📄 boot.asm
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; Generated by PSoC Designer ver 4.2 b1013 : 02 September, 2004
;
;@Id: boot.tpl#679 @
;=============================================================================
; FILENAME: boot.asm
; VERSION: 4.15
; DATE: 11 January 2005
;
; DESCRIPTION:
; M8C Boot Code for CY8C24x90 microcontroller devices.
;
; Copyright (C) Cypress MicroSystems 2000-2005. All rights reserved.
;
; NOTES:
; PSoC Designer's Device Editor uses a template file, BOOT.TPL, located in
; the project's root directory to create BOOT.ASM. Any changes made to
; BOOT.ASM will be overwritten every time the project is generated; therefore
; changes should be made to BOOT.TPL not BOOT.ASM. Care must be taken when
; modifying BOOT.TPL so that replacement strings (such as @PROJECT_NAME)
; are not accidentally modified.
;
;=============================================================================
include ".\lib\GlobalParams.inc"
include "m8c.inc"
include "m8ssc.inc"
include "memory.inc"
;--------------------------------------
; Export Declarations
;--------------------------------------
export __Start
export __bss_start
export __data_start
export __idata_start
export __func_lit_start
export __text_start
export _bGetPowerSetting
export bGetPowerSetting
;--------------------------------------
; Optimization flags
;--------------------------------------
;
; To change the value of these flags, modify the file boot.tpl, not
; boot.asm. See the notes in the banner comment at the beginning of
; this file.
; Optimization for Assembly language (only) projects and C-language projects
; that do not depend on the C compiler to initialize the values of RAM variables.
; Set to 1: Support for C Run-time Environment initialization
; Set to 0: Support for C not included. Faster start up, smaller code space.
;
C_LANGUAGE_SUPPORT: equ 1
; For historical reasons, by default the boot code uses an lcall instruction
; to invoke the user's _main code. If _main executes a return instruction,
; boot provides an infinite loop. By changing the following equate from zero
; to 1, boot's lcall will be replaced by a ljmp instruction, saving two
; bytes on the stack which are otherwise required for the return address. If
; this option is enabled, _main must not return. (Beginning with the 4.2
; release, the C compiler automatically places an infinite loop at the end
; of main, rather than a return instruction.)
;
ENABLE_LJMP_TO_MAIN: equ 0
;-----------------------------------------------------------------------------
; Interrupt Vector Table
;-----------------------------------------------------------------------------
;
; Interrupt vector table entries are 4 bytes long. Each one contains
; a jump instruction to an ISR (Interrupt Service Routine), although
; very short ISRs could be encoded within the table itself. Normally,
; vector jump targets are modified automatically according to the user
; modules selected. This occurs when the 'Generate Application' opera-
; tion is run causing PSoC Designer to create boot.asm and the other
; configuration files. If you need to hard code a vector, update the
; file boot.tpl, not boot.asm. See the banner comment at the beginning
; of this file.
;-----------------------------------------------------------------------------
AREA TOP (ROM, ABS, CON)
org 0 ;Reset Interrupt Vector
jmp __Start ;First instruction executed following a Reset
org 04h ;Supply Monitor Interrupt Vector
halt ;Stop execution if power falls too low
org 08h ;Analog Column 0 Interrupt Vector
// call void_handler
reti
org 0Ch ;Analog Column 1 Interrupt Vector
// call void_handler
reti
org 18h ;VC3 Interrupt Vector
// call void_handler
reti
org 1Ch ;GPIO Interrupt Vector
// call void_handler
reti
org 20h ;PSoC Block DBB00 Interrupt Vector
// call void_handler
reti
org 24h ;PSoC Block DBB01 Interrupt Vector
// call void_handler
reti
org 28h ;PSoC Block DCB02 Interrupt Vector
// call void_handler
reti
org 2Ch ;PSoC Block DCB03 Interrupt Vector
// call void_handler
reti
org 40h ;USB Reset Interrupt Vector
ljmp _USB_RESET_ISR
reti
org 44h ;USB SOF Interrupt Vector
ljmp _USB_SOF_ISR
reti
org 48h ;USB EP0 Interrupt Vector
ljmp _USB_EP0_ISR
reti
org 4Ch ;USB EP1 Interrupt Vector
ljmp _USB_EP1_ISR
reti
org 50h ;USB EP2 Interrupt Vector
ljmp _USB_EP2_ISR
reti
org 54h ;USB EP3 Interrupt Vector
ljmp _USB_EP3_ISR
reti
org 58h ;USB EP4 Interrupt Vector
ljmp _USB_EP4_ISR
reti
org 5Ch ;USB Wakeup Interrupt Vector
ljmp _USB_WAKEUP_ISR
reti
org 60h ;PSoC I2C Interrupt Vector
// call void_handler
reti
org 64h ;Sleep Timer Interrupt Vector
// call void_handler
reti
;-----------------------------------------------------------------------------
; Start of Execution.
;-----------------------------------------------------------------------------
; The Supervisory ROM SWBootReset function has already completed the
; calibrate1 process, loading trim values for 5 volt operation.
;
org 68h
__Start:
; initialize values for voltage stabilization, if required,
; leaving power-on reset (POR) level at the default (low) level, at
; least for now.
;
M8C_SetBank1
mov reg[VLT_CR], LVD_TBEN_JUST | TRIP_VOLTAGE_JUST
M8C_SetBank0
IF ( WATCHDOG_ENABLE ) ; WDT selected in Global Params
M8C_EnableWatchDog
ENDIF
and reg[CPU_SCR1], ~CPU_SCR1_ECO_ALLOWED ; Prevent ECO from being enabled
;---------------------------
; Set up the Temporary stack
;---------------------------
; A temporary stack is set up for the SSC instructions.
; The real stack start will be assigned later.
;
_stack_start: equ 80h
mov A, _stack_start ; Set top of stack to end of used RAM
swap SP, A ; This is only temporary if going to LMM
;------------------------
; Set Power-related Trim
;------------------------
IF ( POWER_SETTING & POWER_SET_5V0) ; *** 5.0 Volt operation ***
IF ( AGND_BYPASS )
;- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
; The 5V trim has already been set, but we need to update the AGNDBYP
; bit in the write-only BDG_TR register. Recalculate the register
; value using the proper trim values.
;- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
M8SSC_SetTableVoltageTrim 1, SSCTBL1_TRIM_BGR_5V, AGND_BYPASS_JUST
ENDIF
ELSE
M8SSC_SetTableTrims 1, SSCTBL1_TRIM_IMO_3V_24MHZ, SSCTBL1_TRIM_BGR_3V, AGN_BYPASS_JUST
ENDIF ; 3.3 Volt Operation
mov [bSSC_KEY1], 0 ; Lock out Flash and Supervisiory operations
mov [bSSC_KEYSP], 0
;---------------------------------------
; Initialize Crystal Oscillator and PLL
;---------------------------------------
; Either no ECO, or waiting for stable clock is to be done in main
M8C_SetBank1
mov reg[OSC_CR0], (SLEEP_TIMER_JUST | OSC_CR0_CPU_12MHz)
M8C_SetBank0
M8C_ClearWDTAndSleep ; Reset the watch dog
;---------------------------------------------
; Enter the Large Memory Model, if applicable
;---------------------------------------------
IF ( SYSTEM_LARGE_MEMORY_MODEL )
RAM_SETPAGE_STK SYSTEM_STACK_PAGE ; relocate stack page ...
mov A, SYSTEM_STACK_BASE_ADDR ; and offset, if any
swap A, SP
RAM_SETPAGE_IDX2STK ; initialize other page pointers
RAM_SETPAGE_CUR 0
RAM_SETPAGE_MVW 0
RAM_SETPAGE_MVR 0
IF ( SYSTEM_IDXPG_TRACKS_STK_PP ); Now enable paging:
or F, FLAG_PGMODE_11b ; LMM w/ IndexPage<==>StackPage
ELSE
or F, FLAG_PGMODE_10b ; LMM w/ independent IndexPage
ENDIF ; SYSTEM_IDXPG_TRACKS_STK_PP
ELSE
mov A, __ramareas_end ; Set top of stack to end of used RAM
swap SP, A
ENDIF ; SYSTEM_LARGE_MEMORY_MODEL
;-------------------------
; Load Base Configuration
;-------------------------
; Load global parameter settings and load the user modules in the
; base configuration. Exceptions: (1) Leave CPU Speed fast as possible
; to minimize start up time; (2) We may still need to play with the
; Sleep Timer.
;
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