reset: fix reset halt bug
I was finally able to figure out the cause of this problem. There are two parts to the patch. The first patch modifies the configuration file I originally generated for the Atmel AT91SAM9G20 board and achieves the following: +++ Splits the reset-init handler into a reset-start handler for some of the initial configuration activities and keeps the remainder in the reset-init handler as was the case before. This was the real issue that was causing the timing problems I identified before. This solution was confirmed with an o-scope on actual target hardware. +++ Adds a new instruction in the reset-start handler to disable fast memory accesses in the reset-start handler. When the target jtag clock is started out at 2 kHz during system clock initialization, memory writes (i.e. register write to enable external reset pin -- basically to RSTC_MR) are naturally slow and cause GDB keep-alive issues (refer to PATCH 2/2 for additional fixes). +++ Modifies the configuration file to use srst_only reset action. The reset-start/reset-init handler split also now allows the correct behavior to be used in the configuration file (previously had to use both SRST and TRST even though only SRST is actually used and connected on the evaluation board). +++ Adds external NandFlash configuration support to take advantage of flash driver added earlier. Doesn't fix any bugs but adds functionality that was marked as TBD before and thrown in when I did other work on the configuration file. Signed-off-by: Øyvind Harboe <oyvind.harboe@zylin.com>__archive__
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@ -13,16 +13,15 @@
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# the AT91SAM9260 and shares the same tap ID as it.
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set _CHIPNAME at91sam9g20
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set _FLASHTYPE nandflash_cs3
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set _ENDIAN little
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set _CPUTAPID 0x0792603f
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# Set reset type. Note that the AT91SAM9G20-EK board has the trst signal disconnected. In theory this script
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# therefore should require "srst_only". With some J-Link debuggers at least, "srst_only" causes a temporary USB
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# communication fault. This appears to be more likely attributed to an internal proprietary firmware quirk inside the
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# dongle itself. Using "trst_and_srst" works fine, however. So if you can't beat them -- join them. If you are using
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# something other the a J-Link dongle you may be able to change this back to "srst_only".
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# Set reset type. Note that the AT91SAM9G20-EK board has the trst signal disconnected. Therefore
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# the reset needs to be configured for "srst_only". If for some reason, a zero-ohm jumper is
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# added to the board to connect the trst signal, then this parameter may need to be changed.
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reset_config trst_and_srst
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reset_config srst_only
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# Set up the CPU and generate a new jtag tap for AT91SAM9G20.
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@ -55,10 +54,16 @@ $_TARGETNAME configure -work-area-phys 0x00300000 -work-area-size 0x4000 -work-a
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# an event handler where these special activities can take place.
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scan_chain
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$_TARGETNAME configure -event reset-init {at91sam9g20_init}
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$_TARGETNAME configure -event reset-init {at91sam9g20_reset_init}
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$_TARGETNAME configure -event reset-start {at91sam9g20_reset_start}
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# NandFlash configuration and definition
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# Future TBD
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nand device nandflash_cs3 at91sam9 $_TARGETNAME 0x40000000 0xfffffe800
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at91sam9 cle 0 22
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at91sam9 ale 0 21
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at91sam9 rdy_busy 0 0xfffff800 13
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at91sam9 ce 0 0xfffff800 14
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proc read_register {register} {
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set result ""
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@ -66,7 +71,22 @@ proc read_register {register} {
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return $result(0)
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}
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proc at91sam9g20_init { } {
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proc at91sam9g20_reset_start { } {
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# Make sure that the the jtag is running slow, since there are a number of different ways the board
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# can be configured coming into this state that can cause communication problems with the jtag
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# adapter. Also since this call can be made following a "reset init" where fast memory accesses
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# are enabled, need to temporarily shut this down so that the RSTC_MR register can be written at slower
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# jtag speed without causing GDB keep alive problem.
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arm7_9 fast_memory_access disable
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adapter_khz 2 # Slow-speed oscillator enabled at reset, so run jtag speed slow.
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halt # Make sure processor is halted, or error will result in following steps.
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wait_halt 10000
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mww 0xfffffd08 0xa5000501 # RSTC_MR : enable user reset.
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}
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proc at91sam9g20_reset_init { } {
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# At reset AT91SAM9G20 chip runs on slow clock (32.768 kHz). To shift over to a normal clock requires
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# a number of steps that must be carefully performed. The process outline below follows the
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@ -77,9 +97,6 @@ proc at91sam9g20_init { } {
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# means the master clock (MCLK) must be at or below 133 MHz or timing errors will occur. The processor
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# core can operate up to 400 MHz and therefore PCLK must be at or below this to function properly.
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adapter_khz 2 # Slow-speed oscillator enabled at reset, so run jtag speed slow.
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halt # Make sure processor is halted, or error will result in following steps.
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mww 0xfffffd08 0xa5000501 # RSTC_MR : enable user reset.
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mww 0xfffffd44 0x00008000 # WDT_MR : disable watchdog.
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# Enable the main 18.432 MHz oscillator in CKGR_MOR register.
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@ -114,9 +131,10 @@ proc at91sam9g20_init { } {
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adapter_khz 0
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# Enable faster DCC downloads.
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# Enable faster DCC downloads and memory accesses.
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arm7_9 dcc_downloads enable
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arm7_9 fast_memory_access enable
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# To be able to use external SDRAM, several peripheral configuration registers must
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# be modified. The first change is made to PIO_ASR to select peripheral functions
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@ -134,16 +152,34 @@ proc at91sam9g20_init { } {
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# The AT91SAM9G20-EK evaluation board has built-in NandFlash. The exact physical timing characteristics
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# for the memory type used on the current board (MT29F2G08AACWP) can be established by setting
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# four registers in order: SMC_SETUP3, SMC_PULSE3, SMC_CYCLE3, and SMC_MODE3.
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# a number of registers. The first step involves setting up the general I/O pins on the processor
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# to be able to interface and support the external memory.
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mww 0xffffec30 0x00020002
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mww 0xffffec34 0x04040404
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mww 0xffffec38 0x00070007
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mww 0xffffec3c 0x00030003
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mww 0xfffffc10 0x00000010 # PMC_PCER : enable PIOC clock
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mww 0xfffff800 0x00006000 # PIOC_PER : enable PIO function for 13(RDY/~BSY) and 14(~CS)
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mww 0xfffff810 0x00004000 # PIOC_OER : enable output on 14
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mww 0xfffff814 0x00002000 # PIOC_ODR : disable output on 13
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mww 0xfffff830 0x00004000 # PIOC_SODR : set 14 to disable NAND
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# Identify NandFlash bank 0. Disabled at the moment because a memory driver is not yet complete.
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# The exact physical timing characteristics for the memory type used on the current board
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# (MT29F2G08AACWP) can be established by setting four registers in order: SMC_SETUP3,
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# SMC_PULSE3, SMC_CYCLE3, and SMC_MODE3. Computing the exact values of these registers
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# is a little tedious to do here. If you have questions about how to do this, Atmel has
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# a decent application note #6255B that covers this process.
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# nand probe 0
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mww 0xffffec30 0x00020002 # SMC_SETUP3 : 2 clock cycle setup for NRD and NWE
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mww 0xffffec34 0x04040404 # SMC_PULSE3 : 4 clock cycle pulse for all signals
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mww 0xffffec38 0x00070006 # SMC_CYCLE3 : 7 clock cycle NRD and 6 NWE cycle
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mww 0xffffec3C 0x00020003 # SMC_MODE3 : NRD and NWE control, no NWAIT, 8-bit DBW,
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mww 0xffffe800 0x00000001 # ECC_CR : reset the ECC parity registers
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mww 0xffffe804 0x00000002 # ECC_MR : page size is 2112 words (word is 8 bits)
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# Identify NandFlash bank 0.
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nand probe nandflash_cs3
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# The AT91SAM9G20-EK evaluation board has build-in serial data flash also.
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# Now setup SDRAM. This is tricky and configuration is very important for reliability! The current calculations
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# are based on 2 x Micron MT48LC16M16A2-75 memory (4 M x 16 bit x 4 banks). If you use this file as a reference
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