TMS320F28335程序烧写FLASH

时间:2021-10-26 04:55:58

DSP TMS320F28335 FLASH烧写

1.检查map文件

在烧写之前,首先检查Debug目录下的.map文件,如果Debug文件下没有,检查其他的文件夹,每个项目中都会有.map文件。

打开.map文件,显示内容如下所示(部分内容,并非map文件所有内容):

...

MEMORY CONFIGURATION

name origin length used unused attr fill
---------------------- -------- --------- -------- -------- ---- --------
PAGE 0:
RAML0 00008000 00001000 00000000 00001000 RWIX
RAML1 00009000 00001000 00000000 00001000 RWIX
RAML2 0000a000 00001000 00000000 00001000 RWIX
RAML3 0000b000 00001000 00000000 00001000 RWIX
FLASHH 00300000 00008000 00000000 00008000 RWIX
FLASHG 00308000 00008000 00000000 00008000 RWIX
FLASHF 00310000 00008000 00000000 00008000 RWIX
FLASHE 00318000 00008000 00000000 00008000 RWIX
FLASHD 00320000 00008000 00000000 00008000 RWIX
FLASHC 00328000 00008000 00000000 00008000 RWIX
FLASHB 00330000 00008000 00000102 00007efe RWIX
FLASHA 00338000 00007f80 00000000 00007f80 RWIX
CSM_RSVD 0033ff80 00000076 00000000 00000076 RWIX
BEGIN 0033fff6 00000002 00000000 00000002 RWIX
CSM_PWL 0033fff8 00000008 00000000 00000008 RWIX
ADC_CAL 00380080 00000009 00000000 00000009 RWIX
OTP 00380400 00000400 00000000 00000400 RWIX
IQTABLES 003fe000 00000b50 00000000 00000b50 RWIX
IQTABLES2 003feb50 0000008c 00000000 0000008c RWIX
FPUTABLES 003febdc 000006a0 00000000 000006a0 RWIX
ROM 003ff27c 00000d44 00000000 00000d44 RWIX
RESET 003fffc0 00000002 00000000 00000002 RWIX
VECTORS 003fffc2 0000003e 00000000 0000003e RWIX
....

检查CSM_PWL项:

         name            origin    length      used     unused   attr    fill
---------------------- -------- --------- -------- -------- ---- --------
...
CSM_PWL 0033fff8 00000008 00000000 00000008 RWIX
...

如果used和unused对应的值分别为00和08,如上,则标识密码区域尚未使用,否则密码区域可能已经被使用,不可以进行烧写,若强行烧写将导致DSP锁死,此时可以自己重新新建工程进行编译。

检查密码区域无误之后可以进行下一步操作。

2.编写CMD文件

项目创建之后,会自动生成一个28335_RAM_lnk.cmd文件,该文件是我们进行仿真调试的时候,将程序放入RAM中运行的CMD文件,如果需要烧写到Flash中,则需要修改对应的地址,因此,可以更改cmd中对应的地址位置或者我们重新创建一个烧写Flash对应的cmd文件。

我们可以从其他项目例程中拷贝一个往Flash中烧写的cmd文件,同一芯片往flash中烧写的cmd文件都相同,因此直接拷贝一个过来(一般名称为F28335.cmd),名称可以自己进行修改,或者自己创建一个xxx.cmd文件,将如下内容拷贝进去:

注意:以下内容只试用于TMS320F28335!



MEMORY
{
PAGE 0: /* Program Memory */
/* Memory (RAM/FLASH/OTP) blocks can be moved to PAGE1 for data allocation */

RAML0 : origin = 0x008000, length = 0x001000 /* on-chip RAM block L0 */
RAML1 : origin = 0x009000, length = 0x001000 /* on-chip RAM block L1 */
RAML2 : origin = 0x00A000, length = 0x001000 /* on-chip RAM block L2 */
RAML3 : origin = 0x00B000, length = 0x001000 /* on-chip RAM block L3 */
FLASHH : origin = 0x300000, length = 0x008000 /* on-chip FLASH */
FLASHG : origin = 0x308000, length = 0x008000 /* on-chip FLASH */
FLASHF : origin = 0x310000, length = 0x008000 /* on-chip FLASH */
FLASHE : origin = 0x318000, length = 0x008000 /* on-chip FLASH */
FLASHD : origin = 0x320000, length = 0x008000 /* on-chip FLASH */
FLASHC : origin = 0x328000, length = 0x008000 /* on-chip FLASH */
FLASHB : origin = 0x330000, length = 0x008000 /* on-chip FLASH */
FLASHA : origin = 0x338000, length = 0x007F80 /* on-chip FLASH */
CSM_RSVD : origin = 0x33FF80, length = 0x000076 /* Part of FLASHA. Program with all 0x0000 when CSM is in use. */
BEGIN : origin = 0x33FFF6, length = 0x000002 /* Part of FLASHA. Used for "boot to Flash" bootloader mode. */
CSM_PWL : origin = 0x33FFF8, length = 0x000008 /* Part of FLASHA. CSM password locations in FLASHA */
OTP : origin = 0x380400, length = 0x000400 /* on-chip OTP */
ADC_CAL : origin = 0x380080, length = 0x000009 /* ADC_cal function in Reserved memory */

IQTABLES : origin = 0x3FE000, length = 0x000b50 /* IQ Math Tables in Boot ROM */
IQTABLES2 : origin = 0x3FEB50, length = 0x00008c /* IQ Math Tables in Boot ROM */
FPUTABLES : origin = 0x3FEBDC, length = 0x0006A0 /* FPU Tables in Boot ROM */
ROM : origin = 0x3FF27C, length = 0x000D44 /* Boot ROM */
RESET : origin = 0x3FFFC0, length = 0x000002 /* part of boot ROM */
VECTORS : origin = 0x3FFFC2, length = 0x00003E /* part of boot ROM */

PAGE 1 : /* Data Memory */
/* Memory (RAM/FLASH/OTP) blocks can be moved to PAGE0 for program allocation */
/* Registers remain on PAGE1 */

BOOT_RSVD : origin = 0x000000, length = 0x000050 /* Part of M0, BOOT rom will use this for stack */
RAMM0 : origin = 0x000050, length = 0x0003B0 /* on-chip RAM block M0 */
RAMM1 : origin = 0x000400, length = 0x000400 /* on-chip RAM block M1 */
RAML4 : origin = 0x00C000, length = 0x001000 /* on-chip RAM block L1 */
RAML5 : origin = 0x00D000, length = 0x001000 /* on-chip RAM block L1 */
RAML6 : origin = 0x00E000, length = 0x001000 /* on-chip RAM block L1 */
RAML7 : origin = 0x00F000, length = 0x001000 /* on-chip RAM block L1 */
}

/* Allocate sections to memory blocks.
Note:
codestart user defined section in DSP28_CodeStartBranch.asm used to redirect code
execution when booting to flash
ramfuncs user defined section to store functions that will be copied from Flash into RAM
*/


SECTIONS
{

/* Allocate program areas: */
.cinit : > FLASHB PAGE = 0
.pinit : > FLASHB PAGE = 0
.text : > FLASHB PAGE = 0
codestart : > BEGIN PAGE = 0
ramfuncs : > FLASHB PAGE = 0

csmpasswds : > CSM_PWL PAGE = 0
csm_rsvd : > CSM_RSVD PAGE = 0

/* Allocate uninitalized data sections: */
.stack : > RAMM1 PAGE = 1
.ebss : > RAML5 PAGE = 1
.esysmem : > RAMM1 PAGE = 1

/* Initalized sections go in Flash */
/* For SDFlash to program these, they must be allocated to page 0 */
.econst : > FLASHB PAGE = 0
.switch : > FLASHB PAGE = 0

/* Allocate IQ math areas: */
IQmathTables : > IQTABLES, PAGE = 0, TYPE = NOLOAD
IQmathTables2 : > IQTABLES2, PAGE = 0, TYPE = NOLOAD
FPUmathTables : > FPUTABLES, PAGE = 0, TYPE = NOLOAD

.reset : > RESET, PAGE = 0, TYPE = DSECT
vectors : > VECTORS PAGE = 0, TYPE = DSECT

/* Allocate ADC_cal function (pre-programmed by factory into TI reserved memory) */
.adc_cal : load = ADC_CAL, PAGE = 0, TYPE = NOLOAD

}

/*
//===========================================================================
// End of file.
//===========================================================================
*/


创建完成cmd文件之后,在CCS6.0中(或之后的版本)右键点击之前的28335_RAM_lnk.cmd文件,选择Exculde from Build命令,则该文件不参与编译,检查烧写所用的cmd文件,如果没有参与编译,则取消勾选Exculde from Build命令,使该文件参与编译。

两个cmd文件只能选择其中一个参与编译,否则编译器有可能无法识别具体的操作空间而出错。

3.增加代码跳转文件

同时我们还需要在原有的调试程序项目中添加跳转代码文件DSP2833x_CodeStartBranch.asm,在处理器完成引导后跳转到用户应用过程入口。

同一芯片对应的DSP2833x_CodeStartBranch.asm文件也相同,因此我们可以从其他例程中拷贝或者自己添加该文件,文件内容如下:

注意:以下内容只试用于TMS320F28335!

;// TI File $Revision: /main/1 $
;// Checkin $Date: August 18, 2006 13:45:55 $
;//###########################################################################
;//
;// FILE: DSP2833x_CodeStartBranch.asm
;//
;// TITLE: Branch for redirecting code execution after boot.
;//
;// For these examples, code_start is the first code that is executed after
;// exiting the boot ROM code.
;//
;// The codestart section in the linker cmd file is used to physically place
;// this code at the correct memory location. This section should be placed
;// at the location the BOOT ROM will re-direct the code to. For example,
;// for boot to FLASH this code will be located at 0x3f7ff6.
;//
;// In addition, the example DSP2833x projects are setup such that the codegen
;// entry point is also set to the code_start label. This is done by linker
;// option -e in the project build options. When the debugger loads the code,
;// it will automatically set the PC to the "entry point" address indicated by
;// the -e linker option. In this case the debugger is simply assigning the PC,
;// it is not the same as a full reset of the device.
;//
;// The compiler may warn that the entry point for the project is other then
;// _c_init00. _c_init00 is the C environment setup and is run before
;// main() is entered. The code_start code will re-direct the execution
;// to _c_init00 and thus there is no worry and this warning can be ignored.
;//
;//###########################################################################
;// $TI Release: DSP2833x/DSP2823x C/C++ Header Files V1.31 $
;// $Release Date: August 4, 2009 $
;//###########################################################################


***********************************************************************

WD_DISABLE .set 1 ;set to 1 to disable WD, else set to 0

.ref _c_int00
.global code_start

***********************************************************************
* Function: codestart section
*
* Description: Branch to code starting point
***********************************************************************

.sect "codestart"

code_start:
.if WD_DISABLE == 1
LB wd_disable ;Branch to watchdog disable code
.else
LB _c_int00 ;Branch to start of boot.asm in RTS library
.endif

;end codestart section


***********************************************************************
* Function: wd_disable
*
* Description: Disables the watchdog timer
***********************************************************************
.if WD_DISABLE == 1

.text
wd_disable:
SETC OBJMODE ;Set OBJMODE for 28x object code
EALLOW ;Enable EALLOW protected register access
MOVZ DP, #7029h>>6 ;Set data page for WDCR register
MOV @7029h, #0068h ;Set WDDIS bit in WDCR to disable WD
EDIS ;Disable EALLOW protected register access
LB _c_int00 ;Branch to start of boot.asm in RTS library

.endif

;end wd_disable



.end

;//===========================================================================
;// End of file.
;//===========================================================================

4.生成可执行文件

点击Build Project进行编译(Ctrl+B),编译没有错误之后会在Debug目录下生成.out文件,该文件就是我们往Flash中烧写的文件。

5.烧写(或仿真)可执行文件

之后的过程与仿真时候Debug的过程相同。

以下内容可忽略:

配置TargetConfiguration文件,如果没有,可以右键x项目,选择new->Target Configuration File生成一个,文件名可以自己选取。

点击TargetConfiguration文件,设置connection和Board or Device项分别为我们使用的仿真器,例如XDS100V3和28335,然后右侧点击Save进行保存,同时可以点击Test Connection按钮进行测试是否能够成功连接。

如果我们项目中有另一个该配置文件,且该文件不是我们需要的,与硬件不匹配,在Debug的时候发现使用的仿真器与我们配置的不相同,可以点击View->Target Configurations,在打开的窗口中找到我们的项目,展开可能看到多个xxxconfig.ccxml文件,选择我们需要的文件右击,点击Set As Default,将其设置为默认的配置文件。

同时也可以在项目的config.ccxml文件上直接右键选择Set As Default Target Configuration。

点击Run->Debug选项,程序会直接连接仿真器并下载内容,如果使用的ram的cmd文件,则直接仿真运行,如果使用的是flash的cmd文件,则会先擦除flash中的数据并下载可执行文件到flash中。

如果程序没有自动下载或者连接仿真器,则在Debug窗口中手动进行连接,在Run选项下或者Debug窗口中选择Connect Target,连接仿真器,如果没有自动下载,则在连接仿真器之后,选择Run->Load->Load Program进行程序的下载。

在RAM中运行程序和在Flash中运行程序下载的过程是相同的。

注意:在程序的下载过程中不要进行断电或者拔掉仿真器,否则有可能造成芯片锁死。

6.验证程序是否烧写到FLash中

程序烧写完成之后,给板子断电。通过拨码开关或者其他方式设置GPIO84/85/86/87四个引脚为高电平,则为设置Boot Mod模式为Flash启动,然后重新上电,看程序是否执行。

断电上电如果程序自动运行,则表明往Flash中烧写成功。