用于EagleEye3.0 规则集漏报和误报测试的示例项目,项目收集于github和gitee
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;-----------------------------------------------------------------------------
; This file contains the startup code used by the V850 C/C++ compiler.
;
; Copyright (c) 1998-2009 IAR Systems AB.
;
; $Revision: 5028 $
;
;-----------------------------------------------------------------------------
;
; Naming covention of labels in this file:
;
; ?xxx - External labels only accessed from assembler.
; __xxx - External labels accessed from or defined in C.
; xxx - Labels local to one module (note: this file contains
; several modules).
; main - The starting point of the user program.
;
#include "lxx.h"
#include "cfi.h"
CASEON
#define A0 R1
#define A1 R5
#define A2 R6
;---------------------------------------------------------------;
; Call Frame Informatio ;
;---------------------------------------------------------------;
CFNAMES
CFCOMMON
;---------------------------------------------------------------;
; Reset Vector ;
;---------------------------------------------------------------;
MODULE ?RESET
PUBLIC ?creset
EXTERN __program_start
COMMON INTVEC:CODE:ROOT(2)
?creset:
MOV __program_start, R1
JMP [R1]
ENDMOD
;---------------------------------------------------------------;
; Module start. ;
;---------------------------------------------------------------;
MODULE __program_start
PUBLIC __program_start
PUBLIC ?cstartup
EXTERN ?creset
REQUIRE ?creset
;---------------------------------------------------------------;
; Forward declarations of segments used in this module. ;
;---------------------------------------------------------------;
RSEG CODE:CODE:NOROOT(2)
RSEG CSTACK:DATA(2)
;---------------------------------------------------------------;
; The startup code. ;
;---------------------------------------------------------------;
RSEG CSTART:CODE:NOROOT(1)
;;
;; The startup sequence contained in the final linked
;; application will consist of a mosaic containing
;; modules and segment parts defined in this file.
;;
;; The only part which is required is the call to
;; the function "main".
;;
EXTERN ?cstart_call_main
REQUIRE ?cstart_call_main
EXTERN __cstart_low_level_init
REQUIRE __cstart_low_level_init
PUBLIC ?BTT_cstart_begin
?BTT_cstart_begin:
?cstartup:
__program_start:
;---------------------------------------------------------------;
; Set up the stack and the global pointer. ;
;---------------------------------------------------------------;
#if __CORE__ == __CORE_V850__
;; If an interrupt is issued beteween the MOVEA and
;; MOVHI instructions the SP will point into
;; nowhere. To fix this problem we build the new SP
;; value in R1 and moves it with an atomic operation
;; to SP.
MOVE_M SFE CSTACK, R1
MOV R1, SP
#else
MOVE_M SFE CSTACK, SP
#endif
EXTERN ?BREL_BASE
MOVE_M ?BREL_BASE + 0x8000, GP
EXTERN ?BREL_CBASE
MOVE_M ?BREL_CBASE + 0x8000, R25
;---------------------------------------------------------------;
; Setup constant registers. ;
;---------------------------------------------------------------;
RSEG CSTART:CODE:NOROOT(1)
PUBLIC ?INIT_REG
?INIT_REG: MOV 255, R18
ORI 65535, zero, R19
ENDMOD
;---------------------------------------------------------------;
; Initialize the saddr base pointers. ;
;---------------------------------------------------------------;
MODULE ?INIT_SADDR_BASE
RTMODEL "__reg_ep", "saddr"
RSEG CSTART:CODE:NOROOT(1)
PUBLIC ?INIT_SADDR_BASE
?INIT_SADDR_BASE:
EXTERN ?SADDR_BASE
MOVE_M ?SADDR_BASE, EP
ENDMOD
;---------------------------------------------------------------;
; If hardware must be initialized from C or if watch dog timer ;
; must be handled or if the segment init should not be ;
; performed it can now be done in `__low_level_init'. ;
;---------------------------------------------------------------;
; Call the user function __low_level_init, if defined. ;
; It is the responsibility of __low_level_init to require ;
; __cstart_low_level_init in order to be called by cstartup. ;
;---------------------------------------------------------------;
MODULE ?CSTART_LOW_LEVEL_INIT
RSEG CSTART:CODE:NOROOT(1)
PUBLIC __cstart_low_level_init
EXTERN __low_level_init
REQUIRE __low_level_init
EXTERN ?no_seg_init
__cstart_low_level_init:
CALL_FUNC __low_level_init, LP, R1
ANDI 0xFF, R1, R1
BZ ?no_seg_init
ENDMOD
;---------------------------------------------------------------;
; Segment initialization code. Copy initialized ROMmed code to ;
; RAM and ?seg_clear uninitialized variables. ;
;---------------------------------------------------------------;
MODULE ?INIT_MEMORY
;---------------------------------------------------------------;
; Zero out NEAR_Z ;
;---------------------------------------------------------------;
PUBLIC ?INIT_NEAR_Z
RSEG NEAR_Z(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_clear
?INIT_NEAR_Z:
MOVE_M SFB NEAR_Z, A0
MOVE_M SFE NEAR_Z, A1
JARL ?seg_clear, LP
;---------------------------------------------------------------;
; Zero out BREL_Z ;
;---------------------------------------------------------------;
PUBLIC ?INIT_BREL_Z
RSEG BREL_Z(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_clear
?INIT_BREL_Z:
MOVE_M SFB BREL_Z, A0
MOVE_M SFE BREL_Z, A1
JARL ?seg_clear, LP
;---------------------------------------------------------------;
; Zero out SADDR7_Z ;
;---------------------------------------------------------------;
PUBLIC ?INIT_SADDR7_Z
RSEG SADDR7_Z(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_clear
?INIT_SADDR7_Z:
MOVE_M SFB SADDR7_Z, A0
MOVE_M SFE SADDR7_Z, A1
JARL ?seg_clear, LP
;---------------------------------------------------------------;
; Zero out SADDR8_Z ;
;---------------------------------------------------------------;
PUBLIC ?INIT_SADDR8_Z
RSEG SADDR8_Z(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_clear
?INIT_SADDR8_Z:
MOVE_M SFB SADDR8_Z, A0
MOVE_M SFE SADDR8_Z, A1
JARL ?seg_clear, LP
;---------------------------------------------------------------;
; Zero out BREL23_Z ;
;---------------------------------------------------------------;
#if __CORE__ >= __CORE_V850E2M__
PUBLIC ?INIT_BREL23_Z
RSEG BREL23_Z(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_clear
?INIT_BREL23_Z:
MOVE_M SFB BREL23_Z, A0
MOVE_M SFE BREL23_Z, A1
JARL ?seg_clear, LP
#endif
;---------------------------------------------------------------;
; Zero out HUGE_Z ;
;---------------------------------------------------------------;
PUBLIC ?INIT_HUGE_Z
RSEG HUGE_Z(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_clear
?INIT_HUGE_Z:
MOVE_M SFB HUGE_Z, A0
MOVE_M SFE HUGE_Z, A1
JARL ?seg_clear, LP
;---------------------------------------------------------------;
; Copy NEAR_ID into NEAR_I ;
;---------------------------------------------------------------;
PUBLIC ?INIT_NEAR_I
RSEG NEAR_I(2)
RSEG NEAR_ID(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_copy
?INIT_NEAR_I:
MOVE_M SFB NEAR_ID, A0
MOVE_M SFE NEAR_ID, A1
MOVE_M SFB NEAR_I, A2
JARL ?seg_copy, LP
;---------------------------------------------------------------;
; Copy BREL_ID into BREL_I ;
;---------------------------------------------------------------;
PUBLIC ?INIT_BREL_I
RSEG BREL_I(2)
RSEG BREL_ID(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_copy
?INIT_BREL_I:
MOVE_M SFB BREL_ID, A0
MOVE_M SFE BREL_ID, A1
MOVE_M SFB BREL_I, A2
JARL ?seg_copy, LP
;---------------------------------------------------------------;
; Copy SADDR7_ID into SADDR7_I ;
;---------------------------------------------------------------;
PUBLIC ?INIT_SADDR7_I
RSEG SADDR7_I(2)
RSEG SADDR7_ID(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_copy
?INIT_SADDR7_I:
MOVE_M SFB SADDR7_ID, A0
MOVE_M SFE SADDR7_ID, A1
MOVE_M SFB SADDR7_I, A2
JARL ?seg_copy, LP
;---------------------------------------------------------------;
; Copy SADDR8_ID into SADDR8_I ;
;---------------------------------------------------------------;
PUBLIC ?INIT_SADDR8_I
RSEG SADDR8_I(2)
RSEG SADDR8_ID(2)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_copy
?INIT_SADDR8_I:
MOVE_M SFB SADDR8_ID, A0
MOVE_M SFE SADDR8_ID, A1
MOVE_M SFB SADDR8_I, A2
JARL ?seg_copy, LP
;---------------------------------------------------------------;
; Copy BREL23_ID into BREL23_I ;
;---------------------------------------------------------------;
#if __CORE__ >= __CORE_V850E2M__
PUBLIC ?INIT_BREL23_I
RSEG BREL23_I(1)
RSEG BREL23_ID(1)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_copy
?INIT_BREL23_I:
MOVE_M SFB BREL23_ID, A0
MOVE_M SFE BREL23_ID, A1
MOVE_M SFB BREL23_I, A2
JARL ?seg_copy, LP
#endif
;---------------------------------------------------------------;
; Copy HUGE_ID into HUGE_I ;
;---------------------------------------------------------------;
PUBLIC ?INIT_HUGE_I
RSEG HUGE_I(1)
RSEG HUGE_ID(1)
RSEG CSTART:CODE:NOROOT(1)
EXTERN ?seg_copy
?INIT_HUGE_I:
MOVE_M SFB HUGE_ID, A0
MOVE_M SFE HUGE_ID, A1
MOVE_M SFB HUGE_I, A2
JARL ?seg_copy, LP
;---------------------------------------------------------------;
; Destination label when skipping data initialization. ;
;---------------------------------------------------------------;
PUBLIC ?no_seg_init
RSEG CSTART:CODE:NOROOT(1)
?no_seg_init:
ENDMOD
;---------------------------------------------------------------;
; Calculate code distance (PIC only). ;
;---------------------------------------------------------------;
MODULE ?INIT_PIC
PUBLIC ?INIT_PIC
RSEG CSTART:CODE:NOROOT(1)
RTMODEL "__code_model", "pic"
EXTERN ?CODE_DISTANCE
EXTERN_LS_M
?INIT_PIC:
JARL ref_point, A1
ref_point: MOVE_M ref_point, A2
SUB A2, A1
;; Expands to correct store instruction/sequence.
STORE_M A1, ?CODE_DISTANCE, A2
;; Note: A1 (the value of ?CODE_DISTANCE) is used below!
ENDMOD
#if __CORE__ >= __CORE_V850E2M__
;---------------------------------------------------------------;
; Initialize the BSEL system register bank selector. ;
;---------------------------------------------------------------;
MODULE ?INIT_BSEL
RSEG CSTART:CODE:NOROOT(1)
PUBLIC ?INIT_BSEL
?INIT_BSEL:
LDSR R0, 31 ; BSEL
ENDMOD
#endif
#if __CORE__ >= __CORE_V850E__
;---------------------------------------------------------------;
; Initialize the CALLT base pointers. ;
;---------------------------------------------------------------;
MODULE ?INIT_CALLT
PUBLIC ?INIT_CALLT
EXTERN ?CALLT_BASE
COMMON CLTVEC(2)
RSEG CSTART:CODE:NOROOT(1)
RTMODEL "__cpu", "v850e"
REQUIRE ?CALLT_BASE
;; The Call table base pointer
?INIT_CALLT:
MOVE_M SFB CLTVEC, A2
#ifdef CODE_MODEL_PIC
EXTERN ?CODE_DISTANCE
REQUIRE ?CODE_DISTANCE
;; Add the value of ?CODE_DISTANCE calculated above
ADD A1, A2
#endif
#if __CORE__ >= __CORE_V850E2M__
EXTERN ?INIT_BSEL
REQUIRE ?INIT_BSEL
#endif
LDSR A2, 20 ; CTBP
ENDMOD
#endif
#if __CORE__ >= __CORE_V850E2M__
;---------------------------------------------------------------;
; Initialize the SYSCALL base pointers. ;
;---------------------------------------------------------------;
MODULE ?INIT_SYSCALL
PUBLIC ?INIT_SYSCALL
EXTERN ?INIT_BSEL
EXTERN ?SYSCALL_BASE
COMMON SYSCALLVEC(2)
RSEG CSTART:CODE:NOROOT(1)
REQUIRE ?INIT_BSEL
REQUIRE ?SYSCALL_BASE
;; The syscall table base pointer
?INIT_SYSCALL:
MOVE_M SFB SYSCALLVEC, A2
#ifdef CODE_MODEL_PIC
EXTERN ?CODE_DISTANCE
REQUIRE ?CODE_DISTANCE
;; Add the value of ?CODE_DISTANCE calculated above
ADD A1, A2
#endif
LDSR A2, 12 ; SCBP
MOVE_M ((SFE SYSCALLVEC - SFB SYSCALLVEC)/4) - 1, A2
LDSR A2, 11 ; SCCFG
ENDMOD
#endif
;---------------------------------------------------------------;
; This segment part is required by the compiler when it is ;
; necessary to call constructors of global objects. ;
;---------------------------------------------------------------;
MODULE ?CALL_MAIN
RSEG DIFUNCT(2)
RSEG CSTART:CODE:NOROOT(1)
PUBLIC ?cstart_call_ctors
EXTERN __call_ctors
?cstart_call_ctors:
MOVE_M SFB DIFUNCT, R1
MOVE_M SFE DIFUNCT, R5
CALL_FUNC __call_ctors, LP, R6
;---------------------------------------------------------------;
; Call C main() with no parameters. ;
;---------------------------------------------------------------;
RSEG CSTART:CODE:NOROOT(1)
PUBLIC ?cstart_call_main
EXTERN main
EXTERN exit
EXTERN __exit
?cstart_call_main:
CALL_FUNC main, LP, R6
;---------------------------------------------------------------;
; If we come here we have returned from main with a 'return' ;
; statement, not with a call to exit() or abort(). ;
; In this case we must call exit() here for a nice ending. ;
; Note: The return value of main() is the argument to exit(). ;
;---------------------------------------------------------------;
CALL_FUNC exit, LP, R6
;---------------------------------------------------------------;
; We should never come here, but just in case. ;
;---------------------------------------------------------------;
MOV __exit, LP
JMP [LP]
PUBLIC ?BTT_cstart_end
?BTT_cstart_end:
;---------------------------------------------------------------;
; Copy a chunk of memory. ;
; A0 = Start of from block ;
; A1 = End of from block (+1) ;
; A2 = Start of to block ;
;---------------------------------------------------------------;
PUBLIC ?seg_copy
PUBLIC ?seg_clear
RSEG CSTART:CODE:NOROOT(1)
REQUIRE done
cp_cont: LD.B 0[A0], R7
ADD 1, A0
ST.B R7, 0[A2]
ADD 1, A2
;; Note: The entry point is here.
?seg_copy: CMP A0, A1
BNE cp_cont
RSEG CSTART:CODE:NOROOT(1)
done: JMP [LP]
;---------------------------------------------------------------;
; Clear a chunk of memory. ;
; A0 = Start of block ;
; A1 = End of block (+1) ;
;---------------------------------------------------------------;
RSEG CSTART:CODE:NOROOT(1)
REQUIRE done
?seg_clear: CMP A0, A1
BE done
cl_cont: ST.B zero, 0[A0]
ADD 1, A0
BR ?seg_clear
ENDMOD
;---------------------------------------------------------------;
; _exit code ;
; ;
; Call destructors (if required), then fall through to __exit. ;
;---------------------------------------------------------------;
MODULE ?_exit
PUBLIC _exit
PUBLIC ?BTT_exit_begin
EXTERN ?exit_restore2
RSEG RCODE:CODE:NOROOT(1)
?BTT_exit_begin:
_exit:
REQUIRE ?exit_restore2
;; If any of the two pieces of code "__cstart_call_dtors"
;; or "__cstart_closeall" is called we need to save the
;; argument to "_exit". However, since we never will
;; from this function we can use a permanent register
;; rather than storing the value on the stack.
RSEG RCODE:CODE:NOROOT(1)
EXTERN ?exit_restore
PUBLIC ?exit_save
?exit_save:
REQUIRE ?exit_restore
MOV R1, R29
RSEG RCODE:CODE:NOROOT(1)
PUBLIC __cstart_call_dtors
EXTERN __call_dtors
REQUIRE ?exit_save
;; This label is required by "__record_needed_destruction".
__cstart_call_dtors:
CALL_FUNC __call_dtors, LP, R1
ENDMOD
;; A new module is needed so that a non-terminal-IO program
;; doesn't include this, which requires __putchar.
MODULE ?__cstart_closeall
RSEG RCODE:CODE:NOROOT(1)
;; When stdio is used, the following piece of code is
;; required by the _Closreg macro.
PUBLIC __cstart_closeall
EXTERN ?exit_save
REQUIRE ?exit_save
;; This label is required by _Closreg
__cstart_closeall:
EXTERN _Close_all
CALL_FUNC _Close_all, LP, R1
ENDMOD
;; Restore the argument previously stored by the "save" section
;; above.
MODULE ?_exit_end
RSEG RCODE:CODE:NOROOT(1)
PUBLIC ?exit_restore
EXTERN ?exit_restore2
?exit_restore:
REQUIRE ?exit_restore2
MOV R29, R1
ENDMOD
MODULE ?_exit_end2
PUBLIC ?BTT_exit_end
RSEG RCODE:CODE:NOROOT(1)
PUBLIC ?exit_restore2
EXTERN __exit
?exit_restore2:
MOV __exit, LP
JMP [LP]
?BTT_exit_end:
ENDMOD
;---------------------------------------------------------------;
; Define the base of the base relative (brel) data for RAM. ;
; ;
; This empty segment should be places in front of the brel ;
; RAM data segments. ;
;---------------------------------------------------------------;
MODULE ?BREL_BASE
PUBLIC ?BREL_BASE
RSEG BREL_BASE:DATA:NOROOT(2)
?BREL_BASE:
ENDMOD
;---------------------------------------------------------------;
; Define the base of the base relative (brel) data for ROM. ;
; ;
; This empty segment should be places in front of the brel ;
; ROM data segment. ;
;---------------------------------------------------------------;
MODULE ?BREL_CBASE
PUBLIC ?BREL_CBASE
RSEG BREL_CBASE:CONST:NOROOT(2)
?BREL_CBASE:
ENDMOD
;---------------------------------------------------------------;
; Define the base of the short addressing (saddr) data. ;
; ;
; This empty segment should be places in front of the saddr ;
; data segments. ;
;---------------------------------------------------------------;
MODULE ?SADDR_BASE
RTMODEL "__reg_ep", "saddr"
PUBLIC ?SADDR_BASE
RSEG SADDR_BASE:CONST:NOROOT(2)
EXTERN ?INIT_SADDR_BASE
REQUIRE ?INIT_SADDR_BASE
?SADDR_BASE:
ENDMOD
;---------------------------------------------------------------;
; The base of the CALLT vector. ;
;---------------------------------------------------------------;
MODULE ?CALLT_BASE
PUBLIC ?CALLT_BASE
COMMON CLTVEC:CONST:NOROOT(2)
DATA
?CALLT_BASE:
ENDMOD
#if __CORE__ >= __CORE_V850E2M__
;---------------------------------------------------------------;
; The base of the SYSCALL vector. ;
;---------------------------------------------------------------;
MODULE ?SYSCALL_BASE
PUBLIC ?SYSCALL_BASE
COMMON SYSCALLVEC:CONST:NOROOT(2)
DATA
?SYSCALL_BASE:
ENDMOD
#endif
;---------------------------------------------------------------;
; The distance the code has been moved when using position ;
; independent code. ;
;---------------------------------------------------------------;
MODULE ?CODE_DISTANCE
RTMODEL "__code_model", "pic"
PUBLIC ?CODE_DISTANCE
RSEG LIBRARY_N:DATA:NOROOT(2)
EXTERN ?INIT_PIC
REQUIRE ?INIT_PIC
?CODE_DISTANCE:
DS 4
ENDMOD
;---------------------------------------------------------------;
; A dummy "low level init" that will be used if the user ;
; hasn't defined this function. ;
;---------------------------------------------------------------;
MODULE ?__low_level_init_stub
PUBLIC __low_level_init
RSEG RCODE:CODE:NOROOT
__low_level_init:
MOV 1, R1
JMP [LP]
ENDMOD
END