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Gen4_R-Car_Trace32/2_Trunk/demo/arm/flash/mk20.cmm
woody d411edd9b4 add Trace32 File
2025-10-14 09:52:32 +09:00

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; --------------------------------------------------------------------------------
; @Title: Generic script for Freescale MK20, MK21, MK22 and MK26 internal flash
;
; @Description:
;
; Example for flash declaration of Freescale MK20, MK21, MK22 and MK26 internal
; flash.
;
; Script arguments:
;
; DO mk20 [PREPAREONLY] [CPU=<cpu>] [DUALPORT=0|1] [MASSERASE]
;
; PREPAREONLY only declares flash but does not execute flash programming
;
; CPU=<cpu> selects CPU derivative <cpu>. <cpu> can be CPU name out of the
; table listed below. For these derivatives the flash declaration
; is done by the script.
;
; DUALPORT default value is 0 (disabled). If DualPort mode is enabled
; flash algorithm stays running until flash programming is
; finished. Data is tranferred via dual port memory access.
;
; MASSERASE forces mass erase of device before establishing debug connection
;
; For example:
;
; DO ~~/demo/arm/flash/mk20 CPU=MK20DN512VLK10 DUALPORT=1 PREPAREONLY
;
; List of MK20/MK21/MK22/MK26 derivatives and their configuration:
;
; CPU-Type Flash ProgFlash FlexNVM EEPROM RamSize
; type [Byte] [Byte] [Byte] [Byte]
; --------------------------------------------------------------------------------
; MK20DN32VEX5 0 32KB - - 8KB
; MK20DN32VFM5 0 32KB - - 8KB
; MK20DN32VFT5 0 32KB - - 8KB
; MK20DN32VLF5 0 32KB - - 8KB
; MK20DN32VLH5 0 32KB - - 8KB
; MK20DX32VEX5 0 32KB 32KB 2KB 8KB
; MK20DX32VFM5 0 32KB 32KB 2KB 8KB
; MK20DX32VFT5 0 32KB 32KB 2KB 8KB
; MK20DX32VLF5 0 32KB 32KB 2KB 8KB
; MK20DX32VLH5 0 32KB 32KB 2KB 8KB
; MK20DN64VEX5 0 64KB - - 16KB
; MK20DN64VFM5 0 64KB - - 16KB
; MK20DN64VFT5 0 64KB - - 16KB
; MK20DN64VLF5 0 64KB - - 16KB
; MK20DN64VLH5 0 64KB - - 16KB
; MK20DX64VEX5 0 64KB 32KB 2KB 16KB
; MK20DX64VEX7 1 64KB 32KB 2KB 16KB
; MK20DX64VFM5 0 64KB 32KB 2KB 16KB
; MK20DX64VFT5 0 64KB 32KB 2KB 16KB
; MK20DX64VLF5 0 64KB 32KB 2KB 16KB
; MK20DX64VLH5 0 64KB 32KB 2KB 16KB
; MK20DX64VLH7 1 64KB 32KB 2KB 16KB
; MK20DX64VLK7 1 64KB 32KB 2KB 16KB
; MK20DX64VMB7 1 64KB 32KB 2KB 16KB
; MK20DN128VEX5 0 128KB - - 16KB
; MK20DN128VFM5 0 128KB - - 16KB
; MK20DN128VFT5 0 128KB - - 16KB
; MK20DN128VLF5 0 128KB - - 16KB
; MK20DN128VLH5 0 128KB - - 16KB
; MK20DX128VEX5 0 128KB 32KB 2KB 16KB
; MK20DX128VEX7 1 128KB 32KB 2KB 32KB
; MK20DX128VFM5 0 128KB 32KB 2KB 16KB
; MK20DX128VFT5 0 128KB 32KB 2KB 16KB
; MK20DX128VLF5 0 128KB 32KB 2KB 16KB
; MK20DX128VLH5 0 128KB 32KB 2KB 16KB
; MK20DX128VLH7 1 128KB 32KB 2KB 32KB
; MK20DX128VLK7 1 128KB 32KB 2KB 32KB
; MK20DX128VLL7 1 128KB 32KB 2KB 32KB
; MK20DX128VLQ10 2X 128KB 128KB 4KB 32KB
; MK20DX128VMB7 1 128KB 32KB 2KB 32KB
; MK20DX128VMD10 2X 128KB 128KB 4KB 32KB
; MK20DX128VML7 1 128KB 32KB 2KB 32KB
; MK20DX256VEX7 1 256KB 32KB 2KB 64KB
; MK20DX256VLH7 1 256KB 32KB 2KB 64KB
; MK20DX256VLK10 2X 256KB 256KB 4KB 64KB
; MK20DX256VLK7 1 256KB 32KB 2KB 64KB
; MK20DX256VLL10 2X 256KB 256KB 4KB 64KB
; MK20DX256VLL7 1 256KB 32KB 2KB 64KB
; MK20DX256VLQ10 2X 256KB 256KB 4KB 64KB
; MK20DX256VMB10 2X 256KB 256KB 4KB 64KB
; MK20DX256VMB7 1 256KB 32KB 2KB 64KB
; MK20DX256VMC10 2X 256KB 256KB 4KB 64KB
; MK20DX256VMD10 2X 256KB 256KB 4KB 64KB
; MK20DX256VML7 1 256KB 32KB 2KB 64KB
; MK20DN512VLK10 2N 512KB - - 128KB
; MK20DN512VLL10 2N 512KB - - 128KB
; MK20DN512VLQ10 2N 512KB - - 128KB
; MK20DN512VMB10 2N 512KB - - 128KB
; MK20DN512VMC10 2N 512KB - - 128KB
; MK20DN512VMD10 2N 512KB - - 128KB
; MK20FX512VLQ12 3X 512KB 512KB 16KB 128KB
; MK20FX512VMD12 3X 512KB 512KB 16KB 128KB
; MK20FN1M0VLQ12 3N 1MB - - 128KB
; MK20FN1M0VMD12 3N 1MB - - 128KB
; --------------------------------------------------------------------------------
;
; MK21DX128VLK5 4X 128KB 64KB 4KB 32KB
; MK21DX128AVLK5 4X 128KB 64KB 4KB 32KB
; MK21DX128VMC5 4X 128KB 64KB 4KB 32KB
; MK21DX128AVMC5 4X 128KB 64KB 4KB 32KB
; MK21DX256VLK5 4X 256KB 64KB 4KB 32KB
; MK21DX256AVLK5 4X 256KB 64KB 4KB 32KB
; MK21DX256VMC5 4X 256KB 64KB 4KB 32KB
; MK21DX256AVMC5 4X 256KB 64KB 4KB 32KB
; MK21DN512VLK5 4N 512KB - - 64KB
; MK21DN512AVLK5 4N 512KB - - 64KB
; MK21DN512VMC5 4N 512KB - - 64KB
; MK21DN512AVMC5 4N 512KB - - 64KB
; MK21FX512VMC10 5X 512KB 128KB 4KB 64KB
; //MK21FX512VMD10
; MK21FN1M0VMC10 3N 1MB - - 128KB
; //MK21FN1M0VMD10
; --------------------------------------------------------------------------------
; MK22DX128VLF5 4X 128KB 64KB 4KB 32KB
; MK22DX128VLH5 4X 128KB 64KB 4KB 32KB
; MK22DX128VLK5 4X 128KB 64KB 4KB 32KB
; MK22DX128VMC5 4X 128KB 64KB 4KB 32KB
; MK22DX256VLF5 4X 256KB 64KB 4KB 32KB
; MK22DX256VLH5 4X 256KB 64KB 4KB 32KB
; MK22DX256VLK5 4X 256KB 64KB 4KB 32KB
; MK22DX256VMC5 4X 256KB 64KB 4KB 32KB
; MK22DN512VLH5 4N 512KB - - 64KB
; MK22DN512VLK5 4N 512KB - - 64KB
; MK22DN512VMC5 4N 512KB - - 64KB
; MK22FX512VMC10 5X 512KB 128KB 4KB 64KB
; MK22FN128VDC10 2N 128KB - - 24KB
; MK22FN128VLH10 2N 128KB - - 24KB
; MK22FN128VLL10 2N 128KB - - 24KB
; MK22FN128VMP10 2N 128KB - - 24KB
; MK22FN256VDC12 4N 256KB - - 48KB
; MK22FN256VDC12 4N 256KB - - 48KB
; MK22FN256VLL12 4N 256KB - - 48KB
; MK22FN256VLL12 4N 256KB - - 48KB
; MK22FN512VDC12 4N 512KB - - 128KB
; MK22FN512VLH12 4N 512KB - - 128KB
; MK22FN512VLL12 4N 512KB - - 128KB
; MK22FN512VMP12 4N 512KB - - 128KB
; MK22FX512VLH12 5X 512KB 128KB 4KB 128KB
; MK22FX512VLK12 5X 512KB 128KB 4KB 128KB
; MK22FX512VLL12 5X 512KB 128KB 4KB 128KB
; MK22FX512VMC12 5X 512KB 128KB 4KB 128KB
; MK22FX512VLQ12 5X 512KB 128KB 4KB 128KB
; MK22FX512VMD12 5X 512KB 128KB 4KB 128KB
; //MK22FN1M0VLH10
; //MK22FN1M0VLK10
; //MK22FN1M0VLL10
; //MK22FN1M0VLQ10
; MK22FN1M0VLH12 3N 1MB - - 128KB
; MK22FN1M0VMC10 3N 1MB - - 128KB
; --------------------------------------------------------------------------------
; MK24FN1M0CAJ12R 3N 1MB - - 256KB
; MK24FN1M0VDC12 3N 1MB - - 256KB
; MK24FN1M0VDC12R 3N 1MB - - 256KB
; MK24FN1M0VLL12 3N 1MB - - 256KB
; MK24FN1M0VLL12R 3N 1MB - - 256KB
; MK24FN1M0VLQ12 3N 1MB - - 256KB
; MK24FN1M0VLQ12R 3N 1MB - - 256KB
; MK24FN256VDC12 3N 256KB - - 256KB
; --------------------------------------------------------------------------------
; MK26FN2M0CAC18R 5N 2MB - - 256KB
; MK26FN2M0VLQ18 5N 2MB - - 256KB
; MK26FN2M0VMD18 5N 2MB - - 256KB
; MK26FN2M0VMI18 5N 2MB - - 256KB
; --------------------------------------------------------------------------------
; MK28FN2M0CAU15R 5N 2MB - - 1MB
; MK28FN2M0VMI15 5N 2MB - - 1MB
;
; Flash Configuration Field:
;
; Byte address Width Description
; --------------------------------------------------------------------------------
; 0x0400--0x0407 8 Backdoor Comparison Key.
; 0x0408--0x040B 4 Program flash protection bytes (FPROT0-3).
; 0x040F 1 Program flash only devices: Reserved
; FlexNVM devices: Data flash protection byte
; (FDPROT).
; 0x040E 1 Program flash only devices: Reserved
; FlexNVM devices: EEPROM protection byte
; (FEPROT).
; 0x040D 1 Flash nonvolatile option byte (FOPT).
; 0x040C 1 Flash security byte (FSEC).
;
; Flash Configuration Field can be programmed using FLASH.AUTO command
; with /CENSORSHIP option.
;
; @Chip: MK20* MK21* MK22* MK26*
; @Author: WRD
; @Copyright: (C) 1989-2022 Lauterbach GmbH, licensed for use with TRACE32(R) only
; --------------------------------------------------------------------------------
; $Rev: 10516 $
; $Id: mk20.cmm 10516 2022-02-02 11:39:30Z bschroefel $
;
LOCAL &parameters
ENTRY %LINE &parameters
LOCAL &param_prepareonly &param_masserase
&param_prepareonly=(STRing.SCAN(STRing.UPpeR("&parameters"),"PREPAREONLY",0)!=-1)
&param_masserase=(STRing.SCAN(STRing.UPpeR("&parameters"),"MASSERASE",0)!=-1)
LOCAL &param_cpu
&param_cpu=STRing.SCANAndExtract(STRing.UPpeR("&parameters"),"CPU=","")
IF "&param_cpu"==""
(
; For script backward compatibility
&param_cpu=STRing.SCANAndExtract(STRing.UPpeR("&parameters"),"MK2","")
IF "&param_cpu"!=""
&param_cpu="MK2"+"&param_cpu"
ELSE
(
&param_cpu=STRing.SCANAndExtract(STRing.UPpeR("&parameters"),"K20","")
IF "&param_cpu"!=""
&param_cpu="K20"+"&param_cpu"
)
)
LOCAL &param_dualport
&param_dualport=0
IF VERSION.BUILD.BASE()>=43441.
&param_dualport=STRing.SCANAndExtract(STRing.UPpeR("&parameters"),"DUALPORT=","0")
; ------------------------------------------------------------------------------
; Setup CPU
IF (SYStem.MODE()<5)||&param_masserase
(
SYStem.RESet
IF "&param_cpu"!=""
SYStem.CPU &param_cpu
IF !CPUIS(MK2*)&&!CPUIS(K20*)
SYStem.CPU MK2*
IF CABLE.TWOWIRE()
SYStem.CONFIG.DEBUGPORTTYPE SWD
ELSE
SYStem.CONFIG.DEBUGPORTTYPE JTAG
IF &param_masserase
GOSUB MassErase
ON.ERROR GOSUB Unsecure
SYStem.Up
ON.ERROR
)
; Unsecure device
IF VERSION.BUILD()>=34133.
(
IF (Data.Long(EDBG:0x40000100)&0x04)==0x04
GOSUB Unsecure
)
; Disable watchdog
ON.ERROR GOSUB Unsecure
GOSUB DisableWatchdog
ON.ERROR
; ------------------------------------------------------------------------------
; Flash declaration
FLASH.RESet
GOSUB FlashDeclaration &param_dualport
; Flash script ends here if called with parameter PREPAREONLY
IF &param_prepareonly
ENDDO PREPAREDONE
; ------------------------------------------------------------------------------
; Flash programming example
DIALOG.YESNO "Program flash memory?"
LOCAL &progflash
ENTRY &progflash
IF &progflash
(
FLASH.ReProgram.ALL /Erase
Data.LOAD.auto *
FLASH.ReProgram.off
; Reset device
SYStem.Down
SYStem.Up
; Disable watchdog
GOSUB DisableWatchdog
)
ENDDO
; --------------------------------------------------------------------------------
; Disable watchdog
DisableWatchdog:
LOCAL &tmp1 &tmp2
&tmp1=Data.Long(ST:0x20000000)
&tmp2=Data.Long(ST:0x20000004)
; The watchdog has a restrictive timing. It has to be configured and unlocked within a peripod
; of 20+256 cycles. Therefor the unlock sequence need to be done by a small target program.
Data.Assemble ST:0x20000000 strh r1,[r0] ;SD:0x4005200E = 0xC520 (Key 1)
Data.Assemble , strh r2,[r0] ;SD:0x4005200E = 0xD928 (Key 2)
Data.Assemble , strh r4,[r3] ;SD:0x40052000 = 0x0000 (Config register)
Data.Assemble , bkpt #0
Register.Set PC 0x20000000
Register.Set R0 0x4005200E
Register.Set R1 0xC520
Register.Set R2 0xD928
Register.Set R3 0x40052000
Register.Set R4 0x0
Go.direct
WAIT !STATE.RUN()
Data.Set ST:0x20000000 %Long &tmp1
Data.Set ST:0x20000004 %Long &tmp2
RETURN
; --------------------------------------------------------------------------------
; Try to unsecure a secured device
Unsecure:
IF VERSION.BUILD()<48722.
DO ~~~~/kinetis-unsecure
ELSE
(
; Print security state information
SYStem.Mode.Prepare
PRINT "MDM-AP Status Register is 0x" Data.Long(EDBG:0x40000100)
DIALOG.YESNO "Execute mass erase to unsecure chip?"
LOCAL &masserase
ENTRY &masserase
IF &masserase
(
ON.ERROR DEFault
; Unsecure device
SYStem.Down
FLASH.UNSECUREerase
SYStem.Mode.Prepare
IF (Data.Long(EDBG:0x40000100)&0x04)==0x04
(
PRINT %ERROR "Unsecure failed, MDM-AP Status Register is 0x" Data.Long(EDBG:0x40000100)
SYStem.Down
ENDDO
)
)
ELSE
ENDDO
)
SYStem.Up
; Disable watchdog
GOSUB DisableWatchdog
RETURN
; --------------------------------------------------------------------------------
; Try to mass erase the device
MassErase:
IF VERSION.BUILD.BASE()<49714.
DO ~~~~/kinetis-unsecure
ELSE
(
; Mass erase device by unsecure command
SYStem.Down
FLASH.UNSECUREerase
SYStem.Mode.Prepare
IF (Data.Long(EDBG:0x40000100)&0x24)!=0x20
(
PRINT %ERROR "Mass erase failed, MDM-AP Status Register is 0x" Data.Long(EDBG:0x40000100)
SYStem.Down
ENDDO
)
)
RETURN
; --------------------------------------------------------------------------------
; Flash declaration depending on selected CPU
FlashDeclaration:
LOCAL &DualPort
ENTRY &DualPort
LOCAL &PFlashSize &FlexNVMSize
LOCAL &PSectorSize &DSectorSize
LOCAL &flashdriver
;LOCAL &EEPROMSize
&FlexNVMSize=0x0
&DSectorSize=0x0
;&EEPROMSize=0x0
&flashdriver="t.b.d."
; Setup configuration values
IF CPUIS("MK20DN32V??5")||CPUIS("K20N32VYY50")
(
&PFlashSize=0x8000
&PSectorSize=0x400
&flashdriver="ftfl0n.bin"
)
ELSE IF CPUIS("MK20DX32V??5")||CPUIS("K20X32VYY50")
(
&PFlashSize=0x8000
&PSectorSize=0x400
&FlexNVMSize=0x8000
&DSectorSize=0x400
;&EEPROMSize=0x800
&flashdriver="ftfl0x.bin"
)
ELSE IF CPUIS("MK20DN64V??5")||CPUIS("K20N64VYY50")
(
&PFlashSize=0x10000
&PSectorSize=0x400
&flashdriver="ftfl0n.bin"
)
ELSE IF CPUIS("MK20DX64V??5")||CPUIS("K20X64VYY50")
(
&PFlashSize=0x10000
&PSectorSize=0x400
&FlexNVMSize=0x8000
&DSectorSize=0x400
;&EEPROMSize=0x800
&flashdriver="ftfl0n.bin"
)
ELSE IF CPUIS("MK20DX64V??7")
(
&PFlashSize=0x10000
&PSectorSize=0x800
&FlexNVMSize=0x8000
&DSectorSize=0x400
;&EEPROMSize=0x800
&flashdriver="ftfl1x.bin"
)
ELSE IF CPUIS("MK20DN128V??5")
(
&PFlashSize=0x20000
&PSectorSize=0x400
&flashdriver="ftfl0n.bin"
)
ELSE IF CPUIS("MK20DX128V??5")||CPUIS("K20X128VYY50")
(
&PFlashSize=0x20000
&PSectorSize=0x400
&FlexNVMSize=0x8000
&DSectorSize=0x400
;&EEPROMSize=0x800
&flashdriver="ftfl0x.bin"
)
ELSE IF CPUIS("MK21DX128*V??5")||CPUIS("MK22DX128*V??5")
(
&PFlashSize=0x20000
&PSectorSize=0x800
&FlexNVMSize=0x10000
&DSectorSize=0x800
;&EEPROMSize=0x1000
&flashdriver="ftfl4x.bin"
)
ELSE IF CPUIS("MK20DX128V??7")||CPUIS("K20X128VYY72")
(
&PFlashSize=0x20000
&PSectorSize=0x800
&FlexNVMSize=0x8000
&DSectorSize=0x400
;&EEPROMSize=0x800
&flashdriver="ftfl1x.bin"
)
ELSE IF CPUIS("MK20DN128V??10")||CPUIS("MK22FN128V??10")
(
&PFlashSize=0x20000
&PSectorSize=0x800
&flashdriver="ftfl2n.bin"
)
ELSE IF CPUIS("MK20DX128V??10")||CPUIS("K20X128VYY100")
(
&PFlashSize=0x20000
&PSectorSize=0x800
&FlexNVMSize=0x20000
&DSectorSize=0x800
;&EEPROMSize=0x1000
&flashdriver="ftfl2x.bin"
)
ELSE IF CPUIS("MK22FN256V??12")
(
&PFlashSize=0x40000
&PSectorSize=0x800
&flashdriver="ftfl4n.bin"
)
ELSE IF CPUIS("MK21DX256*V??5")||CPUIS("MK22DX256*V??5")
(
&PFlashSize=0x40000
&PSectorSize=0x800
&FlexNVMSize=0x10000
&DSectorSize=0x800
;&EEPROMSize=0x1000
&flashdriver="ftfl4x.bin"
)
ELSE IF CPUIS("MK20DX256V??7")||CPUIS("K20X256VYY72")
(
&PFlashSize=0x40000
&PSectorSize=0x800
&FlexNVMSize=0x8000
&DSectorSize=0x400
;&EEPROMSize=0x1000
&flashdriver="ftfl1x.bin"
)
ELSE IF CPUIS("MK20DX256V??10")||CPUIS("K20X256VYY100")
(
&PFlashSize=0x40000
&PSectorSize=0x800
&FlexNVMSize=0x40000
&DSectorSize=0x800
;&EEPROMSize=0x1000
&flashdriver="ftfl2x.bin"
)
ELSE IF CPUIS("MK20DN512*")||CPUIS("K20N512VYY100")
(
&PFlashSize=0x80000
&PSectorSize=0x800
&flashdriver="ftfl2n.bin"
)
ELSE IF CPUIS("MK21DN512*V??5")||CPUIS("MK22DN512*V??5")||CPUIS("MK22FN512V??12")
(
&PFlashSize=0x80000
&PSectorSize=0x800
&flashdriver="ftfl4n.bin"
)
ELSE IF CPUIS("MK20FX512*")||CPUIS("K20X512VYY120")
(
&PFlashSize=0x80000
&PSectorSize=0x1000
&FlexNVMSize=0x80000
&DSectorSize=0x1000
;&EEPROMSize=0x4000
&flashdriver="ftfe3x.bin"
)
ELSE IF CPUIS("MK21FX512*")||CPUIS("MK22FX512V??12")
(
&PFlashSize=0x80000
&PSectorSize=0x1000
&FlexNVMSize=0x20000
&DSectorSize=0x1000
;&EEPROMSize=0x1000
&flashdriver="ftfe5x.bin"
)
ELSE IF CPUIS("MK24FN256VDC12")
(
&PFlashSize=0x40000
&PSectorSize=0x1000
&flashdriver="ftfe3n.bin"
)
ELSE IF CPUIS("MK20FN1M0*")||CPUIS("K20N1M0VYY120")||CPUIS("MK21FN1M0*")||CPUIS("MK22FN1M0*")||CPUIS("MK24FN1M0*")
(
&PFlashSize=0x100000
&PSectorSize=0x1000
&flashdriver="ftfe3n.bin"
)
ELSE IF CPUIS("MK26*")||CPUIS("MK28*")
(
&PFlashSize=0x200000
&PSectorSize=0x1000
&flashdriver="ftfe5n.bin"
)
ELSE
(
PRINT %ERROR "FLASH size of CPU type is not supported by the script"
ENDDO
)
IF ("&flashdriver"=="ftfe3n.bin")||("&flashdriver"=="ftfe3x.bin")||("&flashdriver"=="ftfe5n.bin")||("&flashdriver"=="ftfe5x.bin")
(
; Program Flash
IF &PFlashSize>=0x40000
(
FLASH.Create 1. 0x00000000--0x0003FFFF 0x1000 TARGET Quad /CENSORSHIP 0x0400--0x040F
)
IF &PFlashSize>=0x80000
(
FLASH.Create 2. 0x00040000--0x0007FFFF 0x1000 TARGET Quad
)
IF &PFlashSize>=0x100000
(
FLASH.Create 3. 0x00080000--0x000BFFFF 0x1000 TARGET Quad
FLASH.Create 4. 0x000C0000--0x000FFFFF 0x1000 TARGET Quad
)
IF &PFlashSize>=0x200000
(
FLASH.Create 5. 0x00100000--0x0017FFFF 0x1000 TARGET Quad
FLASH.Create 6. 0x00180000--0x001FFFFF 0x1000 TARGET Quad
)
; FlexNVM
IF &FlexNVMSize>=0x20000
FLASH.Create 3. 0x10000000--0x1001FFFF 0x1000 TARGET Quad
IF &FlexNVMSize>=0x80000
(
FLASH.Create 3. 0x10020000--0x1003FFFF 0x1000 TARGET Quad
FLASH.Create 4. 0x10040000--0x1007FFFF 0x1000 TARGET Quad
)
; EEPROM
; preliminary not supported
;IF &EEPROMSize>=0x4000
; FLASH.Create 5. 0x14000000--0x14003FFF "t.b.d." TARGET Quad
IF &DualPort==0
FLASH.TARGET 0x1FFFF000 0x20000000 0x1000 ~~/demo/arm/flash/quad/&flashdriver
ELSE
FLASH.TARGET 0x1FFFF000 EAHB:0x20000000 0x1000 ~~/demo/arm/flash/quad/&flashdriver /DualPort
)
ELSE
(
; Program Flash
IF &PFlashSize>=0x8000
FLASH.Create 1. 0x00000000--0x00007FFF &PSectorSize TARGET Long /CENSORSHIP 0x0400--0x040F
IF &PFlashSize>=0x10000
FLASH.Create 1. 0x00008000--0x0000FFFF &PSectorSize TARGET Long
IF &PFlashSize>=0x20000
FLASH.Create 1. 0x00010000--0x0001FFFF &PSectorSize TARGET Long
IF &PFlashSize>=0x40000
FLASH.Create 1. 0x00020000--0x0003FFFF &PSectorSize TARGET Long
IF &PFlashSize>=0x80000
FLASH.Create 2. 0x00040000--0x0007FFFF &PSectorSize TARGET Long
; FlexNVM
IF &FlexNVMSize>=0x8000
FLASH.Create 2. 0x10000000--0x10007FFF &DSectorSize TARGET Long
IF &FlexNVMSize>=0x20000
FLASH.Create 2. 0x10008000--0x1001FFFF &DSectorSize TARGET Long
IF &FlexNVMSize>=0x40000
FLASH.Create 2. 0x10020000--0x1003FFFF &DSectorSize TARGET Long
; EEPROM
; preliminary not supported
;IF &EEPROMSize>=0x800
; FLASH.Create 3. 0x14000000--0x140007ff "t.b.d." TARGET Long
;IF &EEPROMSize>=0x1000
; FLASH.Create 3. 0x14000800--0x14000fff "t.b.d." TARGET Long
IF &DualPort==0
FLASH.TARGET 0x1FFFF000 0x20000000 &PSectorSize ~~/demo/arm/flash/long/&flashdriver
ELSE
FLASH.TARGET 0x1FFFF000 EAHB:0x20000000 &PSectorSize ~~/demo/arm/flash/long/&flashdriver /DualPort
)
RETURN
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