->regs.esp = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.ebp = *((uint32_t *)buffer);
+	regs->regs.ebp = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.esi = *((uint32_t *)buffer);
+	regs->regs.esi = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.edi = *((uint32_t *)buffer);
+	regs->regs.edi = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.eip = *((uint32_t *)buffer);
+	regs->regs.eip = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.eflags = *((uint32_t *)buffer);
+	regs->regs.eflags = *((u32_t *)buffer);
 	buffer += 4;
-	regs->regs.cs = *((uint32_t *)buffer);
+	regs->regs.cs = *((u32_t *)buffer);
 }
 
 /**

arch/x86/include/kernel_arch_func.h

@@ -84,8 +84,8 @@ _set_thread_return_value(struct k_thread *thread, unsigned int value)
 
 extern void k_cpu_atomic_idle(unsigned int imask);
 
-extern void _MsrWrite(unsigned int msr, uint64_t msrData);
-extern uint64_t _MsrRead(unsigned int msr);
+extern void _MsrWrite(unsigned int msr, u64_t msrData);
+extern u64_t _MsrRead(unsigned int msr);
 
 /*
  * _IntLibInit() is called from the non-arch specific function,

arch/x86/soc/intel_quark/quark_se/power.c

@@ -13,21 +13,21 @@
 
 #include "power_states.h"
 
-#define _REG_TIMER_ICR ((volatile uint32_t *) \
+#define _REG_TIMER_ICR ((volatile u32_t *) \
 			(CONFIG_LOAPIC_BASE_ADDRESS + LOAPIC_TIMER_ICR))
 
 /* Variables used to save CPU state */
-uint64_t _pm_save_gdtr;
-uint64_t _pm_save_idtr;
-uint32_t _pm_save_esp;
+u64_t _pm_save_gdtr;
+u64_t _pm_save_idtr;
+u32_t _pm_save_esp;
 
 extern void _power_soc_sleep(void);
 extern void _power_restore_cpu_context(void);
 extern void _power_soc_deep_sleep(void);
 
 #if (defined(CONFIG_SYS_POWER_DEEP_SLEEP))
-static uint32_t  *__x86_restore_info =
-	(uint32_t *)CONFIG_BSP_SHARED_RESTORE_INFO_RAM_ADDR;
+static u32_t  *__x86_restore_info =
+	(u32_t *)CONFIG_BSP_SHARED_RESTORE_INFO_RAM_ADDR;
 
 static void _deep_sleep(enum power_states state)
 {

arch/x86/soc/intel_quark/quark_se/shared_mem.h

@@ -11,8 +11,8 @@
 #define SHARED_ADDR_START 0xA8000000
 
 struct shared_mem {
-	uint32_t arc_start;
-	uint32_t flags;
+	u32_t arc_start;
+	u32_t flags;
 };
 
 #define ARC_READY	(1 << 0)

arch/x86/soc/intel_quark/quark_se/soc.c

@@ -24,7 +24,7 @@
 
 #ifdef CONFIG_ARC_INIT
 #define SCSS_REG_VAL(offset) \
-	(*((volatile uint32_t *)(SCSS_REGISTER_BASE+offset)))
+	(*((volatile u32_t *)(SCSS_REGISTER_BASE+offset)))
 
 #define SYS_LOG_LEVEL CONFIG_SYS_LOG_ARC_INIT_LEVEL
 #include <logging/sys_log.h>
@@ -40,7 +40,7 @@
 /* This function is also called at deep sleep resume. */
 int _arc_init(struct device *arg)
 {
-	uint32_t *reset_vector;
+	u32_t *reset_vector;
 
 	ARG_UNUSED(arg);
 
@@ -53,7 +53,7 @@ int _arc_init(struct device *arg)
 	/* Address of ARC side __reset stored in the first 4 bytes of arc.bin,
 	 * we read the value and stick it in shared_mem->arc_start which is
 	 * the beginning of the address space at 0xA8000000 */
-	reset_vector = (uint32_t *)RESET_VECTOR;
+	reset_vector = (u32_t *)RESET_VECTOR;
 	SYS_LOG_DBG("Reset vector address: %x", *reset_vector);
 	shared_data->arc_start = *reset_vector;
 	shared_data->flags = 0;

arch/x86/soc/intel_quark/quark_se/soc_config.c

@@ -40,7 +40,7 @@ QUARK_SE_IPM_DEFINE(quark_se_ipm4, 4, QUARK_SE_IPM_INBOUND);
 
 #define QUARK_SE_IPM_CONSOLE_LINE_BUF_SIZE	80
 
-static uint32_t ipm_console_ring_buf_data[CONFIG_QUARK_SE_IPM_CONSOLE_RING_BUF_SIZE32];
+static u32_t ipm_console_ring_buf_data[CONFIG_QUARK_SE_IPM_CONSOLE_RING_BUF_SIZE32];
 static char __stack ipm_console_thread_stack[CONFIG_IPM_CONSOLE_STACK_SIZE];
 static char ipm_console_line_buf[QUARK_SE_IPM_CONSOLE_LINE_BUF_SIZE];
 

arch/xtensa/core/irq_manage.c

@@ -27,7 +27,7 @@
  * @return N/A
  */
 
-void _irq_priority_set(unsigned int irq, unsigned int prio, uint32_t flags)
+void _irq_priority_set(unsigned int irq, unsigned int prio, u32_t flags)
 {
 	__ASSERT(prio < XCHAL_EXCM_LEVEL + 1,
 		 "invalid priority %d! values must be less than %d\n",

arch/xtensa/core/thread.c

@@ -88,7 +88,7 @@ void _new_thread(char *pStack, size_t stackSize,
 	 */
 	struct k_thread *thread = (struct k_thread *)(pStack);
 #if XCHAL_CP_NUM > 0
-	uint32_t *cpSA;
+	u32_t *cpSA;
 	char *cpStack;
 #endif
 
@@ -104,7 +104,7 @@ void _new_thread(char *pStack, size_t stackSize,
 	cpStack = thread->arch.preempCoprocReg.cpStack; /* short hand alias */
 	memset(cpStack, 0, XT_CP_ASA); /* Set to zero to avoid bad surprises */
 	/* Coprocessor's stack is allocated just after the k_thread */
-	cpSA = (uint32_t *)(thread->arch.preempCoprocReg.cpStack + XT_CP_ASA);
+	cpSA = (u32_t *)(thread->arch.preempCoprocReg.cpStack + XT_CP_ASA);
 	/* Coprocessor's save area alignment is at leat 16 bytes */
 	*cpSA = ROUND_UP(cpSA + 1,
 		(XCHAL_TOTAL_SA_ALIGN < 16 ? 16 : XCHAL_TOTAL_SA_ALIGN));
@@ -125,31 +125,31 @@ void _new_thread(char *pStack, size_t stackSize,
 	/* Explicitly initialize certain saved registers */
 
 	 /* task entrypoint */
-	pInitCtx->pc   = (uint32_t)_thread_entry;
+	pInitCtx->pc   = (u32_t)_thread_entry;
 
 	/* physical top of stack frame */
-	pInitCtx->a1   = (uint32_t)pInitCtx + XT_STK_FRMSZ;
+	pInitCtx->a1   = (u32_t)pInitCtx + XT_STK_FRMSZ;
 
 	/* user exception exit dispatcher */
-	pInitCtx->exit = (uint32_t)_xt_user_exit;
+	pInitCtx->exit = (u32_t)_xt_user_exit;
 
 	/* Set initial PS to int level 0, EXCM disabled, user mode.
 	 * Also set entry point argument arg.
 	 */
 #ifdef __XTENSA_CALL0_ABI__
-	pInitCtx->a2 = (uint32_t)pEntry;
-	pInitCtx->a3 = (uint32_t)p1;
-	pInitCtx->a4 = (uint32_t)p2;
-	pInitCtx->a5 = (uint32_t)p3;
+	pInitCtx->a2 = (u32_t)pEntry;
+	pInitCtx->a3 = (u32_t)p1;
+	pInitCtx->a4 = (u32_t)p2;
+	pInitCtx->a5 = (u32_t)p3;
 	pInitCtx->ps = PS_UM | PS_EXCM;
 #else
 	/* For windowed ABI set also WOE and CALLINC
 	 * (pretend task is 'call4')
 	 */
-	pInitCtx->a6 = (uint32_t)pEntry;
-	pInitCtx->a7 = (uint32_t)p1;
-	pInitCtx->a8 = (uint32_t)p2;
-	pInitCtx->a9 = (uint32_t)p3;
+	pInitCtx->a6 = (u32_t)pEntry;
+	pInitCtx->a7 = (u32_t)p1;
+	pInitCtx->a8 = (u32_t)p2;
+	pInitCtx->a9 = (u32_t)p3;
 	pInitCtx->ps = PS_UM | PS_EXCM | PS_WOE | PS_CALLINC(1);
 #endif
 	thread->callee_saved.topOfStack = pInitCtx;

arch/xtensa/include/kernel_arch_data.h

@@ -79,7 +79,7 @@ struct _callee_saved {
 	 * callee-saved, but their values are pushed onto the stack rather than
 	 * stored in the k_thread structure:
 	 */
-	uint32_t retval; /* a2 */
+	u32_t retval; /* a2 */
 	XtExcFrame *topOfStack; /* a1 = sp */
 };
 
@@ -129,7 +129,7 @@ struct _thread_arch {
 	 * before any #ifdef'ed fields since the host tools currently use a
 	 * fixed offset to read the 'flags' field.
 	 */
-	uint32_t flags;
+	u32_t flags;
 #ifdef CONFIG_THREAD_CUSTOM_DATA
 	void *custom_data;     /* available for custom use */
 #endif