91 lines
2.5 KiB
INI
91 lines
2.5 KiB
INI
# xilinx spartan6
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# http://www.xilinx.com/support/documentation/user_guides/ug380.pdf
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if { [info exists CHIPNAME] } {
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set _CHIPNAME $CHIPNAME
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} else {
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set _CHIPNAME xc6s
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}
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# the 4 top bits (28:31) are the die stepping. ignore it.
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jtag newtap $_CHIPNAME tap -irlen 6 -ignore-version \
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-expected-id 0x04000093 \
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-expected-id 0x04001093 \
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-expected-id 0x04002093 \
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-expected-id 0x04004093 \
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-expected-id 0x04024093 \
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-expected-id 0x04008093 \
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-expected-id 0x04028093 \
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-expected-id 0x0400E093 \
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-expected-id 0x0402E093 \
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-expected-id 0x04011093 \
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-expected-id 0x04031093 \
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-expected-id 0x0401D093 \
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-expected-id 0x0403D093
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pld device virtex2 $_CHIPNAME.tap
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set XC6S_CFG_IN 0x05
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set XC6S_JSHUTDOWN 0x0d
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set XC6S_JPROGRAM 0x0b
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set XC6S_JSTART 0x0c
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set XC6S_BYPASS 0x3f
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proc xc6s_program {tap} {
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global XC6S_JSHUTDOWN XC6S_JPROGRAM XC6S_JSTART XC6S_BYPASS
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irscan $tap $XC6S_JSHUTDOWN
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irscan $tap $XC6S_JPROGRAM
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irscan $tap $XC6S_JSTART
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irscan $tap $XC6S_BYPASS
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}
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#xtp038 and xc3sprog approach
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proc xc6s_program_iprog {tap} {
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global XC6S_JSHUTDOWN XC6S_JSTART XC6S_BYPASS XC6S_CFG_IN
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irscan $tap $XC6S_JSHUTDOWN
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runtest 16
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irscan $tap $XC6S_CFG_IN
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# xtp038 IPROG 16bit flipped
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drscan $tap 16 0xffff 16 0x9955 16 0x66aa 16 0x850c 16 0x7000 16 0x0004
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irscan $tap $XC6S_JSTART
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runtest 32
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irscan $tap $XC6S_BYPASS
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runtest 1
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}
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set XC6S_ISC_ENABLE 0x10
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set XC6S_ISC_DISABLE 0x16
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set XC6S_ISC_DNA 0x30
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# Get the "Device DNA" from the Spartan 6.
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# Most Xilinx FPGA devices contain an embedded, unique device identifier called
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# the "Device DNA". The identifier is nonvolatile, permanently programmed into
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# the FPGA, and is unchangeable providing a great serial / tracking number.
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proc xc6s_get_dna {tap} {
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global XC6S_ISC_ENABLE XC6S_ISC_DISABLE XC6S_ISC_DNA
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irscan $tap $XC6S_ISC_ENABLE
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runtest 64
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irscan $tap $XC6S_ISC_DNA
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# Device DNA is 57 bits long, but we can only read 32bits at a time
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# with OpenOCD.
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set dna [drscan $tap 16 0 16 0 16 0 9 0]
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runtest 64
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irscan $tap $XC6S_ISC_DISABLE
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runtest 64
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# Convert the binary data into the order impact uses
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scan $dna "%x %x %x %x" v1 v2 v3 v4
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set bin_dna [string reverse [concat [format "%09b" $v4][format "%016b" $v3][format "%016b" $v2][format "%016b" $v1]]]
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# Return a hex version of binary
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scan [format "0b%s" $bin_dna] "%i" hex_dna
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return $hex_dna
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}
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# Print out the "Device DNA" in the same format that impact uses.
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proc xc6s_print_dna {tap} {
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set hex_dna [xc6s_get_dna $tap]
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puts [format "DNA = %57b (0x%x)\n" $hex_dna $hex_dna]
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}
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