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.. | ||
Makefile.in | ||
README | ||
checksum.c | ||
configure | ||
configure.in | ||
crt0.s | ||
debugger.h | ||
debugger.s | ||
diagnose.h | ||
hppa-defs.h | ||
hppa.ld | ||
io.c | ||
iva_table.h | ||
iva_table.s | ||
pa_stub.c | ||
test.c |
README
*** Registers GR0 *always zero GR1 scratch GR2 normal return register GR27 Global Data Pointer (Must be set in crt0) GR30 SP stack pointer GR31 milicode return pointer SR* Space registers CR24-31 Temporary Control Registers CR14 Vector Table Register (like VBR on an m68020) CR0 Put in a count, causes exception when decremented to 0. FORTH's magic number is 031240 *** Series 700/800 The following options are also supported: -snnn set the initial system load (ISL) start address to nnn in the volume label. This is useful when building boot media for Series 700/800 systems. -lnnn specifies the length in bytes of the ISL code in the LIF volume. -ennn set the ISL entry point to nnn bytes from the beginning of the ISL. For example, specifying - e3272 means that the ISL entry point is 3272 (decimal) bytes from the beginning of the ISL object module. -Knnn forces the directory start location to be the nearest multiple of nnn x 1024 bytes from the beginning of the volume. This is necessary for booting Series 700/800 systems from LIF media. -n xxx Sets the volume name to be xxx. lifinit -v64000000 -d64 -nISL10 -K2 -s4096 -l61440 -e5336 this_lif # lifcp -- # -r Forces RAW mode copying. (file type BIN (-23951)) # -T Sets the file type of the directory entry. # -Knnn forces each file copied in to begin on a nnn x # 1024-byte boundary from the beginning of the volume # Note: the word echoed below MUST be 10 characters exactly. # (echo "FORTH ") | lifcp -r -T-030001 -K2 - this_lif:AUTO # # somxtract infile outfile -- # converts a series 800 file *only* into a raw image It turns out the native cc and our current gcc produce series 700 output, so in this case it runs till if fills up the hard disk. *** rombootlf5 is a FORTH interpreter in a "boot" image. (it won't run on the HP742 board) lifls -l rombootlf5 volume ISL10 data size 249984 directory size 8 94/04/20 10:26:36 filename type start size implement created =============================================================== ISL -12800 16 240 0 94/04/20 10:26:36 HPUX -12928 256 496 0 94/04/20 10:26:37 IOMAP -12960 752 1504 0 94/04/20 10:26:37 AUTO -12289 2256 1 0 94/04/20 10:26:38 FORTH -12960 2264 208 0 94/04/20 10:26:38 HPFORTH ASCII 2472 420 0 94/04/20 10:26:38 BOOTROM ASCII 2896 3849 0 94/04/20 10:26:40 PAD1 -12290 6752 1172 0 94/04/20 10:26:40 *** The ISL is only needed when booting the raw hardware. As we're runing on a monitor (barely) all we need is a crt0 that initiallizes the GR27 Global Data Pointer and zero's bss. *** Initial Program Load -------------------- From page 11-56, architecture book. 0x00000000 +------------------------------------+ 0 | LIF_MAGIC | | 0x00000004 +------------------------------------+ 4 | | 0x000000F0 +------------------------------------+ 240 | IPL_ADDR | 0x000000F4 +------------------------------------+ 244 | IPL_SIZE | 0x000000F8 +------------------------------------+ 248 | IPL_ENTRY | 0x000000FC +------------------------------------+ 252 | | IPL_ADDR +------------------------------------+ IPL_ADDR | Position Independant | | IPL Code | | (including IPL_CHECKSUM) | +------------------------------------+ IPL_ADDR + IPL_SIZE | | +------------------------------------+ IPL_ADDR 2 Kbyte aligned, nonzero IPL_SIZE Multiple of 2Kbytes, <= 256 Kbytes IPL_ENTRY Word aligned, less than IPL_SIZE Loads at IPL_START This is based on Cobra/Coral hardware: LED register at 0xf080024 I/O status register at 0xf0800000 EEPROM at 0xf0810000 (LAN ID begins at byte 0) Here's a dump of the LIF volume header using "xd" (od with hex output) * 00000f0 0000 1000 0000 9800 0000 0000 0000 0000 ^^^^ This is the size * 0000800 5445 5354 2020 2020 2020 a271 0000 0010 ^^^^ ^^^^ ^^^^ ^^^^ ^^^^ ^^^^<-- this is the ipl offset this is the vol name ^^^^<- this is the type 0000810 0000 0098 9407 1919 1426 8001 0000 0000 ^^^^ This is the ipl size Interupts --------- The vector table is access by %iva (%cr14). The address here must be a multiple of 2048. The indexes are: 1 high-priority 2 power failure 3 recovery counter 4 external interrupt 5 low-priority machine check 6 instruction TLB miss/instruction page fault 7 instruction memory protection 8 illegal instruction 9 break instruction 10 priviledged operation 11 priviledged register 12 overflow 13 conditional 14 assist exception 15 data TLB miss fault/data page fault 16 non access instruction TLB miss fault 17 non access page TLB miss fault/non access data page fault 18 data memory protection/unaligned data reference 19 data memory break 20 TLB dirty bit 21 page reference 22 assist emulation 23 higher-priority transfer 24 lower-priority transfe 25 taken branch