jtag newtap $_CHIPNAME dsp -irlen 38 -ircapture 0x25 -irmask 0x3f -disable
# Subsidiary TAP: CoreSight Debug Access Port (DAP)
jtag newtap $_CHIPNAME dsp -irlen 38 -ircapture 0x25 -irmask 0x3f -disable
# Subsidiary TAP: CoreSight Debug Access Port (DAP)
"icepick_c_tapenable $_CHIPNAME.jrc 3"
# Primary TAP: ICEpick-C (JTAG route controller) and boundary scan
"icepick_c_tapenable $_CHIPNAME.jrc 3"
# Primary TAP: ICEpick-C (JTAG route controller) and boundary scan
# SRAM: 64K at 0x4020.0000; use the first 16K
$_TARGETNAME configure -work-area-phys 0x40200000 -work-area-size 0x4000
# SRAM: 64K at 0x4020.0000; use the first 16K
$_TARGETNAME configure -work-area-phys 0x40200000 -work-area-size 0x4000
jtag configure $_CHIPNAME.jrc -event setup "jtag tapenable $_CHIPNAME.dap"
proc omap3_dbginit {target} {
jtag configure $_CHIPNAME.jrc -event setup "jtag tapenable $_CHIPNAME.dap"
proc omap3_dbginit {target} {
}
# be absolutely certain the JTAG clock will work with the worst-case
# 16.8MHz/2 = 8.4MHz core clock, even before a bootloader kicks in.
# OK to speed up *after* PLL and clock tree setup.
}
# be absolutely certain the JTAG clock will work with the worst-case
# 16.8MHz/2 = 8.4MHz core clock, even before a bootloader kicks in.
# OK to speed up *after* PLL and clock tree setup.
# Assume SRST is unavailable (e.g. TI-14 JTAG), so we must assert reset
# ourselves using PRM_RSTCTRL. RST_GS (2) is a warm reset, like ICEpick
# Assume SRST is unavailable (e.g. TI-14 JTAG), so we must assert reset
# ourselves using PRM_RSTCTRL. RST_GS (2) is a warm reset, like ICEpick