mirror of
https://github.com/AsahiLinux/m1n1
synced 2024-11-27 00:40:17 +00:00
323b02ce1d
Signed-off-by: Hector Martin <marcan@marcan.st>
914 lines
28 KiB
Python
Executable file
914 lines
28 KiB
Python
Executable file
#!/usr/bin/env python3
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# SPDX-License-Identifier: MIT
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import os, sys, struct, serial, time
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from construct import *
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from utils import *
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from sysreg import *
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from enum import IntEnum, IntFlag
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from serial.tools.miniterm import Miniterm
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def hexdump(s, sep=" "):
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return sep.join(["%02x"%x for x in s])
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def hexdump32(s, sep=" "):
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vals = struct.unpack("<%dI" % (len(s)//4), s)
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return sep.join(["%08x"%x for x in vals])
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def ascii(s):
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s2 = ""
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for c in s:
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if c < 0x20 or c > 0x7e:
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s2 += "."
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else:
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s2 += chr(c)
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return s2
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def pad(s,c,l):
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if len(s) < l:
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s += c * (l - len(s))
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return s
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def chexdump(s,st=0):
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for i in range(0,len(s),16):
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print("%08x %s %s |%s|" % (
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i + st,
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hexdump(s[i:i+8], ' ').rjust(23),
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hexdump(s[i+8:i+16], ' ').rjust(23),
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ascii(s[i:i+16]).rjust(16)))
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def chexdump32(s, st=0, abbreviate=True):
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last = None
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skip = False
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for i in range(0,len(s),32):
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val = s[i:i+32]
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if val == last and abbreviate:
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if not skip:
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print("%08x *" % (i + st))
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skip = True
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else:
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print("%08x %s" % (
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i + st,
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hexdump32(val, ' ')))
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last = val
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skip = False
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# Hack to disable input buffer flushing
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class Serial(serial.Serial):
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def _reset_input_buffer(self):
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return
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def reset_input_buffer(self):
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super()._reset_input_buffer()
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class UartError(RuntimeError):
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pass
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class UartTimeout(UartError):
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pass
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class UartCMDError(UartError):
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pass
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class UartChecksumError(UartError):
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pass
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class UartRemoteError(UartError):
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pass
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class START(IntEnum):
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BOOT = 0
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EXCEPTION = 1
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EXCEPTION_LOWER = 2
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class EXC(IntEnum):
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SYNC = 0
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IRQ = 1
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FIQ = 2
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SERROR = 3
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class EVENT(IntEnum):
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MMIOTRACE = 1
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class EXC_RET(IntEnum):
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UNHANDLED = 1
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HANDLED = 2
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EXIT_GUEST = 3
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STEP = 4
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ExcInfo = Struct(
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"spsr" / RegAdapter(SPSR),
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"elr" / Int64ul,
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"esr" / RegAdapter(ESR),
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"far" / Int64ul,
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"regs" / Array(31, Int64ul),
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"sp" / Array(3, Int64ul),
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"mpidr" / Int64ul,
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"elr_phys" / Int64ul,
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"far_phys" / Int64ul,
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"sp_phys" / Int64ul,
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)
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class UartInterface:
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REQ_NOP = 0x00AA55FF
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REQ_PROXY = 0x01AA55FF
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REQ_MEMREAD = 0x02AA55FF
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REQ_MEMWRITE = 0x03AA55FF
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REQ_BOOT = 0x04AA55FF
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REQ_EVENT = 0x05AA55FF
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ST_OK = 0
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ST_BADCMD = -1
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ST_INVAL = -2
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ST_XFERERR = -3
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ST_CSUMERR = -4
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CMD_LEN = 56
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REPLY_LEN = 36
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EVENT_HDR_LEN = 8
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def __init__(self, device=None, debug=False):
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self.debug = debug
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self.devpath = None
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if device is None:
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device = os.environ.get("M1N1DEVICE", "/dev/ttyUSB0:115200")
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if isinstance(device, str):
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baud = 115200
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if ":" in device:
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device, baud = device.rsplit(":", 1)
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baud = int(baud)
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self.devpath = device
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self.baudrate = baud
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device = Serial(self.devpath, baud)
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self.dev = device
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self.dev.timeout = 0
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self.dev.flushOutput()
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self.dev.flushInput()
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self.pted = False
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#d = self.dev.read(1)
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#while d != "":
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#d = self.dev.read(1)
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self.dev.timeout = 3
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self.tty_enable = True
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self.handlers = {}
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self.evt_handlers = {}
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def checksum(self, data):
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sum = 0xDEADBEEF;
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for c in data:
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sum *= 31337
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sum += c ^ 0x5a
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sum &= 0xFFFFFFFF
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return (sum ^ 0xADDEDBAD) & 0xFFFFFFFF
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def readfull(self, size):
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d = b''
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while len(d) < size:
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block = self.dev.read(size - len(d))
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if not block:
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raise UartTimeout("Expected %d bytes, got %d bytes"%(size,len(d)))
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d += block
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return d
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def cmd(self, cmd, payload=b""):
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if len(payload) > self.CMD_LEN:
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raise ValueError("Incorrect payload size %d"%len(payload))
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payload = payload.ljust(self.CMD_LEN, b"\x00")
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command = struct.pack("<I", cmd) + payload
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command += struct.pack("<I", self.checksum(command))
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if self.debug:
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print("<<", hexdump(command))
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self.dev.write(command)
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def unkhandler(self, s):
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if not self.tty_enable:
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return
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for c in s:
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if not self.pted:
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sys.stdout.write("TTY> ")
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self.pted = True
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if c == 10:
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self.pted = False
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sys.stdout.write(chr(c))
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sys.stdout.flush()
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def ttymode(self, dev=None):
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if dev is None:
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dev = self.dev
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tout = dev.timeout
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self.tty_enable = True
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dev.timeout = None
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term = Miniterm(dev, eol='cr')
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term.exit_character = chr(0x1d) # GS/CTRL+]
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term.menu_character = chr(0x14) # Menu: CTRL+T
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term.raw = True
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term.set_rx_encoding('UTF-8')
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term.set_tx_encoding('UTF-8')
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print('--- TTY mode | Quit: CTRL+] | Menu: CTRL+T ---')
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term.start()
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try:
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term.join(True)
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except KeyboardInterrupt:
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pass
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print('--- Exit TTY mode ---')
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term.join()
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term.close()
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dev.timeout = tout
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self.tty_enable = False
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def reply(self, cmd):
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reply = b''
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while True:
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if not reply or reply[-1] != 255:
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reply = b''
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reply += self.readfull(1)
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if reply != b"\xff":
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self.unkhandler(reply)
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continue
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else:
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reply = b'\xff'
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reply += self.readfull(1)
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if reply != b"\xff\x55":
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self.unkhandler(reply)
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continue
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reply += self.readfull(1)
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if reply != b"\xff\x55\xaa":
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self.unkhandler(reply)
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continue
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reply += self.readfull(1)
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cmdin = struct.unpack("<I", reply)[0]
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if cmdin == self.REQ_EVENT:
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reply += self.readfull(self.EVENT_HDR_LEN - 4)
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data_len, event_type = struct.unpack("<HH", reply[4:])
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reply += self.readfull(data_len + 4)
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checksum = struct.unpack("<I", reply[-4:])[0]
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ccsum = self.checksum(reply[:-4])
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if checksum != ccsum:
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print("Event checksum error: Expected 0x%08x, got 0x%08x"%(checksum, ccsum))
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raise UartChecksumError()
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self.handle_event(EVENT(event_type), reply[self.EVENT_HDR_LEN:-4])
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continue
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reply += self.readfull(self.REPLY_LEN - 4)
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if self.debug:
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print(">>", hexdump(reply))
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status, data, checksum = struct.unpack("<i24sI", reply[4:])
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ccsum = self.checksum(reply[:-4])
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if checksum != ccsum:
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print("Reply checksum error: Expected 0x%08x, got 0x%08x"%(checksum, ccsum))
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raise UartChecksumError()
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if cmdin != cmd:
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if cmdin == self.REQ_BOOT and status == self.ST_OK:
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self.handle_boot(data)
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continue
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raise UartCMDError("Reply command mismatch: Expected 0x%08x, got 0x%08x"%(cmd, cmdin))
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if status != self.ST_OK:
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if status == self.ST_BADCMD:
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raise UartRemoteError("Reply error: Bad Command")
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elif status == self.ST_INVAL:
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raise UartRemoteError("Reply error: Invalid argument")
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elif status == self.ST_XFERERR:
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raise UartRemoteError("Reply error: Data transfer failed")
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elif status == self.ST_CSUMERR:
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raise UartRemoteError("Reply error: Data checksum failed")
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else:
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raise UartRemoteError("Reply error: Unknown error (%d)"%status)
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return data
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def handle_boot(self, data):
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reason, code, info = struct.unpack("<IIQ", data[:16])
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reason = START(reason)
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info_type = None
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if reason in (START.EXCEPTION, START.EXCEPTION_LOWER):
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code = EXC(code)
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if (reason, code) in self.handlers:
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self.handlers[(reason, code)](reason, code, info)
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elif reason != START.BOOT:
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print(f"Proxy callback without handler: {reason}, {code}")
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def set_handler(self, reason, code, handler):
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self.handlers[(reason, code)] = handler
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def handle_event(self, event_id, data):
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if event_id in self.evt_handlers:
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self.evt_handlers[event_id](data)
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def set_event_handler(self, event_id, handler):
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self.evt_handlers[event_id] = handler
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def wait_boot(self):
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try:
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return self.reply(self.REQ_BOOT)
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except:
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# Over USB, reboots cause a reconnect
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self.dev.close()
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print("Waiting for reconnection... ", end="")
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sys.stdout.flush()
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for i in range(100):
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print(".", end="")
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sys.stdout.flush()
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try:
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self.dev.open()
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except serial.serialutil.SerialException:
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time.sleep(0.1)
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else:
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break
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else:
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raise UartTimeout("Reconnection timed out")
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print(" Connected")
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def nop(self):
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self.cmd(self.REQ_NOP)
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self.reply(self.REQ_NOP)
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def proxyreq(self, req, reboot=False, no_reply=False, pre_reply=None):
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self.cmd(self.REQ_PROXY, req)
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if pre_reply:
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pre_reply()
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if no_reply:
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return
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elif reboot:
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return self.wait_boot()
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else:
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return self.reply(self.REQ_PROXY)
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def writemem(self, addr, data, progress=False):
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checksum = self.checksum(data)
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size = len(data)
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req = struct.pack("<QQI", addr, size, checksum)
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self.cmd(self.REQ_MEMWRITE, req)
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if self.debug:
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print("<< DATA:")
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chexdump(data)
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for i in range(0, len(data), 8192):
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self.dev.write(data[i:i + 8192])
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if progress:
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sys.stdout.write(".")
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sys.stdout.flush()
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if progress:
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print()
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# should automatically report a CRC failure
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self.reply(self.REQ_MEMWRITE)
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def readmem(self, addr, size):
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req = struct.pack("<QQ", addr, size)
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self.cmd(self.REQ_MEMREAD, req)
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reply = self.reply(self.REQ_MEMREAD)
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checksum = struct.unpack("<I",reply[:4])[0]
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data = self.readfull(size)
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if self.debug:
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print(">> DATA:")
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chexdump(data)
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ccsum = self.checksum(data)
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if checksum != ccsum:
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raise UartChecksumError("Reply data checksum error: Expected 0x%08x, got 0x%08x"%(checksum, ccsum))
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return data
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def readstruct(self, addr, stype):
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return stype.parse(self.readmem(addr, stype.sizeof()))
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class ProxyError(RuntimeError):
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pass
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class ProxyReplyError(ProxyError):
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pass
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class ProxyRemoteError(ProxyError):
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pass
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class ProxyCommandError(ProxyRemoteError):
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pass
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class AlignmentError(Exception):
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pass
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class IODEV(IntEnum):
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UART = 0
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FB = 1
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USB0 = 2
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USB1 = 3
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USB0_SEC = 4
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USB1_SEC = 5
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class USAGE(IntFlag):
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CONSOLE = (1 << 0)
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UARTPROXY = (1 << 1)
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class GUARD(IntFlag):
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OFF = 0
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SKIP = 1
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MARK = 2
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RETURN = 3
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SILENT = 0x100
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REGION_RWX_EL0 = 0x8000000000
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REGION_RW_EL0 = 0x9000000000
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REGION_RX_EL1 = 0xa000000000
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class M1N1Proxy:
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S_OK = 0
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S_BADCMD = -1
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P_NOP = 0x000
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P_EXIT = 0x001
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P_CALL = 0x002
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P_GET_BOOTARGS = 0x003
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P_GET_BASE = 0x004
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P_SET_BAUD = 0x005
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P_UDELAY = 0x006
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P_SET_EXC_GUARD = 0x007
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P_GET_EXC_COUNT = 0x008
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P_EL0_CALL = 0x009
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P_EL1_CALL = 0x00a
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P_VECTOR = 0x00b
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P_GL1_CALL = 0x00c
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P_GL2_CALL = 0x00d
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P_WRITE64 = 0x100
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P_WRITE32 = 0x101
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P_WRITE16 = 0x102
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P_WRITE8 = 0x103
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P_READ64 = 0x104
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P_READ32 = 0x105
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P_READ16 = 0x106
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P_READ8 = 0x107
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P_SET64 = 0x108
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P_SET32 = 0x109
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P_SET16 = 0x10a
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P_SET8 = 0x10b
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P_CLEAR64 = 0x10c
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P_CLEAR32 = 0x10d
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P_CLEAR16 = 0x10e
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P_CLEAR8 = 0x10f
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P_MASK64 = 0x110
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P_MASK32 = 0x111
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P_MASK16 = 0x112
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P_MASK8 = 0x113
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P_WRITEREAD64 = 0x114
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P_WRITEREAD32 = 0x115
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P_WRITEREAD16 = 0x116
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P_WRITEREAD8 = 0x117
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P_MEMCPY64 = 0x200
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P_MEMCPY32 = 0x201
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P_MEMCPY16 = 0x202
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P_MEMCPY8 = 0x203
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P_MEMSET64 = 0x204
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P_MEMSET32 = 0x205
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P_MEMSET16 = 0x206
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P_MEMSET8 = 0x207
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P_IC_IALLUIS = 0x300
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P_IC_IALLU = 0x301
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P_IC_IVAU = 0x302
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P_DC_IVAC = 0x303
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P_DC_ISW = 0x304
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P_DC_CSW = 0x305
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P_DC_CISW = 0x306
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P_DC_ZVA = 0x307
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P_DC_CVAC = 0x308
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P_DC_CVAU = 0x309
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P_DC_CIVAC = 0x30a
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P_MMU_SHUTDOWN = 0x30b
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P_MMU_INIT = 0x30c
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P_MMU_DISABLE = 0x30d
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P_MMU_RESTORE = 0x30e
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P_XZDEC = 0x400
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P_GZDEC = 0x401
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P_SMP_START_SECONDARIES = 0x500
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P_SMP_CALL = 0x501
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P_SMP_CALL_SYNC = 0x502
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P_HEAPBLOCK_ALLOC = 0x600
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P_MALLOC = 0x601
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P_MEMALIGN = 0x602
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P_FREE = 0x602
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P_KBOOT_BOOT = 0x700
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P_KBOOT_SET_BOOTARGS = 0x701
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P_KBOOT_SET_INITRD = 0x702
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P_KBOOT_PREPARE_DT = 0x703
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P_PMGR_CLOCK_ENABLE = 0x800
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P_PMGR_CLOCK_DISABLE = 0x801
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P_PMGR_ADT_CLOCKS_ENABLE = 0x802
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P_PMGR_ADT_CLOCKS_DISABLE = 0x803
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P_IODEV_SET_USAGE = 0x900
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P_IODEV_CAN_READ = 0x901
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P_IODEV_CAN_WRITE = 0x902
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P_IODEV_READ = 0x903
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P_IODEV_WRITE = 0x904
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P_IODEV_WHOAMI = 0x905
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P_TUNABLES_APPLY_GLOBAL = 0xa00
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P_TUNABLES_APPLY_LOCAL = 0xa01
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P_DART_INIT = 0xb00
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P_DART_SHUTDOWN = 0xb01
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P_DART_MAP = 0xb02
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P_DART_UNMAP = 0xb03
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P_HV_INIT = 0xc00
|
|
P_HV_MAP = 0xc01
|
|
P_HV_START = 0xc02
|
|
P_HV_TRANSLATE = 0xc03
|
|
P_HV_PT_WALK = 0xc04
|
|
P_HV_MAP_VUART = 0xc05
|
|
|
|
P_FB_INIT = 0xd00
|
|
P_FB_SHUTDOWN = 0xd01
|
|
P_FB_BLIT = 0xd02
|
|
P_FB_UNBLIT = 0xd03
|
|
P_FB_FILL = 0xd04
|
|
P_FB_CLEAR = 0xd05
|
|
P_FB_DISPLAY_LOGO = 0xd06
|
|
P_FB_RESTORE_LOGO = 0xd07
|
|
|
|
def __init__(self, iface, debug=False):
|
|
self.debug = debug
|
|
self.iface = iface
|
|
self.heap = None
|
|
|
|
def _request(self, opcode, *args, reboot=False, signed=False, no_reply=False, pre_reply=None):
|
|
if len(args) > 6:
|
|
raise ValueError("Too many arguments")
|
|
args = list(args) + [0] * (6 - len(args))
|
|
req = struct.pack("<7Q", opcode, *args)
|
|
if self.debug:
|
|
print("<<<< %08x: %08x %08x %08x %08x %08x %08x"%tuple([opcode] + args))
|
|
reply = self.iface.proxyreq(req, reboot=reboot, no_reply=no_reply, pre_reply=None)
|
|
if no_reply or reboot and reply is None:
|
|
return
|
|
ret_fmt = "q" if signed else "Q"
|
|
rop, status, retval = struct.unpack("<Qq" + ret_fmt, reply)
|
|
if self.debug:
|
|
print(">>>> %08x: %d %08x"%(rop, status, retval))
|
|
if reboot:
|
|
return
|
|
if rop != opcode:
|
|
raise ProxyReplyError("Reply opcode mismatch: Expected 0x%08x, got 0x%08x"%(opcode,rop))
|
|
if status != self.S_OK:
|
|
if status == self.S_BADCMD:
|
|
raise ProxyCommandError("Reply error: Bad Command")
|
|
else:
|
|
raise ProxyRemoteError("Reply error: Unknown error (%d)"%status)
|
|
return retval
|
|
|
|
def request(self, opcode, *args, **kwargs):
|
|
free = []
|
|
args = list(args)
|
|
args2 = []
|
|
for i, arg in enumerate(args):
|
|
if isinstance(arg, str):
|
|
arg = arg.encode("utf-8") + b"\0"
|
|
if isinstance(arg, bytes) and self.heap:
|
|
p = self.heap.malloc(len(arg))
|
|
free.append(p)
|
|
self.iface.writemem(p, arg)
|
|
if (i < (len(args) - 1)) and args[i + 1] is None:
|
|
args[i + 1] = len(arg)
|
|
arg = p
|
|
args2.append(arg)
|
|
try:
|
|
return self._request(opcode, *args2, **kwargs)
|
|
finally:
|
|
for i in free:
|
|
self.heap.free(i)
|
|
|
|
def nop(self):
|
|
self.request(self.P_NOP)
|
|
def exit(self, retval=0):
|
|
self.request(self.P_EXIT, retval)
|
|
def call(self, addr, *args, reboot=False):
|
|
if len(args) > 4:
|
|
raise ValueError("Too many arguments")
|
|
return self.request(self.P_CALL, addr, *args, reboot=reboot)
|
|
def reboot(self, addr, *args, el1=False):
|
|
if len(args) > 4:
|
|
raise ValueError("Too many arguments")
|
|
if el1:
|
|
self.request(self.P_EL1_CALL, addr, *args, no_reply=True)
|
|
else:
|
|
try:
|
|
self.request(self.P_VECTOR, addr, *args)
|
|
self.iface.wait_boot()
|
|
except ProxyCommandError: # old m1n1 does not support P_VECTOR
|
|
try:
|
|
self.mmu_shutdown()
|
|
except ProxyCommandError: # older m1n1 does not support MMU
|
|
pass
|
|
self.request(self.P_CALL, addr, *args, reboot=True)
|
|
def get_bootargs(self):
|
|
return self.request(self.P_GET_BOOTARGS)
|
|
def get_base(self):
|
|
return self.request(self.P_GET_BASE)
|
|
def set_baud(self, baudrate):
|
|
self.iface.tty_enable = False
|
|
def change():
|
|
self.iface.dev.baudrate = baudrate
|
|
try:
|
|
self.request(self.P_SET_BAUD, baudrate, 16, 0x005aa5f0, pre_reply=change)
|
|
finally:
|
|
self.iface.tty_enable = True
|
|
def udelay(self, usec):
|
|
self.request(self.P_UDELAY, usec)
|
|
def set_exc_guard(self, mode):
|
|
self.request(self.P_SET_EXC_GUARD, mode)
|
|
def get_exc_count(self):
|
|
return self.request(self.P_GET_EXC_COUNT)
|
|
def el0_call(self, addr, *args):
|
|
if len(args) > 4:
|
|
raise ValueError("Too many arguments")
|
|
return self.request(self.P_EL0_CALL, addr, *args)
|
|
def el1_call(self, addr, *args):
|
|
if len(args) > 4:
|
|
raise ValueError("Too many arguments")
|
|
return self.request(self.P_EL1_CALL, addr, *args)
|
|
def gl1_call(self, addr, *args):
|
|
if len(args) > 4:
|
|
raise ValueError("Too many arguments")
|
|
return self.request(self.P_GL1_CALL, addr, *args)
|
|
def gl2_call(self, addr, *args):
|
|
if len(args) > 4:
|
|
raise ValueError("Too many arguments")
|
|
return self.request(self.P_GL2_CALL, addr, *args)
|
|
|
|
def write64(self, addr, data):
|
|
if addr & 7:
|
|
raise AlignmentError()
|
|
self.request(self.P_WRITE64, addr, data)
|
|
def write32(self, addr, data):
|
|
if addr & 3:
|
|
raise AlignmentError()
|
|
self.request(self.P_WRITE32, addr, data)
|
|
def write16(self, addr, data):
|
|
if addr & 1:
|
|
raise AlignmentError()
|
|
self.request(self.P_WRITE16, addr, data)
|
|
def write8(self, addr, data):
|
|
self.request(self.P_WRITE8, addr, data)
|
|
|
|
def read64(self, addr):
|
|
if addr & 7:
|
|
raise AlignmentError()
|
|
return self.request(self.P_READ64, addr)
|
|
def read32(self, addr):
|
|
if addr & 3:
|
|
raise AlignmentError()
|
|
return self.request(self.P_READ32, addr)
|
|
def read16(self, addr):
|
|
if addr & 1:
|
|
raise AlignmentError()
|
|
return self.request(self.P_READ16, addr)
|
|
def read8(self, addr):
|
|
return self.request(self.P_READ8, addr)
|
|
|
|
def set64(self, addr, data):
|
|
if addr & 7:
|
|
raise AlignmentError()
|
|
self.request(self.P_SET64, addr, data)
|
|
def set32(self, addr, data):
|
|
if addr & 3:
|
|
raise AlignmentError()
|
|
self.request(self.P_SET32, addr, data)
|
|
def set16(self, addr, data):
|
|
if addr & 1:
|
|
raise AlignmentError()
|
|
self.request(self.P_SET16, addr, data)
|
|
def set8(self, addr, data):
|
|
self.request(self.P_SET8, addr, data)
|
|
|
|
def clear64(self, addr, data):
|
|
if addr & 7:
|
|
raise AlignmentError()
|
|
self.request(self.P_CLEAR64, addr, data)
|
|
def clear32(self, addr, data):
|
|
if addr & 3:
|
|
raise AlignmentError()
|
|
self.request(self.P_CLEAR32, addr, data)
|
|
def clear16(self, addr, data):
|
|
if addr & 1:
|
|
raise AlignmentError()
|
|
self.request(self.P_CLEAR16, addr, data)
|
|
def clear8(self, addr, data):
|
|
self.request(self.P_CLEAR8, addr, data)
|
|
|
|
def mask64(self, addr, clear, set):
|
|
if addr & 7:
|
|
raise AlignmentError()
|
|
self.request(self.P_MASK64, addr, clear, set)
|
|
def mask32(self, addr, clear, set):
|
|
if addr & 3:
|
|
raise AlignmentError()
|
|
self.request(self.P_MASK32, addr, clear, set)
|
|
def mask16(self, addr, clear, set):
|
|
if addr & 1:
|
|
raise AlignmentError()
|
|
self.request(self.P_MASK16, addr, clear, set)
|
|
def mask8(self, addr, clear, set):
|
|
self.request(self.P_MASK8, addr, clear, set)
|
|
|
|
def writeread64(self, addr, data):
|
|
return self.request(self.P_WRITEREAD64, addr, data)
|
|
def writeread32(self, addr, data):
|
|
return self.request(self.P_WRITEREAD32, addr, data)
|
|
def writeread16(self, addr, data):
|
|
return self.request(self.P_WRITEREAD16, addr, data)
|
|
def writeread8(self, addr, data):
|
|
return self.request(self.P_WRITEREAD8, addr, data)
|
|
|
|
def memcpy64(self, dst, src, size):
|
|
if src & 7 or dst & 7:
|
|
raise AlignmentError()
|
|
self.request(self.P_MEMCPY64, dst, src, size)
|
|
def memcpy32(self, dst, src, size):
|
|
if src & 3 or dst & 3:
|
|
raise AlignmentError()
|
|
self.request(self.P_MEMCPY32, dst, src, size)
|
|
def memcpy16(self, dst, src, size):
|
|
if src & 1 or dst & 1:
|
|
raise AlignmentError()
|
|
self.request(self.P_MEMCPY16, dst, src, size)
|
|
def memcpy8(self, dst, src, size):
|
|
self.request(self.P_MEMCPY8, dst, src, size)
|
|
|
|
def memset64(self, dst, src, size):
|
|
if dst & 7:
|
|
raise AlignmentError()
|
|
self.request(self.P_MEMSET64, dst, src, size)
|
|
def memset32(self, dst, src, size):
|
|
if dst & 3:
|
|
raise AlignmentError()
|
|
self.request(self.P_MEMSET32, dst, src, size)
|
|
def memset16(self, dst, src, size):
|
|
if dst & 1:
|
|
raise AlignmentError()
|
|
self.request(self.P_MEMSET16, dst, src, size)
|
|
def memset8(self, dst, src, size):
|
|
self.request(self.P_MEMSET8, dst, src, size)
|
|
|
|
def ic_ialluis(self):
|
|
self.request(self.P_IC_IALLUIS)
|
|
def ic_iallu(self):
|
|
self.request(self.P_IC_IALLU)
|
|
def ic_ivau(self, addr, size):
|
|
self.request(self.P_IC_IVAU, addr, size)
|
|
def ic_ivac(self, addr, size):
|
|
self.request(self.P_IC_IVAC, addr, size)
|
|
def dc_isw(self, sw):
|
|
self.request(self.P_DC_ISW, sw)
|
|
def dc_csw(self, sw):
|
|
self.request(self.P_DC_CSW, sw)
|
|
def dc_cisw(self, sw):
|
|
self.request(self.P_DC_CISW, sw)
|
|
def dc_zva(self, addr, size):
|
|
self.request(self.P_DC_ZVA, addr, size)
|
|
def dc_cvac(self, addr, size):
|
|
self.request(self.P_DC_CVAC, addr, size)
|
|
def dc_cvau(self, addr, size):
|
|
self.request(self.P_DC_CVAU, addr, size)
|
|
def dc_civac(self, addr, size):
|
|
self.request(self.P_DC_CIVAC, addr, size)
|
|
def mmu_shutdown(self):
|
|
self.request(self.P_MMU_SHUTDOWN)
|
|
def mmu_init(self):
|
|
self.request(self.P_MMU_INIT)
|
|
def mmu_disable(self):
|
|
return self.request(self.P_MMU_DISABLE)
|
|
def mmu_restore(self, flags):
|
|
self.request(self.P_MMU_RESTORE, flags)
|
|
|
|
|
|
def xzdec(self, inbuf, insize, outbuf=0, outsize=0):
|
|
return self.request(self.P_XZDEC, inbuf, insize, outbuf,
|
|
outsize, signed=True)
|
|
|
|
def gzdec(self, inbuf, insize, outbuf, outsize):
|
|
return self.request(self.P_GZDEC, inbuf, insize, outbuf,
|
|
outsize, signed=True)
|
|
|
|
def smp_start_secondaries(self):
|
|
self.request(self.P_SMP_START_SECONDARIES)
|
|
|
|
def smp_call(self, cpu, addr, *args):
|
|
if len(args) > 4:
|
|
raise ValueError("Too many arguments")
|
|
self.request(self.P_SMP_CALL, cpu, addr, *args)
|
|
|
|
def smp_call_sync(self, cpu, addr, *args):
|
|
if len(args) > 4:
|
|
raise ValueError("Too many arguments")
|
|
return self.request(self.P_SMP_CALL_SYNC, cpu, addr, *args)
|
|
|
|
def heapblock_alloc(self, size):
|
|
return self.request(self.P_HEAPBLOCK_ALLOC, size)
|
|
def malloc(self, size):
|
|
return self.request(self.P_MALLOC, size)
|
|
def memalign(self, align, size):
|
|
return self.request(self.P_MEMALIGN, align, size)
|
|
def free(self, ptr):
|
|
self.request(self.P_FREE, ptr)
|
|
|
|
def kboot_boot(self, kernel):
|
|
self.request(self.P_KBOOT_BOOT, kernel)
|
|
def kboot_set_bootargs(self, bootargs):
|
|
self.request(self.P_KBOOT_SET_BOOTARGS, bootargs)
|
|
def kboot_set_initrd(self, base, size):
|
|
self.request(self.P_KBOOT_SET_INITRD, base, size)
|
|
def kboot_prepare_dt(self, dt_addr):
|
|
return self.request(self.P_KBOOT_PREPARE_DT, dt_addr)
|
|
|
|
def pmgr_clock_enable(self, clkid):
|
|
return self.request(self.P_PMGR_CLOCK_ENABLE, clkid)
|
|
def pmgr_clock_disable(self, clkid):
|
|
return self.request(self.P_PMGR_CLOCK_DISABLE, clkid)
|
|
def pmgr_adt_clocks_enable(self, path):
|
|
return self.request(self.P_PMGR_ADT_CLOCKS_ENABLE, path)
|
|
def pmgr_adt_clocks_disable(self, path):
|
|
return self.request(self.P_PMGR_ADT_CLOCKS_DISABLE, path)
|
|
|
|
def iodev_set_usage(self, iodev, usage):
|
|
return self.request(self.P_IODEV_SET_USAGE, iodev, usage)
|
|
def iodev_can_read(self, iodev):
|
|
return self.request(self.P_IODEV_CAN_READ, iodev)
|
|
def iodev_can_write(self, iodev):
|
|
return self.request(self.P_IODEV_CAN_WRITE, iodev)
|
|
def iodev_read(self, iodev, buf, size=None):
|
|
return self.request(self.P_IODEV_READ, iodev, buf, size)
|
|
def iodev_write(self, iodev, buf, size=None):
|
|
return self.request(self.P_IODEV_WRITE, iodev, buf, size)
|
|
def iodev_whoami(self):
|
|
return IODEV(self.request(self.P_IODEV_WHOAMI))
|
|
|
|
def tunables_apply_global(self, path, prop):
|
|
return self.request(self.P_TUNABLES_APPLY_GLOBAL, path, prop)
|
|
def tunables_apply_local(self, path, prop, reg_offset):
|
|
return self.request(self.P_TUNABLES_APPLY_LOCAL, path, prop, reg_offset)
|
|
def tunables_apply_local_addr(self, path, prop, base):
|
|
return self.request(self.P_TUNABLES_APPLY_LOCAL, path, prop, base)
|
|
|
|
def dart_init(self, base, sid):
|
|
return self.request(self.P_DART_INIT, base, sid)
|
|
def dart_shutdown(self, dart):
|
|
return self.request(self.P_DART_SHUTDOWN, dart)
|
|
def dart_map(self, dart, iova, bfr, len):
|
|
return self.request(self.P_DART_MAP, dart, iova, bfr, len)
|
|
def dart_unmap(self, dart, iova, len):
|
|
return self.request(self.P_DART_UNMAP, dart, iova, len)
|
|
|
|
def hv_init(self):
|
|
return self.request(self.P_HV_INIT)
|
|
def hv_map(self, from_, to, size, incr):
|
|
return self.request(self.P_HV_MAP, from_, to, size, incr)
|
|
def hv_start(self, entry, *args):
|
|
return self.request(self.P_HV_START, entry, *args)
|
|
def hv_translate(self, addr, s1=False, w=False):
|
|
return self.request(self.P_HV_TRANSLATE, addr, s1, w)
|
|
def hv_pt_walk(self, addr):
|
|
return self.request(self.P_HV_PT_WALK, addr)
|
|
def hv_map_vuart(self, base, iodev):
|
|
return self.request(self.P_HV_MAP_VUART, base, iodev)
|
|
|
|
def fb_init(self):
|
|
return self.request(self.P_FB_INIT)
|
|
def fb_shutdown(self):
|
|
return self.request(self.P_FB_SHUTDOWN)
|
|
def fb_blit(self, x, y, w, h, ptr, stride):
|
|
return self.request(self.P_FB_BLIP, x, y, w, h, ptr, stride)
|
|
def fb_unblit(self, x, y, w, h, ptr, stride):
|
|
return self.request(self.P_FB_UNBLIP, x, y, w, h, ptr, stride)
|
|
def fb_fill(self, color):
|
|
return self.request(self.P_FB_FILL, x, y, w, h, color)
|
|
def fb_clear(self, color):
|
|
return self.request(self.P_FB_CLEAR, color)
|
|
def fb_display_logo(self):
|
|
return self.request(self.P_FB_DISPLAY_LOGO)
|
|
def fb_restore_logo(self):
|
|
return self.request(self.P_FB_RESTORE_LOGO)
|
|
|
|
if __name__ == "__main__":
|
|
import serial
|
|
uartdev = os.environ.get("M1N1DEVICE", "/dev/ttyUSB0")
|
|
usbuart = serial.Serial(uartdev, 115200)
|
|
uartif = UartInterface(usbuart, debug=True)
|
|
print("Sending NOP...", end=' ')
|
|
uartif.nop()
|
|
print("OK")
|
|
proxy = M1N1Proxy(uartif, debug=True)
|
|
print("Sending Proxy NOP...", end=' ')
|
|
proxy.nop()
|
|
print("OK")
|
|
print("Boot args: 0x%x" % proxy.get_bootargs())
|