3 echo
"List of useful functions for C100 processor:"
4 echo
"1) reset init: will set up your Telo board"
5 echo
"2) setupNOR: will setup NOR access"
6 echo
"3) showNOR: will show current NOR config registers for 16-bit, 16MB NOR"
7 echo
"4) setupGPIO: will setup GPIOs for Telo board"
8 echo
"5) showGPIO: will show current GPIO config registers"
9 echo
"6) highGPIO5: will set GPIO5=NOR_addr22=1 to access upper 8MB"
10 echo
"7) lowGPIO5: will set GPIO5=NOR_addr22=0 to access lower 8MB"
11 echo
"8) showAmbaClk: will show current config registers for Amba Bus Clock"
12 echo
"9) setupAmbaClk: will setup Amba Bus Clock=165MHz"
13 echo
"10) showArmClk: will show current config registers for Arm Bus Clock"
14 echo
"11) setupArmClk: will setup Amba Bus Clock=450MHz"
15 echo
"12) ooma_board_detect: will show which version of Telo you have"
16 echo
"13) setupDDR2: will configure DDR2 controller, you must have PLLs configureg"
17 echo
"14) showDDR2: will show DDR2 config registers"
18 echo
"15) showWatchdog: will show current regster config for watchdog"
19 echo
"16) reboot: will trigger watchdog and reboot Telo (hw reset)"
20 echo
"17) bootNOR: will boot Telo from NOR"
21 echo
"18) setupUART0: will configure UART0 for 115200 8N1, PLLs have to be confiured"
22 echo
"19) putcUART0: will print a character on UART0"
23 echo
"20) putsUART0: will print a string on UART0"
24 echo
"21) trainDDR2: will run DDR2 training program"
25 echo
"22) flashUBOOT: will prgram NOR sectors 0-3 with u-boot.bin"
28 source [find mem_helper.tcl
]
30 # read a 64-bit register (memory mapped)
33 mem2array value
32 $reg 2
38 # write a 64-bit register (memory mapped)
39 proc mw64bit
{reg value
} {
40 set high
[expr $value >> 32]
41 set low
[expr $value & 0xffffffff]
42 #echo [format "mw64bit(0x%x): 0x%08x%08x" $reg $high $low]
44 mww
[expr $reg+4] $high
49 echo
"This is the current NOR setup"
50 set EX_CSEN_REG
[regs EX_CSEN_REG
]
51 set EX_CS0_SEG_REG
[regs EX_CS0_SEG_REG
]
52 set EX_CS0_CFG_REG
[regs EX_CS0_CFG_REG
]
53 set EX_CS0_TMG1_REG
[regs EX_CS0_TMG1_REG
]
54 set EX_CS0_TMG2_REG
[regs EX_CS0_TMG2_REG
]
55 set EX_CS0_TMG3_REG
[regs EX_CS0_TMG3_REG
]
56 set EX_CLOCK_DIV_REG
[regs EX_CLOCK_DIV_REG
]
57 set EX_MFSM_REG
[regs EX_MFSM_REG
]
58 set EX_CSFSM_REG
[regs EX_CSFSM_REG
]
59 set EX_WRFSM_REG
[regs EX_WRFSM_REG
]
60 set EX_RDFSM_REG
[regs EX_RDFSM_REG
]
62 echo
[format "EX_CSEN_REG (0x%x): 0x%x" $EX_CSEN_REG [mrw
$EX_CSEN_REG]]
63 echo
[format "EX_CS0_SEG_REG (0x%x): 0x%x" $EX_CS0_SEG_REG [mrw
$EX_CS0_SEG_REG]]
64 echo
[format "EX_CS0_CFG_REG (0x%x): 0x%x" $EX_CS0_CFG_REG [mrw
$EX_CS0_CFG_REG]]
65 echo
[format "EX_CS0_TMG1_REG (0x%x): 0x%x" $EX_CS0_TMG1_REG [mrw
$EX_CS0_TMG1_REG]]
66 echo
[format "EX_CS0_TMG2_REG (0x%x): 0x%x" $EX_CS0_TMG2_REG [mrw
$EX_CS0_TMG2_REG]]
67 echo
[format "EX_CS0_TMG3_REG (0x%x): 0x%x" $EX_CS0_TMG3_REG [mrw
$EX_CS0_TMG3_REG]]
68 echo
[format "EX_CLOCK_DIV_REG (0x%x): 0x%x" $EX_CLOCK_DIV_REG [mrw
$EX_CLOCK_DIV_REG]]
69 echo
[format "EX_MFSM_REG (0x%x): 0x%x" $EX_MFSM_REG [mrw
$EX_MFSM_REG]]
70 echo
[format "EX_CSFSM_REG (0x%x): 0x%x" $EX_CSFSM_REG [mrw
$EX_CSFSM_REG]]
71 echo
[format "EX_WRFSM_REG (0x%x): 0x%x" $EX_WRFSM_REG [mrw
$EX_WRFSM_REG]]
72 echo
[format "EX_RDFSM_REG (0x%x): 0x%x" $EX_RDFSM_REG [mrw
$EX_RDFSM_REG]]
78 echo
"This is the current GPIO register setup"
79 # GPIO outputs register
80 set GPIO_OUTPUT_REG
[regs GPIO_OUTPUT_REG
]
81 # GPIO Output Enable register
82 set GPIO_OE_REG
[regs GPIO_OE_REG
]
83 set GPIO_HI_INT_ENABLE_REG
[regs GPIO_HI_INT_ENABLE_REG
]
84 set GPIO_LO_INT_ENABLE_REG
[regs GPIO_LO_INT_ENABLE_REG
]
86 set GPIO_INPUT_REG
[regs GPIO_INPUT_REG
]
87 set APB_ACCESS_WS_REG
[regs APB_ACCESS_WS_REG
]
88 set MUX_CONF_REG
[regs MUX_CONF_REG
]
89 set SYSCONF_REG
[regs SYSCONF_REG
]
90 set GPIO_ARM_ID_REG
[regs GPIO_ARM_ID_REG
]
91 set GPIO_BOOTSTRAP_REG
[regs GPIO_BOOTSTRAP_REG
]
92 set GPIO_LOCK_REG
[regs GPIO_LOCK_REG
]
93 set GPIO_IOCTRL_REG
[regs GPIO_IOCTRL_REG
]
94 set GPIO_DEVID_REG
[regs GPIO_DEVID_REG
]
96 echo
[format "GPIO_OUTPUT_REG (0x%x): 0x%x" $GPIO_OUTPUT_REG [mrw
$GPIO_OUTPUT_REG]]
97 echo
[format "GPIO_OE_REG (0x%x): 0x%x" $GPIO_OE_REG [mrw
$GPIO_OE_REG]]
98 echo
[format "GPIO_HI_INT_ENABLE_REG(0x%x): 0x%x" $GPIO_HI_INT_ENABLE_REG [mrw
$GPIO_HI_INT_ENABLE_REG]]
99 echo
[format "GPIO_LO_INT_ENABLE_REG(0x%x): 0x%x" $GPIO_LO_INT_ENABLE_REG [mrw
$GPIO_LO_INT_ENABLE_REG]]
100 echo
[format "GPIO_INPUT_REG (0x%x): 0x%x" $GPIO_INPUT_REG [mrw
$GPIO_INPUT_REG]]
101 echo
[format "APB_ACCESS_WS_REG (0x%x): 0x%x" $APB_ACCESS_WS_REG [mrw
$APB_ACCESS_WS_REG]]
102 echo
[format "MUX_CONF_REG (0x%x): 0x%x" $MUX_CONF_REG [mrw
$MUX_CONF_REG]]
103 echo
[format "SYSCONF_REG (0x%x): 0x%x" $SYSCONF_REG [mrw
$SYSCONF_REG]]
104 echo
[format "GPIO_ARM_ID_REG (0x%x): 0x%x" $GPIO_ARM_ID_REG [mrw
$GPIO_ARM_ID_REG]]
105 echo
[format "GPIO_BOOTSTRAP_REG (0x%x): 0x%x" $GPIO_BOOTSTRAP_REG [mrw
$GPIO_BOOTSTRAP_REG]]
106 echo
[format "GPIO_LOCK_REG (0x%x): 0x%x" $GPIO_LOCK_REG [mrw
$GPIO_LOCK_REG]]
107 echo
[format "GPIO_IOCTRL_REG (0x%x): 0x%x" $GPIO_IOCTRL_REG [mrw
$GPIO_IOCTRL_REG]]
108 echo
[format "GPIO_DEVID_REG (0x%x): 0x%x" $GPIO_DEVID_REG [mrw
$GPIO_DEVID_REG]]
113 # converted from u-boot/cpu/arm1136/comcerto/bsp100.c (HAL_get_amba_clk())
114 proc showAmbaClk
{} {
115 set CFG_REFCLKFREQ
[config CFG_REFCLKFREQ
]
116 set CLKCORE_AHB_CLK_CNTRL
[regs CLKCORE_AHB_CLK_CNTRL
]
117 set PLL_CLK_BYPASS
[regs PLL_CLK_BYPASS
]
119 echo
[format "CLKCORE_AHB_CLK_CNTRL (0x%x): 0x%x" $CLKCORE_AHB_CLK_CNTRL [mrw
$CLKCORE_AHB_CLK_CNTRL]]
120 mem2array value
32 $CLKCORE_AHB_CLK_CNTRL 1
121 # see if the PLL is in bypass mode
122 set bypass
[expr ($value(0) & $PLL_CLK_BYPASS) >> 24 ]
123 echo
[format "PLL bypass bit: %d" $bypass]
125 echo
[format "Amba Clk is set to REFCLK: %d (MHz)" [expr $CFG_REFCLKFREQ/1000000]]
127 # nope, extract x,y,w and compute the PLL output freq.
128 set x
[expr ($value(0) & 0x0001F0000) >> 16]
129 echo
[format "x: %d" $x]
130 set y
[expr ($value(0) & 0x00000007F)]
131 echo
[format "y: %d" $y]
132 set w
[expr ($value(0) & 0x000000300) >> 8]
133 echo
[format "w: %d" $w]
134 echo
[format "Amba PLL Clk: %d (MHz)" [expr ($CFG_REFCLKFREQ * $y / (($w + 1) * ($x + 1) * 2))/1000000]]
139 # converted from u-boot/cpu/arm1136/comcerto/bsp100.c (HAL_set_amba_clk())
140 # this clock is useb by all peripherals (DDR2, ethernet, ebus, etc)
141 proc setupAmbaClk
{} {
142 set CLKCORE_PLL_STATUS
[regs CLKCORE_PLL_STATUS
]
143 set CLKCORE_AHB_CLK_CNTRL
[regs CLKCORE_AHB_CLK_CNTRL
]
144 set ARM_PLL_BY_CTRL
[regs ARM_PLL_BY_CTRL
]
145 set ARM_AHB_BYP
[regs ARM_AHB_BYP
]
146 set PLL_DISABLE
[regs PLL_DISABLE
]
147 set PLL_CLK_BYPASS
[regs PLL_CLK_BYPASS
]
148 set AHB_PLL_BY_CTRL
[regs AHB_PLL_BY_CTRL
]
149 set DIV_BYPASS
[regs DIV_BYPASS
]
150 set AHBCLK_PLL_LOCK
[regs AHBCLK_PLL_LOCK
]
151 set CFG_REFCLKFREQ
[config CFG_REFCLKFREQ
]
152 set CONFIG_SYS_HZ_CLOCK
[config CONFIG_SYS_HZ_CLOCK
]
153 set w
[config w_amba
]
154 set x
[config x_amba
]
155 set y
[config y_amba
]
157 echo
[format "Setting Amba PLL to lock to %d MHz" [expr $CONFIG_SYS_HZ_CLOCK/1000000]]
158 #echo [format "setupAmbaClk: w= %d" $w]
159 #echo [format "setupAmbaClk: x= %d" $x]
160 #echo [format "setupAmbaClk: y= %d" $y]
161 # set PLL into BYPASS mode using MUX
162 mmw
$CLKCORE_AHB_CLK_CNTRL $PLL_CLK_BYPASS 0x0
163 # do an internal PLL bypass
164 mmw
$CLKCORE_AHB_CLK_CNTRL $AHB_PLL_BY_CTRL 0x0
165 # wait 500us (ARM running @24Mhz -> 12000 cycles => 500us)
166 # openocd smallest resolution is 1ms so, wait 1ms
169 mmw
$CLKCORE_AHB_CLK_CNTRL $PLL_DISABLE 0x0
173 mmw
$CLKCORE_AHB_CLK_CNTRL 0x0 $PLL_DISABLE
176 mmw
$CLKCORE_AHB_CLK_CNTRL 0x0 0xFFFFFF
177 mmw
$CLKCORE_AHB_CLK_CNTRL [expr (($x << 16) + ($w << 8) + $y)] 0x0
178 # wait for PLL to lock
179 echo
"Wating for Amba PLL to lock"
180 while {[expr [mrw
$CLKCORE_PLL_STATUS] & $AHBCLK_PLL_LOCK] == 0} { sleep
1 }
181 # remove the internal PLL bypass
182 mmw
$CLKCORE_AHB_CLK_CNTRL 0x0 $AHB_PLL_BY_CTRL
183 # remove PLL from BYPASS mode using MUX
184 mmw
$CLKCORE_AHB_CLK_CNTRL 0x0 $PLL_CLK_BYPASS
188 # converted from u-boot/cpu/arm1136/comcerto/bsp100.c (HAL_get_arm_clk())
190 set CFG_REFCLKFREQ
[config CFG_REFCLKFREQ
]
191 set CLKCORE_ARM_CLK_CNTRL
[regs CLKCORE_ARM_CLK_CNTRL
]
192 set PLL_CLK_BYPASS
[regs PLL_CLK_BYPASS
]
194 echo
[format "CLKCORE_ARM_CLK_CNTRL (0x%x): 0x%x" $CLKCORE_ARM_CLK_CNTRL [mrw
$CLKCORE_ARM_CLK_CNTRL]]
195 mem2array value
32 $CLKCORE_ARM_CLK_CNTRL 1
196 # see if the PLL is in bypass mode
197 set bypass
[expr ($value(0) & $PLL_CLK_BYPASS) >> 24 ]
198 echo
[format "PLL bypass bit: %d" $bypass]
200 echo
[format "Amba Clk is set to REFCLK: %d (MHz)" [expr $CFG_REFCLKFREQ/1000000]]
202 # nope, extract x,y,w and compute the PLL output freq.
203 set x
[expr ($value(0) & 0x0001F0000) >> 16]
204 echo
[format "x: %d" $x]
205 set y
[expr ($value(0) & 0x00000007F)]
206 echo
[format "y: %d" $y]
207 set w
[expr ($value(0) & 0x000000300) >> 8]
208 echo
[format "w: %d" $w]
209 echo
[format "Arm PLL Clk: %d (MHz)" [expr ($CFG_REFCLKFREQ * $y / (($w + 1) * ($x + 1) * 2))/1000000]]
213 # converted from u-boot/cpu/arm1136/comcerto/bsp100.c (HAL_set_arm_clk())
214 # Arm Clock is used by two ARM1136 cores
215 proc setupArmClk
{} {
216 set CLKCORE_PLL_STATUS
[regs CLKCORE_PLL_STATUS
]
217 set CLKCORE_ARM_CLK_CNTRL
[regs CLKCORE_ARM_CLK_CNTRL
]
218 set ARM_PLL_BY_CTRL
[regs ARM_PLL_BY_CTRL
]
219 set ARM_AHB_BYP
[regs ARM_AHB_BYP
]
220 set PLL_DISABLE
[regs PLL_DISABLE
]
221 set PLL_CLK_BYPASS
[regs PLL_CLK_BYPASS
]
222 set AHB_PLL_BY_CTRL
[regs AHB_PLL_BY_CTRL
]
223 set DIV_BYPASS
[regs DIV_BYPASS
]
224 set FCLK_PLL_LOCK
[regs FCLK_PLL_LOCK
]
225 set CFG_REFCLKFREQ
[config CFG_REFCLKFREQ
]
226 set CFG_ARM_CLOCK
[config CFG_ARM_CLOCK
]
231 echo
[format "Setting Arm PLL to lock to %d MHz" [expr $CFG_ARM_CLOCK/1000000]]
232 #echo [format "setupArmClk: w= %d" $w]
233 #echo [format "setupArmaClk: x= %d" $x]
234 #echo [format "setupArmaClk: y= %d" $y]
235 # set PLL into BYPASS mode using MUX
236 mmw
$CLKCORE_ARM_CLK_CNTRL $PLL_CLK_BYPASS 0x0
237 # do an internal PLL bypass
238 mmw
$CLKCORE_ARM_CLK_CNTRL $ARM_PLL_BY_CTRL 0x0
239 # wait 500us (ARM running @24Mhz -> 12000 cycles => 500us)
240 # openocd smallest resolution is 1ms so, wait 1ms
243 mmw
$CLKCORE_ARM_CLK_CNTRL $PLL_DISABLE 0x0
247 mmw
$CLKCORE_ARM_CLK_CNTRL 0x0 $PLL_DISABLE
250 mmw
$CLKCORE_ARM_CLK_CNTRL 0x0 0xFFFFFF
251 mmw
$CLKCORE_ARM_CLK_CNTRL [expr (($x << 16) + ($w << 8) + $y)] 0x0
252 # wait for PLL to lock
253 echo
"Wating for Amba PLL to lock"
254 while {[expr [mrw
$CLKCORE_PLL_STATUS] & $FCLK_PLL_LOCK] == 0} { sleep
1 }
255 # remove the internal PLL bypass
256 mmw
$CLKCORE_ARM_CLK_CNTRL 0x0 $ARM_PLL_BY_CTRL
257 # remove PLL from BYPASS mode using MUX
258 mmw
$CLKCORE_ARM_CLK_CNTRL 0x0 $PLL_CLK_BYPASS
269 # converted from u-boot/cpu/arm1136/bsp100.c:SoC_mem_init()
271 echo
"Configuring DDR2"
273 set MEMORY_BASE_ADDR
[regs MEMORY_BASE_ADDR
]
274 set MEMORY_MAX_ADDR
[regs MEMORY_MAX_ADDR
]
275 set MEMORY_CR
[regs MEMORY_CR
]
276 set BLOCK_RESET_REG
[regs BLOCK_RESET_REG
]
277 set DDR_RST
[regs DDR_RST
]
279 # put DDR controller in reset (so that it is reset and correctly configured)
280 # this is only necessary if DDR was previously confiured
282 mmw
$BLOCK_RESET_REG 0x0 $DDR_RST
284 set M
[expr 1024 * 1024]
285 set DDR_SZ_1024M
[expr 1024 * $M]
286 set DDR_SZ_256M
[expr 256 * $M]
287 set DDR_SZ_128M
[expr 128 * $M]
288 set DDR_SZ_64M
[expr 64 * $M]
289 # ooma_board_detect returns DDR2 memory size
290 set tmp
[ooma_board_detect
]
291 if {$tmp == "128M"} {
292 echo
"DDR2 size 128MB"
293 set ddr_size
$DDR_SZ_128M
294 } elseif
{$tmp == "256M"} {
295 echo
"DDR2 size 256MB"
296 set ddr_size
$DDR_SZ_256M
298 echo
"Don't know how to handle this DDR2 size?"
301 # Memory setup register
302 mww
$MEMORY_MAX_ADDR [expr ($ddr_size - 1) + $MEMORY_BASE_ADDR]
305 # Take DDR controller out of reset
306 mmw
$BLOCK_RESET_REG $DDR_RST 0x0
310 # This will setup Denali DDR2 controller
311 if {$tmp == "128M"} {
312 configureDDR2regs_128M
313 } elseif
{$tmp == "256M"} {
314 configureDDR2regs_256M
316 echo
"Don't know how to configure DDR2 setup?"
324 set DENALI_CTL_00_DATA
[regs DENALI_CTL_00_DATA
]
325 set DENALI_CTL_01_DATA
[regs DENALI_CTL_01_DATA
]
326 set DENALI_CTL_02_DATA
[regs DENALI_CTL_02_DATA
]
327 set DENALI_CTL_03_DATA
[regs DENALI_CTL_03_DATA
]
328 set DENALI_CTL_04_DATA
[regs DENALI_CTL_04_DATA
]
329 set DENALI_CTL_05_DATA
[regs DENALI_CTL_05_DATA
]
330 set DENALI_CTL_06_DATA
[regs DENALI_CTL_06_DATA
]
331 set DENALI_CTL_07_DATA
[regs DENALI_CTL_07_DATA
]
332 set DENALI_CTL_08_DATA
[regs DENALI_CTL_08_DATA
]
333 set DENALI_CTL_09_DATA
[regs DENALI_CTL_09_DATA
]
334 set DENALI_CTL_10_DATA
[regs DENALI_CTL_10_DATA
]
335 set DENALI_CTL_11_DATA
[regs DENALI_CTL_11_DATA
]
336 set DENALI_CTL_12_DATA
[regs DENALI_CTL_12_DATA
]
337 set DENALI_CTL_13_DATA
[regs DENALI_CTL_13_DATA
]
338 set DENALI_CTL_14_DATA
[regs DENALI_CTL_14_DATA
]
339 set DENALI_CTL_15_DATA
[regs DENALI_CTL_15_DATA
]
340 set DENALI_CTL_16_DATA
[regs DENALI_CTL_16_DATA
]
341 set DENALI_CTL_17_DATA
[regs DENALI_CTL_17_DATA
]
342 set DENALI_CTL_18_DATA
[regs DENALI_CTL_18_DATA
]
343 set DENALI_CTL_19_DATA
[regs DENALI_CTL_19_DATA
]
344 set DENALI_CTL_20_DATA
[regs DENALI_CTL_20_DATA
]
346 set tmp
[mr64bit
$DENALI_CTL_00_DATA]
347 echo
[format "DENALI_CTL_00_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_00_DATA $tmp(1) $tmp(0)]
348 set tmp
[mr64bit
$DENALI_CTL_01_DATA]
349 echo
[format "DENALI_CTL_01_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_01_DATA $tmp(1) $tmp(0)]
350 set tmp
[mr64bit
$DENALI_CTL_02_DATA]
351 echo
[format "DENALI_CTL_02_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_02_DATA $tmp(1) $tmp(0)]
352 set tmp
[mr64bit
$DENALI_CTL_03_DATA]
353 echo
[format "DENALI_CTL_03_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_03_DATA $tmp(1) $tmp(0)]
354 set tmp
[mr64bit
$DENALI_CTL_04_DATA]
355 echo
[format "DENALI_CTL_04_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_04_DATA $tmp(1) $tmp(0)]
356 set tmp
[mr64bit
$DENALI_CTL_05_DATA]
357 echo
[format "DENALI_CTL_05_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_05_DATA $tmp(1) $tmp(0)]
358 set tmp
[mr64bit
$DENALI_CTL_06_DATA]
359 echo
[format "DENALI_CTL_06_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_06_DATA $tmp(1) $tmp(0)]
360 set tmp
[mr64bit
$DENALI_CTL_07_DATA]
361 echo
[format "DENALI_CTL_07_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_07_DATA $tmp(1) $tmp(0)]
362 set tmp
[mr64bit
$DENALI_CTL_08_DATA]
363 echo
[format "DENALI_CTL_08_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_08_DATA $tmp(1) $tmp(0)]
364 set tmp
[mr64bit
$DENALI_CTL_09_DATA]
365 echo
[format "DENALI_CTL_09_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_09_DATA $tmp(1) $tmp(0)]
366 set tmp
[mr64bit
$DENALI_CTL_10_DATA]
367 echo
[format "DENALI_CTL_10_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_10_DATA $tmp(1) $tmp(0)]
368 set tmp
[mr64bit
$DENALI_CTL_11_DATA]
369 echo
[format "DENALI_CTL_11_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_11_DATA $tmp(1) $tmp(0)]
370 set tmp
[mr64bit
$DENALI_CTL_12_DATA]
371 echo
[format "DENALI_CTL_12_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_12_DATA $tmp(1) $tmp(0)]
372 set tmp
[mr64bit
$DENALI_CTL_13_DATA]
373 echo
[format "DENALI_CTL_13_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_13_DATA $tmp(1) $tmp(0)]
374 set tmp
[mr64bit
$DENALI_CTL_14_DATA]
375 echo
[format "DENALI_CTL_14_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_14_DATA $tmp(1) $tmp(0)]
376 set tmp
[mr64bit
$DENALI_CTL_15_DATA]
377 echo
[format "DENALI_CTL_15_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_15_DATA $tmp(1) $tmp(0)]
378 set tmp
[mr64bit
$DENALI_CTL_16_DATA]
379 echo
[format "DENALI_CTL_16_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_16_DATA $tmp(1) $tmp(0)]
380 set tmp
[mr64bit
$DENALI_CTL_17_DATA]
381 echo
[format "DENALI_CTL_17_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_17_DATA $tmp(1) $tmp(0)]
382 set tmp
[mr64bit
$DENALI_CTL_18_DATA]
383 echo
[format "DENALI_CTL_18_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_18_DATA $tmp(1) $tmp(0)]
384 set tmp
[mr64bit
$DENALI_CTL_19_DATA]
385 echo
[format "DENALI_CTL_19_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_19_DATA $tmp(1) $tmp(0)]
386 set tmp
[mr64bit
$DENALI_CTL_20_DATA]
387 echo
[format "DENALI_CTL_20_DATA (0x%x): 0x%08x%08x" $DENALI_CTL_20_DATA $tmp(1) $tmp(0)]
392 # this follows u-boot/cpu/arm1136/start.S
393 set GPIO_LOCK_REG
[regs GPIO_LOCK_REG
]
394 set GPIO_IOCTRL_REG
[regs GPIO_IOCTRL_REG
]
395 set GPIO_IOCTRL_VAL
[regs GPIO_IOCTRL_VAL
]
396 set APB_ACCESS_WS_REG
[regs APB_ACCESS_WS_REG
]
397 set ASA_ARAM_BASEADDR
[regs ASA_ARAM_BASEADDR
]
398 set ASA_ARAM_TC_CR_REG
[regs ASA_ARAM_TC_CR_REG
]
399 set ASA_EBUS_BASEADDR
[regs ASA_EBUS_BASEADDR
]
400 set ASA_EBUS_TC_CR_REG
[regs ASA_EBUS_TC_CR_REG
]
401 set ASA_TC_REQIDMAEN
[regs ASA_TC_REQIDMAEN
]
402 set ASA_TC_REQTDMEN
[regs ASA_TC_REQTDMEN
]
403 set ASA_TC_REQIPSECUSBEN
[regs ASA_TC_REQIPSECUSBEN
]
404 set ASA_TC_REQARM0EN
[regs ASA_TC_REQARM0EN
]
405 set ASA_TC_REQARM1EN
[regs ASA_TC_REQARM1EN
]
406 set ASA_TC_REQMDMAEN
[regs ASA_TC_REQMDMAEN
]
407 set INTC_ARM1_CONTROL_REG
[regs INTC_ARM1_CONTROL_REG
]
410 # unlock writing to IOCTRL register
411 mww
$GPIO_LOCK_REG $GPIO_IOCTRL_VAL
412 # enable address lines A15-A21
413 mmw
$GPIO_IOCTRL_REG 0xf 0x0
414 # set ARM into supervisor mode (SVC32)
416 # Do I need this in JTAG mode?
417 # it really should be done as 'and ~0x1f | 0xd3 but
418 # openocd does not support this yet
421 # * flush v4 I/D caches
424 # mcr p15, 0, r0, c7, c7, 0 /* flush v3/v4 cache */
425 arm mcr
15 0 7 7 0 0x0
426 # mcr p15, 0, r0, c8, c7, 0 /* flush v4 TLB */
427 arm mcr
15 0 8 7 0 0x0
430 # * disable MMU stuff and caches
432 # mrc p15, 0, r0, c1, c0, 0
434 # bic r0, r0, #0x00002300 @ clear bits 13, 9:8 (--V- --RS)
435 # bic r0, r0, #0x00000087 @ clear bits 7, 2:0 (B--- -CAM)
436 # orr r0, r0, #0x00000002 @ set bit 2 (A) Align
437 # orr r0, r0, #0x00001000 @ set bit 12 (I) I-Cache
438 # orr r0, r0, #0x00400000 @ set bit 22 (U)
439 # mcr p15, 0, r0, c1, c0, 0
440 arm mcr
15 0 1 0 0 0x401002
441 # This is from bsp_init() in u-boot/boards/mindspeed/ooma-darwin/board.c
443 # // Setting APB Bus Wait states to 1, set post write
444 # (*(volatile u32*)(APB_ACCESS_WS_REG)) = 0x40;
445 mww
[expr $APB_ACCESS_WS_REG] 0x40
447 # // enable all 6 masters for ARAM
448 mmw
$ASA_ARAM_TC_CR_REG [expr $ASA_TC_REQIDMAEN |
$ASA_TC_REQTDMEN |
$ASA_TC_REQIPSECUSBEN |
$ASA_TC_REQARM0EN |
$ASA_TC_REQARM1EN |
$ASA_TC_REQMDMAEN] 0x0
449 # // enable all 6 masters for EBUS
450 mmw
$ASA_EBUS_TC_CR_REG [expr $ASA_TC_REQIDMAEN |
$ASA_TC_REQTDMEN |
$ASA_TC_REQIPSECUSBEN |
$ASA_TC_REQARM0EN |
$ASA_TC_REQARM1EN |
$ASA_TC_REQMDMAEN] 0x0
453 # // disable pipeline mode in ARAM
454 # I don't think this is documented anywhere?
455 mww
$INTC_ARM1_CONTROL_REG 0x1
458 # setupUART0 must be run before setupDDR2 as setupDDR2 uses UART.
461 # ? (u-boot does nothing here)
464 putsUART0
"C100 initialization complete.\n"
465 echo
"C100 initialization complete."
468 # show current state of watchdog timer
469 proc showWatchdog
{} {
470 set TIMER_WDT_HIGH_BOUND
[regs TIMER_WDT_HIGH_BOUND
]
471 set TIMER_WDT_CONTROL
[regs TIMER_WDT_CONTROL
]
472 set TIMER_WDT_CURRENT_COUNT
[regs TIMER_WDT_CURRENT_COUNT
]
474 echo
[format "TIMER_WDT_HIGH_BOUND (0x%x): 0x%x" $TIMER_WDT_HIGH_BOUND [mrw
$TIMER_WDT_HIGH_BOUND]]
475 echo
[format "TIMER_WDT_CONTROL (0x%x): 0x%x" $TIMER_WDT_CONTROL [mrw
$TIMER_WDT_CONTROL]]
476 echo
[format "TIMER_WDT_CURRENT_COUNT (0x%x): 0x%x" $TIMER_WDT_CURRENT_COUNT [mrw
$TIMER_WDT_CURRENT_COUNT]]
479 # converted from u-boot/cpu/arm1136/comcerto/intrrupts.c:void reset_cpu (ulong ignored)
480 # this will trigger watchdog reset
481 # the sw. reset does not work on C100
482 # watchdog reset effectively works as hw. reset
484 set TIMER_WDT_HIGH_BOUND
[regs TIMER_WDT_HIGH_BOUND
]
485 set TIMER_WDT_CONTROL
[regs TIMER_WDT_CONTROL
]
486 set TIMER_WDT_CURRENT_COUNT
[regs TIMER_WDT_CURRENT_COUNT
]
488 # allow the counter to count to high value before triggering
489 # this is because regsiter writes are slow over JTAG and
490 # I don't want to miss the high_bound==curr_count condition
491 mww
$TIMER_WDT_HIGH_BOUND 0xffffff
492 mww
$TIMER_WDT_CURRENT_COUNT 0x0
493 echo
"JTAG speed lowered to 100kHz"
495 mww
$TIMER_WDT_CONTROL 0x1
496 # wait until the reset
497 echo
-n "Wating for watchdog to trigger..."
498 #while {[mrw $TIMER_WDT_CONTROL] == 1} {
499 # echo [format "TIMER_WDT_CURRENT_COUNT (0x%x): 0x%x" $TIMER_WDT_CURRENT_COUNT [mrw $TIMER_WDT_CURRENT_COUNT]]
503 while {[c100.cpu curstate
] != "running"} { sleep
1}
505 echo
[format "Note that C100 is in %s state, type halt to stop" [c100.cpu curstate
]]
