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#ifndef _ASM_HYMOD_H_
#define _ASM_HYMOD_H_
#include <linux/config.h>
#ifdef CONFIG_8260
#include <asm/iopin_8260.h>
#endif
/*
* hymod configuration data - passed by boot code via the board information
* structure (only U-Boot has support for this at the moment)
*
* there are three types of data passed up from the boot monitor. the first
* (type hymod_eeprom_t) is the eeprom data that was read off both the main
* (or mother) board and the mezzanine board (if any). this data defines how
* many Xilinx fpgas are on each board, and their types (among other things).
* the second type of data (type xlx_mmap_t, one per Xilinx fpga) defines where
* in the physical address space the various Xilinx fpga access regions have
* been mapped by the boot rom. the third type of data (type xlx_iopins_t,
* one per Xilinx fpga) defines which io port pins are connected to the various
* signals required to program a Xilinx fpga.
*
* A ram/flash "bank" refers to memory controlled by the same chip select.
*
* the eeprom contents are defined as in technical note #2 - basically,
* a header, zero or more records in no particular order, and a 32 bit crc
* a record is 1 or more type bytes, a length byte and "length" bytes.
*/
#define HYMOD_EEPROM_ID 0xAA /* eeprom id byte */
#define HYMOD_EEPROM_VER 1 /* eeprom contents version */
#define HYMOD_EEPROM_SIZE 256 /* number of bytes in the eeprom */
/* eeprom header */
typedef
struct {
unsigned char id; /* eeprom id byte */
unsigned char ver; /* eeprom contents version number */
unsigned long len; /* total # of bytes btw hdr and crc */
}
hymod_eehdr_t;
/* maximum number of bytes available for eeprom data records */
#define HYMOD_EEPROM_MAXLEN (HYMOD_EEPROM_SIZE \
- sizeof (hymod_eehdr_t) \
- sizeof (unsigned long))
/* eeprom data record */
typedef
union {
struct {
unsigned char topbit:1;
unsigned char type:7;
unsigned char len;
unsigned char data[1]; /* variable length */
} small;
struct {
unsigned short topbit:1;
unsigned short nxtbit:1;
unsigned short type:14;
unsigned short len;
unsigned char data[1]; /* variable length */
} medium;
struct {
unsigned long topbit:1;
unsigned long nxtbit:1;
unsigned long type:30;
unsigned long len;
unsigned char data[1]; /* variable length */
} large;
}
hymod_eerec_t;
#define HYMOD_EEOFF_MAIN 0x00 /* i2c addr offset for main eeprom */
#define HYMOD_EEOFF_MEZZ 0x04 /* i2c addr offset for mezz eepomr */
/* eeprom record types */
#define HYMOD_EEREC_SERNO 1 /* serial number */
#define HYMOD_EEREC_DATE 2 /* date */
#define HYMOD_EEREC_BATCH 3 /* batch id */
#define HYMOD_EEREC_TYPE 4 /* board type */
#define HYMOD_EEREC_REV 5 /* revision number */
#define HYMOD_EEREC_SDRAM 6 /* sdram sizes */
#define HYMOD_EEREC_FLASH 7 /* flash sizes */
#define HYMOD_EEREC_ZBT 8 /* zbt ram sizes */
#define HYMOD_EEREC_XLXTYP 9 /* Xilinx fpga types */
#define HYMOD_EEREC_XLXSPD 10 /* Xilinx fpga speeds */
#define HYMOD_EEREC_XLXTMP 11 /* Xilinx fpga temperatures */
#define HYMOD_EEREC_XLXGRD 12 /* Xilinx fpga grades */
#define HYMOD_EEREC_CPUTYP 13 /* Motorola CPU type */
#define HYMOD_EEREC_CPUSPD 14 /* CPU speed */
#define HYMOD_EEREC_BUSSPD 15 /* bus speed */
#define HYMOD_EEREC_CPMSPD 16 /* CPM speed */
#define HYMOD_EEREC_HSTYPE 17 /* high-speed serial chip type */
#define HYMOD_EEREC_HSCHIN 18 /* high-speed serial input channels */
#define HYMOD_EEREC_HSCHOUT 19 /* high-speed serial output channels */
/* some dimensions */
#define HYMOD_MAX_BATCH 32 /* max no. of bytes in batch id */
#define HYMOD_MAX_SDRAM 4 /* max sdram "banks" on any board */
#define HYMOD_MAX_FLASH 4 /* max flash "banks" on any board */
#define HYMOD_MAX_ZBT 16 /* max ZBT rams on any board */
#define HYMOD_MAX_XLX 4 /* max Xilinx fpgas on any board */
#define HYMOD_MAX_BYTES 16 /* enough to store any bytes array */
/* board types */
#define HYMOD_BDTYPE_NONE 0 /* information not present */
#define HYMOD_BDTYPE_IO 1 /* I/O main board */
#define HYMOD_BDTYPE_CLP 2 /* CLP main board */
#define HYMOD_BDTYPE_DSP 3 /* DSP main board */
#define HYMOD_BDTYPE_INPUT 4 /* video input mezzanine board */
#define HYMOD_BDTYPE_ALTINPUT 5 /* video input mezzanine board */
#define HYMOD_BDTYPE_DISPLAY 6 /* video display mezzanine board */
#define HYMOD_BDTYPE_MAX 7 /* first invalid value */
/* Xilinx fpga types */
#define HYMOD_XTYP_NONE 0 /* information not present */
#define HYMOD_XTYP_XCV300E 1 /* Xilinx Virtex 300 */
#define HYMOD_XTYP_XCV400E 2 /* Xilinx Virtex 400 */
#define HYMOD_XTYP_XCV600E 3 /* Xilinx Virtex 600 */
#define HYMOD_XTYP_MAX 4 /* first invalid value */
/* Xilinx fpga speeds */
#define HYMOD_XSPD_NONE 0 /* information not present */
#define HYMOD_XSPD_SIX 1
#define HYMOD_XSPD_SEVEN 2
#define HYMOD_XSPD_EIGHT 3
#define HYMOD_XSPD_MAX 4 /* first invalid value */
/* Xilinx fpga temperatures */
#define HYMOD_XTMP_NONE 0 /* information not present */
#define HYMOD_XTMP_COM 1
#define HYMOD_XTMP_IND 2
#define HYMOD_XTMP_MAX 3 /* first invalid value */
/* Xilinx fpga grades */
#define HYMOD_XTMP_NONE 0 /* information not present */
#define HYMOD_XTMP_NORMAL 1
#define HYMOD_XTMP_ENGSAMP 2
#define HYMOD_XTMP_MAX 3 /* first invalid value */
/* CPU types */
#define HYMOD_CPUTYPE_NONE 0 /* information not present */
#define HYMOD_CPUTYPE_MPC8260 1 /* Motorola MPC8260 embedded powerpc */
#define HYMOD_CPUTYPE_MAX 2 /* first invalid value */
/* CPU/BUS/CPM clock speeds */
#define HYMOD_CLKSPD_NONE 0 /* information not present */
#define HYMOD_CLKSPD_33MHZ 1
#define HYMOD_CLKSPD_66MHZ 2
#define HYMOD_CLKSPD_100MHZ 3
#define HYMOD_CLKSPD_133MHZ 4
#define HYMOD_CLKSPD_166MHZ 5
#define HYMOD_CLKSPD_200MHZ 6
#define HYMOD_CLKSPD_MAX 7 /* first invalid value */
/* high speed serial chip types */
#define HYMOD_HSSTYPE_NONE 0 /* information not present */
#define HYMOD_HSSTYPE_AMCC52064 1
#define HYMOD_HSSTYPE_MAX 2 /* first invalid value */
/* a date (yyyy-mm-dd) */
typedef
struct {
unsigned short year;
unsigned char month;
unsigned char day;
}
hymod_date_t;
/* describes a Xilinx fpga */
typedef
struct {
unsigned char type; /* chip type */
unsigned char speed; /* chip speed rating */
unsigned char temp; /* chip temperature rating */
unsigned char grade; /* chip grade */
}
hymod_xlx_t;
/* describes a Motorola embedded processor */
typedef
struct {
unsigned char type; /* CPU type */
unsigned char cpuspd; /* speed of the PowerPC core */
unsigned char busspd; /* speed of the system and 60x bus */
unsigned char cpmspd; /* speed of the CPM co-processor */
}
hymod_mpc_t;
/* info about high-speed (1Gbit) serial interface */
typedef
struct {
unsigned char type; /* high-speed serial chip type */
unsigned char nchin; /* number of input channels mounted */
unsigned char nchout; /* number of output channels mounted */
}
hymod_hss_t;
/*
* this defines the contents of the serial eeprom that exists on every
* hymod board, including mezzanine boards (the serial eeprom will be
* faked for early development boards that don't have one)
*/
typedef
struct {
unsigned char ver; /* eeprom contents version */
unsigned char bdtype; /* board type */
unsigned char bdrev; /* board revision */
unsigned char batchlen; /* length of batch string below */
unsigned long serno; /* serial number */
hymod_date_t date; /* manufacture date */
unsigned char batch[32]; /* manufacturer specific batch id */
unsigned char nsdram; /* # of ram "banks" */
unsigned char nflash; /* # of flash "banks" */
unsigned char nzbt; /* # of ZBT rams */
unsigned char nxlx; /* # of Xilinx fpgas */
unsigned char sdramsz[HYMOD_MAX_SDRAM]; /* log2 of sdram size */
unsigned char flashsz[HYMOD_MAX_FLASH]; /* log2 of flash size */
unsigned char zbtsz[HYMOD_MAX_ZBT]; /* log2 of ZBT ram size */
hymod_xlx_t xlx[HYMOD_MAX_XLX]; /* Xilinx fpga info */
hymod_mpc_t mpc; /* Motorola MPC CPU info */
hymod_hss_t hss; /* high-speed serial info */
}
hymod_eeprom_t;
/*
* this defines a region in the processor's physical address space
*/
typedef
struct {
unsigned long exists:1; /* 1 if the region exists, 0 if not */
unsigned long size:31; /* size in bytes */
unsigned long base; /* base address */
}
xlx_prgn_t;
/*
* this defines where the various Xilinx fpga access regions are mapped
* into the physical address space of the processor
*/
typedef
struct {
xlx_prgn_t prog; /* program access region */
xlx_prgn_t reg; /* register access region */
xlx_prgn_t port; /* port access region */
}
xlx_mmap_t;
/*
* this defines which 8260 i/o port pins are connected to the various
* signals required for programming a Xilinx fpga
*/
typedef
struct {
iopin_t prog_pin; /* assert for >= 300ns to program */
iopin_t init_pin; /* goes high when fpga is cleared */
iopin_t done_pin; /* goes high when program is done */
iopin_t enable_pin; /* some fpgas need enabling */
}
xlx_iopins_t;
/* all info about one hymod board */
typedef
struct {
unsigned char eeprom_valid:1;
hymod_eeprom_t eeprom;
xlx_mmap_t mmap[HYMOD_MAX_XLX];
xlx_iopins_t iopins[HYMOD_MAX_XLX];
}
hymod_board_t;
/*
* this defines the configuration information of a hymod board-set
* (main board + possible mezzanine board). In future, there may be
* more than one mezzanine board (stackable?) - if so, add a "mezz2"
* field, and so on... or make mezz an array?
*/
typedef
struct {
hymod_board_t main; /* main board info */
hymod_board_t mezz; /* mezzanine board info */
unsigned long crc; /* ensures kernel and boot prom agree */
}
hymod_conf_t;
#endif /* _ASM_HYMOD_H_ */