FreeRTOS/Demo/WizNET_DEMO_TERN_186/186.cfg - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 // 186.cfg
 //	You must select RAM, ROM for your controller   04-26-2000
 //	Your TERN controller is installed with SRAM and ROM with different sizes.
 //	For debug, 128K or 512K SRAM can be selected
 //	For build a ROM, you need to select the ROM size.
 // How to select ?
 //	1) commend out the unwanted #define RAM size line with "//"
 // 	2) delete the "//" preceding the wanted #define RAM size line
 //

 // #define RAM 32 // 32KB SRAM installed
 #define RAM 128 // 128KB SRAM installed
 // #define RAM 512 // 512KB SRAM installed

 // #define ROM 32 // Use 32KB ROM chip 27C256-70
 #define ROM 64 // Use 64KB ROM chip 27C512-70
 // #define ROM 128 // Use 128KB ROM chip 27C010-70
 // #define ROM 256 // Use 256KB ROM chip 27C020-70
 // #define ROM 512 // Use 512KB ROM chip 27C040-70, Change Jumper on board


 cputype Am186ES // AMD188/6 based controllers

 #if defined(__PDREMOTE__)

 #if RAM == 32
 map	0x00000 to 0x00fff as reserved // interrupt vector table
 map	0x01000 to 0x03fff as rdwr  	// System RAM area (60KB RAM)
 map	0x04000 to 0x07fff as rdonly	// Simulated EPROM area (64KB RAM)
 map	0x08000 to 0xfffff as reserved	// No access allowed
 #define CODE_START 0x0400	// Start of application code, STEP2 !

 #elif RAM == 128
 map	0x00000 to 0x00fff as reserved // interrupt vector table
 map	0x01000 to 0x07fff as rdwr  	// System RAM area (60KB RAM)
 map	0x08000 to 0x1ffff as rdonly	// Simulated EPROM area (64KB RAM)
 map	0x20000 to 0xfffff as reserved	// No access allowed
 #define CODE_START 0x0800		// Start of application code

 #elif RAM == 512
 map	0x00000 to 0x00fff as reserved // interrupt vector table
 map	0x01000 to 0x07fff as rdwr	// System RAM area (60KB RAM)
 map	0x08000 to 0x7ffff as rdonly	// Simulated EPROM area(480KB RAM)
 map	0x80000 to 0xfffff as reserved // No access allowed
 #define CODE_START 0x0800		// Start of application code
 #endif

 #define DATA_START 0x0100	// Start of application data
 #define BOOT_START 0x1fc0	// Start of initialization code

 #else
 #if ROM == 32
 map	0x00000 to 0x1ffff as rdwr	// 128KB RAM address space
 map	0x20000 to 0xf7fff as reserved	// No access
 map	0xF8000 to 0xfffff as rdonly	// 32KB EPROM address space
 #define CODE_START 0xF800	    	// Start of application code
 #elif ROM == 64
 map	0x00000 to 0x1ffff as rdwr  	// 128KB RAM address space
 map	0x20000 to 0xEffff as reserved	// No access
 map	0xF0000 to 0xfffff as rdonly	// 64KB EPROM address space
 #define CODE_START 0xF000	    	// Start of application code
 #elif ROM == 128
 map	0x00000 to 0x1ffff as rdwr  	// 128KB RAM address space
 map	0x20000 to 0xDffff as reserved	// No access
 map	0xE0000 to 0xfffff as rdonly	// 128KB EPROM address space
 #define CODE_START 0xE000	    	// Start of application code
 #elif ROM == 256
 map	0x00000 to 0x1ffff as rdwr  	// 128KB RAM address space
 map	0x20000 to 0xBffff as reserved	// No access
 map	0xC0000 to 0xfffff as rdonly	// 256KB EPROM address space
 #define CODE_START 0xC000			// Start of application code
 #elif ROM == 512
 map	0x00000 to 0x1ffff as rdwr			// 128KB RAM address space
 map	0x20000 to 0x7ffff as reserved	// No access
 map	0x80000 to 0xfffff as rdonly		// 512KB EPROM address space
 #define CODE_START 0x8000			// Start of application code
 #endif

 #define DATA_START		0x0040			// Start of application data
 #define BOOT_START		0xffc0			// Start of initialization code

 initcode	reset		\ // Reset vector to program entry point
 		umcs = 0x80bf	\ // 512K ROM, 3 wait states
 		lmcs = 0x7fbf	\ // 512K RAM, 3 wait states
 		mpcs = 0xa0bf	\
 		mmcs = 0x81ff	\
 		pacs = 0x007f

 class 	??LOCATE = BOOT_START		// Chip select initialization
 output	??LOCATE

 #if ROM == 32			// 27C256-90 EPROM or FLASH
 hexfile binary offset=0xf8000 size=32	// for 27C256, bin file
 #elif ROM == 64				// 27C512-90 EPROM or FLASH
 hexfile binary offset=0xF0000 size=64	// for 27C512
 #elif ROM == 128			// 27C010-90 EPROM or FLASH
 hexfile binary offset=0xE0000 size=128	// for 27C010
 #elif ROM == 256			// 27C020-90 EPROM or FLASH
 hexfile binary offset=0xC0000 size=256	// for 27C020
 #elif ROM == 512			// 27C040-90 EPROM or FLASH
 hexfile Intel86 offset=0x80000 size=512	// for 27C040, output .HEX file
 #endif

 #endif


 //
 // Start of common configuration file settings.
 //

 absfile	axe86									// Paradigm C++ debugging output
 listfile	segments								// Absolute segment map

 dup		DATA ROMDATA		// Make a copy of initialized data
 dup		FAR_DATA ROMFARDATA	// Make a copy of far initialized data

 #if defined(__COMPFARDATA__)	   	// Compress and display results
 compress	ROMFARDATA
 display	compression
 #endif

 class		CODE = CODE_START  	// Application code
 class		DATA = DATA_START  	// Application data

 order		DATA								\	// RAM class organization
 			BSS		    	\
 			NVRAM		    	\
 			EDATA		    	\
 			STACK		    	\
 			FAR_DATA ENDFAR_DATA	\
 			FAR_BSS ENDFAR_BSS  	\
 			FAR_HEAP ENDFAR_HEAP

 order		CODE			      	\	// EPROM class organization
 			INITDATA EXITDATA   	\
 			FAR_CONST ENDFAR_CONST	\
 			ROMDATA ENDROMDATA    	\
 			ROMFARDATA ENDROMFARDATA

 output	CODE				      	\	// Classes in the output file(s)
 			INITDATA EXITDATA     	\
 			FAR_CONST ENDFAR_CONST	\
 			ROMDATA ENDROMDATA    	\
 			ROMFARDATA ENDROMFARDATA
	// 186.cfg
	// You must select RAM, ROM for your controller 04-26-2000
	// Your TERN controller is installed with SRAM and ROM with different sizes.
	// For debug, 128K or 512K SRAM can be selected
	// For build a ROM, you need to select the ROM size.
	// How to select ?
	// 1) commend out the unwanted #define RAM size line with "//"
	// 2) delete the "//" preceding the wanted #define RAM size line
	//

	// #define RAM 32 // 32KB SRAM installed
	#define RAM 128 // 128KB SRAM installed
	// #define RAM 512 // 512KB SRAM installed

	// #define ROM 32 // Use 32KB ROM chip 27C256-70
	#define ROM 64 // Use 64KB ROM chip 27C512-70
	// #define ROM 128 // Use 128KB ROM chip 27C010-70
	// #define ROM 256 // Use 256KB ROM chip 27C020-70
	// #define ROM 512 // Use 512KB ROM chip 27C040-70, Change Jumper on board


	cputype Am186ES // AMD188/6 based controllers

	#if defined(__PDREMOTE__)

	#if RAM == 32
	map 0x00000 to 0x00fff as reserved // interrupt vector table
	map 0x01000 to 0x03fff as rdwr // System RAM area (60KB RAM)
	map 0x04000 to 0x07fff as rdonly // Simulated EPROM area (64KB RAM)
	map 0x08000 to 0xfffff as reserved // No access allowed
	#define CODE_START 0x0400 // Start of application code, STEP2 !

	#elif RAM == 128
	map 0x00000 to 0x00fff as reserved // interrupt vector table
	map 0x01000 to 0x07fff as rdwr // System RAM area (60KB RAM)
	map 0x08000 to 0x1ffff as rdonly // Simulated EPROM area (64KB RAM)
	map 0x20000 to 0xfffff as reserved // No access allowed
	#define CODE_START 0x0800 // Start of application code

	#elif RAM == 512
	map 0x00000 to 0x00fff as reserved // interrupt vector table
	map 0x01000 to 0x07fff as rdwr // System RAM area (60KB RAM)
	map 0x08000 to 0x7ffff as rdonly // Simulated EPROM area(480KB RAM)
	map 0x80000 to 0xfffff as reserved // No access allowed
	#define CODE_START 0x0800 // Start of application code
	#endif

	#define DATA_START 0x0100 // Start of application data
	#define BOOT_START 0x1fc0 // Start of initialization code

	#else
	#if ROM == 32
	map 0x00000 to 0x1ffff as rdwr // 128KB RAM address space
	map 0x20000 to 0xf7fff as reserved // No access
	map 0xF8000 to 0xfffff as rdonly // 32KB EPROM address space
	#define CODE_START 0xF800 // Start of application code
	#elif ROM == 64
	map 0x00000 to 0x1ffff as rdwr // 128KB RAM address space
	map 0x20000 to 0xEffff as reserved // No access
	map 0xF0000 to 0xfffff as rdonly // 64KB EPROM address space
	#define CODE_START 0xF000 // Start of application code
	#elif ROM == 128
	map 0x00000 to 0x1ffff as rdwr // 128KB RAM address space
	map 0x20000 to 0xDffff as reserved // No access
	map 0xE0000 to 0xfffff as rdonly // 128KB EPROM address space
	#define CODE_START 0xE000 // Start of application code
	#elif ROM == 256
	map 0x00000 to 0x1ffff as rdwr // 128KB RAM address space
	map 0x20000 to 0xBffff as reserved // No access
	map 0xC0000 to 0xfffff as rdonly // 256KB EPROM address space
	#define CODE_START 0xC000 // Start of application code
	#elif ROM == 512
	map 0x00000 to 0x1ffff as rdwr // 128KB RAM address space
	map 0x20000 to 0x7ffff as reserved // No access
	map 0x80000 to 0xfffff as rdonly // 512KB EPROM address space
	#define CODE_START 0x8000 // Start of application code
	#endif

	#define DATA_START 0x0040 // Start of application data
	#define BOOT_START 0xffc0 // Start of initialization code

	initcode reset \ // Reset vector to program entry point
	umcs = 0x80bf \ // 512K ROM, 3 wait states
	lmcs = 0x7fbf \ // 512K RAM, 3 wait states
	mpcs = 0xa0bf \
	mmcs = 0x81ff \
	pacs = 0x007f

	class ??LOCATE = BOOT_START // Chip select initialization
	output ??LOCATE

	#if ROM == 32 // 27C256-90 EPROM or FLASH
	hexfile binary offset=0xf8000 size=32 // for 27C256, bin file
	#elif ROM == 64 // 27C512-90 EPROM or FLASH
	hexfile binary offset=0xF0000 size=64 // for 27C512
	#elif ROM == 128 // 27C010-90 EPROM or FLASH
	hexfile binary offset=0xE0000 size=128 // for 27C010
	#elif ROM == 256 // 27C020-90 EPROM or FLASH
	hexfile binary offset=0xC0000 size=256 // for 27C020
	#elif ROM == 512 // 27C040-90 EPROM or FLASH
	hexfile Intel86 offset=0x80000 size=512 // for 27C040, output .HEX file
	#endif

	#endif


	//
	// Start of common configuration file settings.
	//

	absfile axe86 // Paradigm C++ debugging output
	listfile segments // Absolute segment map

	dup DATA ROMDATA // Make a copy of initialized data
	dup FAR_DATA ROMFARDATA // Make a copy of far initialized data

	#if defined(__COMPFARDATA__) // Compress and display results
	compress ROMFARDATA
	display compression
	#endif

	class CODE = CODE_START // Application code
	class DATA = DATA_START // Application data

	order DATA \ // RAM class organization
	BSS \
	NVRAM \
	EDATA \
	STACK \
	FAR_DATA ENDFAR_DATA \
	FAR_BSS ENDFAR_BSS \
	FAR_HEAP ENDFAR_HEAP

	order CODE \ // EPROM class organization
	INITDATA EXITDATA \
	FAR_CONST ENDFAR_CONST \
	ROMDATA ENDROMDATA \
	ROMFARDATA ENDROMFARDATA

	output CODE \ // Classes in the output file(s)
	INITDATA EXITDATA \
	FAR_CONST ENDFAR_CONST \
	ROMDATA ENDROMDATA \
	ROMFARDATA ENDROMFARDATA