def main(): fd = fs.open_disk(0) if fd == -1: return wdata = fs.ucarray(4096) rdata = fs.ucarray(4096) seq_full = xrange(0xf0000 / 2 / 8) while True: for i in xrange(4096): wdata[i] = random.choice(xrange(0x100)) lba = random.choice(seq_full) * 8 res = fs.write_lba(fd, wdata, 8, lba) if res == -1: print 'Write lba failed in: %#X' % lba fs.close_disk(fd) return res = fs.read_lba(fd, rdata, 8, lba) if res == -1: print 'Read lba failed in: %#X' % lba fs.close_disk(fd) return for i in xrange(4096): if rdata[i] != wdata[i]: print 'Compare failed in lba: %#X' % lba fs.close_disk(fd) return fs.close_disk(fd)
def main(): fd = fs.open_disk(0) if fd == -1: return import ipdb; ipdb.set_trace() sn = fs.sn(fd) mn = fs.mn(fd) ftcmd = fs.ftcmd() ftcmd.sig = fs.SIGNATURE ftcmd.cmd_type = fs.CMD_TYPE_NAME ftcmd.size = 512 - 16 rw = fs.ftcmd_rw() rw.id = 0xff rw.op_flag = 0 rw.buf_flag = 0 rw.pos = 0x00800000 rw.buf = 0 rw.size = 6 ctl = fs.ftcmd_ctl() ctl.id = 0xff ctl.op_flag = 2 ctl.cmd = 0 ftsts = fs.ftsts() import ipdb; ipdb.set_trace() # Reset res0 = fs.send_ftcmd(fd, ftcmd, 'nf0', None, ctl, 0) import ipdb; ipdb.set_trace() time.sleep(50.0 / 1000) # Read id res0 = fs.send_ftcmd(fd, ftcmd, 'nf0', rw, None, 0) import ipdb; ipdb.set_trace() buf = fs.ucarray(512) res0 = fs.lba_rw(fd, 0, buf, None, 1, 0) fs.close_disk(fd)
def main(): fd = fs.open_disk(0) if fd == -1: return nfcmd = fs.nf_cmd() nfsts = fs.nf_sts() while True: for i in range(1): nfcmd.sig = 0x12345678; nfcmd.tag = i; nfcmd.len = 2; nfcmd.cmd = 0xf0; res = fs.write_nfcmd(fd, nfcmd) time.sleep(1) for i in range(1): res = fs.read_nfsts(fd, nfsts) if nfsts.sig == 0: print 'Failed time: ' + time.asctime() fs.close_disk(fd) return
def main(): fd = fs.open_disk(0) if fd == -1: return param = fs.flash_param() param.ce = 4 param.block = 64 param.page = 128 param.sect = 8 res = fs.write_param(fd, param) if res != 0x50: print 'Write param failed. %#X' % res print fs.close_disk(fd) return test_len = 128 cmd = fs.q_cmd() wdata = fs.ucarray(4096) rdata = fs.ucarray(4096) while True: # Write 4k-len data to random place before DATA_BASE/2 for each page wpids = random.sample(xrange((0xf0000/2 - 8)/8), test_len) for i in xrange(test_len): for j in xrange(4096): wdata[j] = i # Init with cid res_write = fs.write_lba(fd, wdata, 8, wpids[i] * 8) # XXX: lba = pid * 8 if res_write != 0x50: print 'Write lba failed %#X' % res_write print fs.close_disk(fd) return cmd.cid = i cmd.pid = wpids[i] cmd.type = fs.FT_PROGRAM cmd.page = i fs.append_cmd(0, cmd) res = fs.flush_send_queue(fd, 0) if res != 0x50: print 'Flush write queue failed %#X' % res print fs.close_disk(fd) return res = fs.read_complete_queue(fd, 0, 3000) if res == -1: # timeout print 'Timeout in read write-queue complete status, wpids:' print 'Time: %s' % time.asctime() print '\n'.join(['%#X' % i for i in wpids]) print fs.close_disk(fd) return # Send read rpids = random.sample(set(xrange((0xf0000/2 - 8)/8)) - set(wpids), test_len) for i in xrange(test_len): cmd.cid = i cmd.pid = rpids[i] cmd.type = fs.FT_READ cmd.page = i fs.append_cmd(0, cmd) res = fs.flush_send_queue(fd, 0) if res != 0x50: print 'Flush read queue failed %#X' % res print fs.close_disk(fd) return res = fs.read_complete_queue(fd, 0, 3000) if res == -1: # timeout print 'Timeout in read read-queue complete status, rpids, %#X' % res print 'Time: %s' % time.asctime() print '\n'.join(['%#X' % i for i in rpids]) print fs.close_disk(fd) return # Read data and compare for i in xrange(test_len): res_read = fs.read_lba(fd, rdata, 8, rpids[i] * 8) # XXX if res_read != 0x50: print 'Read lba faild: %#X' % res_read print fs.close_disk(fd) return # for j in xrange(8): # if rdata[j] != i: # break # else: continue print 'Compare error in pid: %#X, time: %s' % (rpids[i], time.asctime()) print 'Error page %d, write_pid: %#X, read_pid: %#X' % (i, wpids[i], rpids[i]) print 'Error bytes:' for i in range(32): print '%d - %#X' % (i, rdata[i]) print fs.close_disk(fd) return fs.close_disk(fd)