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-rwxr-xr-xfirmware/microblaze/bin/bin_to_mif.py29
-rwxr-xr-xfirmware/microblaze/bin/bin_to_ram_macro_init.py48
-rwxr-xr-xfirmware/microblaze/bin/elf_to_sbf142
-rw-r--r--firmware/microblaze/bin/sbf.py134
-rwxr-xr-xfirmware/microblaze/bin/serial_loader363
-rwxr-xr-xfirmware/microblaze/bin/uart_ihex_flash_loader.py138
-rwxr-xr-xfirmware/microblaze/bin/uart_ihex_ram_loader.py70
7 files changed, 924 insertions, 0 deletions
diff --git a/firmware/microblaze/bin/bin_to_mif.py b/firmware/microblaze/bin/bin_to_mif.py
new file mode 100755
index 000000000..cefce4e92
--- /dev/null
+++ b/firmware/microblaze/bin/bin_to_mif.py
@@ -0,0 +1,29 @@
+#!/usr/bin/env python
+
+import struct
+import sys
+
+hextab = ('0000', '0001', '0010', '0011',
+ '0100', '0101', '0110', '0111',
+ '1000', '1001', '1010', '1011',
+ '1100', '1101', '1110', '1111')
+
+def w_to_binary_ascii(w):
+ return ''.join([hextab[(w >> 4*i) & 0xf] for i in range(7,-1,-1)])
+
+def bin_to_mif(bin_input_file, mif_output_file):
+ ifile = open(bin_input_file, 'rb')
+ ofile = open(mif_output_file, 'w')
+ idata = ifile.read()
+ fmt = ">%dI" % ((len(idata) / 4),)
+ words = struct.unpack(fmt, idata)
+ for w in words:
+ ofile.write(w_to_binary_ascii(w))
+ ofile.write('\n')
+
+if __name__ == '__main__':
+ if len(sys.argv) != 3:
+ sys.stderr.write("usage: bin_to_mif bin_input_file mif_output_file\n")
+ raise SystemExit, 1
+
+ bin_to_mif(sys.argv[1], sys.argv[2])
diff --git a/firmware/microblaze/bin/bin_to_ram_macro_init.py b/firmware/microblaze/bin/bin_to_ram_macro_init.py
new file mode 100755
index 000000000..65cf2dbdf
--- /dev/null
+++ b/firmware/microblaze/bin/bin_to_ram_macro_init.py
@@ -0,0 +1,48 @@
+#!/usr/bin/env python
+
+import struct
+import sys
+
+def do_8_words(ofile, which_ram, row, words):
+ ofile.write("defparam bootram.RAM%d.INIT_%02X=256'h" % (which_ram, row))
+ ofile.write("%08x_%08x_%08x_%08x_%08x_%08x_%08x_%08x;\n" % (
+ words[7], words[6], words[5], words[4], words[3], words[2], words[1], words[0]))
+
+def bin_to_ram_macro_init(bin_input_file, ram_init_output_file):
+ ifile = open(bin_input_file, 'rb')
+ ofile = open(ram_init_output_file, 'w')
+ idata = ifile.read()
+ fmt = ">%dI" % ((len(idata) / 4),)
+ words = struct.unpack(fmt, idata)
+
+ # pad to a multiple of 8 words
+ r = len(words) % 8
+ if r != 0:
+ words += (8 - r) * (0,)
+
+ if len(words) > 2048:
+ sys.stderr.write("bin_to_macro_init: error: input file %s is > 8KiB\n" % (bin_input_file,))
+ sys.exit(1)
+
+ # first 2KB
+ for i in range(0, min(512, len(words)), 8):
+ do_8_words(ofile, 0, i/8, words[i:i+8])
+
+ # second 2KB
+ for i in range(512, min(1024, len(words)), 8):
+ do_8_words(ofile, 1, (i/8) % 64, words[i:i+8])
+
+ # third 2KB
+ for i in range(1024, min(1536, len(words)), 8):
+ do_8_words(ofile, 2, (i/8) % 64, words[i:i+8])
+
+ # last 2KB
+ for i in range(1536, len(words), 8):
+ do_8_words(ofile, 3, (i/8) % 64, words[i:i+8])
+
+if __name__ == '__main__':
+ if len(sys.argv) != 3:
+ sys.stderr.write("usage: bin_to_ram_macro_init bin_input_file ram_init_output_file\n")
+ sys.exit(1)
+
+ bin_to_ram_macro_init(sys.argv[1], sys.argv[2])
diff --git a/firmware/microblaze/bin/elf_to_sbf b/firmware/microblaze/bin/elf_to_sbf
new file mode 100755
index 000000000..d1be10c0d
--- /dev/null
+++ b/firmware/microblaze/bin/elf_to_sbf
@@ -0,0 +1,142 @@
+#!/usr/bin/env python
+#
+# Copyright 2009 Free Software Foundation, Inc.
+#
+# This program is free software: you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation, either version 3 of the License, or
+# (at your option) any later version.
+#
+# This program is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program. If not, see <http://www.gnu.org/licenses/>.
+#
+
+import sys
+import struct
+from optparse import OptionParser
+from pprint import pprint
+
+import sbf
+
+# see /usr/include/elf.h for the various magic values
+
+
+_ehdr_fmt = ">16sHH5I6H"
+_ehdr_fmt_size = struct.calcsize(_ehdr_fmt)
+_phdr_fmt = ">8I"
+_phdr_fmt_size = struct.calcsize(_phdr_fmt)
+
+class elf32_ehdr(object):
+ def __init__(self, s):
+ (self.ident, self.type, self.machine, self.version, self.entry,
+ self.phoff, self.shoff, self.flags, self.ehsize,
+ self.phentsize, self.phnum, self.shentsize, self.shnum,
+ self.shstrndx) = struct.unpack(_ehdr_fmt, s)
+
+class elf32_phdr(object):
+ def __init__(self, s):
+ (self.type, self.offset, self.vaddr, self.paddr,
+ self.filesz, self.memsz,
+ self.flags, self.align) = struct.unpack(_phdr_fmt, s)
+
+ def __repr__(self):
+ return "<elf32_phdr %s offset=%d paddr=0x%x, filesz=%d>" % (
+ p_type_str(self.type), self.offset, self.paddr, self.filesz)
+
+
+def p_type_str(t):
+ if t <= 8:
+ return ('NULL', 'LOAD', 'DYNAMIC', 'INTERP', 'NOTE', 'SHLIB', 'PHDR', 'TLS', 'NUM')[t]
+ return "0x%x" % (t,)
+
+
+
+def _get_ehdr(f):
+ if len(f) < _ehdr_fmt_size:
+ return False
+ ehdr = elf32_ehdr(f[0:_ehdr_fmt_size])
+ return ehdr
+
+
+def elf32_big_endian_exec_p(f):
+ ehdr = _get_ehdr(f)
+ if not ehdr:
+ return False
+
+ #pprint(ehdr, sys.stderr)
+ e_ident = ehdr.ident
+ if not e_ident.startswith('\177ELF'):
+ return False
+ if (ord(e_ident[4]) != 1 # EI_CLASS == CLASS32
+ or ord(e_ident[5]) != 2 # EI_DATA == DATA2MSB
+ or ord(e_ident[6]) != 1 # EI_VERSION == EV_CURRENT
+ ):
+ return False
+
+ if ehdr.type != 2: # e_type == ET_EXEC
+ return False
+
+ return True
+
+
+
+# return (entry, (phdr, ...))
+
+def get_elf32_prog_headers(f):
+ ehdr = _get_ehdr(f)
+ entry = ehdr.entry
+ phoff = ehdr.phoff
+ phentsize = ehdr.phentsize
+ phnum = ehdr.phnum
+
+ def extract(i):
+ start = phoff + i * phentsize
+ end = start + phentsize
+ return f[start:end]
+
+ return (entry, [elf32_phdr(extract(i)) for i in range(phnum)])
+
+
+def main():
+ usage = "%prog: [options] elf_file"
+ parser = OptionParser()
+ parser.add_option("-o", "--output", default=None,
+ help="specify output filename [default=stdout]")
+ (options, args) = parser.parse_args()
+ if len(args) != 1:
+ parser.print_help()
+ sys.exit(1)
+
+ elf_file = open(args[0], 'rb')
+
+ elf_contents = elf_file.read()
+ if not elf32_big_endian_exec_p(elf_contents):
+ sys.stderr.write("%s: not a big-endian 32-bit ELF executable\n" % (args[0],))
+ sys.exit(1)
+
+ if options.output is None:
+ sbf_file = sys.stdout
+ else:
+ sbf_file = open(options.output, 'wb')
+
+ (entry, phdrs) = get_elf32_prog_headers(elf_contents)
+ #pprint(phdrs, sys.stderr)
+
+ def phdr_to_sec_desc(phdr):
+ target_addr = phdr.paddr
+ data = elf_contents[phdr.offset:phdr.offset+phdr.filesz]
+ #print >>sys.stderr, "pdhr_to_sec_desc:", (target_addr, data)
+ return sbf.sec_desc(target_addr, data)
+
+ sections = map(phdr_to_sec_desc, phdrs)
+ # pprint(sections, sys.stderr)
+ sbf.write_sbf(sbf_file, sbf.header(entry, sections))
+
+
+if __name__ == '__main__':
+ main()
diff --git a/firmware/microblaze/bin/sbf.py b/firmware/microblaze/bin/sbf.py
new file mode 100644
index 000000000..8e2c868a5
--- /dev/null
+++ b/firmware/microblaze/bin/sbf.py
@@ -0,0 +1,134 @@
+#
+# Copyright 2009 Free Software Foundation, Inc.
+#
+# This program is free software: you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation, either version 3 of the License, or
+# (at your option) any later version.
+#
+# This program is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program. If not, see <http://www.gnu.org/licenses/>.
+#
+
+_SBF_MAGIC = 'SBF!'
+_SBF_DONT_EXECUTE = 0x1
+_SBF_MAX_SECTIONS = 14
+_SBF_HEADER_LEN = 128
+
+import struct
+import sys
+from pprint import pprint
+
+def dump_data(f, offset, data):
+ L = len(data) // 4
+ for i in range(L):
+ f.write('%08x: %08x\n' % (offset + 4 * i, struct.unpack('>I', data[4*i:4*(i+1)])[0]))
+ remainder = len(data) - L * 4
+ if remainder != 0:
+ f.write('%08x: ' % (offset + L*4,))
+ i = 0
+ while i < remainder:
+ f.write('%02x' % ((ord(data[L*4 + i]),)))
+ i += 1
+ f.write('\n')
+
+
+
+class sec_desc(object):
+ def __init__(self, target_addr, data):
+ self.target_addr = target_addr
+ self.data = data
+
+ def __repr__(self):
+ #print >>sys.stderr, "target_addr:", self.target_addr
+ #print >>sys.stderr, "data:", self.data
+ return "<sec_desc target_addr=0x%x len=%d>" % (
+ self.target_addr, len(self.data))
+
+
+class header(object):
+ def __init__(self, entry, sections):
+ self.entry = entry
+ self.section = sections
+
+ def dump(self, f):
+ if self.entry == _SBF_DONT_EXECUTE:
+ f.write("Entry: DONT_EXECUTE\n")
+ else:
+ f.write("Entry: 0x%x\n" % (self.entry,))
+ for i in range(len(self.section)):
+ s = self.section[i]
+ f.write("Section[%d]: target_addr = 0x%x length = %d\n" % (i,
+ s.target_addr,
+ len(s.data)))
+ dump_data(f, s.target_addr, s.data)
+
+ #
+ # Returns an iterator. Each yield returns (target_addr, data)
+ #
+ def iterator(self, max_piece=512):
+ for s in self.section:
+ offset = 0
+ L = len(s.data)
+ while offset < L:
+ n = min(max_piece, L - offset)
+ yield (s.target_addr + offset,
+ s.data[offset:offset+n])
+ offset += n
+
+
+
+def read_sbf(input_file):
+ """Parse an SBF file"""
+
+ f = input_file.read(_SBF_HEADER_LEN)
+ #if len(f) < _SBF_HEADER_LEN or not f.startswith(_SBF_MAGIC):
+ #raise ValueError, '%s: not an SBF file' % (input_file.name,)
+
+ def extract(i):
+ start = 16+8*i
+ stop = start+8
+ return struct.unpack('>2I', f[start:stop])
+
+ def get_data(ss):
+ L = ss[1]
+ s = input_file.read(L)
+ #if len(s) != L:
+ #raise ValueError, '%s: file is too short' % (input_file.name(),)
+ return s
+
+ (magic, entry, nsections, reserved) = struct.unpack('>4s3I', f[0:16])
+ assert nsections <= _SBF_MAX_SECTIONS
+ descs = [extract(i) for i in range(nsections)]
+ #pprint(descs, sys.stderr)
+ data = map(get_data, descs)
+ secs = map(lambda ss, data: sec_desc(ss[0], data), descs, data)
+ return header(entry, secs)
+
+
+def write_sbf(output_file, sbf_header):
+ assert(len(sbf_header.section) <= _SBF_MAX_SECTIONS)
+ sbf_header.nsections = len(sbf_header.section)
+ f = output_file
+
+ # write the file header
+ f.write(struct.pack('>4s3I', _SBF_MAGIC, sbf_header.entry, sbf_header.nsections, 0))
+
+ # write the section headers
+ for i in range(sbf_header.nsections):
+ f.write(struct.pack('>2I',
+ sbf_header.section[i].target_addr,
+ len(sbf_header.section[i].data)))
+ for i in range(_SBF_MAX_SECTIONS - sbf_header.nsections):
+ f.write(struct.pack('>2I', 0, 0))
+
+ # write the section data
+ for i in range(sbf_header.nsections):
+ f.write(sbf_header.section[i].data)
+
+ return True
diff --git a/firmware/microblaze/bin/serial_loader b/firmware/microblaze/bin/serial_loader
new file mode 100755
index 000000000..9bd5aada7
--- /dev/null
+++ b/firmware/microblaze/bin/serial_loader
@@ -0,0 +1,363 @@
+#!/usr/bin/env python
+#
+# Copyright 2009 Free Software Foundation, Inc.
+#
+# This program is free software: you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation, either version 3 of the License, or
+# (at your option) any later version.
+#
+# This program is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program. If not, see <http://www.gnu.org/licenses/>.
+#
+
+import termios
+import tty
+import os
+import sys
+import threading
+import Queue
+from optparse import OptionParser
+import time
+
+import sbf
+
+GDB_ESCAPE = chr(0x7d)
+
+# Indexes for termios list.
+IFLAG = 0
+OFLAG = 1
+CFLAG = 2
+LFLAG = 3
+ISPEED = 4
+OSPEED = 5
+CC = 6
+
+class terminal(object):
+ def __init__(self, device, speed_bits):
+ fd = os.open(device, os.O_RDWR)
+ if not os.isatty(fd):
+ raise ValueError(device + " is not a tty")
+
+ self.read_file = os.fdopen(fd, "rb", 0)
+ self.write_file = os.fdopen(os.dup(fd), "wb", 0)
+ self.old_attrs = termios.tcgetattr(self.write_file.fileno())
+ #print "old_attrs: ", self.old_attrs
+ attrs = list(self.old_attrs) # copy of attributes
+ attrs[ISPEED] = speed_bits # set input and output speed
+ attrs[OSPEED] = speed_bits
+ termios.tcsetattr(self.write_file.fileno(), termios.TCSAFLUSH, attrs)
+ tty.setraw(self.write_file.fileno()) # enable raw mode
+ attrs = termios.tcgetattr(self.write_file.fileno())
+ attrs[CC][termios.VMIN] = 1 # minimim of 1 char
+ attrs[CC][termios.VTIME] = 1 # wait no longer than 1/10
+ termios.tcsetattr(self.write_file.fileno(), termios.TCSAFLUSH, attrs)
+
+ def __del__(self):
+ termios.tcsetattr(self.write_file.fileno(), termios.TCSAFLUSH, self.old_attrs)
+ self.read_file.close()
+ self.write_file.close()
+
+ def read(self, n):
+ """Read at most n bytes from tty"""
+ return self.read_file.read(n)
+
+ def write(self, str):
+ """Write str to tty."""
+ return self.write_file.write(str)
+
+
+def hexnibble(i):
+ return "0123456789abcdef"[i & 0xf]
+
+def build_pkt(payload):
+ s = ['$']
+ checksum = 0
+
+ for p in payload:
+ if p in ('$', '#', GDB_ESCAPE):
+ s.append(GDB_ESCAPE)
+ s.append(p)
+ checksum += ord(p)
+
+ checksum &= 0xff
+ s.append('#')
+ s.append(hexnibble(checksum >> 4))
+ s.append(hexnibble(checksum))
+
+ return ''.join(s)
+
+
+def build_memory_read_pkt(addr, len):
+ return build_pkt(('m%x,%x' % (addr, len)))
+
+def build_memory_write_hex_pkt(addr, s):
+ hexdata = ''.join(["%02x" % (ord(c),) for c in s])
+ return build_pkt(('M%x,%x:' % (addr, len(s))) + hexdata)
+
+def build_memory_write_pkt(addr, s):
+ return build_pkt(('X%x,%x:' % (addr, len(s))) + s)
+
+def build_goto_pkt(addr):
+ return build_pkt(('c%x' % (addr,)))
+
+
+def get_packet(f):
+ """Return a valid packet, or None on EOF or timeout"""
+ LOOKING_FOR_DOLLAR = 0
+ LOOKING_FOR_HASH = 1
+ CSUM1 = 2
+ CSUM2 = 3
+
+ fd = f.fileno()
+
+ state = LOOKING_FOR_DOLLAR
+ buf = []
+
+ while True:
+ ch = os.read(fd, 1)
+ sys.stdout.write(ch)
+ if len(ch) == 0:
+ print("Returning None")
+ return(None)
+
+ if state == LOOKING_FOR_DOLLAR:
+ if ch == '$':
+ buf = []
+ state = LOOKING_FOR_HASH
+ elif ch == '#':
+ state = LOOKING_FOR_DOLLAR
+
+ elif state == LOOKING_FOR_HASH:
+ if ch == '$':
+ state = LOOKING_FOR_DOLLAR
+ elif ch == '#':
+ state = CSUM1
+ else:
+ if ch == GDB_ESCAPE:
+ ch = getc()
+ buf.append(ch)
+
+ elif state == CSUM1:
+ chksum1 = ch
+ state = CSUM2
+
+ elif state == CSUM2:
+ chksum2 = ch
+ r = ''.join(buf)
+ if chksum1 == '.' and chksum2 == '.':
+ return r
+
+ expected_checksum = int(chksum1 + chksum2, 16)
+ checksum = 0
+ for c in buf:
+ checksum += ord(c)
+
+ checksum &= 0xff
+ if checksum == expected_checksum:
+ return r
+
+ state = LOOKING_FOR_DOLLAR
+
+ else:
+ raise ValueError( "Invalid state")
+
+
+class packet_reader_thread(threading.Thread):
+ def __init__(self, tty_in, q):
+ threading.Thread.__init__(self)
+ self.setDaemon(1)
+ self.tty_in = tty_in
+ self.q = q
+ self._keep_running = True
+ self.start()
+
+ def run(self):
+ while self._keep_running == True:
+ p = get_packet(self.tty_in)
+ if p is not None:
+ self.q.put(('pkt', p))
+
+
+def _make_tr_table():
+ table = []
+ for c in range(256):
+ if c < ord(' ') or c > ord('~'):
+ table.append('.')
+ else:
+ table.append(chr(c))
+ return ''.join(table)
+
+
+class controller(object):
+ def __init__(self, tty):
+ self.tty = tty
+ self.q = Queue.Queue(0)
+ self.timers = {}
+ self.next_tid = 1
+ self.current_tid = 0
+ self.ntimeouts = 0
+ self.packet_reader = packet_reader_thread(tty.read_file, self.q)
+ self.state = None
+ self.debug = False
+ self.tt = _make_tr_table()
+
+ self.done = False
+ self.addr = None
+ self.bits = None
+
+ def shutdown(self):
+ self.packet_reader._keep_running = False
+
+ def start_timeout(self, timeout_in_secs):
+ def callback(tid):
+ if self.timers.has_key(tid):
+ del self.timers[tid]
+ self.q.put(('timeout', tid))
+ self.next_tid += 1
+ tid = self.next_tid
+ timer = threading.Timer(timeout_in_secs, callback, (tid,))
+ self.timers[tid] = timer
+ timer.start()
+ return tid
+
+ def cancel_timeout(self, tid):
+ if self.timers.has_key(tid):
+ self.timers[tid].cancel()
+ del self.timers[tid]
+
+ def send_packet(self, pkt):
+ if self.debug:
+ if len(pkt) > 64:
+ s = pkt[0:64] + '...'
+ else:
+ s = pkt
+ sys.stdout.write('-> ' + s.translate(self.tt) + '\n')
+ self.tty.write(pkt);
+
+ def send_packet_start_timeout(self, pkt, secs):
+ self.send_packet(pkt)
+ self.current_tid = self.start_timeout(secs)
+
+ def upload_code(self, sbf):
+ MAX_PIECE = 512 # biggest piece to send
+ MWRITE_TIMEOUT = 0.1
+
+ IDLE = 0
+ WAIT_FOR_ACK = 1
+ UPLOAD_DONE = 2
+ DONE = 3
+ FAILED = 4
+
+ self.done = False
+ it = sbf.iterator(MAX_PIECE)
+ entry_addr = sbf.entry
+
+ def get_next_bits():
+ try:
+ (self.addr, self.bits) = it.next()
+ except StopIteration:
+ self.done = True
+
+ def is_done():
+ return self.done
+
+ def send_piece():
+ pkt = build_memory_write_pkt(self.addr, self.bits)
+ #pkt = build_memory_write_hex_pkt(self.addr, self.bits)
+ self.send_packet_start_timeout(pkt, MWRITE_TIMEOUT)
+ state = WAIT_FOR_ACK
+
+ def advance():
+ get_next_bits()
+ if is_done():
+ self.state = DONE
+ self.send_packet(build_goto_pkt(entry_addr))
+
+ else:
+ self.ntimeouts = 0
+ send_piece()
+
+ get_next_bits()
+ if is_done(): # empty file
+ return True
+
+ send_piece() # initial transition
+
+ while 1:
+ (event, value) = self.q.get()
+
+ if event == 'timeout' and value == self.current_tid:
+ self.ntimeouts += 1
+ if self.ntimeouts >= 5:
+ return False # say we failed
+ send_piece() # resend
+
+
+ elif event == 'pkt':
+ if value == 'OK':
+ self.cancel_timeout(self.current_tid)
+ advance()
+ if self.state == DONE:
+ return True
+ else:
+ print("Error returned from firmware: " + value)
+ return False
+
+ else:
+ print("Unknown event:", (event, value))
+
+def main():
+ usage="%prog: [options] filename"
+ parser = OptionParser(usage=usage)
+ parser.add_option("-t", "--tty", type="string", default="/dev/ttyS0",
+ help="select serial port [default=%default]")
+
+ (options, args) = parser.parse_args()
+ if len(args) != 1:
+ parser.print_help()
+ raise SystemExit(1)
+
+
+ filename = args[0]
+ f = open(filename, "rb")
+ try:
+ # Try to open the file as an SBF file
+ sbf_header = sbf.read_sbf(f)
+ except:
+ # If that fails, build an SBF from the binary, assuming default
+ # load address and entry point
+ f.seek(0)
+ t = f.read()
+ if t.startswith('\177ELF'):
+ sys.stderr.write("Can't load an ELF file. Please use an SBF file instead.\n")
+ raise SystemExit( 1)
+ sbf_header = sbf.header(0x8000, [sbf.sec_desc(0x8000, t)])
+
+
+ tty = terminal(options.tty, termios.B115200)
+ ctrl = controller(tty)
+ ok = ctrl.upload_code(sbf_header)
+
+ if ok:
+ print("OK")
+ try:
+ raw_input("Press Enter to exit: ")
+ except KeyboardInterrupt:
+ pass
+ ctrl.shutdown()
+ time.sleep(0.2)
+
+ else:
+ print("Upload failed")
+ ctrl.shutdown()
+
+
+
+if __name__ == "__main__":
+ main()
diff --git a/firmware/microblaze/bin/uart_ihex_flash_loader.py b/firmware/microblaze/bin/uart_ihex_flash_loader.py
new file mode 100755
index 000000000..5a3300f34
--- /dev/null
+++ b/firmware/microblaze/bin/uart_ihex_flash_loader.py
@@ -0,0 +1,138 @@
+#!/usr/bin/python
+
+import serial
+from optparse import OptionParser
+import os, sys
+
+#TODO: pull everything but parser out of main() and put it in a separate function we can call from another script. lets us automate loading RAM+FLASH to produce a fully-loaded image.
+#TODO: make it fail gracefully -- if it gets a NOK or times out, do at least one retry.
+#TODO: put hooks in (eventually) to allow verifying a firmware image so the user can more safely update the "safe" image
+#TODO: how about a progress indicator? FPGA images take FOREVER. you can use wc -l to get the number of lines, or do it with file i/o.
+
+def main():
+ usage="%prog: [options] filename"
+ parser = OptionParser(usage=usage)
+ parser.add_option("-t", "--tty", type="string", default="/dev/ttyUSB0",
+ help="select serial port [default=%default]")
+ parser.add_option("-b", "--baudrate", type=int, default=115200,
+ help="set baudrate [default=%default]")
+ parser.add_option("-F", "--write-safe-firmware", action="store_const", const=1, dest="image",
+ help="write to safe firmware image")
+ parser.add_option("-f", "--write-production-firmware", action="store_const", const=2, dest="image",
+ help="write to production firmware image")
+ parser.add_option("-P", "--write-safe-fpga", action="store_const", const=3, dest="image",
+ help="write to safe FPGA image")
+ parser.add_option("-p", "--write-production-fpga", action="store_const", const=4, dest="image",
+ help="write to production FPGA image")
+
+ (options, args) = parser.parse_args()
+
+ if(options.image is None):
+ print("At least one of -f, -F, -p, -P must be specified.\n")
+ parser.print_help()
+ raise SystemExit(1)
+
+ if len(args) != 1:
+ parser.print_help()
+ raise SystemExit(1)
+
+ if(options.image == 3):
+ print "Are you *really* sure you want to write to the failsafe FPGA image? If you mess this up your USRP2+ will become a brick. Press 'y' to continue, any other key to abort."
+ if(raw_input().rstrip() is not "y"):
+ print "Good choice."
+ raise SystemExit(0)
+
+ elif(options.image == 1):
+ print "Are you *really* sure you want to write to the failsafe firmware image? If you mess this up your USRP2+ will only be able to be reprogrammed via the UART RAM loader.\nPress 'y' to continue, any other key to abort."
+ if(raw_input().rstrip() is not "y"):
+ print "Good choice."
+ raise SystemExit(0)
+
+ filename = args[0]
+ f = open(filename, "r")
+
+ #now we start doing things...
+ if(os.path.exists(options.tty) is False):
+ sys.stderr.write("No serial port found at %s\n" % options.tty)
+ raise SystemExit(1)
+
+ try:
+ ser = serial.Serial(port=options.tty, timeout=1, baudrate=options.baudrate, bytesize=8, parity=serial.PARITY_NONE, stopbits=1, rtscts=0, xonxoff=0)
+ except serial.SerialException:
+ sys.stderr.write("Unable to open serial port\n")
+ raise SystemExit(1)
+
+ ser.open()
+
+#test to see if a valid USRP2+ in flash load mode is connected
+ ser.write("garbage\n")
+ ser.readline()
+ ser.write("!SECTORSIZE\n")
+ reply = ser.readline().rstrip()
+ if("NOK" in reply):
+ sys.stderr.write("Error writing to USRP2+. Try again.\n")
+ raise SystemExit(1)
+ elif("OK" in reply):
+ sectorsize = int(reply[3:5], 16)
+ print("USRP2+ found with sector size %i. Erasing old image." % 2**sectorsize)
+ else:
+ sys.stderr.write("Invalid response or no USRP2+ connected.\n")
+ raise SystemExit(1)
+
+ if(options.image == 1):
+ sectors = range(127, 128)
+ runcmd = "!RUNSFD\n"
+ elif(options.image == 2):
+ sectors = range(64, 65)
+ runcmd = "!RUNPFD\n"
+ elif(options.image == 3):
+ sectors = range(0,32)
+ runcmd = "!RUNSFPGA\n"
+ elif(options.image == 4):
+ sectors = range(32,64)
+ runcmd = "!RUNPFPGA\n"
+
+ writeaddr = sectors[0] << sectorsize
+ if(options.image < 3):
+ writeaddr -= 0x8000 #i know this is awkward, but we subtract 0x8000 from the address for firmware loads. the reason we do this is that the IHX files are located at 0x8000 (RAM_BASE), and
+ #doing this here allows us to use the same IHX files for RAM load as for Flash load, without relocating in objcopy or relinking with another ld script.
+ #this limits us to writing above 32K for our firmware images. since the safe FPGA image located at 0x00000000 takes up 2MB of space this isn't really a worry.
+ #FPGA images (.mcs) always start at 0x00000000 so they don't need this relocation.
+
+ for sector in sectors:
+ print "Erasing sector %i" % sector
+ ser.write("!ERASE %i\n" % sector)
+ reply = ser.readline()
+ if("NOK" in reply):
+ sys.stderr.write("Error erasing sector %i" % sector)
+ raise SystemExit(1)
+
+ print "Setting start address to %i" % writeaddr
+ ser.write("!SETADDR %i\n" % writeaddr)
+ if("NOK" in reply):
+ sys.stderr.write("Error setting address\n")
+ raise SystemExit(1)
+ else:
+ print reply
+
+
+ for line in f:
+ ser.write(line.rstrip()+'\n')
+ reply = ser.readline()
+ if("NOK" in reply): #TODO: simplify this logic, use (reply.rstrip() is "NOK")
+ print("Received NOK reply during data write")
+ raise SystemExit(1)
+ elif("DONE" in reply):
+ print("Finished writing program. Loading...\n")
+ ser.write(runcmd)
+ elif("OK" not in reply):
+ print("Received invalid reply %s during data write" % reply)
+ raise SystemExit(1)
+ else:
+ print reply.rstrip() + '\t' + line.rstrip()
+
+ print ser.readline()
+
+
+if __name__ == '__main__':
+ main()
diff --git a/firmware/microblaze/bin/uart_ihex_ram_loader.py b/firmware/microblaze/bin/uart_ihex_ram_loader.py
new file mode 100755
index 000000000..c90fbe1d8
--- /dev/null
+++ b/firmware/microblaze/bin/uart_ihex_ram_loader.py
@@ -0,0 +1,70 @@
+#!/usr/bin/python
+
+import serial
+from optparse import OptionParser
+import os, sys
+
+def main():
+ usage="%prog: [options] filename"
+ parser = OptionParser(usage=usage)
+ parser.add_option("-t", "--tty", type="string", default="/dev/ttyUSB0",
+ help="select serial port [default=%default]")
+ parser.add_option("-b", "--baudrate", type=int, default=115200,
+ help="set baudrate [default=%default]")
+
+ (options, args) = parser.parse_args()
+ if len(args) != 1:
+ parser.print_help()
+ raise SystemExit(1)
+
+ filename = args[0]
+ f = open(filename, "r")
+
+ #all we have to do is load the IHX file and attempt to spit it out to the serial port.
+ if(os.path.exists(options.tty) is False):
+ sys.stderr.write("No serial port found at %s\n" % options.tty)
+ raise SystemExit(1)
+
+ try:
+ ser = serial.Serial(port=options.tty, timeout=1, baudrate=options.baudrate, bytesize=8, parity=serial.PARITY_NONE, stopbits=1, rtscts=0, xonxoff=0)
+ except serial.SerialException:
+ sys.stderr.write("Unable to open serial port\n")
+ raise SystemExit(1)
+
+ ser.open()
+
+#test to see if a valid USRP2+ in RAM load mode is connected
+
+ ser.write("WOOOOO\n");
+ reply = ser.readline()
+ if("NOK" not in reply):
+ sys.stderr.write("Valid USRP2+ not connected or no response received\n")
+ raise SystemExit(1)
+ else:
+ print("USRP2+ found.")
+
+ for line in f:
+ ser.write(line.rstrip() + '\n')
+ reply = ser.readline()
+ if("NOK" in reply): #blocks to wait for response
+ print("Received NOK reply from USRP2+")
+ raise SystemExit(1)
+ elif("OK" not in reply):
+ print("Received invalid reply!")
+ raise SystemExit(1)
+# else:
+# print("OK received")
+
+ print "USRP2+ RAM programmed.\nLoading program."
+
+ #at this point it should have sent the end line of the file, which starts the program!
+ #we'll just act like a dumb terminal now
+# ser.timeout = 0
+# try:
+# while 1:
+# print ser.readline()
+# except KeyboardInterrupt:
+# raise SystemExit(0)
+
+if __name__ == '__main__':
+ main()