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Add Cortex M55 and M85 to ports

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This commit is contained in:
Scott Larson
2022-07-07 11:42:14 -07:00
parent 83b57acde9
commit 54cda6ee9e
126 changed files with 27318 additions and 0 deletions
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278
ports/cortex_m85/ac6/src/tx_initialize_low_level.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Initialize */
/** */
/**************************************************************************/
/**************************************************************************/
SYSTEM_CLOCK = 6000000
SYSTICK_CYCLES = ((SYSTEM_CLOCK / 100) -1)
/* Setup the stack and heap areas. */
STACK_SIZE = 0x00000400
HEAP_SIZE = 0x00000000
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_initialize_low_level Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function is responsible for any low-level processor */
/* initialization, including setting up interrupt vectors, setting */
/* up a periodic timer interrupt source, saving the system stack */
/* pointer for use in ISR processing later, and finding the first */
/* available RAM memory address for tx_application_define. */
/* */
/* INPUT */
/* */
/* None */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* None */
/* */
/* CALLED BY */
/* */
/* _tx_initialize_kernel_enter ThreadX entry function */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// VOID _tx_initialize_low_level(VOID)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_initialize_low_level
.thumb_func
.type _tx_initialize_low_level, function
_tx_initialize_low_level:
/* Disable interrupts during ThreadX initialization. */
CPSID i
/* Set base of available memory to end of non-initialised RAM area. */
LDR r0, =_tx_initialize_unused_memory // Build address of unused memory pointer
LDR r1, =Image$$ARM_LIB_STACK$$ZI$$Limit // Build first free address
ADD r1, r1, #4 //
STR r1, [r0] // Setup first unused memory pointer
/* Setup Vector Table Offset Register. */
MOV r0, #0xE000E000 // Build address of NVIC registers
LDR r1, =__Vectors // Pickup address of vector table
STR r1, [r0, #0xD08] // Set vector table address
/* Enable the cycle count register. */
LDR r0, =0xE0001000 // Build address of DWT register
LDR r1, [r0] // Pickup the current value
ORR r1, r1, #1 // Set the CYCCNTENA bit
STR r1, [r0] // Enable the cycle count register
/* Set system stack pointer from vector value. */
LDR r0, =_tx_thread_system_stack_ptr // Build address of system stack pointer
LDR r1, =__Vectors // Pickup address of vector table
LDR r1, [r1] // Pickup reset stack pointer
STR r1, [r0] // Save system stack pointer
/* Configure SysTick. */
MOV r0, #0xE000E000 // Build address of NVIC registers
LDR r1, =SYSTICK_CYCLES
STR r1, [r0, #0x14] // Setup SysTick Reload Value
MOV r1, #0x7 // Build SysTick Control Enable Value
STR r1, [r0, #0x10] // Setup SysTick Control
/* Configure handler priorities. */
LDR r1, =0x00000000 // Rsrv, UsgF, BusF, MemM
STR r1, [r0, #0xD18] // Setup System Handlers 4-7 Priority Registers
LDR r1, =0xFF000000 // SVCl, Rsrv, Rsrv, Rsrv
STR r1, [r0, #0xD1C] // Setup System Handlers 8-11 Priority Registers
// Note: SVC must be lowest priority, which is 0xFF
LDR r1, =0x40FF0000 // SysT, PnSV, Rsrv, DbgM
STR r1, [r0, #0xD20] // Setup System Handlers 12-15 Priority Registers
// Note: PnSV must be lowest priority, which is 0xFF
/* Return to caller. */
BX lr
// }
/* Define shells for each of the unused vectors. */
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global __tx_BadHandler
.thumb_func
.type __tx_BadHandler, function
__tx_BadHandler:
B __tx_BadHandler
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global __tx_IntHandler
.thumb_func
.type __tx_IntHandler, function
__tx_IntHandler:
// VOID InterruptHandler (VOID)
// {
PUSH {r0,lr} // Save LR (and dummy r0 to maintain stack alignment)
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
BL _tx_execution_isr_enter // Call the ISR enter function
#endif
/* Do interrupt handler work here */
/* .... */
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
BL _tx_execution_isr_exit // Call the ISR exit function
#endif
POP {r0,lr}
BX LR
// }
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global SysTick_Handler
.thumb_func
.type SysTick_Handler, function
SysTick_Handler:
// VOID TimerInterruptHandler (VOID)
// {
PUSH {r0,lr} // Save LR (and dummy r0 to maintain stack alignment)
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
BL _tx_execution_isr_enter // Call the ISR enter function
#endif
BL _tx_timer_interrupt
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
BL _tx_execution_isr_exit // Call the ISR exit function
#endif
POP {r0,lr}
BX LR
// }
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global HardFault_Handler
.thumb_func
.type HardFault_Handler, function
HardFault_Handler:
B HardFault_Handler
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global UsageFault_Handler
.thumb_func
.type UsageFault_Handler, function
UsageFault_Handler:
CPSID i // Disable interrupts
// Check for stack limit fault
LDR r0, =0xE000ED28 // CFSR address
LDR r1,[r0] // Pick up CFSR
TST r1, #0x00100000 // Check for Stack Overflow
_unhandled_usage_loop:
BEQ _unhandled_usage_loop // If not stack overflow then loop
// Handle stack overflow
STR r1, [r0] // Clear CFSR flag(s)
#ifdef __ARM_PCS_VFP
LDR r0, =0xE000EF34 // Cleanup FPU context: Load FPCCR address
LDR r1, [r0] // Load FPCCR
BIC r1, r1, #1 // Clear the lazy preservation active bit
STR r1, [r0] // Store the value
#endif
LDR r0, =_tx_thread_current_ptr // Build current thread pointer address
LDR r0,[r0] // Pick up current thread pointer
PUSH {r0,lr} // Save LR (and r0 to maintain stack alignment)
BL _tx_thread_stack_error_handler // Call ThreadX/user handler
POP {r0,lr} // Restore LR and dummy reg
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
// Call the thread exit function to indicate the thread is no longer executing.
PUSH {r0, lr} // Save LR (and r0 just for alignment)
BL _tx_execution_thread_exit // Call the thread exit function
POP {r0, lr} // Recover LR
#endif
MOV r1, #0 // Build NULL value
LDR r0, =_tx_thread_current_ptr // Pickup address of current thread pointer
STR r1, [r0] // Clear current thread pointer
// Return from UsageFault_Handler exception
LDR r0, =0xE000ED04 // Load ICSR
LDR r1, =0x10000000 // Set PENDSVSET bit
STR r1, [r0] // Store ICSR
DSB // Wait for memory access to complete
CPSIE i // Enable interrupts
BX lr // Return from exception
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global __tx_NMIHandler
.thumb_func
.type __tx_NMIHandler, function
__tx_NMIHandler:
B __tx_NMIHandler
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global __tx_DBGHandler
.thumb_func
.type __tx_DBGHandler, function
__tx_DBGHandler:
B __tx_DBGHandler
.end

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ports/cortex_m85/ac6/src/tx_misra.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** ThreadX MISRA Compliance */
/** */
/**************************************************************************/
/**************************************************************************/
#define SHT_PROGBITS 0x1
.global __aeabi_memset
.global _tx_thread_current_ptr
.global _tx_thread_interrupt_disable
.global _tx_thread_interrupt_restore
.global _tx_thread_stack_analyze
.global _tx_thread_stack_error_handler
.global _tx_thread_system_state
#ifdef TX_ENABLE_EVENT_TRACE
.global _tx_trace_buffer_current_ptr
.global _tx_trace_buffer_end_ptr
.global _tx_trace_buffer_start_ptr
.global _tx_trace_event_enable_bits
.global _tx_trace_full_notify_function
.global _tx_trace_header_ptr
#endif
.global _tx_misra_always_true
.global _tx_misra_block_pool_to_uchar_pointer_convert
.global _tx_misra_byte_pool_to_uchar_pointer_convert
.global _tx_misra_char_to_uchar_pointer_convert
.global _tx_misra_const_char_to_char_pointer_convert
#ifdef TX_ENABLE_EVENT_TRACE
.global _tx_misra_entry_to_uchar_pointer_convert
#endif
.global _tx_misra_indirect_void_to_uchar_pointer_convert
.global _tx_misra_memset
.global _tx_misra_message_copy
#ifdef TX_ENABLE_EVENT_TRACE
.global _tx_misra_object_to_uchar_pointer_convert
#endif
.global _tx_misra_pointer_to_ulong_convert
.global _tx_misra_status_get
.global _tx_misra_thread_stack_check
#ifdef TX_ENABLE_EVENT_TRACE
.global _tx_misra_time_stamp_get
#endif
.global _tx_misra_timer_indirect_to_void_pointer_convert
.global _tx_misra_timer_pointer_add
.global _tx_misra_timer_pointer_dif
#ifdef TX_ENABLE_EVENT_TRACE
.global _tx_misra_trace_event_insert
#endif
.global _tx_misra_uchar_pointer_add
.global _tx_misra_uchar_pointer_dif
.global _tx_misra_uchar_pointer_sub
.global _tx_misra_uchar_to_align_type_pointer_convert
.global _tx_misra_uchar_to_block_pool_pointer_convert
#ifdef TX_ENABLE_EVENT_TRACE
.global _tx_misra_uchar_to_entry_pointer_convert
.global _tx_misra_uchar_to_header_pointer_convert
#endif
.global _tx_misra_uchar_to_indirect_byte_pool_pointer_convert
.global _tx_misra_uchar_to_indirect_uchar_pointer_convert
#ifdef TX_ENABLE_EVENT_TRACE
.global _tx_misra_uchar_to_object_pointer_convert
#endif
.global _tx_misra_uchar_to_void_pointer_convert
.global _tx_misra_ulong_pointer_add
.global _tx_misra_ulong_pointer_dif
.global _tx_misra_ulong_pointer_sub
.global _tx_misra_ulong_to_pointer_convert
.global _tx_misra_ulong_to_thread_pointer_convert
.global _tx_misra_user_timer_pointer_get
.global _tx_misra_void_to_block_pool_pointer_convert
.global _tx_misra_void_to_byte_pool_pointer_convert
.global _tx_misra_void_to_event_flags_pointer_convert
.global _tx_misra_void_to_indirect_uchar_pointer_convert
.global _tx_misra_void_to_mutex_pointer_convert
.global _tx_misra_void_to_queue_pointer_convert
.global _tx_misra_void_to_semaphore_pointer_convert
.global _tx_misra_void_to_thread_pointer_convert
.global _tx_misra_void_to_uchar_pointer_convert
.global _tx_misra_void_to_ulong_pointer_convert
.global _tx_misra_ipsr_get
.global _tx_misra_control_get
.global _tx_misra_control_set
#ifdef __ARM_FP
.global _tx_misra_fpccr_get
.global _tx_misra_vfp_touch
#endif
.global _tx_misra_event_flags_group_not_used
.global _tx_misra_event_flags_set_notify_not_used
.global _tx_misra_queue_not_used
.global _tx_misra_queue_send_notify_not_used
.global _tx_misra_semaphore_not_used
.global _tx_misra_semaphore_put_notify_not_used
.global _tx_misra_thread_entry_exit_notify_not_used
.global _tx_misra_thread_not_used
/**************************************************************************/
/**************************************************************************/
/** */
/** VOID _tx_misra_memset(VOID *ptr, UINT value, UINT size); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.align 4
.syntax unified
.thumb_func
_tx_misra_memset:
PUSH {R4,LR}
MOVS R4,R0
MOVS R0,R2
MOVS R2,R1
MOVS R1,R0
MOVS R0,R4
BL __aeabi_memset
POP {R4,PC} // return
/**************************************************************************/
/**************************************************************************/
/** */
/** UCHAR *_tx_misra_uchar_pointer_add(UCHAR *ptr, ULONG amount); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_uchar_pointer_add:
ADD R0,R0,R1
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** UCHAR *_tx_misra_uchar_pointer_sub(UCHAR *ptr, ULONG amount); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_uchar_pointer_sub:
RSBS R1,R1,#+0
ADD R0,R0,R1
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** ULONG _tx_misra_uchar_pointer_dif(UCHAR *ptr1, UCHAR *ptr2); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_uchar_pointer_dif:
SUBS R0,R0,R1
BX LR // return
/************************************************************************************************************************************/
/************************************************************************************************************************************/
/** */
/** This single function serves all of the below prototypes. */
/** */
/** ULONG _tx_misra_pointer_to_ulong_convert(VOID *ptr); */
/** VOID *_tx_misra_ulong_to_pointer_convert(ULONG input); */
/** UCHAR **_tx_misra_indirect_void_to_uchar_pointer_convert(VOID **return_ptr); */
/** UCHAR **_tx_misra_uchar_to_indirect_uchar_pointer_convert(UCHAR *pointer); */
/** UCHAR *_tx_misra_block_pool_to_uchar_pointer_convert(TX_BLOCK_POOL *pool); */
/** TX_BLOCK_POOL *_tx_misra_void_to_block_pool_pointer_convert(VOID *pointer); */
/** UCHAR *_tx_misra_void_to_uchar_pointer_convert(VOID *pointer); */
/** TX_BLOCK_POOL *_tx_misra_uchar_to_block_pool_pointer_convert(UCHAR *pointer); */
/** UCHAR **_tx_misra_void_to_indirect_uchar_pointer_convert(VOID *pointer); */
/** TX_BYTE_POOL *_tx_misra_void_to_byte_pool_pointer_convert(VOID *pointer); */
/** UCHAR *_tx_misra_byte_pool_to_uchar_pointer_convert(TX_BYTE_POOL *pool); */
/** ALIGN_TYPE *_tx_misra_uchar_to_align_type_pointer_convert(UCHAR *pointer); */
/** TX_BYTE_POOL **_tx_misra_uchar_to_indirect_byte_pool_pointer_convert(UCHAR *pointer); */
/** TX_EVENT_FLAGS_GROUP *_tx_misra_void_to_event_flags_pointer_convert(VOID *pointer); */
/** ULONG *_tx_misra_void_to_ulong_pointer_convert(VOID *pointer); */
/** TX_MUTEX *_tx_misra_void_to_mutex_pointer_convert(VOID *pointer); */
/** TX_QUEUE *_tx_misra_void_to_queue_pointer_convert(VOID *pointer); */
/** TX_SEMAPHORE *_tx_misra_void_to_semaphore_pointer_convert(VOID *pointer); */
/** VOID *_tx_misra_uchar_to_void_pointer_convert(UCHAR *pointer); */
/** TX_THREAD *_tx_misra_ulong_to_thread_pointer_convert(ULONG value); */
/** VOID *_tx_misra_timer_indirect_to_void_pointer_convert(TX_TIMER_INTERNAL **pointer); */
/** CHAR *_tx_misra_const_char_to_char_pointer_convert(const char *pointer); */
/** TX_THREAD *_tx_misra_void_to_thread_pointer_convert(void *pointer); */
/** UCHAR *_tx_misra_object_to_uchar_pointer_convert(TX_TRACE_OBJECT_ENTRY *pointer); */
/** TX_TRACE_OBJECT_ENTRY *_tx_misra_uchar_to_object_pointer_convert(UCHAR *pointer); */
/** TX_TRACE_HEADER *_tx_misra_uchar_to_header_pointer_convert(UCHAR *pointer); */
/** TX_TRACE_BUFFER_ENTRY *_tx_misra_uchar_to_entry_pointer_convert(UCHAR *pointer); */
/** UCHAR *_tx_misra_entry_to_uchar_pointer_convert(TX_TRACE_BUFFER_ENTRY *pointer); */
/** UCHAR *_tx_misra_char_to_uchar_pointer_convert(CHAR *pointer); */
/** VOID _tx_misra_event_flags_group_not_used(TX_EVENT_FLAGS_GROUP *group_ptr); */
/** VOID _tx_misra_event_flags_set_notify_not_used(VOID (*events_set_notify)(TX_EVENT_FLAGS_GROUP *notify_group_ptr)); */
/** VOID _tx_misra_queue_not_used(TX_QUEUE *queue_ptr); */
/** VOID _tx_misra_queue_send_notify_not_used(VOID (*queue_send_notify)(TX_QUEUE *notify_queue_ptr)); */
/** VOID _tx_misra_semaphore_not_used(TX_SEMAPHORE *semaphore_ptr); */
/** VOID _tx_misra_semaphore_put_notify_not_used(VOID (*semaphore_put_notify)(TX_SEMAPHORE *notify_semaphore_ptr)); */
/** VOID _tx_misra_thread_not_used(TX_THREAD *thread_ptr); */
/** VOID _tx_misra_thread_entry_exit_notify_not_used(VOID (*thread_entry_exit_notify)(TX_THREAD *notify_thread_ptr, UINT id)); */
/** */
/************************************************************************************************************************************/
/************************************************************************************************************************************/
.text
.thumb_func
_tx_misra_pointer_to_ulong_convert:
_tx_misra_ulong_to_pointer_convert:
_tx_misra_indirect_void_to_uchar_pointer_convert:
_tx_misra_uchar_to_indirect_uchar_pointer_convert:
_tx_misra_block_pool_to_uchar_pointer_convert:
_tx_misra_void_to_block_pool_pointer_convert:
_tx_misra_void_to_uchar_pointer_convert:
_tx_misra_uchar_to_block_pool_pointer_convert:
_tx_misra_void_to_indirect_uchar_pointer_convert:
_tx_misra_void_to_byte_pool_pointer_convert:
_tx_misra_byte_pool_to_uchar_pointer_convert:
_tx_misra_uchar_to_align_type_pointer_convert:
_tx_misra_uchar_to_indirect_byte_pool_pointer_convert:
_tx_misra_void_to_event_flags_pointer_convert:
_tx_misra_void_to_ulong_pointer_convert:
_tx_misra_void_to_mutex_pointer_convert:
_tx_misra_void_to_queue_pointer_convert:
_tx_misra_void_to_semaphore_pointer_convert:
_tx_misra_uchar_to_void_pointer_convert:
_tx_misra_ulong_to_thread_pointer_convert:
_tx_misra_timer_indirect_to_void_pointer_convert:
_tx_misra_const_char_to_char_pointer_convert:
_tx_misra_void_to_thread_pointer_convert:
#ifdef TX_ENABLE_EVENT_TRACE
_tx_misra_object_to_uchar_pointer_convert:
_tx_misra_uchar_to_object_pointer_convert:
_tx_misra_uchar_to_header_pointer_convert:
_tx_misra_uchar_to_entry_pointer_convert:
_tx_misra_entry_to_uchar_pointer_convert:
#endif
_tx_misra_char_to_uchar_pointer_convert:
_tx_misra_event_flags_group_not_used:
_tx_misra_event_flags_set_notify_not_used:
_tx_misra_queue_not_used:
_tx_misra_queue_send_notify_not_used:
_tx_misra_semaphore_not_used:
_tx_misra_semaphore_put_notify_not_used:
_tx_misra_thread_entry_exit_notify_not_used:
_tx_misra_thread_not_used:
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** ULONG *_tx_misra_ulong_pointer_add(ULONG *ptr, ULONG amount); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_ulong_pointer_add:
ADD R0,R0,R1, LSL #+2
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** ULONG *_tx_misra_ulong_pointer_sub(ULONG *ptr, ULONG amount); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_ulong_pointer_sub:
MVNS R2,#+3
MULS R1,R2,R1
ADD R0,R0,R1
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** ULONG _tx_misra_ulong_pointer_dif(ULONG *ptr1, ULONG *ptr2); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_ulong_pointer_dif:
SUBS R0,R0,R1
ASRS R0,R0,#+2
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** VOID _tx_misra_message_copy(ULONG **source, ULONG **destination, */
/** UINT size); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_message_copy:
PUSH {R4,R5}
LDR R3,[R0, #+0]
LDR R4,[R1, #+0]
LDR R5,[R3, #+0]
STR R5,[R4, #+0]
ADDS R4,R4,#+4
ADDS R3,R3,#+4
CMP R2,#+2
BCC.N _tx_misra_message_copy_0
SUBS R2,R2,#+1
B.N _tx_misra_message_copy_1
_tx_misra_message_copy_2:
LDR R5,[R3, #+0]
STR R5,[R4, #+0]
ADDS R4,R4,#+4
ADDS R3,R3,#+4
SUBS R2,R2,#+1
_tx_misra_message_copy_1:
CMP R2,#+0
BNE.N _tx_misra_message_copy_2
_tx_misra_message_copy_0:
STR R3,[R0, #+0]
STR R4,[R1, #+0]
POP {R4,R5}
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** ULONG _tx_misra_timer_pointer_dif(TX_TIMER_INTERNAL **ptr1, */
/** TX_TIMER_INTERNAL **ptr2); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_timer_pointer_dif:
SUBS R0,R0,R1
ASRS R0,R0,#+2
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** TX_TIMER_INTERNAL **_tx_misra_timer_pointer_add(TX_TIMER_INTERNAL */
/** **ptr1, ULONG size); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_timer_pointer_add:
ADD R0,R0,R1, LSL #+2
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** VOID _tx_misra_user_timer_pointer_get(TX_TIMER_INTERNAL */
/** *internal_timer, TX_TIMER **user_timer); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_user_timer_pointer_get:
SUBS R0,#8
STR R0,[R1, #+0]
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** VOID _tx_misra_thread_stack_check(TX_THREAD *thread_ptr, */
/** VOID **highest_stack); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_thread_stack_check:
PUSH {R3-R5,LR}
MOVS R4,R0
MOVS R5,R1
BL _tx_thread_interrupt_disable
CMP R4,#+0
BEQ.N _tx_misra_thread_stack_check_0
LDR R1,[R4, #+0]
LDR R2,=0x54485244
CMP R1,R2
BNE.N _tx_misra_thread_stack_check_0
LDR R1,[R4, #+8]
LDR R2,[R5, #+0]
CMP R1,R2
BCS.N _tx_misra_thread_stack_check_1
LDR R1,[R4, #+8]
STR R1,[R5, #+0]
_tx_misra_thread_stack_check_1:
LDR R1,[R4, #+12]
LDR R1,[R1, #+0]
CMP R1,#-269488145
BNE.N _tx_misra_thread_stack_check_2
LDR R1,[R4, #+16]
LDR R1,[R1, #+1]
CMP R1,#-269488145
BNE.N _tx_misra_thread_stack_check_2
LDR R1,[R5, #+0]
LDR R2,[R4, #+12]
CMP R1,R2
BCS.N _tx_misra_thread_stack_check_3
_tx_misra_thread_stack_check_2:
BL _tx_thread_interrupt_restore
MOVS R0,R4
BL _tx_thread_stack_error_handler
BL _tx_thread_interrupt_disable
_tx_misra_thread_stack_check_3:
LDR R1,[R5, #+0]
LDR R1,[R1, #-4]
CMP R1,#-269488145
BEQ.N _tx_misra_thread_stack_check_0
BL _tx_thread_interrupt_restore
MOVS R0,R4
BL _tx_thread_stack_analyze
BL _tx_thread_interrupt_disable
_tx_misra_thread_stack_check_0:
BL _tx_thread_interrupt_restore
POP {R0,R4,R5,PC} // return
#ifdef TX_ENABLE_EVENT_TRACE
/**************************************************************************/
/**************************************************************************/
/** */
/** VOID _tx_misra_trace_event_insert(ULONG event_id, */
/** VOID *info_field_1, ULONG info_field_2, ULONG info_field_3, */
/** ULONG info_field_4, ULONG filter, ULONG time_stamp); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_trace_event_insert:
PUSH {R3-R7,LR}
LDR.N R4,DataTable2_1
LDR R4,[R4, #+0]
CMP R4,#+0
BEQ.N _tx_misra_trace_event_insert_0
LDR.N R5,DataTable2_2
LDR R5,[R5, #+0]
LDR R6,[SP, #+28]
TST R5,R6
BEQ.N _tx_misra_trace_event_insert_0
LDR.N R5,DataTable2_3
LDR R5,[R5, #+0]
LDR.N R6,DataTable2_4
LDR R6,[R6, #+0]
CMP R5,#+0
BNE.N _tx_misra_trace_event_insert_1
LDR R5,[R6, #+44]
LDR R7,[R6, #+60]
LSLS R7,R7,#+16
ORRS R7,R7,#0x80000000
ORRS R5,R7,R5
B.N _tx_misra_trace_event_insert_2
_tx_misra_trace_event_insert_1:
CMP R5,#-252645136
BCS.N _tx_misra_trace_event_insert_3
MOVS R5,R6
MOVS R6,#-1
B.N _tx_misra_trace_event_insert_2
_tx_misra_trace_event_insert_3:
MOVS R6,#-252645136
MOVS R5,#+0
_tx_misra_trace_event_insert_2:
STR R6,[R4, #+0]
STR R5,[R4, #+4]
STR R0,[R4, #+8]
LDR R0,[SP, #+32]
STR R0,[R4, #+12]
STR R1,[R4, #+16]
STR R2,[R4, #+20]
STR R3,[R4, #+24]
LDR R0,[SP, #+24]
STR R0,[R4, #+28]
ADDS R4,R4,#+32
LDR.N R0,DataTable2_5
LDR R0,[R0, #+0]
CMP R4,R0
BCC.N _tx_misra_trace_event_insert_4
LDR.N R0,DataTable2_6
LDR R4,[R0, #+0]
LDR.N R0,DataTable2_1
STR R4,[R0, #+0]
LDR.N R0,DataTable2_7
LDR R0,[R0, #+0]
STR R4,[R0, #+32]
LDR.N R0,DataTable2_8
LDR R0,[R0, #+0]
CMP R0,#+0
BEQ.N _tx_misra_trace_event_insert_0
LDR.N R0,DataTable2_7
LDR R0,[R0, #+0]
LDR.N R1,DataTable2_8
LDR R1,[R1, #+0]
BLX R1
B.N _tx_misra_trace_event_insert_0
_tx_misra_trace_event_insert_4:
LDR.N R0,DataTable2_1
STR R4,[R0, #+0]
LDR.N R0,DataTable2_7
LDR R0,[R0, #+0]
STR R4,[R0, #+32]
_tx_misra_trace_event_insert_0:
POP {R0,R4-R7,PC} // return
.data
DataTable2_1:
.word _tx_trace_buffer_current_ptr
.data
DataTable2_2:
.word _tx_trace_event_enable_bits
.data
DataTable2_5:
.word _tx_trace_buffer_end_ptr
.data
DataTable2_6:
.word _tx_trace_buffer_start_ptr
.data
DataTable2_7:
.word _tx_trace_header_ptr
.data
DataTable2_8:
.word _tx_trace_full_notify_function
/**************************************************************************/
/**************************************************************************/
/** */
/** ULONG _tx_misra_time_stamp_get(VOID); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_time_stamp_get:
MOVS R0,#+0
BX LR // return
#endif
.data
DataTable2_3:
.word _tx_thread_system_state
.data
DataTable2_4:
.word _tx_thread_current_ptr
/**************************************************************************/
/**************************************************************************/
/** */
/** UINT _tx_misra_always_true(void); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_always_true:
MOVS R0,#+1
BX LR // return
/**************************************************************************/
/**************************************************************************/
/** */
/** UINT _tx_misra_status_get(UINT status); */
/** */
/**************************************************************************/
/**************************************************************************/
.text
.thumb_func
_tx_misra_status_get:
MOVS R0,#+0
BX LR // return
/***********************************************************************************************/
/***********************************************************************************************/
/** */
/** ULONG _tx_misra_ipsr_get(void); */
/** */
/***********************************************************************************************/
/***********************************************************************************************/
.text
.thumb_func
_tx_misra_ipsr_get:
MRS R0, IPSR
BX LR // return
/***********************************************************************************************/
/***********************************************************************************************/
/** */
/** ULONG _tx_misra_control_get(void); */
/** */
/***********************************************************************************************/
/***********************************************************************************************/
.text
.thumb_func
_tx_misra_control_get:
MRS R0, CONTROL
BX LR // return
/***********************************************************************************************/
/***********************************************************************************************/
/** */
/** void _tx_misra_control_set(ULONG value); */
/** */
/***********************************************************************************************/
/***********************************************************************************************/
.text
.thumb_func
_tx_misra_control_set:
MSR CONTROL, R0
BX LR // return
#ifdef __ARM_FP
/***********************************************************************************************/
/***********************************************************************************************/
/** */
/** ULONG _tx_misra_fpccr_get(void); */
/** */
/***********************************************************************************************/
/***********************************************************************************************/
.text
.thumb_func
_tx_misra_fpccr_get:
LDR r0, =0xE000EF34 // Build FPCCR address
LDR r0, [r0] // Load FPCCR value
BX LR // return
/***********************************************************************************************/
/***********************************************************************************************/
/** */
/** void _tx_misra_vfp_touch(void); */
/** */
/***********************************************************************************************/
/***********************************************************************************************/
.text
.thumb_func
_tx_misra_vfp_touch:
vmov.f32 s0, s0
BX LR // return
#endif
.data
.word 0

83
ports/cortex_m85/ac6/src/tx_thread_context_restore.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
.global _tx_execution_isr_exit
#endif
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_context_restore Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function is not needed for Cortex-M. */
/* */
/* INPUT */
/* */
/* None */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* [_tx_execution_isr_exit] Execution profiling ISR exit */
/* */
/* CALLED BY */
/* */
/* ISRs Interrupt Service Routines */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// VOID _tx_thread_context_restore(VOID)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_context_restore
.thumb_func
.type _tx_thread_context_restore, function
_tx_thread_context_restore:
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
/* Call the ISR exit function to indicate an ISR is complete. */
PUSH {r0, lr} // Save return address
BL _tx_execution_isr_exit // Call the ISR exit function
POP {r0, lr} // Recover return address
#endif
BX lr
// }
.end

83
ports/cortex_m85/ac6/src/tx_thread_context_save.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
.global _tx_execution_isr_enter
#endif
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_context_save Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function is not needed for Cortex-M. */
/* */
/* INPUT */
/* */
/* None */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* [_tx_execution_isr_enter] Execution profiling ISR enter */
/* */
/* CALLED BY */
/* */
/* ISRs */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// VOID _tx_thread_context_save(VOID)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_context_save
.thumb_func
.type _tx_thread_context_save, function
_tx_thread_context_save:
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
/* Call the ISR enter function to indicate an ISR is starting. */
PUSH {r0, lr} // Save return address
BL _tx_execution_isr_enter // Call the ISR enter function
POP {r0, lr} // Recover return address
#endif
BX lr
// }
.end

82
ports/cortex_m85/ac6/src/tx_thread_interrupt_control.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_interrupt_control Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function is responsible for changing the interrupt lockout */
/* posture of the system. */
/* */
/* INPUT */
/* */
/* new_posture New interrupt lockout posture */
/* */
/* OUTPUT */
/* */
/* old_posture Old interrupt lockout posture */
/* */
/* CALLS */
/* */
/* None */
/* */
/* CALLED BY */
/* */
/* Application Code */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// UINT _tx_thread_interrupt_control(UINT new_posture)
// {
.section .text
.balign 4
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_interrupt_control
.thumb_func
.type _tx_thread_interrupt_control, function
_tx_thread_interrupt_control:
#ifdef TX_PORT_USE_BASEPRI
MRS r1, BASEPRI // Pickup current interrupt posture
MSR BASEPRI, r0 // Apply the new interrupt posture
MOV r0, r1 // Transfer old to return register
#else
MRS r1, PRIMASK // Pickup current interrupt lockout
MSR PRIMASK, r0 // Apply the new interrupt lockout
MOV r0, r1 // Transfer old to return register
#endif
BX lr // Return to caller
// }
.end

83
ports/cortex_m85/ac6/src/tx_thread_interrupt_disable.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_interrupt_disable Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function is responsible for disabling interrupts and returning */
/* the previous interrupt lockout posture. */
/* */
/* INPUT */
/* */
/* None */
/* */
/* OUTPUT */
/* */
/* old_posture Old interrupt lockout posture */
/* */
/* CALLS */
/* */
/* None */
/* */
/* CALLED BY */
/* */
/* Application Code */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// UINT _tx_thread_interrupt_disable(VOID)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_interrupt_disable
.thumb_func
.type _tx_thread_interrupt_disable, function
_tx_thread_interrupt_disable:
/* Return current interrupt lockout posture. */
#ifdef TX_PORT_USE_BASEPRI
MRS r0, BASEPRI
LDR r1, =TX_PORT_BASEPRI
MSR BASEPRI, r1
#else
MRS r0, PRIMASK
CPSID i
#endif
BX lr
// }
.end

80
ports/cortex_m85/ac6/src/tx_thread_interrupt_restore.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_interrupt_restore Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function is responsible for restoring the previous */
/* interrupt lockout posture. */
/* */
/* INPUT */
/* */
/* previous_posture Previous interrupt posture */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* None */
/* */
/* CALLED BY */
/* */
/* Application Code */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// VOID _tx_thread_interrupt_restore(UINT previous_posture)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_interrupt_restore
.thumb_func
.type _tx_thread_interrupt_restore, function
_tx_thread_interrupt_restore:
/* Restore previous interrupt lockout posture. */
#ifdef TX_PORT_USE_BASEPRI
MSR BASEPRI, r0
#else
MSR PRIMASK, r0
#endif
BX lr
// }
.end

391
ports/cortex_m85/ac6/src/tx_thread_schedule.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
.global _tx_execution_thread_enter
.global _tx_execution_thread_exit
#endif
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_schedule Cortex-M85/AC6 */
/* 6.1.11 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function waits for a thread control block pointer to appear in */
/* the _tx_thread_execute_ptr variable. Once a thread pointer appears */
/* in the variable, the corresponding thread is resumed. */
/* */
/* INPUT */
/* */
/* None */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* None */
/* */
/* CALLED BY */
/* */
/* _tx_initialize_kernel_enter ThreadX entry function */
/* _tx_thread_system_return Return to system from thread */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* 04-02-2021 Scott Larson Modified comment(s), added */
/* low power code, */
/* resulting in version 6.1.6 */
/* 06-02-2021 Scott Larson Added secure stack initialize */
/* in SVC handler, */
/* resulting in version 6.1.7 */
/* 04-25-2022 Scott Larson Added BASEPRI support, */
/* resulting in version 6.1.11 */
/* */
/**************************************************************************/
// VOID _tx_thread_schedule(VOID)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_schedule
.thumb_func
.type _tx_thread_schedule, function
_tx_thread_schedule:
/* This function should only ever be called on Cortex-M
from the first schedule request. Subsequent scheduling occurs
from the PendSV handling routine below. */
/* Clear the preempt-disable flag to enable rescheduling after initialization on Cortex-M targets. */
MOV r0, #0 // Build value for TX_FALSE
LDR r2, =_tx_thread_preempt_disable // Build address of preempt disable flag
STR r0, [r2, #0] // Clear preempt disable flag
#ifdef __ARM_PCS_VFP
/* Clear CONTROL.FPCA bit so VFP registers aren't unnecessarily stacked. */
MRS r0, CONTROL // Pickup current CONTROL register
BIC r0, r0, #4 // Clear the FPCA bit
MSR CONTROL, r0 // Setup new CONTROL register
#endif
/* Enable interrupts */
CPSIE i
/* Enter the scheduler for the first time. */
MOV r0, #0x10000000 // Load PENDSVSET bit
MOV r1, #0xE000E000 // Load NVIC base
STR r0, [r1, #0xD04] // Set PENDSVBIT in ICSR
DSB // Complete all memory accesses
ISB // Flush pipeline
/* Wait here for the PendSV to take place. */
__tx_wait_here:
B __tx_wait_here // Wait for the PendSV to happen
// }
/* Generic context switching PendSV handler. */
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global PendSV_Handler
.thumb_func
.type PendSV_Handler, function
/* Get current thread value and new thread pointer. */
PendSV_Handler:
__tx_ts_handler:
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
/* Call the thread exit function to indicate the thread is no longer executing. */
#ifdef TX_PORT_USE_BASEPRI
LDR r1, =TX_PORT_BASEPRI // Mask interrupt priorities =< TX_PORT_BASEPRI
MSR BASEPRI, r1
#else
CPSID i // Disable interrupts
#endif /* TX_PORT_USE_BASEPRI */
PUSH {r0, lr} // Save LR (and r0 just for alignment)
BL _tx_execution_thread_exit // Call the thread exit function
POP {r0, lr} // Recover LR
#ifdef TX_PORT_USE_BASEPRI
MOV r0, 0 // Disable BASEPRI masking (enable interrupts)
MSR BASEPRI, r0
#else
CPSIE i // Enable interrupts
#endif /* TX_PORT_USE_BASEPRI */
#endif /* EXECUTION PROFILE */
LDR r0, =_tx_thread_current_ptr // Build current thread pointer address
LDR r2, =_tx_thread_execute_ptr // Build execute thread pointer address
MOV r3, #0 // Build NULL value
LDR r1, [r0] // Pickup current thread pointer
/* Determine if there is a current thread to finish preserving. */
CBZ r1, __tx_ts_new // If NULL, skip preservation
/* Recover PSP and preserve current thread context. */
STR r3, [r0] // Set _tx_thread_current_ptr to NULL
MRS r12, PSP // Pickup PSP pointer (thread's stack pointer)
STMDB r12!, {r4-r11} // Save its remaining registers
#ifdef __ARM_PCS_VFP
TST LR, #0x10 // Determine if the VFP extended frame is present
BNE _skip_vfp_save
VSTMDB r12!,{s16-s31} // Yes, save additional VFP registers
_skip_vfp_save:
#endif
LDR r4, =_tx_timer_time_slice // Build address of time-slice variable
STMDB r12!, {LR} // Save LR on the stack
STR r12, [r1, #8] // Save the thread stack pointer
#if (!defined(TX_SINGLE_MODE_SECURE) && !defined(TX_SINGLE_MODE_NON_SECURE))
// Save secure context
LDR r5, [r1,#0x90] // Load secure stack index
CBZ r5, _skip_secure_save // Skip save if there is no secure context
PUSH {r0,r1,r2,r3} // Save scratch registers
MOV r0, r1 // Move thread ptr to r0
BL _tx_thread_secure_stack_context_save // Save secure stack
POP {r0,r1,r2,r3} // Restore secure registers
_skip_secure_save:
#endif
/* Determine if time-slice is active. If it isn't, skip time handling processing. */
LDR r5, [r4] // Pickup current time-slice
CBZ r5, __tx_ts_new // If not active, skip processing
/* Time-slice is active, save the current thread's time-slice and clear the global time-slice variable. */
STR r5, [r1, #24] // Save current time-slice
/* Clear the global time-slice. */
STR r3, [r4] // Clear time-slice
/* Executing thread is now completely preserved!!! */
__tx_ts_new:
/* Now we are looking for a new thread to execute! */
#ifdef TX_PORT_USE_BASEPRI
LDR r1, =TX_PORT_BASEPRI // Mask interrupt priorities =< TX_PORT_BASEPRI
MSR BASEPRI, r1
#else
CPSID i // Disable interrupts
#endif
LDR r1, [r2] // Is there another thread ready to execute?
CBZ r1, __tx_ts_wait // No, skip to the wait processing
/* Yes, another thread is ready for else, make the current thread the new thread. */
STR r1, [r0] // Setup the current thread pointer to the new thread
#ifdef TX_PORT_USE_BASEPRI
MOV r4, #0 // Disable BASEPRI masking (enable interrupts)
MSR BASEPRI, r4
#else
CPSIE i // Enable interrupts
#endif
/* Increment the thread run count. */
__tx_ts_restore:
LDR r7, [r1, #4] // Pickup the current thread run count
LDR r4, =_tx_timer_time_slice // Build address of time-slice variable
LDR r5, [r1, #24] // Pickup thread's current time-slice
ADD r7, r7, #1 // Increment the thread run count
STR r7, [r1, #4] // Store the new run count
/* Setup global time-slice with thread's current time-slice. */
STR r5, [r4] // Setup global time-slice
#if (defined(TX_ENABLE_EXECUTION_CHANGE_NOTIFY) || defined(TX_EXECUTION_PROFILE_ENABLE))
/* Call the thread entry function to indicate the thread is executing. */
PUSH {r0, r1} // Save r0 and r1
BL _tx_execution_thread_enter // Call the thread execution enter function
POP {r0, r1} // Recover r0 and r1
#endif
#if (!defined(TX_SINGLE_MODE_SECURE) && !defined(TX_SINGLE_MODE_NON_SECURE))
// Restore secure context
LDR r0, [r1,#0x90] // Load secure stack index
CBZ r0, _skip_secure_restore // Skip restore if there is no secure context
PUSH {r0,r1} // Save r1 (and dummy r0)
MOV r0, r1 // Move thread ptr to r0
BL _tx_thread_secure_stack_context_restore // Restore secure stack
POP {r0,r1} // Restore r1 (and dummy r0)
_skip_secure_restore:
#endif
/* Restore the thread context and PSP. */
LDR r12, [r1, #12] // Get stack start
MSR PSPLIM, r12 // Set stack limit
LDR r12, [r1, #8] // Pickup thread's stack pointer
LDMIA r12!, {LR} // Pickup LR
#ifdef __ARM_PCS_VFP
TST LR, #0x10 // Determine if the VFP extended frame is present
BNE _skip_vfp_restore // If not, skip VFP restore
VLDMIA r12!, {s16-s31} // Yes, restore additional VFP registers
_skip_vfp_restore:
#endif
LDMIA r12!, {r4-r11} // Recover thread's registers
MSR PSP, r12 // Setup the thread's stack pointer
BX lr // Return to thread!
/* The following is the idle wait processing... in this case, no threads are ready for execution and the
system will simply be idle until an interrupt occurs that makes a thread ready. Note that interrupts
are disabled to allow use of WFI for waiting for a thread to arrive. */
__tx_ts_wait:
#ifdef TX_PORT_USE_BASEPRI
LDR r1, =TX_PORT_BASEPRI // Mask interrupt priorities =< TX_PORT_BASEPRI
MSR BASEPRI, r1
#else
CPSID i // Disable interrupts
#endif
LDR r1, [r2] // Pickup the next thread to execute pointer
STR r1, [r0] // Store it in the current pointer
CBNZ r1, __tx_ts_ready // If non-NULL, a new thread is ready!
#ifdef TX_LOW_POWER
PUSH {r0-r3}
BL tx_low_power_enter // Possibly enter low power mode
POP {r0-r3}
#endif
#ifdef TX_ENABLE_WFI
DSB // Ensure no outstanding memory transactions
WFI // Wait for interrupt
ISB // Ensure pipeline is flushed
#endif
#ifdef TX_LOW_POWER
PUSH {r0-r3}
BL tx_low_power_exit // Exit low power mode
POP {r0-r3}
#endif
#ifdef TX_PORT_USE_BASEPRI
MOV r4, #0 // Disable BASEPRI masking (enable interrupts)
MSR BASEPRI, r4
#else
CPSIE i // Enable interrupts
#endif
B __tx_ts_wait // Loop to continue waiting
/* At this point, we have a new thread ready to go. Clear any newly pended PendSV - since we are
already in the handler! */
__tx_ts_ready:
MOV r7, #0x08000000 // Build clear PendSV value
MOV r8, #0xE000E000 // Build base NVIC address
STR r7, [r8, #0xD04] // Clear any PendSV
/* Re-enable interrupts and restore new thread. */
#ifdef TX_PORT_USE_BASEPRI
MOV r4, #0 // Disable BASEPRI masking (enable interrupts)
MSR BASEPRI, r4
#else
CPSIE i // Enable interrupts
#endif
B __tx_ts_restore // Restore the thread
// }
#if (!defined(TX_SINGLE_MODE_SECURE) && !defined(TX_SINGLE_MODE_NON_SECURE))
// SVC_Handler is not needed when ThreadX is running in single mode.
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global SVC_Handler
.thumb_func
.type SVC_Handler, function
SVC_Handler:
TST lr, #0x04 // Determine return stack from EXC_RETURN bit 2
ITE EQ
MRSEQ r0, MSP // Get MSP if return stack is MSP
MRSNE r0, PSP // Get PSP if return stack is PSP
LDR r1, [r0,#24] // Load saved PC from stack
LDRB r1, [r1,#-2] // Load SVC number
CMP r1, #1 // Is it a secure stack allocate request?
BEQ _tx_svc_secure_alloc // Yes, go there
CMP r1, #2 // Is it a secure stack free request?
BEQ _tx_svc_secure_free // Yes, go there
CMP r1, #3 // Is it a secure stack init request?
BEQ _tx_svc_secure_init // Yes, go there
// Unknown SVC argument - just return
BX lr
_tx_svc_secure_alloc:
PUSH {r0,lr} // Save SP and EXC_RETURN
LDM r0, {r0-r3} // Load function parameters from stack
BL _tx_thread_secure_mode_stack_allocate
POP {r12,lr} // Restore SP and EXC_RETURN
STR r0,[r12] // Store function return value
BX lr
_tx_svc_secure_free:
PUSH {r0,lr} // Save SP and EXC_RETURN
LDM r0, {r0-r3} // Load function parameters from stack
BL _tx_thread_secure_mode_stack_free
POP {r12,lr} // Restore SP and EXC_RETURN
STR r0,[r12] // Store function return value
BX lr
_tx_svc_secure_init:
PUSH {r0,lr} // Save SP and EXC_RETURN
BL _tx_thread_secure_mode_stack_initialize
POP {r12,lr} // Restore SP and EXC_RETURN
BX lr
#endif // End of ifndef TX_SINGLE_MODE_SECURE, TX_SINGLE_MODE_NON_SECURE
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_vfp_access
.thumb_func
.type _tx_vfp_access, function
_tx_vfp_access:
VMOV.F32 s0, s0 // Simply access the VFP
BX lr // Return to caller
.end

592
ports/cortex_m85/ac6/src/tx_thread_secure_stack.c Normal file
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@@ -0,0 +1,592 @@
/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
#include "tx_api.h"
/* If TX_SINGLE_MODE_SECURE or TX_SINGLE_MODE_NON_SECURE is defined,
no secure stack functionality is needed. */
#if !defined(TX_SINGLE_MODE_SECURE) && !defined(TX_SINGLE_MODE_NON_SECURE)
#define TX_SOURCE_CODE
#include "cmsis_compiler.h" /* For intrinsic functions. */
#include "tx_secure_interface.h" /* Interface for NS code. */
/* Minimum size of secure stack. */
#ifndef TX_THREAD_SECURE_STACK_MINIMUM
#define TX_THREAD_SECURE_STACK_MINIMUM 256
#endif
/* Maximum size of secure stack. */
#ifndef TX_THREAD_SECURE_STACK_MAXIMUM
#define TX_THREAD_SECURE_STACK_MAXIMUM 1024
#endif
/* 8 bytes added to stack size to "seal" stack. */
#define TX_THREAD_STACK_SEAL_SIZE 8
#define TX_THREAD_STACK_SEAL_VALUE 0xFEF5EDA5
/* max number of Secure context */
#ifndef TX_MAX_SECURE_CONTEXTS
#define TX_MAX_SECURE_CONTEXTS 32
#endif
#define TX_INVALID_SECURE_CONTEXT_IDX (-1)
/* Secure stack info struct to hold stack start, stack limit,
current stack pointer, and pointer to owning thread.
This will be allocated for each thread with a secure stack. */
typedef struct TX_THREAD_SECURE_STACK_INFO_STRUCT
{
VOID *tx_thread_secure_stack_ptr; /* Thread's secure stack current pointer */
VOID *tx_thread_secure_stack_start; /* Thread's secure stack start address */
VOID *tx_thread_secure_stack_limit; /* Thread's secure stack limit */
TX_THREAD *tx_thread_ptr; /* Keep track of thread for error handling */
INT tx_next_free_index; /* Next free index of free secure context */
} TX_THREAD_SECURE_STACK_INFO;
/* Static secure contexts */
static TX_THREAD_SECURE_STACK_INFO tx_thread_secure_context[TX_MAX_SECURE_CONTEXTS];
/* Head of free secure context */
static INT tx_head_free_index = 0U;
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_mode_stack_initialize Cortex-M85/AC6 */
/* 6.1.10 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function initializes secure mode to use PSP stack. */
/* */
/* INPUT */
/* */
/* None */
/* */
/* OUTPUT */
/* */
/* status */
/* */
/* CALLS */
/* */
/* __get_CONTROL Intrinsic to get CONTROL */
/* __set_CONTROL Intrinsic to set CONTROL */
/* __set_PSPLIM Intrinsic to set PSP limit */
/* __set_PSP Intrinsic to set PSP */
/* */
/* CALLED BY */
/* */
/* _tx_initialize_kernel_enter */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* 10-16-2020 Scott Larson Modified comment(s), */
/* resulting in version 6.1.1 */
/* 06-02-2021 Scott Larson Modified comment(s), and */
/* changed name, execute in */
/* handler mode, */
/* resulting in version 6.1.7 */
/* 01-31-2022 Himanshu Gupta Modified comments(s), updated */
/* secure stack allocation, */
/* resulting in version 6.1.10 */
/* */
/**************************************************************************/
__attribute__((cmse_nonsecure_entry))
UINT _tx_thread_secure_mode_stack_initialize(void)
{
UINT status;
INT index;
/* Make sure function is called from interrupt (threads should not call). */
if (__get_IPSR() == 0)
{
status = TX_CALLER_ERROR;
}
else
{
/* Set secure mode to use PSP. */
__set_CONTROL(__get_CONTROL() | 2);
/* Set process stack pointer and stack limit to 0 to throw exception when a thread
without a secure stack calls a secure function that tries to use secure stack. */
__set_PSPLIM(0);
__set_PSP(0);
for (index = 0; index < TX_MAX_SECURE_CONTEXTS; index++)
{
/* Check last index and mark next free to invalid index */
if(index == (TX_MAX_SECURE_CONTEXTS - 1))
{
tx_thread_secure_context[index].tx_next_free_index = TX_INVALID_SECURE_CONTEXT_IDX;
}
else
{
tx_thread_secure_context[index].tx_next_free_index = index + 1;
}
}
status = TX_SUCCESS;
}
return status;
}
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_mode_stack_allocate Cortex-M85/AC6 */
/* 6.1.10 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function allocates a thread's secure stack. */
/* */
/* INPUT */
/* */
/* thread_ptr Thread control block pointer */
/* stack_size Size of stack to allocates */
/* */
/* OUTPUT */
/* */
/* TX_THREAD_ERROR Invalid thread pointer */
/* TX_SIZE_ERROR Invalid stack size */
/* TX_CALLER_ERROR Invalid caller of function */
/* status Actual completion status */
/* */
/* CALLS */
/* */
/* __get_IPSR Intrinsic to get IPSR */
/* malloc Compiler's malloc function */
/* __set_PSPLIM Intrinsic to set PSP limit */
/* __set_PSP Intrinsic to set PSP */
/* __TZ_get_PSPLIM_NS Intrinsic to get NS PSP */
/* */
/* CALLED BY */
/* */
/* SVC Handler */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* 10-16-2020 Scott Larson Modified comment(s), */
/* added stack sealing, */
/* resulting in version 6.1.1 */
/* 01-31-2022 Himanshu Gupta Modified comments(s), updated */
/* secure stack allocation, */
/* resulting in version 6.1.10 */
/* */
/**************************************************************************/
__attribute__((cmse_nonsecure_entry))
UINT _tx_thread_secure_mode_stack_allocate(TX_THREAD *thread_ptr, ULONG stack_size)
{
TX_INTERRUPT_SAVE_AREA
UINT status;
TX_THREAD_SECURE_STACK_INFO *info_ptr;
UCHAR *stack_mem;
INT secure_context_index;
status = TX_SUCCESS;
/* Make sure function is called from interrupt (threads should not call). */
if (__get_IPSR() == 0)
{
status = TX_CALLER_ERROR;
}
else if (stack_size < TX_THREAD_SECURE_STACK_MINIMUM || stack_size > TX_THREAD_SECURE_STACK_MAXIMUM)
{
status = TX_SIZE_ERROR;
}
/* Check if thread already has secure stack allocated. */
else if (thread_ptr -> tx_thread_secure_stack_context != 0)
{
status = TX_THREAD_ERROR;
}
else
{
TX_DISABLE
/* Allocate free index for secure stack info. */
if(tx_head_free_index != TX_INVALID_SECURE_CONTEXT_IDX)
{
secure_context_index = tx_head_free_index;
tx_head_free_index = tx_thread_secure_context[tx_head_free_index].tx_next_free_index;
tx_thread_secure_context[secure_context_index].tx_next_free_index = TX_INVALID_SECURE_CONTEXT_IDX;
}
else
{
secure_context_index = TX_INVALID_SECURE_CONTEXT_IDX;
}
TX_RESTORE
if(secure_context_index != TX_INVALID_SECURE_CONTEXT_IDX)
{
info_ptr = &tx_thread_secure_context[secure_context_index];
/* If stack info allocated, allocate a stack & seal. */
stack_mem = malloc(stack_size + TX_THREAD_STACK_SEAL_SIZE);
if(stack_mem != TX_NULL)
{
/* Secure stack has been allocated, save in the stack info struct. */
info_ptr -> tx_thread_secure_stack_limit = stack_mem;
info_ptr -> tx_thread_secure_stack_start = stack_mem + stack_size;
info_ptr -> tx_thread_secure_stack_ptr = info_ptr -> tx_thread_secure_stack_start;
info_ptr -> tx_thread_ptr = thread_ptr;
/* Seal bottom of stack. */
*(ULONG*)info_ptr -> tx_thread_secure_stack_start = TX_THREAD_STACK_SEAL_VALUE;
/* Save secure context id (i.e non-zero base index) in thread. */
thread_ptr -> tx_thread_secure_stack_context = (VOID *)(secure_context_index + 1);
/* Check if this thread is running by looking at its stack start and PSPLIM_NS */
if(((ULONG) thread_ptr -> tx_thread_stack_start & 0xFFFFFFF8) == __TZ_get_PSPLIM_NS())
{
/* If this thread is running, set Secure PSP and PSPLIM. */
__set_PSPLIM((ULONG)(info_ptr -> tx_thread_secure_stack_limit));
__set_PSP((ULONG)(info_ptr -> tx_thread_secure_stack_ptr));
}
}
else
{
TX_DISABLE
/* Stack not allocated, free the info struct. */
tx_thread_secure_context[secure_context_index].tx_next_free_index = tx_head_free_index;
tx_head_free_index = secure_context_index;
TX_RESTORE
status = TX_NO_MEMORY;
}
}
else
{
status = TX_NO_MEMORY;
}
}
return(status);
}
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_mode_stack_free Cortex-M85/AC6 */
/* 6.1.10 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function frees a thread's secure stack. */
/* */
/* INPUT */
/* */
/* thread_ptr Thread control block pointer */
/* */
/* OUTPUT */
/* */
/* TX_THREAD_ERROR Invalid thread pointer */
/* TX_CALLER_ERROR Invalid caller of function */
/* status Actual completion status */
/* */
/* CALLS */
/* */
/* __get_IPSR Intrinsic to get IPSR */
/* free Compiler's free() function */
/* */
/* CALLED BY */
/* */
/* SVC Handler */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* 10-16-2020 Scott Larson Modified comment(s), */
/* resulting in version 6.1.1 */
/* 01-31-2022 Himanshu Gupta Modified comments(s), updated */
/* secure stack allocation, */
/* resulting in version 6.1.10 */
/* */
/**************************************************************************/
__attribute__((cmse_nonsecure_entry))
UINT _tx_thread_secure_mode_stack_free(TX_THREAD *thread_ptr)
{
TX_INTERRUPT_SAVE_AREA
UINT status;
TX_THREAD_SECURE_STACK_INFO *info_ptr;
INT secure_context_index;
status = TX_SUCCESS;
/* Pickup stack info id from thread. */
secure_context_index = (INT)thread_ptr -> tx_thread_secure_stack_context - 1;
/* Make sure function is called from interrupt (threads should not call). */
if (__get_IPSR() == 0)
{
status = TX_CALLER_ERROR;
}
/* Check if secure context index is in valid range. */
else if (secure_context_index < 0 || secure_context_index >= TX_MAX_SECURE_CONTEXTS)
{
status = TX_THREAD_ERROR;
}
else
{
/* Pickup stack info from static array of secure contexts. */
info_ptr = &tx_thread_secure_context[secure_context_index];
/* Check that this secure context is for this thread. */
if (info_ptr -> tx_thread_ptr != thread_ptr)
{
status = TX_THREAD_ERROR;
}
else
{
/* Free secure stack. */
free(info_ptr -> tx_thread_secure_stack_limit);
TX_DISABLE
/* Free info struct. */
tx_thread_secure_context[secure_context_index].tx_next_free_index = tx_head_free_index;
tx_head_free_index = secure_context_index;
TX_RESTORE
/* Clear secure context from thread. */
thread_ptr -> tx_thread_secure_stack_context = 0;
}
}
return(status);
}
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_stack_context_save Cortex-M85/AC6 */
/* 6.1.10 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function saves context of the secure stack. */
/* */
/* INPUT */
/* */
/* thread_ptr Thread control block pointer */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* __get_IPSR Intrinsic to get IPSR */
/* __get_PSP Intrinsic to get PSP */
/* __set_PSPLIM Intrinsic to set PSP limit */
/* __set_PSP Intrinsic to set PSP */
/* */
/* CALLED BY */
/* */
/* PendSV Handler */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* 10-16-2020 Scott Larson Modified comment(s), */
/* resulting in version 6.1.1 */
/* 06-02-2021 Scott Larson Fix stack pointer save, */
/* resulting in version 6.1.7 */
/* 01-31-2022 Himanshu Gupta Modified comments(s), updated */
/* secure stack allocation, */
/* resulting in version 6.1.10 */
/* */
/**************************************************************************/
__attribute__((cmse_nonsecure_entry))
void _tx_thread_secure_stack_context_save(TX_THREAD *thread_ptr)
{
TX_THREAD_SECURE_STACK_INFO *info_ptr;
ULONG sp;
INT secure_context_index = (INT)thread_ptr -> tx_thread_secure_stack_context - 1;
/* This function should be called from scheduler only. */
if (__get_IPSR() == 0)
{
return;
}
/* Check if secure context index is in valid range. */
else if (secure_context_index < 0 || secure_context_index >= TX_MAX_SECURE_CONTEXTS)
{
return;
}
/* Pickup the secure context pointer. */
info_ptr = &tx_thread_secure_context[secure_context_index];
/* Check that this secure context is for this thread. */
if (info_ptr -> tx_thread_ptr != thread_ptr)
{
return;
}
/* Check that stack pointer is in range */
sp = __get_PSP();
if ((sp < (ULONG)info_ptr -> tx_thread_secure_stack_limit) ||
(sp > (ULONG)info_ptr -> tx_thread_secure_stack_start))
{
return;
}
/* Save stack pointer. */
info_ptr -> tx_thread_secure_stack_ptr = (VOID *) sp;
/* Set process stack pointer and stack limit to 0 to throw exception when a thread
without a secure stack calls a secure function that tries to use secure stack. */
__set_PSPLIM(0);
__set_PSP(0);
return;
}
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_stack_context_restore Cortex-M85/AC6 */
/* 6.1.10 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function restores context of the secure stack. */
/* */
/* INPUT */
/* */
/* thread_ptr Thread control block pointer */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* __get_IPSR Intrinsic to get IPSR */
/* __set_PSPLIM Intrinsic to set PSP limit */
/* __set_PSP Intrinsic to set PSP */
/* */
/* CALLED BY */
/* */
/* PendSV Handler */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* 10-16-2020 Scott Larson Modified comment(s), */
/* resulting in version 6.1.1 */
/* 01-31-2022 Himanshu Gupta Modified comments(s), updated */
/* secure stack allocation, */
/* resulting in version 6.1.10 */
/* */
/**************************************************************************/
__attribute__((cmse_nonsecure_entry))
void _tx_thread_secure_stack_context_restore(TX_THREAD *thread_ptr)
{
TX_THREAD_SECURE_STACK_INFO *info_ptr;
INT secure_context_index = (INT)thread_ptr -> tx_thread_secure_stack_context - 1;
/* This function should be called from scheduler only. */
if (__get_IPSR() == 0)
{
return;
}
/* Check if secure context index is in valid range. */
else if (secure_context_index < 0 || secure_context_index >= TX_MAX_SECURE_CONTEXTS)
{
return;
}
/* Pickup the secure context pointer. */
info_ptr = &tx_thread_secure_context[secure_context_index];
/* Check that this secure context is for this thread. */
if (info_ptr -> tx_thread_ptr != thread_ptr)
{
return;
}
/* Set stack pointer and limit. */
__set_PSPLIM((ULONG)info_ptr -> tx_thread_secure_stack_limit);
__set_PSP ((ULONG)info_ptr -> tx_thread_secure_stack_ptr);
return;
}
#endif

85
ports/cortex_m85/ac6/src/tx_thread_secure_stack_allocate.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_stack_allocate Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function enters the SVC handler to allocate a secure stack. */
/* */
/* INPUT */
/* */
/* thread_ptr Thread control block pointer */
/* stack_size Size of secure stack to */
/* allocate */
/* */
/* OUTPUT */
/* */
/* status Actual completion status */
/* */
/* CALLS */
/* */
/* SVC 1 */
/* */
/* CALLED BY */
/* */
/* Application Code */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// UINT _tx_thread_secure_stack_allocate(TX_THREAD *thread_ptr, ULONG stack_size)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_secure_stack_allocate
.thumb_func
.type _tx_thread_secure_stack_allocate, function
_tx_thread_secure_stack_allocate:
#if !defined(TX_SINGLE_MODE_SECURE) && !defined(TX_SINGLE_MODE_NON_SECURE)
MRS r3, PRIMASK // Save interrupt mask
CPSIE i // Enable interrupts for SVC call
SVC 1
CMP r3, #0 // If interrupts enabled, just return
BEQ _alloc_return_interrupt_enabled
CPSID i // Otherwise, disable interrupts
#else
MOV r0, #0xFF // Feature not enabled
#endif
_alloc_return_interrupt_enabled:
BX lr
.end

83
ports/cortex_m85/ac6/src/tx_thread_secure_stack_free.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_stack_free Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function enters the SVC handler to free a secure stack. */
/* */
/* INPUT */
/* */
/* thread_ptr Thread control block pointer */
/* */
/* OUTPUT */
/* */
/* status Actual completion status */
/* */
/* CALLS */
/* */
/* SVC 2 */
/* */
/* CALLED BY */
/* */
/* Application Code */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// UINT _tx_thread_secure_stack_free(TX_THREAD *thread_ptr)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_secure_stack_free
.thumb_func
.type _tx_thread_secure_stack_free, function
_tx_thread_secure_stack_free:
#if !defined(TX_SINGLE_MODE_SECURE) && !defined(TX_SINGLE_MODE_NON_SECURE)
MRS r3, PRIMASK // Save interrupt mask
CPSIE i // Enable interrupts for SVC call
SVC 2
CMP r3, #0 // If interrupts enabled, just return
BEQ _free_return_interrupt_enabled
CPSID i // Otherwise, disable interrupts
#else
MOV r0, #0xFF // Feature not enabled
#endif
_free_return_interrupt_enabled:
BX lr
.end

79
ports/cortex_m85/ac6/src/tx_thread_secure_stack_initialize.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_stack_initialize Cortex-M85/AC6 */
/* 6.1.7 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function enters the SVC handler to initialize a secure stack. */
/* */
/* INPUT */
/* */
/* none */
/* */
/* OUTPUT */
/* */
/* none */
/* */
/* CALLS */
/* */
/* SVC 3 */
/* */
/* CALLED BY */
/* */
/* TX_INITIALIZE_KERNEL_ENTER_EXTENSION */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 06-02-2021 Scott Larson Initial Version 6.1.7 */
/* */
/**************************************************************************/
// VOID _tx_thread_secure_stack_initialize(VOID)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_secure_stack_initialize
.thumb_func
.type _tx_thread_secure_stack_initialize, function
_tx_thread_secure_stack_initialize:
#if !defined(TX_SINGLE_MODE_SECURE) && !defined(TX_SINGLE_MODE_NON_SECURE)
CPSIE i // Enable interrupts for SVC call
SVC 3
CPSID i // Disable interrupts
#else
MOV r0, #0xFF // Feature not enabled
#endif
BX lr
.end

140
ports/cortex_m85/ac6/src/tx_thread_stack_build.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_stack_build Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function builds a stack frame on the supplied thread's stack. */
/* The stack frame results in a fake interrupt return to the supplied */
/* function pointer. */
/* */
/* INPUT */
/* */
/* thread_ptr Pointer to thread control blk */
/* function_ptr Pointer to return function */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* None */
/* */
/* CALLED BY */
/* */
/* _tx_thread_create Create thread service */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// VOID _tx_thread_stack_build(TX_THREAD *thread_ptr, VOID (*function_ptr)(VOID))
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_stack_build
.thumb_func
.type _tx_thread_stack_build, function
_tx_thread_stack_build:
/* Build a fake interrupt frame. The form of the fake interrupt stack
on the Cortex-M should look like the following after it is built:
Stack Top:
LR Interrupted LR (LR at time of PENDSV)
r4 Initial value for r4
r5 Initial value for r5
r6 Initial value for r6
r7 Initial value for r7
r8 Initial value for r8
r9 Initial value for r9
r10 Initial value for r10
r11 Initial value for r11
r0 Initial value for r0 (Hardware stack starts here!!)
r1 Initial value for r1
r2 Initial value for r2
r3 Initial value for r3
r12 Initial value for r12
lr Initial value for lr
pc Initial value for pc
xPSR Initial value for xPSR
Stack Bottom: (higher memory address) */
LDR r2, [r0, #16] // Pickup end of stack area
BIC r2, r2, #0x7 // Align frame for 8-byte alignment
SUB r2, r2, #68 // Subtract frame size
#ifdef TX_SINGLE_MODE_SECURE
LDR r3, =0xFFFFFFFD // Build initial LR value for secure mode
#else
LDR r3, =0xFFFFFFBC // Build initial LR value to return to non-secure PSP
#endif
STR r3, [r2, #0] // Save on the stack
/* Actually build the stack frame. */
MOV r3, #0 // Build initial register value
STR r3, [r2, #4] // Store initial r4
STR r3, [r2, #8] // Store initial r5
STR r3, [r2, #12] // Store initial r6
STR r3, [r2, #16] // Store initial r7
STR r3, [r2, #20] // Store initial r8
STR r3, [r2, #24] // Store initial r9
STR r3, [r2, #28] // Store initial r10
STR r3, [r2, #32] // Store initial r11
/* Hardware stack follows. */
STR r3, [r2, #36] // Store initial r0
STR r3, [r2, #40] // Store initial r1
STR r3, [r2, #44] // Store initial r2
STR r3, [r2, #48] // Store initial r3
STR r3, [r2, #52] // Store initial r12
MOV r3, #0xFFFFFFFF // Poison EXC_RETURN value
STR r3, [r2, #56] // Store initial lr
STR r1, [r2, #60] // Store initial pc
MOV r3, #0x01000000 // Only T-bit need be set
STR r3, [r2, #64] // Store initial xPSR
/* Setup stack pointer. */
// thread_ptr -> tx_thread_stack_ptr = r2;
STR r2, [r0, #8] // Save stack pointer in thread's
// control block
BX lr // Return to caller
// }
.end

96
ports/cortex_m85/ac6/src/tx_thread_system_return.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_system_return Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function is target processor specific. It is used to transfer */
/* control from a thread back to the ThreadX system. Only a */
/* minimal context is saved since the compiler assumes temp registers */
/* are going to get slicked by a function call anyway. */
/* */
/* INPUT */
/* */
/* None */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* _tx_thread_schedule Thread scheduling loop */
/* */
/* CALLED BY */
/* */
/* ThreadX components */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// VOID _tx_thread_system_return(VOID)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_thread_system_return
.thumb_func
.type _tx_thread_system_return, function
_tx_thread_system_return:
/* Return to real scheduler via PendSV. Note that this routine is often
replaced with in-line assembly in tx_port.h to improved performance. */
MOV r0, #0x10000000 // Load PENDSVSET bit
MOV r1, #0xE000E000 // Load NVIC base
STR r0, [r1, #0xD04] // Set PENDSVBIT in ICSR
MRS r0, IPSR // Pickup IPSR
CMP r0, #0 // Is it a thread returning?
BNE _isr_context // If ISR, skip interrupt enable
#ifdef TX_PORT_USE_BASEPRI
MRS r1, BASEPRI // Thread context returning, pickup BASEPRI
MOV r0, #0
MSR BASEPRI, r0 // Enable interrupts
MSR BASEPRI, r1 // Restore original interrupt posture
#else
MRS r1, PRIMASK // Thread context returning, pickup PRIMASK
CPSIE i // Enable interrupts
MSR PRIMASK, r1 // Restore original interrupt posture
#endif
_isr_context:
BX lr // Return to caller
// }
.end

243
ports/cortex_m85/ac6/src/tx_timer_interrupt.S Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Timer */
/** */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_timer_interrupt Cortex-M85/AC6 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function processes the hardware timer interrupt. This */
/* processing includes incrementing the system clock and checking for */
/* time slice and/or timer expiration. If either is found, the */
/* expiration functions are called. */
/* */
/* INPUT */
/* */
/* None */
/* */
/* OUTPUT */
/* */
/* None */
/* */
/* CALLS */
/* */
/* _tx_timer_expiration_process Timer expiration processing */
/* _tx_thread_time_slice Time slice interrupted thread */
/* */
/* CALLED BY */
/* */
/* interrupt vector */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
// VOID _tx_timer_interrupt(VOID)
// {
.section .text
.balign 4
.syntax unified
.eabi_attribute Tag_ABI_align_preserved, 1
.global _tx_timer_interrupt
.thumb_func
.type _tx_timer_interrupt, function
_tx_timer_interrupt:
/* Upon entry to this routine, it is assumed that the compiler scratch registers are available
for use. */
/* Increment the system clock. */
// _tx_timer_system_clock++;
LDR r1, =_tx_timer_system_clock // Pickup address of system clock
LDR r0, [r1, #0] // Pickup system clock
ADD r0, r0, #1 // Increment system clock
STR r0, [r1, #0] // Store new system clock
/* Test for time-slice expiration. */
// if (_tx_timer_time_slice)
// {
LDR r3, =_tx_timer_time_slice // Pickup address of time-slice
LDR r2, [r3, #0] // Pickup time-slice
CBZ r2, __tx_timer_no_time_slice // Is it non-active?
// Yes, skip time-slice processing
/* Decrement the time_slice. */
// _tx_timer_time_slice--;
SUB r2, r2, #1 // Decrement the time-slice
STR r2, [r3, #0] // Store new time-slice value
/* Check for expiration. */
// if (__tx_timer_time_slice == 0)
CBNZ r2, __tx_timer_no_time_slice // Has it expired?
// No, skip expiration processing
/* Set the time-slice expired flag. */
// _tx_timer_expired_time_slice = TX_TRUE;
LDR r3, =_tx_timer_expired_time_slice // Pickup address of expired flag
MOV r0, #1 // Build expired value
STR r0, [r3, #0] // Set time-slice expiration flag
// }
__tx_timer_no_time_slice:
/* Test for timer expiration. */
// if (*_tx_timer_current_ptr)
// {
LDR r1, =_tx_timer_current_ptr // Pickup current timer pointer address
LDR r0, [r1, #0] // Pickup current timer
LDR r2, [r0, #0] // Pickup timer list entry
CBZ r2, __tx_timer_no_timer // Is there anything in the list?
// No, just increment the timer
/* Set expiration flag. */
// _tx_timer_expired = TX_TRUE;
LDR r3, =_tx_timer_expired // Pickup expiration flag address
MOV r2, #1 // Build expired value
STR r2, [r3, #0] // Set expired flag
B __tx_timer_done // Finished timer processing
// }
// else
// {
__tx_timer_no_timer:
/* No timer expired, increment the timer pointer. */
// _tx_timer_current_ptr++;
ADD r0, r0, #4 // Move to next timer
/* Check for wrap-around. */
// if (_tx_timer_current_ptr == _tx_timer_list_end)
LDR r3, =_tx_timer_list_end // Pickup addr of timer list end
LDR r2, [r3, #0] // Pickup list end
CMP r0, r2 // Are we at list end?
BNE __tx_timer_skip_wrap // No, skip wrap-around logic
/* Wrap to beginning of list. */
// _tx_timer_current_ptr = _tx_timer_list_start;
LDR r3, =_tx_timer_list_start // Pickup addr of timer list start
LDR r0, [r3, #0] // Set current pointer to list start
__tx_timer_skip_wrap:
STR r0, [r1, #0] // Store new current timer pointer
// }
__tx_timer_done:
/* See if anything has expired. */
// if ((_tx_timer_expired_time_slice) || (_tx_timer_expired))
// {
LDR r3, =_tx_timer_expired_time_slice // Pickup addr of expired flag
LDR r2, [r3, #0] // Pickup time-slice expired flag
CBNZ r2, __tx_something_expired // Did a time-slice expire?
// If non-zero, time-slice expired
LDR r1, =_tx_timer_expired // Pickup addr of other expired flag
LDR r0, [r1, #0] // Pickup timer expired flag
CBZ r0, __tx_timer_nothing_expired // Did a timer expire?
// No, nothing expired
__tx_something_expired:
PUSH {r0, lr} // Save the lr register on the stack
// and save r0 just to keep 8-byte alignment
/* Did a timer expire? */
// if (_tx_timer_expired)
// {
LDR r1, =_tx_timer_expired // Pickup addr of expired flag
LDR r0, [r1, #0] // Pickup timer expired flag
CBZ r0, __tx_timer_dont_activate // Check for timer expiration
// If not set, skip timer activation
/* Process timer expiration. */
// _tx_timer_expiration_process();
BL _tx_timer_expiration_process // Call the timer expiration handling routine
// }
__tx_timer_dont_activate:
/* Did time slice expire? */
// if (_tx_timer_expired_time_slice)
// {
LDR r3, =_tx_timer_expired_time_slice // Pickup addr of time-slice expired
LDR r2, [r3, #0] // Pickup the actual flag
CBZ r2, __tx_timer_not_ts_expiration // See if the flag is set
// No, skip time-slice processing
/* Time slice interrupted thread. */
// _tx_thread_time_slice();
BL _tx_thread_time_slice // Call time-slice processing
LDR r0, =_tx_thread_preempt_disable // Build address of preempt disable flag
LDR r1, [r0] // Is the preempt disable flag set?
CBNZ r1, __tx_timer_skip_time_slice // Yes, skip the PendSV logic
LDR r0, =_tx_thread_current_ptr // Build current thread pointer address
LDR r1, [r0] // Pickup the current thread pointer
LDR r2, =_tx_thread_execute_ptr // Build execute thread pointer address
LDR r3, [r2] // Pickup the execute thread pointer
LDR r0, =0xE000ED04 // Build address of control register
LDR r2, =0x10000000 // Build value for PendSV bit
CMP r1, r3 // Are they the same?
BEQ __tx_timer_skip_time_slice // If the same, there was no time-slice performed
STR r2, [r0] // Not the same, issue the PendSV for preemption
__tx_timer_skip_time_slice:
// }
__tx_timer_not_ts_expiration:
POP {r0, lr} // Recover lr register (r0 is just there for
// the 8-byte stack alignment
// }
__tx_timer_nothing_expired:
DSB // Complete all memory access
BX lr // Return to caller
// }
.end

119
ports/cortex_m85/ac6/src/txe_thread_secure_stack_allocate.c Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
#define TX_SOURCE_CODE
/* Include necessary system files. */
#include "tx_api.h"
#include "tx_initialize.h"
#include "tx_thread.h"
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _tx_thread_secure_stack_allocate Cortex-M85 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function checks for errors in the secure stack allocate */
/* function call. */
/* */
/* INPUT */
/* */
/* thread_ptr Thread control block pointer */
/* stack_size Size of secure stack to */
/* allocate */
/* */
/* OUTPUT */
/* */
/* TX_THREAD_ERROR Invalid thread pointer */
/* TX_CALLER_ERROR Invalid caller of function */
/* status Actual completion status */
/* */
/* CALLS */
/* */
/* _tx_thread_secure_stack_allocate Actual stack alloc function */
/* */
/* CALLED BY */
/* */
/* Application Code */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
UINT _txe_thread_secure_stack_allocate(TX_THREAD *thread_ptr, ULONG stack_size)
{
#if defined(TX_SINGLE_MODE_SECURE) || defined(TX_SINGLE_MODE_NON_SECURE)
return(TX_FEATURE_NOT_ENABLED);
#else
UINT status;
/* Default status to success. */
status = TX_SUCCESS;
/* Check for an invalid thread pointer. */
if (thread_ptr == TX_NULL)
{
/* Thread pointer is invalid, return appropriate error code. */
status = TX_THREAD_ERROR;
}
/* Now check for invalid thread ID. */
else if (thread_ptr -> tx_thread_id != TX_THREAD_ID)
{
/* Thread pointer is invalid, return appropriate error code. */
status = TX_THREAD_ERROR;
}
/* Check for interrupt call. */
if (TX_THREAD_GET_SYSTEM_STATE() != ((ULONG) 0))
{
/* Is call from an interrupt and not initialization? */
if (TX_THREAD_GET_SYSTEM_STATE() < TX_INITIALIZE_IN_PROGRESS)
{
/* Invalid caller of this function, return appropriate error code. */
status = TX_CALLER_ERROR;
}
}
/* Determine if everything is okay. */
if (status == TX_SUCCESS)
{
/* Call actual secure stack allocate function. */
status = _tx_thread_secure_stack_allocate(thread_ptr, stack_size);
}
/* Return completion status. */
return(status);
#endif
}

120
ports/cortex_m85/ac6/src/txe_thread_secure_stack_free.c Normal file
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/**************************************************************************/
/* */
/* Copyright (c) Microsoft Corporation. All rights reserved. */
/* */
/* This software is licensed under the Microsoft Software License */
/* Terms for Microsoft Azure RTOS. Full text of the license can be */
/* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */
/* and in the root directory of this software. */
/* */
/**************************************************************************/
/**************************************************************************/
/**************************************************************************/
/** */
/** ThreadX Component */
/** */
/** Thread */
/** */
/**************************************************************************/
/**************************************************************************/
#define TX_SOURCE_CODE
/* Include necessary system files. */
#include "tx_api.h"
#include "tx_initialize.h"
#include "tx_thread.h"
/**************************************************************************/
/* */
/* FUNCTION RELEASE */
/* */
/* _txe_thread_secure_stack_free Cortex-M85 */
/* 6.1 */
/* AUTHOR */
/* */
/* Scott Larson, Microsoft Corporation */
/* */
/* DESCRIPTION */
/* */
/* This function checks for errors in the secure stack free */
/* function call. */
/* */
/* INPUT */
/* */
/* thread_ptr Thread control block pointer */
/* */
/* OUTPUT */
/* */
/* TX_THREAD_ERROR Invalid thread pointer */
/* TX_CALLER_ERROR Invalid caller of function */
/* status Actual completion status */
/* */
/* CALLS */
/* */
/* _tx_thread_secure_stack_free Actual stack free function */
/* */
/* CALLED BY */
/* */
/* Application Code */
/* */
/* RELEASE HISTORY */
/* */
/* DATE NAME DESCRIPTION */
/* */
/* 09-30-2020 Scott Larson Initial Version 6.1 */
/* */
/**************************************************************************/
UINT _txe_thread_secure_stack_free(TX_THREAD *thread_ptr)
{
#if defined(TX_SINGLE_MODE_SECURE) || defined(TX_SINGLE_MODE_NON_SECURE)
return(TX_FEATURE_NOT_ENABLED);
#else
UINT status;
/* Default status to success. */
status = TX_SUCCESS;
/* Check for an invalid thread pointer. */
if (thread_ptr == TX_NULL)
{
/* Thread pointer is invalid, return appropriate error code. */
status = TX_THREAD_ERROR;
}
/* Now check for invalid thread ID. */
else if (thread_ptr -> tx_thread_id != TX_THREAD_ID)
{
/* Thread pointer is invalid, return appropriate error code. */
status = TX_THREAD_ERROR;
}
/* Check for interrupt call. */
if (TX_THREAD_GET_SYSTEM_STATE() != ((ULONG) 0))
{
/* Is call from an interrupt and not initialization? */
if (TX_THREAD_GET_SYSTEM_STATE() < TX_INITIALIZE_IN_PROGRESS)
{
/* Invalid caller of this function, return appropriate error code. */
status = TX_CALLER_ERROR;
}
}
/* Determine if everything is okay. */
if (status == TX_SUCCESS)
{
/* Call actual secure stack allocate function. */
status = _tx_thread_secure_stack_free(thread_ptr);
}
/* Return completion status. */
return(status);
#endif
}