@@ -2061,6 +2061,9 @@ S: Maintained
F: hw/arm/ghes_cper.c
F: hw/acpi/ghes_cper_stub.c
F: qapi/acpi-hest.json
+F: scripts/ghes_inject.py
+F: scripts/arm_processor_error.py
+F: scripts/qmp_helper.py
ppc4xx
L: qemu-ppc@nongnu.org
new file mode 100644
@@ -0,0 +1,377 @@
+#!/usr/bin/env python3
+#
+# pylint: disable=C0301,C0114,R0903,R0912,R0913,R0914,R0915,W0511
+# SPDX-License-Identifier: GPL-2.0
+#
+# Copyright (C) 2024 Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
+
+# TODO: current implementation has dummy defaults.
+#
+# For a better implementation, a QMP addition/call is needed to
+# retrieve some data for ARM Processor Error injection:
+#
+# - ARM registers: power_state, mpidr.
+
+import argparse
+import re
+
+from qmp_helper import qmp, util, cper_guid
+
+class ArmProcessorEinj:
+ """
+ Implements ARM Processor Error injection via GHES
+ """
+
+ DESC = """
+ Generates an ARM processor error CPER, compatible with
+ UEFI 2.9A Errata.
+ """
+
+ ACPI_GHES_ARM_CPER_LENGTH = 40
+ ACPI_GHES_ARM_CPER_PEI_LENGTH = 32
+
+ # Context types
+ CONTEXT_AARCH32_EL1 = 1
+ CONTEXT_AARCH64_EL1 = 5
+ CONTEXT_MISC_REG = 8
+
+ def __init__(self, subparsers):
+ """Initialize the error injection class and add subparser"""
+
+ # Valid choice values
+ self.arm_valid_bits = {
+ "mpidr": util.bit(0),
+ "affinity": util.bit(1),
+ "running": util.bit(2),
+ "vendor": util.bit(3),
+ }
+
+ self.pei_flags = {
+ "first": util.bit(0),
+ "last": util.bit(1),
+ "propagated": util.bit(2),
+ "overflow": util.bit(3),
+ }
+
+ self.pei_error_types = {
+ "cache": util.bit(1),
+ "tlb": util.bit(2),
+ "bus": util.bit(3),
+ "micro-arch": util.bit(4),
+ }
+
+ self.pei_valid_bits = {
+ "multiple-error": util.bit(0),
+ "flags": util.bit(1),
+ "error-info": util.bit(2),
+ "virt-addr": util.bit(3),
+ "phy-addr": util.bit(4),
+ }
+
+ self.data = bytearray()
+
+ parser = subparsers.add_parser("arm", description=self.DESC)
+
+ arm_valid_bits = ",".join(self.arm_valid_bits.keys())
+ flags = ",".join(self.pei_flags.keys())
+ error_types = ",".join(self.pei_error_types.keys())
+ pei_valid_bits = ",".join(self.pei_valid_bits.keys())
+
+ # UEFI N.16 ARM Validation bits
+ g_arm = parser.add_argument_group("ARM processor")
+ g_arm.add_argument("--arm", "--arm-valid",
+ help=f"ARM valid bits: {arm_valid_bits}")
+ g_arm.add_argument("-a", "--affinity", "--level", "--affinity-level",
+ type=lambda x: int(x, 0),
+ help="Affinity level (when multiple levels apply)")
+ g_arm.add_argument("-l", "--mpidr", type=lambda x: int(x, 0),
+ help="Multiprocessor Affinity Register")
+ g_arm.add_argument("-i", "--midr", type=lambda x: int(x, 0),
+ help="Main ID Register")
+ g_arm.add_argument("-r", "--running",
+ action=argparse.BooleanOptionalAction,
+ default=None,
+ help="Indicates if the processor is running or not")
+ g_arm.add_argument("--psci", "--psci-state",
+ type=lambda x: int(x, 0),
+ help="Power State Coordination Interface - PSCI state")
+
+ # TODO: Add vendor-specific support
+
+ # UEFI N.17 bitmaps (type and flags)
+ g_pei = parser.add_argument_group("ARM Processor Error Info (PEI)")
+ g_pei.add_argument("-t", "--type", nargs="+",
+ help=f"one or more error types: {error_types}")
+ g_pei.add_argument("-f", "--flags", nargs="*",
+ help=f"zero or more error flags: {flags}")
+ g_pei.add_argument("-V", "--pei-valid", "--error-valid", nargs="*",
+ help=f"zero or more PEI valid bits: {pei_valid_bits}")
+
+ # UEFI N.17 Integer values
+ g_pei.add_argument("-m", "--multiple-error", nargs="+",
+ help="Number of errors: 0: Single error, 1: Multiple errors, 2-65535: Error count if known")
+ g_pei.add_argument("-e", "--error-info", nargs="+",
+ help="Error information (UEFI 2.10 tables N.18 to N.20)")
+ g_pei.add_argument("-p", "--physical-address", nargs="+",
+ help="Physical address")
+ g_pei.add_argument("-v", "--virtual-address", nargs="+",
+ help="Virtual address")
+
+ # UEFI N.21 Context
+ g_ctx = parser.add_argument_group("Processor Context")
+ g_ctx.add_argument("--ctx-type", "--context-type", nargs="*",
+ help="Type of the context (0=ARM32 GPR, 5=ARM64 EL1, other values supported)")
+ g_ctx.add_argument("--ctx-size", "--context-size", nargs="*",
+ help="Minimal size of the context")
+ g_ctx.add_argument("--ctx-array", "--context-array", nargs="*",
+ help="Comma-separated arrays for each context")
+
+ # Vendor-specific data
+ g_vendor = parser.add_argument_group("Vendor-specific data")
+ g_vendor.add_argument("--vendor", "--vendor-specific", nargs="+",
+ help="Vendor-specific byte arrays of data")
+
+ # Add arguments for Generic Error Data
+ qmp.argparse(parser)
+
+ parser.set_defaults(func=self.send_cper)
+
+ def send_cper(self, args):
+ """Parse subcommand arguments and send a CPER via QMP"""
+
+ qmp_cmd = qmp(args.host, args.port, args.debug)
+
+ # Handle Generic Error Data arguments if any
+ qmp_cmd.set_args(args)
+
+ is_cpu_type = re.compile(r"^([\w+]+\-)?arm\-cpu$")
+ cpus = qmp_cmd.search_qom("/machine/unattached/device",
+ "type", is_cpu_type)
+
+ cper = {}
+ pei = {}
+ ctx = {}
+ vendor = {}
+
+ arg = vars(args)
+
+ # Handle global parameters
+ if args.arm:
+ arm_valid_init = False
+ cper["valid"] = util.get_choice(name="valid",
+ value=args.arm,
+ choices=self.arm_valid_bits,
+ suffixes=["-error", "-err"])
+ else:
+ cper["valid"] = 0
+ arm_valid_init = True
+
+ if "running" in arg:
+ if args.running:
+ cper["running-state"] = util.bit(0)
+ else:
+ cper["running-state"] = 0
+ else:
+ cper["running-state"] = 0
+
+ if arm_valid_init:
+ if args.affinity:
+ cper["valid"] |= self.arm_valid_bits["affinity"]
+
+ if args.mpidr:
+ cper["valid"] |= self.arm_valid_bits["mpidr"]
+
+ if "running-state" in cper:
+ cper["valid"] |= self.arm_valid_bits["running"]
+
+ if args.psci:
+ cper["valid"] |= self.arm_valid_bits["running"]
+
+ # Handle PEI
+ if not args.type:
+ args.type = ["cache-error"]
+
+ util.get_mult_choices(
+ pei,
+ name="valid",
+ values=args.pei_valid,
+ choices=self.pei_valid_bits,
+ suffixes=["-valid", "--addr"],
+ )
+ util.get_mult_choices(
+ pei,
+ name="type",
+ values=args.type,
+ choices=self.pei_error_types,
+ suffixes=["-error", "-err"],
+ )
+ util.get_mult_choices(
+ pei,
+ name="flags",
+ values=args.flags,
+ choices=self.pei_flags,
+ suffixes=["-error", "-cap"],
+ )
+ util.get_mult_int(pei, "error-info", args.error_info)
+ util.get_mult_int(pei, "multiple-error", args.multiple_error)
+ util.get_mult_int(pei, "phy-addr", args.physical_address)
+ util.get_mult_int(pei, "virt-addr", args.virtual_address)
+
+ # Handle context
+ util.get_mult_int(ctx, "type", args.ctx_type, allow_zero=True)
+ util.get_mult_int(ctx, "minimal-size", args.ctx_size, allow_zero=True)
+ util.get_mult_array(ctx, "register", args.ctx_array, allow_zero=True)
+
+ util.get_mult_array(vendor, "bytes", args.vendor, max_val=255)
+
+ # Store PEI
+ pei_data = bytearray()
+ default_flags = self.pei_flags["first"]
+ default_flags |= self.pei_flags["last"]
+
+ error_info_num = 0
+
+ for i, p in pei.items(): # pylint: disable=W0612
+ error_info_num += 1
+
+ # UEFI 2.10 doesn't define how to encode error information
+ # when multiple types are raised. So, provide a default only
+ # if a single type is there
+ if "error-info" not in p:
+ if p["type"] == util.bit(1):
+ p["error-info"] = 0x0091000F
+ if p["type"] == util.bit(2):
+ p["error-info"] = 0x0054007F
+ if p["type"] == util.bit(3):
+ p["error-info"] = 0x80D6460FFF
+ if p["type"] == util.bit(4):
+ p["error-info"] = 0x78DA03FF
+
+ if "valid" not in p:
+ p["valid"] = 0
+ if "multiple-error" in p:
+ p["valid"] |= self.pei_valid_bits["multiple-error"]
+
+ if "flags" in p:
+ p["valid"] |= self.pei_valid_bits["flags"]
+
+ if "error-info" in p:
+ p["valid"] |= self.pei_valid_bits["error-info"]
+
+ if "phy-addr" in p:
+ p["valid"] |= self.pei_valid_bits["phy-addr"]
+
+ if "virt-addr" in p:
+ p["valid"] |= self.pei_valid_bits["virt-addr"]
+
+ # Version
+ util.data_add(pei_data, 0, 1)
+
+ util.data_add(pei_data,
+ self.ACPI_GHES_ARM_CPER_PEI_LENGTH, 1)
+
+ util.data_add(pei_data, p["valid"], 2)
+ util.data_add(pei_data, p["type"], 1)
+ util.data_add(pei_data, p.get("multiple-error", 1), 2)
+ util.data_add(pei_data, p.get("flags", default_flags), 1)
+ util.data_add(pei_data, p.get("error-info", 0), 8)
+ util.data_add(pei_data, p.get("virt-addr", 0xDEADBEEF), 8)
+ util.data_add(pei_data, p.get("phy-addr", 0xABBA0BAD), 8)
+
+ # Store Context
+ ctx_data = bytearray()
+ context_info_num = 0
+
+ if ctx:
+ ret = qmp_cmd.send_cmd("query-target", may_open=True)
+
+ default_ctx = self.CONTEXT_MISC_REG
+
+ if "arch" in ret:
+ if ret["arch"] == "aarch64":
+ default_ctx = self.CONTEXT_AARCH64_EL1
+ elif ret["arch"] == "arm":
+ default_ctx = self.CONTEXT_AARCH32_EL1
+
+ for k in sorted(ctx.keys()):
+ context_info_num += 1
+
+ if "type" not in ctx[k]:
+ ctx[k]["type"] = default_ctx
+
+ if "register" not in ctx[k]:
+ ctx[k]["register"] = []
+
+ reg_size = len(ctx[k]["register"])
+ size = 0
+
+ if "minimal-size" in ctx:
+ size = ctx[k]["minimal-size"]
+
+ size = max(size, reg_size)
+
+ size = (size + 1) % 0xFFFE
+
+ # Version
+ util.data_add(ctx_data, 0, 2)
+
+ util.data_add(ctx_data, ctx[k]["type"], 2)
+
+ util.data_add(ctx_data, 8 * size, 4)
+
+ for r in ctx[k]["register"]:
+ util.data_add(ctx_data, r, 8)
+
+ for i in range(reg_size, size): # pylint: disable=W0612
+ util.data_add(ctx_data, 0, 8)
+
+ # Vendor-specific bytes are not grouped
+ vendor_data = bytearray()
+ if vendor:
+ for k in sorted(vendor.keys()):
+ for b in vendor[k]["bytes"]:
+ util.data_add(vendor_data, b, 1)
+
+ # Encode ARM Processor Error
+ data = bytearray()
+
+ util.data_add(data, cper["valid"], 4)
+
+ util.data_add(data, error_info_num, 2)
+ util.data_add(data, context_info_num, 2)
+
+ # Calculate the length of the CPER data
+ cper_length = self.ACPI_GHES_ARM_CPER_LENGTH
+ cper_length += len(pei_data)
+ cper_length += len(vendor_data)
+ cper_length += len(ctx_data)
+ util.data_add(data, cper_length, 4)
+
+ util.data_add(data, arg.get("affinity-level", 0), 1)
+
+ # Reserved
+ util.data_add(data, 0, 3)
+
+ if "midr-el1" not in arg:
+ if cpus:
+ cmd_arg = {
+ 'path': cpus[0],
+ 'property': "midr"
+ }
+ ret = qmp_cmd.send_cmd("qom-get", cmd_arg, may_open=True)
+ if isinstance(ret, int):
+ arg["midr-el1"] = ret
+
+ util.data_add(data, arg.get("mpidr-el1", 0), 8)
+ util.data_add(data, arg.get("midr-el1", 0), 8)
+ util.data_add(data, cper["running-state"], 4)
+ util.data_add(data, arg.get("psci-state", 0), 4)
+
+ # Add PEI
+ data.extend(pei_data)
+ data.extend(ctx_data)
+ data.extend(vendor_data)
+
+ self.data = data
+
+ qmp_cmd.send_cper(cper_guid.CPER_PROC_ARM, self.data)
new file mode 100755
@@ -0,0 +1,51 @@
+#!/usr/bin/env python3
+#
+# SPDX-License-Identifier: GPL-2.0
+#
+# Copyright (C) 2024 Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
+
+"""
+Handle ACPI GHESv2 error injection logic QEMU QMP interface.
+"""
+
+import argparse
+import sys
+
+from arm_processor_error import ArmProcessorEinj
+
+EINJ_DESC = """
+Handle ACPI GHESv2 error injection logic QEMU QMP interface.
+
+It allows using UEFI BIOS EINJ features to generate GHES records.
+
+It helps testing CPER and GHES drivers at the guest OS and how
+userspace applications at the guest handle them.
+"""
+
+def main():
+ """Main program"""
+
+ # Main parser - handle generic args like QEMU QMP TCP socket options
+ parser = argparse.ArgumentParser(formatter_class=argparse.ArgumentDefaultsHelpFormatter,
+ usage="%(prog)s [options]",
+ description=EINJ_DESC)
+
+ g_options = parser.add_argument_group("QEMU QMP socket options")
+ g_options.add_argument("-H", "--host", default="localhost", type=str,
+ help="host name")
+ g_options.add_argument("-P", "--port", default=4445, type=int,
+ help="TCP port number")
+ g_options.add_argument('-d', '--debug', action='store_true')
+
+ subparsers = parser.add_subparsers()
+
+ ArmProcessorEinj(subparsers)
+
+ args = parser.parse_args()
+ if "func" in args:
+ args.func(args)
+ else:
+ sys.exit(f"Please specify a valid command for {sys.argv[0]}")
+
+if __name__ == "__main__":
+ main()
new file mode 100644
@@ -0,0 +1,702 @@
+#!/usr/bin/env python3
+#
+# # pylint: disable=C0103,E0213,E1135,E1136,E1137,R0902,R0903,R0912,R0913
+# SPDX-License-Identifier: GPL-2.0
+#
+# Copyright (C) 2024 Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
+
+"""
+Helper classes to be used by ghes_inject command classes.
+"""
+
+import json
+import sys
+
+from datetime import datetime
+from os import path as os_path
+
+try:
+ qemu_dir = os_path.abspath(os_path.dirname(os_path.dirname(__file__)))
+ sys.path.append(os_path.join(qemu_dir, 'python'))
+
+ from qemu.qmp.legacy import QEMUMonitorProtocol
+
+except ModuleNotFoundError as exc:
+ print(f"Module '{exc.name}' not found.")
+ print("Try export PYTHONPATH=top-qemu-dir/python or run from top-qemu-dir")
+ sys.exit(1)
+
+from base64 import b64encode
+
+class util:
+ """
+ Ancillary functions to deal with bitmaps, parse arguments,
+ generate GUID and encode data on a bytearray buffer.
+ """
+
+ #
+ # Helper routines to handle multiple choice arguments
+ #
+ def get_choice(name, value, choices, suffixes=None, bitmask=True):
+ """Produce a list from multiple choice argument"""
+
+ new_values = 0
+
+ if not value:
+ return new_values
+
+ for val in value.split(","):
+ val = val.lower()
+
+ if suffixes:
+ for suffix in suffixes:
+ val = val.removesuffix(suffix)
+
+ if val not in choices.keys():
+ if suffixes:
+ for suffix in suffixes:
+ if val + suffix in choices.keys():
+ val += suffix
+ break
+
+ if val not in choices.keys():
+ sys.exit(f"Error on '{name}': choice '{val}' is invalid.")
+
+ val = choices[val]
+
+ if bitmask:
+ new_values |= val
+ else:
+ if new_values:
+ sys.exit(f"Error on '{name}': only one value is accepted.")
+
+ new_values = val
+
+ return new_values
+
+ def get_array(name, values, max_val=None):
+ """Add numbered hashes from integer lists into an array"""
+
+ array = []
+
+ for value in values:
+ for val in value.split(","):
+ try:
+ val = int(val, 0)
+ except ValueError:
+ sys.exit(f"Error on '{name}': {val} is not an integer")
+
+ if val < 0:
+ sys.exit(f"Error on '{name}': {val} is not unsigned")
+
+ if max_val and val > max_val:
+ sys.exit(f"Error on '{name}': {val} is too little")
+
+ array.append(val)
+
+ return array
+
+ def get_mult_array(mult, name, values, allow_zero=False, max_val=None):
+ """Add numbered hashes from integer lists"""
+
+ if not allow_zero:
+ if not values:
+ return
+ else:
+ if values is None:
+ return
+
+ if not values:
+ i = 0
+ if i not in mult:
+ mult[i] = {}
+
+ mult[i][name] = []
+ return
+
+ i = 0
+ for value in values:
+ for val in value.split(","):
+ try:
+ val = int(val, 0)
+ except ValueError:
+ sys.exit(f"Error on '{name}': {val} is not an integer")
+
+ if val < 0:
+ sys.exit(f"Error on '{name}': {val} is not unsigned")
+
+ if max_val and val > max_val:
+ sys.exit(f"Error on '{name}': {val} is too little")
+
+ if i not in mult:
+ mult[i] = {}
+
+ if name not in mult[i]:
+ mult[i][name] = []
+
+ mult[i][name].append(val)
+
+ i += 1
+
+
+ def get_mult_choices(mult, name, values, choices,
+ suffixes=None, allow_zero=False):
+ """Add numbered hashes from multiple choice arguments"""
+
+ if not allow_zero:
+ if not values:
+ return
+ else:
+ if values is None:
+ return
+
+ i = 0
+ for val in values:
+ new_values = util.get_choice(name, val, choices, suffixes)
+
+ if i not in mult:
+ mult[i] = {}
+
+ mult[i][name] = new_values
+ i += 1
+
+
+ def get_mult_int(mult, name, values, allow_zero=False):
+ """Add numbered hashes from integer arguments"""
+ if not allow_zero:
+ if not values:
+ return
+ else:
+ if values is None:
+ return
+
+ i = 0
+ for val in values:
+ try:
+ val = int(val, 0)
+ except ValueError:
+ sys.exit(f"Error on '{name}': {val} is not an integer")
+
+ if val < 0:
+ sys.exit(f"Error on '{name}': {val} is not unsigned")
+
+ if i not in mult:
+ mult[i] = {}
+
+ mult[i][name] = val
+ i += 1
+
+
+ #
+ # Data encode helper functions
+ #
+ def bit(b):
+ """Simple macro to define a bit on a bitmask"""
+ return 1 << b
+
+
+ def data_add(data, value, num_bytes):
+ """Adds bytes from value inside a bitarray"""
+
+ data.extend(value.to_bytes(num_bytes, byteorder="little")) # pylint: disable=E1101
+
+ def dump_bytearray(name, data):
+ """Does an hexdump of a byte array, grouping in bytes"""
+
+ print(f"{name} ({len(data)} bytes):")
+
+ for ln_start in range(0, len(data), 16):
+ ln_end = min(ln_start + 16, len(data))
+ print(f" {ln_start:08x} ", end="")
+ for i in range(ln_start, ln_end):
+ print(f"{data[i]:02x} ", end="")
+ for i in range(ln_end, ln_start + 16):
+ print(" ", end="")
+ print(" ", end="")
+ for i in range(ln_start, ln_end):
+ if data[i] >= 32 and data[i] < 127:
+ print(chr(data[i]), end="")
+ else:
+ print(".", end="")
+
+ print()
+ print()
+
+ def time(string):
+ """Handle BCD timestamps used on Generic Error Data Block"""
+
+ time = None
+
+ # Formats to be used when parsing time stamps
+ formats = [
+ "%Y-%m-%d %H:%M:%S",
+ ]
+
+ if string == "now":
+ time = datetime.now()
+
+ if time is None:
+ for fmt in formats:
+ try:
+ time = datetime.strptime(string, fmt)
+ break
+ except ValueError:
+ pass
+
+ if time is None:
+ raise ValueError("Invalid time format")
+
+ return time
+
+class guid:
+ """
+ Simple class to handle GUID fields.
+ """
+
+ def __init__(self, time_low, time_mid, time_high, nodes):
+ """Initialize a GUID value"""
+
+ assert len(nodes) == 8
+
+ self.time_low = time_low
+ self.time_mid = time_mid
+ self.time_high = time_high
+ self.nodes = nodes
+
+ @classmethod
+ def UUID(cls, guid_str):
+ """Initialize a GUID using a string on its standard format"""
+
+ if len(guid_str) != 36:
+ print("Size not 36")
+ raise ValueError('Invalid GUID size')
+
+ # It is easier to parse without separators. So, drop them
+ guid_str = guid_str.replace('-', '')
+
+ if len(guid_str) != 32:
+ print("Size not 32", guid_str, len(guid_str))
+ raise ValueError('Invalid GUID hex size')
+
+ time_low = 0
+ time_mid = 0
+ time_high = 0
+ nodes = []
+
+ for i in reversed(range(16, 32, 2)):
+ h = guid_str[i:i + 2]
+ value = int(h, 16)
+ nodes.insert(0, value)
+
+ time_high = int(guid_str[12:16], 16)
+ time_mid = int(guid_str[8:12], 16)
+ time_low = int(guid_str[0:8], 16)
+
+ return cls(time_low, time_mid, time_high, nodes)
+
+ def __str__(self):
+ """Output a GUID value on its default string representation"""
+
+ clock = self.nodes[0] << 8 | self.nodes[1]
+
+ node = 0
+ for i in range(2, len(self.nodes)):
+ node = node << 8 | self.nodes[i]
+
+ s = f"{self.time_low:08x}-{self.time_mid:04x}-"
+ s += f"{self.time_high:04x}-{clock:04x}-{node:012x}"
+ return s
+
+ def to_bytes(self):
+ """Output a GUID value in bytes"""
+
+ data = bytearray()
+
+ util.data_add(data, self.time_low, 4)
+ util.data_add(data, self.time_mid, 2)
+ util.data_add(data, self.time_high, 2)
+ data.extend(bytearray(self.nodes))
+
+ return data
+
+class qmp:
+ """
+ Opens a connection and send/receive QMP commands.
+ """
+
+ def send_cmd(self, command, args=None, may_open=False, return_error=True):
+ """Send a command to QMP, optinally opening a connection"""
+
+ if may_open:
+ self._connect()
+ elif not self.connected:
+ return False
+
+ msg = { 'execute': command }
+ if args:
+ msg['arguments'] = args
+
+ try:
+ obj = self.qmp_monitor.cmd_obj(msg)
+ # Can we use some other exception class here?
+ except Exception as e: # pylint: disable=W0718
+ print(f"Command: {command}")
+ print(f"Failed to inject error: {e}.")
+ return None
+
+ if "return" in obj:
+ if isinstance(obj.get("return"), dict):
+ if obj["return"]:
+ return obj["return"]
+ return "OK"
+
+ return obj["return"]
+
+ if isinstance(obj.get("error"), dict):
+ error = obj["error"]
+ if return_error:
+ print(f"Command: {msg}")
+ print(f'{error["class"]}: {error["desc"]}')
+ else:
+ print(json.dumps(obj))
+
+ return None
+
+ def _close(self):
+ """Shutdown and close the socket, if opened"""
+ if not self.connected:
+ return
+
+ self.qmp_monitor.close()
+ self.connected = False
+
+ def _connect(self):
+ """Connect to a QMP TCP/IP port, if not connected yet"""
+
+ if self.connected:
+ return True
+
+ try:
+ self.qmp_monitor.connect(negotiate=True)
+ except ConnectionError:
+ sys.exit(f"Can't connect to QMP host {self.host}:{self.port}")
+
+ self.connected = True
+
+ return True
+
+ BLOCK_STATUS_BITS = {
+ "uncorrectable": util.bit(0),
+ "correctable": util.bit(1),
+ "multi-uncorrectable": util.bit(2),
+ "multi-correctable": util.bit(3),
+ }
+
+ ERROR_SEVERITY = {
+ "recoverable": 0,
+ "fatal": 1,
+ "corrected": 2,
+ "none": 3,
+ }
+
+ VALIDATION_BITS = {
+ "fru-id": util.bit(0),
+ "fru-text": util.bit(1),
+ "timestamp": util.bit(2),
+ }
+
+ GEDB_FLAGS_BITS = {
+ "recovered": util.bit(0),
+ "prev-error": util.bit(1),
+ "simulated": util.bit(2),
+ }
+
+ GENERIC_DATA_SIZE = 72
+
+ def argparse(parser):
+ """Prepare a parser group to query generic error data"""
+
+ block_status_bits = ",".join(qmp.BLOCK_STATUS_BITS.keys())
+ error_severity_enum = ",".join(qmp.ERROR_SEVERITY.keys())
+ validation_bits = ",".join(qmp.VALIDATION_BITS.keys())
+ gedb_flags_bits = ",".join(qmp.GEDB_FLAGS_BITS.keys())
+
+ g_gen = parser.add_argument_group("Generic Error Data") # pylint: disable=E1101
+ g_gen.add_argument("--block-status",
+ help=f"block status bits: {block_status_bits}")
+ g_gen.add_argument("--raw-data", nargs="+",
+ help="Raw data inside the Error Status Block")
+ g_gen.add_argument("--error-severity", "--severity",
+ help=f"error severity: {error_severity_enum}")
+ g_gen.add_argument("--gen-err-valid-bits",
+ "--generic-error-validation-bits",
+ help=f"validation bits: {validation_bits}")
+ g_gen.add_argument("--fru-id", type=guid.UUID,
+ help="GUID representing a physical device")
+ g_gen.add_argument("--fru-text",
+ help="ASCII string identifying the FRU hardware")
+ g_gen.add_argument("--timestamp", type=util.time,
+ help="Time when the error info was collected")
+ g_gen.add_argument("--precise", "--precise-timestamp",
+ action='store_true',
+ help="Marks the timestamp as precise if --timestamp is used")
+ g_gen.add_argument("--gedb-flags",
+ help=f"General Error Data Block flags: {gedb_flags_bits}")
+
+ def set_args(self, args):
+ """Set the arguments optionally defined via self.argparse()"""
+
+ if args.block_status:
+ self.block_status = util.get_choice(name="block-status",
+ value=args.block_status,
+ choices=self.BLOCK_STATUS_BITS,
+ bitmask=False)
+ if args.raw_data:
+ self.raw_data = util.get_array("raw-data", args.raw_data,
+ max_val=255)
+ print(self.raw_data)
+
+ if args.error_severity:
+ self.error_severity = util.get_choice(name="error-severity",
+ value=args.error_severity,
+ choices=self.ERROR_SEVERITY,
+ bitmask=False)
+
+ if args.fru_id:
+ self.fru_id = args.fru_id.to_bytes()
+ if not args.gen_err_valid_bits:
+ self.validation_bits |= self.VALIDATION_BITS["fru-id"]
+
+ if args.fru_text:
+ text = bytearray(args.fru_text.encode('ascii'))
+ if len(text) > 20:
+ sys.exit("FRU text is too big to fit")
+
+ self.fru_text = text
+ if not args.gen_err_valid_bits:
+ self.validation_bits |= self.VALIDATION_BITS["fru-text"]
+
+ if args.timestamp:
+ time = args.timestamp
+ century = int(time.year / 100)
+
+ bcd = bytearray()
+ util.data_add(bcd, (time.second // 10) << 4 | (time.second % 10), 1)
+ util.data_add(bcd, (time.minute // 10) << 4 | (time.minute % 10), 1)
+ util.data_add(bcd, (time.hour // 10) << 4 | (time.hour % 10), 1)
+
+ if args.precise:
+ util.data_add(bcd, 1, 1)
+ else:
+ util.data_add(bcd, 0, 1)
+
+ util.data_add(bcd, (time.day // 10) << 4 | (time.day % 10), 1)
+ util.data_add(bcd, (time.month // 10) << 4 | (time.month % 10), 1)
+ util.data_add(bcd,
+ ((time.year % 100) // 10) << 4 | (time.year % 10), 1)
+ util.data_add(bcd, ((century % 100) // 10) << 4 | (century % 10), 1)
+
+ self.timestamp = bcd
+ if not args.gen_err_valid_bits:
+ self.validation_bits |= self.VALIDATION_BITS["timestamp"]
+
+ if args.gen_err_valid_bits:
+ self.validation_bits = util.get_choice(name="validation",
+ value=args.gen_err_valid_bits,
+ choices=self.VALIDATION_BITS)
+
+ def __init__(self, host, port, debug=False):
+ """Initialize variables used by the QMP send logic"""
+
+ self.connected = False
+ self.host = host
+ self.port = port
+ self.debug = debug
+
+ # ACPI 6.1: 18.3.2.7.1 Generic Error Data: Generic Error Status Block
+ self.block_status = self.BLOCK_STATUS_BITS["uncorrectable"]
+ self.raw_data = []
+ self.error_severity = self.ERROR_SEVERITY["recoverable"]
+
+ # ACPI 6.1: 18.3.2.7.1 Generic Error Data: Generic Error Data Entry
+ self.validation_bits = 0
+ self.flags = 0
+ self.fru_id = bytearray(16)
+ self.fru_text = bytearray(20)
+ self.timestamp = bytearray(8)
+
+ self.qmp_monitor = QEMUMonitorProtocol(address=(self.host, self.port))
+
+ #
+ # Socket QMP send command
+ #
+ def send_cper_raw(self, cper_data):
+ """Send a raw CPER data to QEMU though QMP TCP socket"""
+
+ data = b64encode(bytes(cper_data)).decode('ascii')
+
+ cmd_arg = {
+ 'cper': data
+ }
+
+ self._connect()
+
+ if self.send_cmd("inject-ghes-error", cmd_arg):
+ print("Error injected.")
+
+ def send_cper(self, notif_type, payload):
+ """Send commands to QEMU though QMP TCP socket"""
+
+ # Fill CPER record header
+
+ # NOTE: bits 4 to 13 of block status contain the number of
+ # data entries in the data section. This is currently unsupported.
+
+ cper_length = len(payload)
+ data_length = cper_length + len(self.raw_data) + self.GENERIC_DATA_SIZE
+
+ # Generic Error Data Entry
+ gede = bytearray()
+
+ gede.extend(notif_type.to_bytes())
+ util.data_add(gede, self.error_severity, 4)
+ util.data_add(gede, 0x300, 2)
+ util.data_add(gede, self.validation_bits, 1)
+ util.data_add(gede, self.flags, 1)
+ util.data_add(gede, cper_length, 4)
+ gede.extend(self.fru_id)
+ gede.extend(self.fru_text)
+ gede.extend(self.timestamp)
+
+ # Generic Error Status Block
+ gebs = bytearray()
+
+ if self.raw_data:
+ raw_data_offset = len(gebs)
+ else:
+ raw_data_offset = 0
+
+ util.data_add(gebs, self.block_status, 4)
+ util.data_add(gebs, raw_data_offset, 4)
+ util.data_add(gebs, len(self.raw_data), 4)
+ util.data_add(gebs, data_length, 4)
+ util.data_add(gebs, self.error_severity, 4)
+
+ cper_data = bytearray()
+ cper_data.extend(gebs)
+ cper_data.extend(gede)
+ cper_data.extend(bytearray(self.raw_data))
+ cper_data.extend(bytearray(payload))
+
+ if self.debug:
+ print(f"GUID: {notif_type}")
+
+ util.dump_bytearray("Generic Error Status Block", gebs)
+ util.dump_bytearray("Generic Error Data Entry", gede)
+
+ if self.raw_data:
+ util.dump_bytearray("Raw data", bytearray(self.raw_data))
+
+ util.dump_bytearray("Payload", payload)
+
+ self.send_cper_raw(cper_data)
+
+
+ def search_qom(self, path, prop, regex):
+ """
+ Return a list of devices that match path array like:
+
+ /machine/unattached/device
+ /machine/peripheral-anon/device
+ ...
+ """
+
+ found = []
+
+ i = 0
+ while 1:
+ dev = f"{path}[{i}]"
+ args = {
+ 'path': dev,
+ 'property': prop
+ }
+ ret = self.send_cmd("qom-get", args, may_open=True, return_error=False)
+ if not ret:
+ break
+
+ if isinstance(ret, str):
+ if regex.search(ret):
+ found.append(dev)
+
+ i += 1
+ if i > 10000:
+ print("Too many objects returned by qom-get!")
+ break
+
+ return found
+
+class cper_guid:
+ """
+ Contains CPER GUID, as per:
+ https://uefi.org/specs/UEFI/2.10/Apx_N_Common_Platform_Error_Record.html
+ """
+
+ CPER_PROC_GENERIC = guid(0x9876CCAD, 0x47B4, 0x4bdb,
+ [0xB6, 0x5E, 0x16, 0xF1,
+ 0x93, 0xC4, 0xF3, 0xDB])
+
+ CPER_PROC_X86 = guid(0xDC3EA0B0, 0xA144, 0x4797,
+ [0xB9, 0x5B, 0x53, 0xFA,
+ 0x24, 0x2B, 0x6E, 0x1D])
+
+ CPER_PROC_ITANIUM = guid(0xe429faf1, 0x3cb7, 0x11d4,
+ [0xbc, 0xa7, 0x00, 0x80,
+ 0xc7, 0x3c, 0x88, 0x81])
+
+ CPER_PROC_ARM = guid(0xE19E3D16, 0xBC11, 0x11E4,
+ [0x9C, 0xAA, 0xC2, 0x05,
+ 0x1D, 0x5D, 0x46, 0xB0])
+
+ CPER_PLATFORM_MEM = guid(0xA5BC1114, 0x6F64, 0x4EDE,
+ [0xB8, 0x63, 0x3E, 0x83,
+ 0xED, 0x7C, 0x83, 0xB1])
+
+ CPER_PLATFORM_MEM2 = guid(0x61EC04FC, 0x48E6, 0xD813,
+ [0x25, 0xC9, 0x8D, 0xAA,
+ 0x44, 0x75, 0x0B, 0x12])
+
+ CPER_PCIE = guid(0xD995E954, 0xBBC1, 0x430F,
+ [0xAD, 0x91, 0xB4, 0x4D,
+ 0xCB, 0x3C, 0x6F, 0x35])
+
+ CPER_PCI_BUS = guid(0xC5753963, 0x3B84, 0x4095,
+ [0xBF, 0x78, 0xED, 0xDA,
+ 0xD3, 0xF9, 0xC9, 0xDD])
+
+ CPER_PCI_DEV = guid(0xEB5E4685, 0xCA66, 0x4769,
+ [0xB6, 0xA2, 0x26, 0x06,
+ 0x8B, 0x00, 0x13, 0x26])
+
+ CPER_FW_ERROR = guid(0x81212A96, 0x09ED, 0x4996,
+ [0x94, 0x71, 0x8D, 0x72,
+ 0x9C, 0x8E, 0x69, 0xED])
+
+ CPER_DMA_GENERIC = guid(0x5B51FEF7, 0xC79D, 0x4434,
+ [0x8F, 0x1B, 0xAA, 0x62,
+ 0xDE, 0x3E, 0x2C, 0x64])
+
+ CPER_DMA_VT = guid(0x71761D37, 0x32B2, 0x45cd,
+ [0xA7, 0xD0, 0xB0, 0xFE,
+ 0xDD, 0x93, 0xE8, 0xCF])
+
+ CPER_DMA_IOMMU = guid(0x036F84E1, 0x7F37, 0x428c,
+ [0xA7, 0x9E, 0x57, 0x5F,
+ 0xDF, 0xAA, 0x84, 0xEC])
+
+ CPER_CCIX_PER = guid(0x91335EF6, 0xEBFB, 0x4478,
+ [0xA6, 0xA6, 0x88, 0xB7,
+ 0x28, 0xCF, 0x75, 0xD7])
+
+ CPER_CXL_PROT_ERR = guid(0x80B9EFB4, 0x52B5, 0x4DE3,
+ [0xA7, 0x77, 0x68, 0x78,
+ 0x4B, 0x77, 0x10, 0x48])
Using the QMP GHESv2 API requires preparing a raw data array containing a CPER record. Add a helper script with subcommands to prepare such data. Currently, only ARM Processor error CPER record is supported. Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org> --- MAINTAINERS | 3 + scripts/arm_processor_error.py | 377 ++++++++++++++++++ scripts/ghes_inject.py | 51 +++ scripts/qmp_helper.py | 702 +++++++++++++++++++++++++++++++++ 4 files changed, 1133 insertions(+) create mode 100644 scripts/arm_processor_error.py create mode 100755 scripts/ghes_inject.py create mode 100644 scripts/qmp_helper.py