📄 lib_mem_a.asm
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;********************************************************************************************************
; uC/LIB
; CUSTOM LIBRARY MODULES
;
; (c) Copyright 2004-2011; Micrium, Inc.; Weston, FL
;
; All rights reserved. Protected by international copyright laws.
;
; uC/LIB is provided in source form to registered licensees ONLY. It is
; illegal to distribute this source code to any third party unless you receive
; written permission by an authorized Micrium representative. Knowledge of
; the source code may NOT be used to develop a similar product.
;
; Please help us continue to provide the Embedded community with the finest
; software available. Your honesty is greatly appreciated.
;
; You can contact us at www.micrium.com.
;********************************************************************************************************
;********************************************************************************************************
;
; STANDARD MEMORY OPERATIONS
;
; ARM-Cortex-M3
; IAR Compiler
;
; Filename : lib_mem_a.asm
; Version : V1.35.00
; Programmer(s) : JDH
; BAN
;********************************************************************************************************
; Note(s) : (1) NO compiler-supplied standard library functions are used in library or product software.
;
; (a) ALL standard library functions are implemented in the custom library modules :
;
; (1) \<Custom Library Directory>\lib*.*
;
; (2) \<Custom Library Directory>\Ports\<cpu>\<compiler>\lib*_a.*
;
; where
; <Custom Library Directory> directory path for custom library software
; <cpu> directory name for specific processor (CPU)
; <compiler> directory name for specific compiler
;
; (b) Product-specific library functions are implemented in individual products.
;
; (2) Assumes ARM CPU mode configured for Little Endian.
;********************************************************************************************************
;********************************************************************************************************
; PUBLIC FUNCTIONS
;********************************************************************************************************
PUBLIC Mem_Copy
;********************************************************************************************************
; CODE GENERATION DIRECTIVES
;********************************************************************************************************
RSEG CODE:CODE:NOROOT(2)
;$PAGE
;********************************************************************************************************
; Mem_Copy()
;
; Description : Copy data octets from one buffer to another buffer.
;
; Argument(s) : pdest Pointer to destination memory buffer.
;
; psrc Pointer to source memory buffer.
;
; size Number of data buffer octets to copy.
;
; Return(s) : none.
;
; Caller(s) : Application.
;
; Note(s) : (1) Null copies allowed (i.e. 0-octet size).
;
; (2) Memory buffers NOT checked for overlapping.
;
; (3) Modulo arithmetic is used to determine whether a memory buffer starts on a 'CPU_ALIGN'
; address boundary.
;
; (4) ARM Cortex-M3 processors use a subset of the ARM Thumb-2 instruction set which does
; NOT support 16-bit conditional branch instructions but ONLY supports 8-bit conditional
; branch instructions.
;
; Therefore, branches exceeding 8-bit, signed, relative offsets :
;
; (a) CANNOT be implemented with conditional branches; but ...
; (b) MUST be implemented with non-conditional branches.
;********************************************************************************************************
; void Mem_Copy (void *pdest, ; ==> R0
; void *psrc, ; ==> R1
; CPU_SIZE_T size) ; ==> R2
Mem_Copy:
CMP R0, #0
BNE Mem_Copy_1
BX LR ; return if pdest == NULL
Mem_Copy_1:
CMP R1, #0
BNE Mem_Copy_2
BX LR ; return if psrc == NULL
Mem_Copy_2:
CMP R2, #0
BNE Mem_Copy_3
BX LR ; return if size == 0
Mem_Copy_3:
STMFD SP!, {R3-R12} ; save registers on stack
;$PAGE
Chk_Align_32: ; check if both dest & src 32-bit aligned
AND R3, R0, #0x03
AND R4, R1, #0x03
CMP R3, R4
BNE Chk_Align_16 ; not 32-bit aligned, check for 16-bit alignment
RSB R3, R3, #0x04 ; compute 1-2-3 pre-copy bytes (to align to the next 32-bit boundary)
AND R3, R3, #0x03
Pre_Copy_1:
CMP R3, #1 ; copy 1-2-3 bytes (to align to the next 32-bit boundary)
BCC Copy_32_1 ; start real 32-bit copy
CMP R2, #1 ; check if any more data to copy
BCS Pre_Copy_1_Cont
B Mem_Copy_END ; no more data to copy (see Note #4b)
Pre_Copy_1_Cont:
LDRB R4, [R1], #1
STRB R4, [R0], #1
SUB R3, R3, #1
SUB R2, R2, #1
B Pre_Copy_1
Chk_Align_16: ; check if both dest & src 16-bit aligned
AND R3, R0, #0x01
AND R4, R1, #0x01
CMP R3, R4
BEQ Pre_Copy_2
B Copy_08_1 ; not 16-bit aligned, start 8-bit copy (see Note #4b)
Pre_Copy_2:
CMP R3, #1 ; copy 1 byte (to align to the next 16-bit boundary)
BCC Copy_16_1 ; start real 16-bit copy
LDRB R4, [R1], #1
STRB R4, [R0], #1
SUB R3, R3, #1
SUB R2, R2, #1
B Pre_Copy_2
Copy_32_1:
CMP R2, #(04*10*09) ; Copy 9 chunks of 10 32-bit words (360 octets per loop)
BCC Copy_32_2
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
SUB R2, R2, #(04*10*09)
B Copy_32_1
Copy_32_2:
CMP R2, #(04*10*01) ; Copy chunks of 10 32-bit words (40 octets per loop)
BCC Copy_32_3
LDMIA R1!, {R3-R12}
STMIA R0!, {R3-R12}
SUB R2, R2, #(04*10*01)
B Copy_32_2
Copy_32_3:
CMP R2, #(04*01*01) ; Copy remaining 32-bit words
BCC Copy_16_1
LDR R3, [R1], #4
STR R3, [R0], #4
SUB R2, R2, #(04*01*01)
B Copy_32_3
;$PAGE
Copy_16_1:
CMP R2, #(02*01*16) ; Copy chunks of 16 16-bit words (32 bytes per loop)
BCC Copy_16_2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
LDRH R3, [R1], #2
STRH R3, [R0], #2
SUB R2, R2, #(02*01*16)
B Copy_16_1
Copy_16_2:
CMP R2, #(02*01*01) ; Copy remaining 16-bit words
BCC Copy_08_1
LDRH R3, [R1], #2
STRH R3, [R0], #2
SUB R2, R2, #(02*01*01)
B Copy_16_2
;$PAGE
Copy_08_1:
CMP R2, #(01*01*16) ; Copy chunks of 16 8-bit words (16 bytes per loop)
BCC Copy_08_2
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
LDRB R3, [R1], #1
STRB R3, [R0], #1
SUB R2, R2, #(01*01*16)
B Copy_08_1
Copy_08_2:
CMP R2, #(01*01*01) ; Copy remaining 8-bit words
BCC Mem_Copy_END
LDRB R3, [R1], #1
STRB R3, [R0], #1
SUB R2, R2, #(01*01*01)
B Copy_08_2
Mem_Copy_END:
LDMFD SP!, {R3-R12} ; restore registers from stack
BX LR ; return
END
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