riscv-openocd/tcl/target/mdr32f9q2i.cfg

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mdr32fx: support for Milandr's MDR32Fx internal flash memory This adds example config and flash driver for russian Cortex-M3 microcontroller model. Run-time tested on MDR32F9Q2I evaluation board; the flash driver should be compatible with MDR32F2x (Cortex-M0) too but I lack hardware to test. There're no status bits at all, the datasheets specifies some delays for flash operations instead. All being in <100us range, they're hard to violate with JTAG, I hope. There're also no flash identification registers so the flash size and type has to be hardcoded into the config. The flashing is considerably complicated because the flash is split into pages, and each page consists of 4 interleaved non-consecutive "sectors" (on MDR32F9 only, MDR32F2 is single-sectored), so the fastest way is to latch the page and sector address and then write only the part that should go into the current page and current sector. Performance testing results with adapter_khz 1000 and the chip running on its default HSI 8MHz oscillator: When working area is specified, a target helper algorithm is used: wrote 131072 bytes from file testfile.bin in 3.698427s (34.609 KiB/s) This can theoretically be sped up by ~1.4 times if the helper algorithm is fed some kind of "loader instructions stream" to allow sector-by-sector writing. Pure JTAG implementation (when target memory area is not available) flashes all the 128k memory in 49.5s. Flashing "info" memory region is also implemented, but due to the overlapping memory addresses (resulting in incorrect memory map calculations for GDB) it can't be used at the same time, so OpenOCD needs to be started this way: -c "set IMEMORY true" -f target/mdr32f9q2i.cfg It also can't be read/verified because it's not memory-mapped anywhere ever, and OpenOCD NOR framework doesn't really allow to provide a custom handler that would be used when verifying. Change-Id: I80c0632da686d49856fdbf9e05d908846dd44316 Signed-off-by: Paul Fertser <fercerpav@gmail.com> Reviewed-on: http://openocd.zylin.com/1532 Tested-by: jenkins Reviewed-by: Spencer Oliver <spen@spen-soft.co.uk>
2013-07-29 08:22:07 -05:00
# MDR32F9Q2I (1986ВЕ92У)
# http://milandr.ru/index.php?mact=Products,cntnt01,details,0&cntnt01productid=57&cntnt01returnid=68
source [find target/swj-dp.tcl]
mdr32fx: support for Milandr's MDR32Fx internal flash memory This adds example config and flash driver for russian Cortex-M3 microcontroller model. Run-time tested on MDR32F9Q2I evaluation board; the flash driver should be compatible with MDR32F2x (Cortex-M0) too but I lack hardware to test. There're no status bits at all, the datasheets specifies some delays for flash operations instead. All being in <100us range, they're hard to violate with JTAG, I hope. There're also no flash identification registers so the flash size and type has to be hardcoded into the config. The flashing is considerably complicated because the flash is split into pages, and each page consists of 4 interleaved non-consecutive "sectors" (on MDR32F9 only, MDR32F2 is single-sectored), so the fastest way is to latch the page and sector address and then write only the part that should go into the current page and current sector. Performance testing results with adapter_khz 1000 and the chip running on its default HSI 8MHz oscillator: When working area is specified, a target helper algorithm is used: wrote 131072 bytes from file testfile.bin in 3.698427s (34.609 KiB/s) This can theoretically be sped up by ~1.4 times if the helper algorithm is fed some kind of "loader instructions stream" to allow sector-by-sector writing. Pure JTAG implementation (when target memory area is not available) flashes all the 128k memory in 49.5s. Flashing "info" memory region is also implemented, but due to the overlapping memory addresses (resulting in incorrect memory map calculations for GDB) it can't be used at the same time, so OpenOCD needs to be started this way: -c "set IMEMORY true" -f target/mdr32f9q2i.cfg It also can't be read/verified because it's not memory-mapped anywhere ever, and OpenOCD NOR framework doesn't really allow to provide a custom handler that would be used when verifying. Change-Id: I80c0632da686d49856fdbf9e05d908846dd44316 Signed-off-by: Paul Fertser <fercerpav@gmail.com> Reviewed-on: http://openocd.zylin.com/1532 Tested-by: jenkins Reviewed-by: Spencer Oliver <spen@spen-soft.co.uk>
2013-07-29 08:22:07 -05:00
if { [info exists CHIPNAME] } {
set _CHIPNAME $CHIPNAME
} else {
set _CHIPNAME mdr32f9q2i
}
if { [info exists ENDIAN] } {
set _ENDIAN $ENDIAN
} else {
set _ENDIAN little
}
# Work-area is a space in RAM used for flash programming
if { [info exists WORKAREASIZE] } {
set _WORKAREASIZE $WORKAREASIZE
} else {
set _WORKAREASIZE 0x8000
}
#jtag scan chain
if { [info exists CPUTAPID] } {
set _CPUTAPID $CPUTAPID
} else {
if { [using_jtag] } {
set _CPUTAPID 0x4ba00477
} {
# SWD IDCODE
set _CPUTAPID 0x2ba01477
}
mdr32fx: support for Milandr's MDR32Fx internal flash memory This adds example config and flash driver for russian Cortex-M3 microcontroller model. Run-time tested on MDR32F9Q2I evaluation board; the flash driver should be compatible with MDR32F2x (Cortex-M0) too but I lack hardware to test. There're no status bits at all, the datasheets specifies some delays for flash operations instead. All being in <100us range, they're hard to violate with JTAG, I hope. There're also no flash identification registers so the flash size and type has to be hardcoded into the config. The flashing is considerably complicated because the flash is split into pages, and each page consists of 4 interleaved non-consecutive "sectors" (on MDR32F9 only, MDR32F2 is single-sectored), so the fastest way is to latch the page and sector address and then write only the part that should go into the current page and current sector. Performance testing results with adapter_khz 1000 and the chip running on its default HSI 8MHz oscillator: When working area is specified, a target helper algorithm is used: wrote 131072 bytes from file testfile.bin in 3.698427s (34.609 KiB/s) This can theoretically be sped up by ~1.4 times if the helper algorithm is fed some kind of "loader instructions stream" to allow sector-by-sector writing. Pure JTAG implementation (when target memory area is not available) flashes all the 128k memory in 49.5s. Flashing "info" memory region is also implemented, but due to the overlapping memory addresses (resulting in incorrect memory map calculations for GDB) it can't be used at the same time, so OpenOCD needs to be started this way: -c "set IMEMORY true" -f target/mdr32f9q2i.cfg It also can't be read/verified because it's not memory-mapped anywhere ever, and OpenOCD NOR framework doesn't really allow to provide a custom handler that would be used when verifying. Change-Id: I80c0632da686d49856fdbf9e05d908846dd44316 Signed-off-by: Paul Fertser <fercerpav@gmail.com> Reviewed-on: http://openocd.zylin.com/1532 Tested-by: jenkins Reviewed-by: Spencer Oliver <spen@spen-soft.co.uk>
2013-07-29 08:22:07 -05:00
}
swj_newdap $_CHIPNAME cpu -irlen 4 -ircapture 0x1 -irmask 0xf -expected-id $_CPUTAPID
dap create $_CHIPNAME.dap -chain-position $_CHIPNAME.cpu
mdr32fx: support for Milandr's MDR32Fx internal flash memory This adds example config and flash driver for russian Cortex-M3 microcontroller model. Run-time tested on MDR32F9Q2I evaluation board; the flash driver should be compatible with MDR32F2x (Cortex-M0) too but I lack hardware to test. There're no status bits at all, the datasheets specifies some delays for flash operations instead. All being in <100us range, they're hard to violate with JTAG, I hope. There're also no flash identification registers so the flash size and type has to be hardcoded into the config. The flashing is considerably complicated because the flash is split into pages, and each page consists of 4 interleaved non-consecutive "sectors" (on MDR32F9 only, MDR32F2 is single-sectored), so the fastest way is to latch the page and sector address and then write only the part that should go into the current page and current sector. Performance testing results with adapter_khz 1000 and the chip running on its default HSI 8MHz oscillator: When working area is specified, a target helper algorithm is used: wrote 131072 bytes from file testfile.bin in 3.698427s (34.609 KiB/s) This can theoretically be sped up by ~1.4 times if the helper algorithm is fed some kind of "loader instructions stream" to allow sector-by-sector writing. Pure JTAG implementation (when target memory area is not available) flashes all the 128k memory in 49.5s. Flashing "info" memory region is also implemented, but due to the overlapping memory addresses (resulting in incorrect memory map calculations for GDB) it can't be used at the same time, so OpenOCD needs to be started this way: -c "set IMEMORY true" -f target/mdr32f9q2i.cfg It also can't be read/verified because it's not memory-mapped anywhere ever, and OpenOCD NOR framework doesn't really allow to provide a custom handler that would be used when verifying. Change-Id: I80c0632da686d49856fdbf9e05d908846dd44316 Signed-off-by: Paul Fertser <fercerpav@gmail.com> Reviewed-on: http://openocd.zylin.com/1532 Tested-by: jenkins Reviewed-by: Spencer Oliver <spen@spen-soft.co.uk>
2013-07-29 08:22:07 -05:00
set _TARGETNAME $_CHIPNAME.cpu
target create $_TARGETNAME cortex_m -endian $_ENDIAN -dap $_CHIPNAME.dap
mdr32fx: support for Milandr's MDR32Fx internal flash memory This adds example config and flash driver for russian Cortex-M3 microcontroller model. Run-time tested on MDR32F9Q2I evaluation board; the flash driver should be compatible with MDR32F2x (Cortex-M0) too but I lack hardware to test. There're no status bits at all, the datasheets specifies some delays for flash operations instead. All being in <100us range, they're hard to violate with JTAG, I hope. There're also no flash identification registers so the flash size and type has to be hardcoded into the config. The flashing is considerably complicated because the flash is split into pages, and each page consists of 4 interleaved non-consecutive "sectors" (on MDR32F9 only, MDR32F2 is single-sectored), so the fastest way is to latch the page and sector address and then write only the part that should go into the current page and current sector. Performance testing results with adapter_khz 1000 and the chip running on its default HSI 8MHz oscillator: When working area is specified, a target helper algorithm is used: wrote 131072 bytes from file testfile.bin in 3.698427s (34.609 KiB/s) This can theoretically be sped up by ~1.4 times if the helper algorithm is fed some kind of "loader instructions stream" to allow sector-by-sector writing. Pure JTAG implementation (when target memory area is not available) flashes all the 128k memory in 49.5s. Flashing "info" memory region is also implemented, but due to the overlapping memory addresses (resulting in incorrect memory map calculations for GDB) it can't be used at the same time, so OpenOCD needs to be started this way: -c "set IMEMORY true" -f target/mdr32f9q2i.cfg It also can't be read/verified because it's not memory-mapped anywhere ever, and OpenOCD NOR framework doesn't really allow to provide a custom handler that would be used when verifying. Change-Id: I80c0632da686d49856fdbf9e05d908846dd44316 Signed-off-by: Paul Fertser <fercerpav@gmail.com> Reviewed-on: http://openocd.zylin.com/1532 Tested-by: jenkins Reviewed-by: Spencer Oliver <spen@spen-soft.co.uk>
2013-07-29 08:22:07 -05:00
$_TARGETNAME configure -work-area-phys 0x20000000 -work-area-size $_WORKAREASIZE -work-area-backup 0
# can't handle overlapping memory regions
if { [info exists IMEMORY] && [string equal $IMEMORY true] } {
flash bank ${_CHIPNAME}_info.flash mdr 0x08000000 0x01000 0 0 $_TARGETNAME 1 1 4
} else {
flash bank $_CHIPNAME.flash mdr 0x08000000 0x20000 0 0 $_TARGETNAME 0 32 4
}
# JTAG speed should be <= F_CPU/6. F_CPU after reset is 8MHz, so use F_JTAG = 1MHz
adapter_khz 1000
adapter_nsrst_delay 100
if {[using_jtag]} {
jtag_ntrst_delay 100
}
if {![using_hla]} {
# if srst is not fitted use SYSRESETREQ to
# perform a soft reset
cortex_m reset_config sysresetreq
}