diff options
Diffstat (limited to 'qemu/roms/SLOF/board-js2x/slof/u4-mem.fs')
-rw-r--r-- | qemu/roms/SLOF/board-js2x/slof/u4-mem.fs | 313 |
1 files changed, 313 insertions, 0 deletions
diff --git a/qemu/roms/SLOF/board-js2x/slof/u4-mem.fs b/qemu/roms/SLOF/board-js2x/slof/u4-mem.fs new file mode 100644 index 000000000..0f8b1eef6 --- /dev/null +++ b/qemu/roms/SLOF/board-js2x/slof/u4-mem.fs @@ -0,0 +1,313 @@ +\ ***************************************************************************** +\ * Copyright (c) 2004, 2008 IBM Corporation +\ * All rights reserved. +\ * This program and the accompanying materials +\ * are made available under the terms of the BSD License +\ * which accompanies this distribution, and is available at +\ * http://www.opensource.org/licenses/bsd-license.php +\ * +\ * Contributors: +\ * IBM Corporation - initial implementation +\ ****************************************************************************/ + + +\ U4 DDR2 memory controller. + +cr .( Setting up memory controller...) + + +\ First, I2C access to the SPDs. + +: >i2c f8001000 + ; +: i2c@ >i2c rl@ ; +: i2c! >i2c rl! ; + +: .i2c 80 0 DO i i2c@ . 10 +LOOP ; + +: i2c-addr ( addr -- ) 50 i2c! 2 10 i2c! BEGIN 30 i2c@ 2 and UNTIL ; +: i2c-addr-subaddr ( addr suba -- ) 60 i2c! i2c-addr ; +: i2c-stop ( -- ) BEGIN 30 i2c@ dup 30 i2c! 4 and UNTIL ; +: i2c-nak? ( -- failed? ) 20 i2c@ 2 and 0= dup IF i2c-stop THEN ; +: i2c-short? ( -- failed? ) 30 i2c@ 4 and 0<> dup IF 0 10 i2c! i2c-stop THEN ; +: i2c-aak-if-more ( n -- ) 1 <> 1 and 10 i2c! ; + +: i2c-sub-read ( buf len addr suba -- error? ) + c 0 i2c! >r 1 or r> i2c-addr-subaddr i2c-nak? IF 2drop true EXIT THEN + dup i2c-aak-if-more 2 30 i2c! + BEGIN + 30 i2c@ 1 and IF + 1- >r 70 i2c@ over c! char+ r> + dup 0= IF i2c-stop 2drop false EXIT THEN + dup i2c-aak-if-more 1 30 i2c! THEN + i2c-short? IF 2drop true EXIT THEN + AGAIN ; + + +\ What slots are filled with working memory (bitmask). + +f VALUE dimms-valid +: dimm-invalid 1 swap lshift invert dimms-valid and to dimms-valid ; +: dimm-invalid dup dimm-invalid 2 xor dimm-invalid ; \ DIMMs are paired +: dimm-valid? 1 swap lshift dimms-valid and ; +: dimm( +comp postpone 4 postpone 0 postpone DO + postpone i postpone dimm-valid? postpone IF ; immediate +: )dimm postpone THEN postpone LOOP -comp ; immediate + + +\ The data from the SPDs. + +CREATE spds 100 allot +: spd@ ( dimm# off -- value ) swap 40 * + spds + c@ ; + +CREATE addresses a0 c, a4 c, a2 c, a6 c, +dimm( spds i 40 * + 40 addresses i + c@ 0 i2c-sub-read IF i dimm-invalid THEN )dimm + + +\ Accessors. + +: spd>rows 3 spd@ ; +: spd>cols 4 spd@ ; +: spd>ranks 5 spd@ 7 and 1+ ; +: spd>width d spd@ ; +: spd>banks 11 spd@ ; +: spd>cas 12 spd@ ; \ bit mask of allowable CAS latencies +: spd>trp 1b spd@ ; \ in units of 0.25 ns +: spd>trrd 1c spd@ ; \ in units of 0.25 ns +: spd>trcd 1d spd@ ; \ in units of 0.25 ns +: spd>tras 1e spd@ ; \ in units of 1 ns +: spd>twr 24 spd@ ; \ in units of 0.25 ns +: spd>twtr 25 spd@ ; \ in units of 0.25 ns +: spd>trtp 26 spd@ ; \ in units of 0.25 ns +: spd>trc 29 spd@ ; \ in units of 1 ns XXX: should also look at byte 28 +: spd>trfc 2a spd@ ; \ in units of 1 ns XXX: should also look at byte 28 + +cr .( rows cols ranks width banks trp trrd trcd tras twr twtr trtp trc trfc) +cr .( =====================================================================) +decimal +dimm( cr +i spd>rows 4 .r i spd>cols 5 .r i spd>ranks 6 .r i spd>width 6 .r +i spd>banks 6 .r i spd>trp 4 .r i spd>trrd 5 .r i spd>trcd 5 .r +i spd>tras 5 .r i spd>twr 4 .r i spd>twtr 5 .r i spd>trtp 5 .r +i spd>trc 4 .r i spd>trfc 5 .r +)dimm +hex + +ff dimm( i spd>cas and )dimm CONSTANT cl-supported +: max-cl -1 swap 8 0 DO dup 1 and IF nip i swap THEN u2/ LOOP drop ; +cl-supported max-cl VALUE cl + +: tck>60*ns dup f and swap 4 rshift a * over + 6 * swap CASE + a OF 2d - ENDOF b OF 2e - ENDOF c OF 20 - ENDOF d OF 21 - ENDOF + ENDCASE ; +: cl>tck 0 spd>cas max-cl swap - + CASE 0 OF 9 ENDOF 1 OF 17 ENDOF 2 OF 19 ENDOF + true ABORT" No supported CAS latency for this DIMM" ENDCASE + 0 swap spd@ tck>60*ns ; + +: spd>min-tck dup spd>cas max-cl cl - + CASE 0 OF 9 ENDOF 1 OF 17 ENDOF 2 OF 19 ENDOF + true ABORT" No supported CAS latency for this DIMM" ENDCASE + spd@ tck>60*ns ; +: spd>max-tck 2b spd@ tck>60*ns ; + +: .tck base @ >r decimal dup d# 60 / 0 .r [char] . emit + d# 60 mod d# 1000 * d# 60 / 3 0.r ." ns" r> base ! ; + +cr .( CAS latencies supported: ) +8 0 DO cl-supported 1 i lshift and IF i . THEN LOOP + +\ Find the lowest CL at the highest tCK. +8 0 DO cl-supported 1 i lshift and IF cl cl>tck i cl>tck = IF + i to cl LEAVE THEN THEN LOOP + +.( -- using ) cl . + + +0 dimm( i spd>min-tck max )dimm CONSTANT tck +dimm( i spd>max-tck tck < IF i dimm-invalid THEN )dimm +cr .( tCK is ) tck .tck + + +0 CONSTANT al +cl al + CONSTANT rl +rl 1- CONSTANT wl + +: // dup >r 1- + r> / ; \ round up +0 spd>tras d# 60 * tck // CONSTANT tras +0 spd>trtp d# 15 * tck // CONSTANT trtp +0 spd>twr d# 15 * tck // CONSTANT twr +0 spd>trp d# 15 * tck // CONSTANT trp +0 spd>trrd d# 15 * tck // CONSTANT trrd +0 spd>trrd d# 60 * tck // CONSTANT 4*trrd +0 spd>trcd d# 15 * tck // CONSTANT trcd +0 spd>trc d# 60 * tck // CONSTANT trc +0 spd>twtr d# 15 * tck // CONSTANT twtr + +: spd>memmd + >r r@ spd>rows r@ spd>cols + + r@ spd>banks 2log + 4 * r> spd>width 2log 3 * + 6c - ; +: dimm-group-size ( dimm# -- size ) + >r r@ spd>rows r@ spd>cols + 1 swap lshift + r@ spd>banks * r> spd>ranks * 10 * ; +VARIABLE start-address +VARIABLE was-prev-big +: assign-dimm-group ( dimm# -- config-value ) + dup dimm-valid? 0= IF drop 0 EXIT THEN + \ MemMd, enable, single-sided or not + dup spd>memmd c lshift 1 or over spd>ranks 1 = IF 2 or THEN +cr ." ---> " dup . +>r + dimm-group-size start-address @ 2dup + rot ( start end size ) + 80000000 > IF + dup 1000000000 < IF dup 4 rshift ELSE 08000000 THEN r> or >r \ Add2G + over 0<> IF over c rshift ELSE 00080000 THEN r> or >r \ Sub2G + was-prev-big on + ELSE + was-prev-big @ IF 80000000 + swap 80000000 + swap THEN r> 08080000 or >r + was-prev-big off + THEN + swap 18 rshift r> or >r \ start address + dup 80000000 = IF drop 100000000 THEN start-address ! r> ; + + +\ Now set the frequency in the memory controller +d# 1800 tck / 4 - 12 lshift 33c or f8000800 rl! +f8000860 rl@ 80000000 or f8000860 rl! 10000 0 DO LOOP + +: mc! f8002000 + rl! ; +: mc@ f8002000 + rl@ ; + + +\ memory timing regs (state machine) + +tras 2- +5 lshift al trtp + 2- or +5 lshift wl twr + or +5 lshift trp 2- or +5 lshift trp 2- 0 spd>banks 8 = IF 1+ THEN or +7 lshift 030 mc! + +al trtp + trp + 2- +5 lshift cl al + twr + trp + 1- or +5 lshift trrd 2- or +5 lshift trc 2- or +5 lshift trcd 2- or +5 lshift 4*trrd or +2 lshift 040 mc! + +0 +5 lshift 1 or +5 lshift 1 or +5 lshift cl 1- twtr + or +5 lshift 1 or +5 lshift 1 or +2 lshift 050 mc! + +0 +5 lshift 1 or +5 lshift 1 or +5 lshift 2 or +5 lshift 2 or +5 lshift 2 or +2 lshift 060 mc! \ XXX joerg has different setting + +cl 3 = IF 30801800 ( 30800d00 ) 070 mc! \ XXX memory refresh +ELSE 41002000 070 mc! THEN + +\ memory size regs + +1 dimm-group-size 0 dimm-group-size > 1 0 rot IF swap THEN \ biggest first +assign-dimm-group 200 mc! +assign-dimm-group 210 mc! +0 220 mc! 0 230 mc! + + + + + +\ arbiter tunables +\ 40041040 270 mc! +04041040 270 mc! +50000000 280 mc! +\ a0a00000 290 mc! \ a0000000 might be faster +00000000 290 mc! +\ 20020820 2a0 mc! +04020822 2a0 mc! +00000000 2b0 mc! +\ 30413cc7 2c0 mc! \ have to calculate the low five bits +30413dc5 2c0 mc! +\ cl 3 = IF 76000050 2d0 mc! 70000000 2e0 mc! ELSE +cl 3 = IF 75000050 2d0 mc! 70000000 2e0 mc! ELSE + b8002080 2d0 mc! b0000000 2e0 mc! THEN +\ Should test for something else really + + + +cl 3 = IF 00006000 890 mc! 00006000 8a0 mc! ELSE + 00006500 890 mc! 00006500 8a0 mc! THEN + +cl 3 = IF 1e008a8a ELSE 31000000 THEN +dup 800 mc! dup 810 mc! dup 820 mc! dup 830 mc! +dup 900 mc! dup 910 mc! dup 920 mc! dup 930 mc! dup 980 mc! +dup a00 mc! dup a10 mc! dup a20 mc! dup a30 mc! +dup b00 mc! dup b10 mc! dup b20 mc! dup b30 mc! b80 mc! + +\ 0 8d0 mc! 0 9d0 mc! 0 ad0 mc! 0 bd0 mc! +61630000 8d0 mc! +61630000 9d0 mc! +52510000 ad0 mc! +434e0000 bd0 mc! + +a0200400 100 mc! +80020000 110 mc! +80030000 120 mc! +80010404 130 mc! +cl 3 = IF +8000153a 140 mc! ELSE +8000174a 140 mc! THEN +a0200400 150 mc! +\ 92000000 160 mc! +\ 92000000 170 mc! +\ 91300000 160 mc! +\ 91300000 170 mc! +91800000 160 mc! +91800000 170 mc! +cl 3 = IF +8ff0143a 180 mc! ELSE +8ff0164a 180 mc! THEN +80010784 190 mc! +80010404 1a0 mc! +0 1b0 mc! 0 1c0 mc! 0 1d0 mc! 0 1e0 mc! 0 1f0 mc! + +cl 3 = IF +143a 0c0 mc! ELSE +164a 0c0 mc! THEN +0404 0d0 mc! + +\ after this point, setup is common for all speeds and sizes of dimms (sort of) + +60000000 3a0 mc! + +0 840 mc! 0 850 mc! 0 860 mc! 0 870 mc! +0 940 mc! 0 950 mc! 0 960 mc! 0 970 mc! 0 990 mc! +0 a40 mc! 0 a50 mc! 0 a60 mc! 0 a70 mc! +0 b40 mc! 0 b50 mc! 0 b60 mc! 0 b70 mc! 0 b90 mc! + +0 880 mc! + +001a4000 9a0 mc! + +84800000 500 mc! + +10000 0 DO LOOP + +80000000 b0 mc! BEGIN b0 mc@ 40000000 and UNTIL + +0 300 mc! 0 310 mc! + +80000000 440 mc! +0 410 mc! 27fffffc 420 mc! +fedcba98 430 mc! +c0000000 400 mc! BEGIN 400 mc@ c0000000 and 0= UNTIL + +cr .( mem done) |