OpenULINK firmware: fix name of USB Jump Table symbol
[openocd.git] / tcl / target / c100config.tcl
blob52efa83c255b575671ae91448a1320adf0ebb331
2 # board(-config) specfic parameters file.
4 # set CFG_REFCLKFREQ [configC100 CFG_REFCLKFREQ]
5 proc config {label} {
6 return [dict get [configC100] $label ]
9 # show the value for the param. with label
10 proc showconfig {label} {
11 echo [format "0x%x" [dict get [configC100] $label ]]
14 # Telo board config
15 # when there are more then one board config
16 # use soft links to c100board-config.tcl
17 # so that only the right board-config gets
18 # included (just like include/configs/board-configs.h
19 # in u-boot.
20 proc configC100 {} {
21 # xtal freq. 24MHz
22 dict set configC100 CFG_REFCLKFREQ 24000000
24 # Amba Clk 165MHz
25 dict set configC100 CONFIG_SYS_HZ_CLOCK 165000000
26 dict set configC100 w_amba 1
27 dict set configC100 x_amba 1
28 # y = amba_clk * (w+1)*(x+1)*2/xtal_clk
29 dict set configC100 y_amba [expr ([dict get $configC100 CONFIG_SYS_HZ_CLOCK] * ( ([dict get $configC100 w_amba]+1 ) * ([dict get $configC100 x_amba]+1 ) *2 ) / [dict get $configC100 CFG_REFCLKFREQ]) ]
31 # Arm Clk 450MHz, must be a multiple of 25 MHz
32 dict set configC100 CFG_ARM_CLOCK 450000000
33 dict set configC100 w_arm 0
34 dict set configC100 x_arm 1
35 # y = arm_clk * (w+1)*(x+1)*2/xtal_clk
36 dict set configC100 y_arm [expr ([dict get $configC100 CFG_ARM_CLOCK] * ( ([dict get $configC100 w_arm]+1 ) * ([dict get $configC100 x_arm]+1 ) *2 ) / [dict get $configC100 CFG_REFCLKFREQ]) ]
41 # This should be called for reset init event handler
42 proc setupTelo {} {
44 # setup GPIO used as control signals for C100
45 setupGPIO
46 # This will allow acces to lower 8MB or NOR
47 lowGPIO5
48 # setup NOR size,timing,etc.
49 setupNOR
50 # setup internals + PLL + DDR2
51 initC100
55 proc setupNOR {} {
56 echo "Setting up NOR: 16MB, 16-bit wide bus, CS0"
57 # this is taken from u-boot/boards/mindspeed/ooma-darwin/board.c:nor_hw_init()
58 set EX_CSEN_REG [regs EX_CSEN_REG ]
59 set EX_CS0_SEG_REG [regs EX_CS0_SEG_REG ]
60 set EX_CS0_CFG_REG [regs EX_CS0_CFG_REG ]
61 set EX_CS0_TMG1_REG [regs EX_CS0_TMG1_REG ]
62 set EX_CS0_TMG2_REG [regs EX_CS0_TMG2_REG ]
63 set EX_CS0_TMG3_REG [regs EX_CS0_TMG3_REG ]
64 set EX_CLOCK_DIV_REG [regs EX_CLOCK_DIV_REG ]
65 set EX_MFSM_REG [regs EX_MFSM_REG ]
66 set EX_CSFSM_REG [regs EX_CSFSM_REG ]
67 set EX_WRFSM_REG [regs EX_WRFSM_REG ]
68 set EX_RDFSM_REG [regs EX_RDFSM_REG ]
70 # enable Expansion Bus Clock + CS0 (NOR)
71 mww $EX_CSEN_REG 0x3
72 # set the address space for CS0=16MB
73 mww $EX_CS0_SEG_REG 0x7ff
74 # set the CS0 bus width to 16-bit
75 mww $EX_CS0_CFG_REG 0x202
76 # set timings to NOR
77 mww $EX_CS0_TMG1_REG 0x03034006
78 mww $EX_CS0_TMG2_REG 0x04040002
79 #mww $EX_CS0_TMG3_REG
80 # set EBUS clock 165/5=33MHz
81 mww $EX_CLOCK_DIV_REG 0x5
82 # everthing else is OK with default
85 proc bootNOR {} {
86 set EXP_CS0_BASEADDR [regs EXP_CS0_BASEADDR]
87 set BLOCK_RESET_REG [regs BLOCK_RESET_REG]
88 set DDR_RST [regs DDR_RST]
90 # put DDR controller in reset (so that it comes reset in u-boot)
91 mmw $BLOCK_RESET_REG 0x0 $DDR_RST
92 # setup CS0 controller for NOR
93 setupNOR
94 # make sure we are accessing the lower part of NOR
95 lowGPIO5
96 # set PC to start of NOR (at boot 0x20000000 = 0x0)
97 reg pc $EXP_CS0_BASEADDR
98 # run
99 resume
101 proc setupGPIO {} {
102 echo "Setting up GPIO block for Telo"
103 # This is current setup for Telo (see sch. for details):
104 #GPIO0 reset for FXS-FXO IC, leave as input, the IC has internal pullup
105 #GPIO1 irq line for FXS-FXO
106 #GPIO5 addr22 for NOR flash (access to upper 8MB)
107 #GPIO17 reset for DECT module.
108 #GPIO29 CS_n for NAND
110 set GPIO_OUTPUT_REG [regs GPIO_OUTPUT_REG]
111 set GPIO_OE_REG [regs GPIO_OE_REG]
113 # set GPIO29=GPIO17=1, GPIO5=0
114 mww $GPIO_OUTPUT_REG [expr 1<<29 | 1<<17]
115 # enable [as output] GPIO29,GPIO17,GPIO5
116 mww $GPIO_OE_REG [expr 1<<29 | 1<<17 | 1<<5]
119 proc highGPIO5 {} {
120 echo "GPIO5 high"
121 set GPIO_OUTPUT_REG [regs GPIO_OUTPUT_REG]
122 # set GPIO5=1
123 mmw $GPIO_OUTPUT_REG [expr 1 << 5] 0x0
126 proc lowGPIO5 {} {
127 echo "GPIO5 low"
128 set GPIO_OUTPUT_REG [regs GPIO_OUTPUT_REG]
129 # set GPIO5=0
130 mmw $GPIO_OUTPUT_REG 0x0 [expr 1 << 5]
133 proc boardID {id} {
134 # so far built:
135 # 4'b1111
136 dict set boardID 15 name "EVT1"
137 dict set boardID 15 ddr2size 128M
138 # dict set boardID 15 nandsize 1G
139 # dict set boardID 15 norsize 16M
140 # 4'b0000
141 dict set boardID 0 name "EVT2"
142 dict set boardID 0 ddr2size 128M
143 # 4'b0001
144 dict set boardID 1 name "EVT3"
145 dict set boardID 1 ddr2size 256M
146 # 4'b1110
147 dict set boardID 14 name "EVT3_old"
148 dict set boardID 14 ddr2size 128M
149 # 4'b0010
150 dict set boardID 2 name "EVT4"
151 dict set boardID 2 ddr2size 256M
153 return $boardID
157 # converted from u-boot/boards/mindspeed/ooma-darwin/board.c:ooma_board_detect()
158 # figure out what board revision this is, uses BOOTSTRAP register to read stuffed resistors
159 proc ooma_board_detect {} {
160 set GPIO_BOOTSTRAP_REG [regs GPIO_BOOTSTRAP_REG]
162 # read the current value of the BOOTSRAP pins
163 set tmp [mrw $GPIO_BOOTSTRAP_REG]
164 echo [format "GPIO_BOOTSTRAP_REG (0x%x): 0x%x" $GPIO_BOOTSTRAP_REG $tmp]
165 # extract the GPBP bits
166 set gpbt [expr ($tmp &0x1C00) >> 10 | ($tmp & 0x40) >>3]
168 # display board ID
169 echo [format "This is %s (0x%x)" [dict get [boardID $gpbt] $gpbt name] $gpbt]
170 # show it on serial console
171 putsUART0 [format "This is %s (0x%x)\n" [dict get [boardID $gpbt] $gpbt name] $gpbt]
172 # return the ddr2 size, used to configure DDR2 on a given board.
173 return [dict get [boardID $gpbt] $gpbt ddr2size]
176 proc configureDDR2regs_256M {} {
178 set DENALI_CTL_00_DATA [regs DENALI_CTL_00_DATA]
179 set DENALI_CTL_01_DATA [regs DENALI_CTL_01_DATA]
180 set DENALI_CTL_02_DATA [regs DENALI_CTL_02_DATA]
181 set DENALI_CTL_03_DATA [regs DENALI_CTL_03_DATA]
182 set DENALI_CTL_04_DATA [regs DENALI_CTL_04_DATA]
183 set DENALI_CTL_05_DATA [regs DENALI_CTL_05_DATA]
184 set DENALI_CTL_06_DATA [regs DENALI_CTL_06_DATA]
185 set DENALI_CTL_07_DATA [regs DENALI_CTL_07_DATA]
186 set DENALI_CTL_08_DATA [regs DENALI_CTL_08_DATA]
187 set DENALI_CTL_09_DATA [regs DENALI_CTL_09_DATA]
188 set DENALI_CTL_10_DATA [regs DENALI_CTL_10_DATA]
189 set DENALI_CTL_11_DATA [regs DENALI_CTL_11_DATA]
190 set DENALI_CTL_12_DATA [regs DENALI_CTL_12_DATA]
191 set DENALI_CTL_13_DATA [regs DENALI_CTL_13_DATA]
192 set DENALI_CTL_14_DATA [regs DENALI_CTL_14_DATA]
193 set DENALI_CTL_15_DATA [regs DENALI_CTL_15_DATA]
194 set DENALI_CTL_16_DATA [regs DENALI_CTL_16_DATA]
195 set DENALI_CTL_17_DATA [regs DENALI_CTL_17_DATA]
196 set DENALI_CTL_18_DATA [regs DENALI_CTL_18_DATA]
197 set DENALI_CTL_19_DATA [regs DENALI_CTL_19_DATA]
198 set DENALI_CTL_20_DATA [regs DENALI_CTL_20_DATA]
200 set DENALI_CTL_02_VAL 0x0100000000010100
201 set DENALI_CTL_11_VAL 0x433a32164a560a00
203 mw64bit $DENALI_CTL_00_DATA 0x0100000101010101
204 # 01_DATA mod [40]=1, enable BA2
205 mw64bit $DENALI_CTL_01_DATA 0x0100010100000001
206 mw64bit $DENALI_CTL_02_DATA $DENALI_CTL_02_VAL
207 mw64bit $DENALI_CTL_03_DATA 0x0102020202020201
208 mw64bit $DENALI_CTL_04_DATA 0x0000010100000001
209 mw64bit $DENALI_CTL_05_DATA 0x0203010300010101
210 mw64bit $DENALI_CTL_06_DATA 0x060a020200020202
211 mw64bit $DENALI_CTL_07_DATA 0x0000000300000206
212 mw64bit $DENALI_CTL_08_DATA 0x6400003f3f0a0209
213 mw64bit $DENALI_CTL_09_DATA 0x1a000000001a1a1a
214 mw64bit $DENALI_CTL_10_DATA 0x0120202020191a18
215 # 11_DATA mod [39-32]=16,more refresh
216 mw64bit $DENALI_CTL_11_DATA $DENALI_CTL_11_VAL
217 mw64bit $DENALI_CTL_12_DATA 0x0000000000000800
218 mw64bit $DENALI_CTL_13_DATA 0x0010002000100040
219 mw64bit $DENALI_CTL_14_DATA 0x0010004000100040
220 mw64bit $DENALI_CTL_15_DATA 0x04f8000000000000
221 mw64bit $DENALI_CTL_16_DATA 0x000000002cca0000
222 mw64bit $DENALI_CTL_17_DATA 0x0000000000000000
223 mw64bit $DENALI_CTL_18_DATA 0x0302000000000000
224 mw64bit $DENALI_CTL_19_DATA 0x00001300c8030600
225 mw64bit $DENALI_CTL_20_DATA 0x0000000081fe00c8
227 set wr_dqs_shift 0x40
228 # start DDRC
229 mw64bit $DENALI_CTL_02_DATA [expr $DENALI_CTL_02_VAL | (1 << 32)]
230 # wait int_status[2] (DRAM init complete)
231 echo -n "Waiting for DDR2 controller to init..."
232 set tmp [mrw [expr $DENALI_CTL_08_DATA + 4]]
233 while { [expr $tmp & 0x040000] == 0 } {
234 sleep 1
235 set tmp [mrw [expr $DENALI_CTL_08_DATA + 4]]
237 echo "done."
239 # do ddr2 training sequence
240 # TBD (for now, if you need it, run trainDDR command)
243 # converted from u-boot/cpu/arm1136/comcerto/bsp100.c:config_board99()
244 # The values are computed based on Mindspeed and Nanya datasheets
245 proc configureDDR2regs_128M {} {
247 set DENALI_CTL_00_DATA [regs DENALI_CTL_00_DATA]
248 set DENALI_CTL_01_DATA [regs DENALI_CTL_01_DATA]
249 set DENALI_CTL_02_DATA [regs DENALI_CTL_02_DATA]
250 set DENALI_CTL_03_DATA [regs DENALI_CTL_03_DATA]
251 set DENALI_CTL_04_DATA [regs DENALI_CTL_04_DATA]
252 set DENALI_CTL_05_DATA [regs DENALI_CTL_05_DATA]
253 set DENALI_CTL_06_DATA [regs DENALI_CTL_06_DATA]
254 set DENALI_CTL_07_DATA [regs DENALI_CTL_07_DATA]
255 set DENALI_CTL_08_DATA [regs DENALI_CTL_08_DATA]
256 set DENALI_CTL_09_DATA [regs DENALI_CTL_09_DATA]
257 set DENALI_CTL_10_DATA [regs DENALI_CTL_10_DATA]
258 set DENALI_CTL_11_DATA [regs DENALI_CTL_11_DATA]
259 set DENALI_CTL_12_DATA [regs DENALI_CTL_12_DATA]
260 set DENALI_CTL_13_DATA [regs DENALI_CTL_13_DATA]
261 set DENALI_CTL_14_DATA [regs DENALI_CTL_14_DATA]
262 set DENALI_CTL_15_DATA [regs DENALI_CTL_15_DATA]
263 set DENALI_CTL_16_DATA [regs DENALI_CTL_16_DATA]
264 set DENALI_CTL_17_DATA [regs DENALI_CTL_17_DATA]
265 set DENALI_CTL_18_DATA [regs DENALI_CTL_18_DATA]
266 set DENALI_CTL_19_DATA [regs DENALI_CTL_19_DATA]
267 set DENALI_CTL_20_DATA [regs DENALI_CTL_20_DATA]
270 set DENALI_CTL_02_VAL 0x0100010000010100
271 set DENALI_CTL_11_VAL 0x433A42124A650A37
272 # set some default values
273 mw64bit $DENALI_CTL_00_DATA 0x0100000101010101
274 mw64bit $DENALI_CTL_01_DATA 0x0100000100000101
275 mw64bit $DENALI_CTL_02_DATA $DENALI_CTL_02_VAL
276 mw64bit $DENALI_CTL_03_DATA 0x0102020202020201
277 mw64bit $DENALI_CTL_04_DATA 0x0201010100000201
278 mw64bit $DENALI_CTL_05_DATA 0x0203010300010101
279 mw64bit $DENALI_CTL_06_DATA 0x050A020200020202
280 mw64bit $DENALI_CTL_07_DATA 0x000000030E0B0205
281 mw64bit $DENALI_CTL_08_DATA 0x6427003F3F0A0209
282 mw64bit $DENALI_CTL_09_DATA 0x1A00002F00001A00
283 mw64bit $DENALI_CTL_10_DATA 0x01202020201A1A1A
284 mw64bit $DENALI_CTL_11_DATA $DENALI_CTL_11_VAL
285 mw64bit $DENALI_CTL_12_DATA 0x0000080000000800
286 mw64bit $DENALI_CTL_13_DATA 0x0010002000100040
287 mw64bit $DENALI_CTL_14_DATA 0x0010004000100040
288 mw64bit $DENALI_CTL_15_DATA 0x0508000000000000
289 mw64bit $DENALI_CTL_16_DATA 0x000020472D200000
290 mw64bit $DENALI_CTL_17_DATA 0x0000000008000000
291 mw64bit $DENALI_CTL_18_DATA 0x0302000000000000
292 mw64bit $DENALI_CTL_19_DATA 0x00001400C8030604
293 mw64bit $DENALI_CTL_20_DATA 0x00000000823600C8
295 set wr_dqs_shift 0x40
296 # start DDRC
297 mw64bit $DENALI_CTL_02_DATA [expr $DENALI_CTL_02_VAL | (1 << 32)]
298 # wait int_status[2] (DRAM init complete)
299 echo -n "Waiting for DDR2 controller to init..."
300 set tmp [mrw [expr $DENALI_CTL_08_DATA + 4]]
301 while { [expr $tmp & 0x040000] == 0 } {
302 sleep 1
303 set tmp [mrw [expr $DENALI_CTL_08_DATA + 4]]
305 # This is not necessary
306 #mw64bit $DENALI_CTL_11_DATA [expr ($DENALI_CTL_11_VAL & ~0x00007F0000000000) | ($wr_dqs_shift << 40) ]
307 echo "done."
309 # do ddr2 training sequence
310 # TBD (for now, if you need it, run trainDDR command)
315 proc setupUART0 {} {
316 # configure UART0 to 115200, 8N1
317 set GPIO_LOCK_REG [regs GPIO_LOCK_REG]
318 set GPIO_IOCTRL_REG [regs GPIO_IOCTRL_REG]
319 set GPIO_IOCTRL_VAL [regs GPIO_IOCTRL_VAL]
320 set GPIO_IOCTRL_UART0 [regs GPIO_IOCTRL_UART0]
321 set UART0_LCR [regs UART0_LCR]
322 set LCR_DLAB [regs LCR_DLAB]
323 set UART0_DLL [regs UART0_DLL]
324 set UART0_DLH [regs UART0_DLH]
325 set UART0_IIR [regs UART0_IIR]
326 set UART0_IER [regs UART0_IER]
327 set LCR_ONE_STOP [regs LCR_ONE_STOP]
328 set LCR_CHAR_LEN_8 [regs LCR_CHAR_LEN_8]
329 set FCR_XMITRES [regs FCR_XMITRES]
330 set FCR_RCVRRES [regs FCR_RCVRRES]
331 set FCR_FIFOEN [regs FCR_FIFOEN]
332 set IER_UUE [regs IER_UUE]
334 # unlock writing to IOCTRL register
335 mww $GPIO_LOCK_REG $GPIO_IOCTRL_VAL
336 # enable UART0
337 mmw $GPIO_IOCTRL_REG $GPIO_IOCTRL_UART0 0x0
338 # baudrate 115200
339 # This should really be amba_clk/(16*115200) but amba_clk=165MHz
340 set tmp 89
341 # Enable Divisor Latch access
342 mmw $UART0_LCR $LCR_DLAB 0x0
343 # set the divisor to $tmp
344 mww $UART0_DLL [expr $tmp & 0xff]
345 mww $UART0_DLH [expr $tmp >> 8]
346 # Disable Divisor Latch access
347 mmw $UART0_LCR 0x0 $LCR_DLAB
348 # set the UART to 8N1
349 mmw $UART0_LCR [expr $LCR_ONE_STOP | $LCR_CHAR_LEN_8 ] 0x0
350 # reset FIFO
351 mmw $UART0_IIR [expr $FCR_XMITRES | $FCR_RCVRRES | $FCR_FIFOEN ] 0x0
352 # enable FFUART
353 mww $UART0_IER $IER_UUE
356 proc putcUART0 {char} {
358 set UART0_LSR [regs UART0_LSR]
359 set UART0_THR [regs UART0_THR]
360 set LSR_TEMT [regs LSR_TEMT]
362 # convert the 'char' to digit
363 set tmp [ scan $char %c ]
364 # /* wait for room in the tx FIFO on FFUART */
365 while {[expr [mrw $UART0_LSR] & $LSR_TEMT] == 0} { sleep 1 }
366 mww $UART0_THR $tmp
367 if { $char == "\n" } { putcUART0 \r }
370 proc putsUART0 {str} {
371 set index 0
372 set len [string length $str]
373 while { $index < $len } {
374 putcUART0 [string index $str $index]
375 set index [expr $index + 1]
380 proc trainDDR2 {} {
381 set ARAM_BASEADDR [regs ARAM_BASEADDR]
383 # you must have run 'reset init' or u-boot
384 # load the training code to ARAM
385 load_image ./images/ddr2train.bin $ARAM_BASEADDR bin
386 # set PC to start of NOR (at boot 0x20000000 = 0x0)
387 reg pc $ARAM_BASEADDR
388 # run
389 resume
392 proc flashUBOOT {file} {
393 # this will update uboot on NOR partition
394 set EXP_CS0_BASEADDR [regs EXP_CS0_BASEADDR]
396 # setup CS0 controller for NOR
397 setupNOR
398 # make sure we are accessing the lower part of NOR
399 lowGPIO5
400 flash probe 0
401 echo "Erasing sectors 0-3 for uboot"
402 putsUART0 "Erasing sectors 0-3 for uboot\n"
403 flash erase_sector 0 0 3
404 echo "Programming u-boot"
405 putsUART0 "Programming u-boot..."
406 arm11 memwrite burst enable
407 flash write_image $file $EXP_CS0_BASEADDR
408 arm11 memwrite burst disable
409 putsUART0 "done.\n"
410 putsUART0 "Rebooting, please wait!\n"
411 reboot