micropython/ports/stm32/mboot/mboot.py

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# Driver for Mboot, the MicroPython boot loader
# MIT license; Copyright (c) 2018 Damien P. George
import struct, time, os, hashlib
I2C_CMD_ECHO = 1
I2C_CMD_GETID = 2
I2C_CMD_GETCAPS = 3
I2C_CMD_RESET = 4
I2C_CMD_CONFIG = 5
I2C_CMD_GETLAYOUT = 6
I2C_CMD_MASSERASE = 7
I2C_CMD_PAGEERASE = 8
I2C_CMD_SETRDADDR = 9
I2C_CMD_SETWRADDR = 10
I2C_CMD_READ = 11
I2C_CMD_WRITE = 12
I2C_CMD_COPY = 13
I2C_CMD_CALCHASH = 14
I2C_CMD_MARKVALID = 15
class Bootloader:
def __init__(self, i2c, addr):
self.i2c = i2c
self.addr = addr
self.buf1 = bytearray(1)
try:
self.i2c.writeto(addr, b"")
except OSError:
raise Exception("no I2C mboot device found")
def wait_response(self):
start = time.ticks_ms()
while 1:
try:
self.i2c.readfrom_into(self.addr, self.buf1)
n = self.buf1[0]
break
except OSError as er:
time.sleep_us(500)
if time.ticks_diff(time.ticks_ms(), start) > 5000:
raise Exception("timeout")
if n >= 129:
raise Exception(n)
if n == 0:
return b""
else:
return self.i2c.readfrom(self.addr, n)
def wait_empty_response(self):
ret = self.wait_response()
if ret:
raise Exception("expected empty response got %r" % ret)
else:
return None
def echo(self, data):
self.i2c.writeto(self.addr, struct.pack("<B", I2C_CMD_ECHO) + data)
return self.wait_response()
def getid(self):
self.i2c.writeto(self.addr, struct.pack("<B", I2C_CMD_GETID))
ret = self.wait_response()
unique_id = ret[:12]
mcu_name, board_name = ret[12:].split(b"\x00")
return unique_id, str(mcu_name, "ascii"), str(board_name, "ascii")
def reset(self):
self.i2c.writeto(self.addr, struct.pack("<B", I2C_CMD_RESET))
# we don't expect any response
def getlayout(self):
self.i2c.writeto(self.addr, struct.pack("<B", I2C_CMD_GETLAYOUT))
layout = self.wait_response()
id, flash_addr, layout = layout.split(b"/")
assert id == b"@Internal Flash "
flash_addr = int(flash_addr, 16)
pages = []
for chunk in layout.split(b","):
n, sz = chunk.split(b"*")
n = int(n)
assert sz.endswith(b"Kg")
sz = int(sz[:-2]) * 1024
for i in range(n):
pages.append((flash_addr, sz))
flash_addr += sz
return pages
def pageerase(self, addr):
self.i2c.writeto(self.addr, struct.pack("<BI", I2C_CMD_PAGEERASE, addr))
self.wait_empty_response()
def setrdaddr(self, addr):
self.i2c.writeto(self.addr, struct.pack("<BI", I2C_CMD_SETRDADDR, addr))
self.wait_empty_response()
def setwraddr(self, addr):
self.i2c.writeto(self.addr, struct.pack("<BI", I2C_CMD_SETWRADDR, addr))
self.wait_empty_response()
def read(self, n):
self.i2c.writeto(self.addr, struct.pack("<BB", I2C_CMD_READ, n))
return self.wait_response()
def write(self, buf):
self.i2c.writeto(self.addr, struct.pack("<B", I2C_CMD_WRITE) + buf)
self.wait_empty_response()
def calchash(self, n):
self.i2c.writeto(self.addr, struct.pack("<BI", I2C_CMD_CALCHASH, n))
return self.wait_response()
def markvalid(self):
self.i2c.writeto(self.addr, struct.pack("<B", I2C_CMD_MARKVALID))
self.wait_empty_response()
def deployfile(self, filename, addr):
pages = self.getlayout()
page_erased = [False] * len(pages)
buf = bytearray(128) # maximum payload supported by I2C protocol
start_addr = addr
self.setwraddr(addr)
fsize = os.stat(filename)[6]
local_sha = hashlib.sha256()
print("Deploying %s to location 0x%08x" % (filename, addr))
with open(filename, "rb") as f:
t0 = time.ticks_ms()
while True:
n = f.readinto(buf)
if n == 0:
break
# check if we need to erase the page
for i, p in enumerate(pages):
if p[0] <= addr < p[0] + p[1]:
# found page
if not page_erased[i]:
print(
"\r% 3u%% erase 0x%08x"
% (100 * (addr - start_addr) // fsize, addr),
end="",
)
self.pageerase(addr)
page_erased[i] = True
break
else:
raise Exception("address 0x%08x not valid" % addr)
# write the data
self.write(buf)
# update local SHA256, with validity bits set
if addr == start_addr:
buf[0] |= 3
if n == len(buf):
local_sha.update(buf)
else:
local_sha.update(buf[:n])
addr += n
ntotal = addr - start_addr
if ntotal % 2048 == 0 or ntotal == fsize:
print("\r% 3u%% % 7u bytes " % (100 * ntotal // fsize, ntotal), end="")
t1 = time.ticks_ms()
print()
print("rate: %.2f KiB/sec" % (1024 * ntotal / (t1 - t0) / 1000))
local_sha = local_sha.digest()
print("Local SHA256: ", "".join("%02x" % x for x in local_sha))
self.setrdaddr(start_addr)
remote_sha = self.calchash(ntotal)
print("Remote SHA256:", "".join("%02x" % x for x in remote_sha))
if local_sha == remote_sha:
print("Marking app firmware as valid")
self.markvalid()
self.reset()