| # SPDX-License-Identifier: (LGPL-2.1 OR BSD-2-Clause) |
| """Parse or generate representations of perf metrics.""" |
| import ast |
| import decimal |
| import json |
| import re |
| from typing import Dict, List, Optional, Set, Tuple, Union |
| |
| |
| class Expression: |
| """Abstract base class of elements in a metric expression.""" |
| |
| def ToPerfJson(self) -> str: |
| """Returns a perf json file encoded representation.""" |
| raise NotImplementedError() |
| |
| def ToPython(self) -> str: |
| """Returns a python expr parseable representation.""" |
| raise NotImplementedError() |
| |
| def Simplify(self): |
| """Returns a simplified version of self.""" |
| raise NotImplementedError() |
| |
| def Equals(self, other) -> bool: |
| """Returns true when two expressions are the same.""" |
| raise NotImplementedError() |
| |
| def Substitute(self, name: str, expression: 'Expression') -> 'Expression': |
| raise NotImplementedError() |
| |
| def __str__(self) -> str: |
| return self.ToPerfJson() |
| |
| def __or__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('|', self, other) |
| |
| def __ror__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('|', other, self) |
| |
| def __xor__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('^', self, other) |
| |
| def __and__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('&', self, other) |
| |
| def __rand__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('&', other, self) |
| |
| def __lt__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('<', self, other) |
| |
| def __gt__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('>', self, other) |
| |
| def __add__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('+', self, other) |
| |
| def __radd__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('+', other, self) |
| |
| def __sub__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('-', self, other) |
| |
| def __rsub__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('-', other, self) |
| |
| def __mul__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('*', self, other) |
| |
| def __rmul__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('*', other, self) |
| |
| def __truediv__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('/', self, other) |
| |
| def __rtruediv__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('/', other, self) |
| |
| def __mod__(self, other: Union[int, float, 'Expression']) -> 'Operator': |
| return Operator('%', self, other) |
| |
| |
| def _Constify(val: Union[bool, int, float, Expression]) -> Expression: |
| """Used to ensure that the nodes in the expression tree are all Expression.""" |
| if isinstance(val, bool): |
| return Constant(1 if val else 0) |
| if isinstance(val, (int, float)): |
| return Constant(val) |
| return val |
| |
| |
| # Simple lookup for operator precedence, used to avoid unnecessary |
| # brackets. Precedence matches that of the simple expression parser |
| # but differs from python where comparisons are lower precedence than |
| # the bitwise &, ^, | but not the logical versions that the expression |
| # parser doesn't have. |
| _PRECEDENCE = { |
| '|': 0, |
| '^': 1, |
| '&': 2, |
| '<': 3, |
| '>': 3, |
| '+': 4, |
| '-': 4, |
| '*': 5, |
| '/': 5, |
| '%': 5, |
| } |
| |
| |
| class Operator(Expression): |
| """Represents a binary operator in the parse tree.""" |
| |
| def __init__(self, operator: str, lhs: Union[int, float, Expression], |
| rhs: Union[int, float, Expression]): |
| self.operator = operator |
| self.lhs = _Constify(lhs) |
| self.rhs = _Constify(rhs) |
| |
| def Bracket(self, |
| other: Expression, |
| other_str: str, |
| rhs: bool = False) -> str: |
| """If necessary brackets the given other value. |
| |
| If ``other`` is an operator then a bracket is necessary when |
| this/self operator has higher precedence. Consider: '(a + b) * c', |
| ``other_str`` will be 'a + b'. A bracket is necessary as without |
| the bracket 'a + b * c' will evaluate 'b * c' first. However, '(a |
| * b) + c' doesn't need a bracket as 'a * b' will always be |
| evaluated first. For 'a / (b * c)' (ie the same precedence level |
| operations) then we add the bracket to best match the original |
| input, but not for '(a / b) * c' where the bracket is unnecessary. |
| |
| Args: |
| other (Expression): is a lhs or rhs operator |
| other_str (str): ``other`` in the appropriate string form |
| rhs (bool): is ``other`` on the RHS |
| |
| Returns: |
| str: possibly bracketed other_str |
| """ |
| if isinstance(other, Operator): |
| if _PRECEDENCE.get(self.operator, -1) > _PRECEDENCE.get( |
| other.operator, -1): |
| return f'({other_str})' |
| if rhs and _PRECEDENCE.get(self.operator, -1) == _PRECEDENCE.get( |
| other.operator, -1): |
| return f'({other_str})' |
| return other_str |
| |
| def ToPerfJson(self): |
| return (f'{self.Bracket(self.lhs, self.lhs.ToPerfJson())} {self.operator} ' |
| f'{self.Bracket(self.rhs, self.rhs.ToPerfJson(), True)}') |
| |
| def ToPython(self): |
| return (f'{self.Bracket(self.lhs, self.lhs.ToPython())} {self.operator} ' |
| f'{self.Bracket(self.rhs, self.rhs.ToPython(), True)}') |
| |
| def Simplify(self) -> Expression: |
| lhs = self.lhs.Simplify() |
| rhs = self.rhs.Simplify() |
| if isinstance(lhs, Constant) and isinstance(rhs, Constant): |
| return Constant(ast.literal_eval(lhs + self.operator + rhs)) |
| |
| if isinstance(self.lhs, Constant): |
| if self.operator in ('+', '|') and lhs.value == '0': |
| return rhs |
| |
| # Simplify multiplication by 0 except for the slot event which |
| # is deliberately introduced using this pattern. |
| if self.operator == '*' and lhs.value == '0' and ( |
| not isinstance(rhs, Event) or 'slots' not in rhs.name.lower()): |
| return Constant(0) |
| |
| if self.operator == '*' and lhs.value == '1': |
| return rhs |
| |
| if isinstance(rhs, Constant): |
| if self.operator in ('+', '|') and rhs.value == '0': |
| return lhs |
| |
| if self.operator == '*' and rhs.value == '0': |
| return Constant(0) |
| |
| if self.operator == '*' and self.rhs.value == '1': |
| return lhs |
| |
| return Operator(self.operator, lhs, rhs) |
| |
| def Equals(self, other: Expression) -> bool: |
| if isinstance(other, Operator): |
| return self.operator == other.operator and self.lhs.Equals( |
| other.lhs) and self.rhs.Equals(other.rhs) |
| return False |
| |
| def Substitute(self, name: str, expression: Expression) -> Expression: |
| if self.Equals(expression): |
| return Event(name) |
| lhs = self.lhs.Substitute(name, expression) |
| rhs = None |
| if self.rhs: |
| rhs = self.rhs.Substitute(name, expression) |
| return Operator(self.operator, lhs, rhs) |
| |
| |
| class Select(Expression): |
| """Represents a select ternary in the parse tree.""" |
| |
| def __init__(self, true_val: Union[int, float, Expression], |
| cond: Union[int, float, Expression], |
| false_val: Union[int, float, Expression]): |
| self.true_val = _Constify(true_val) |
| self.cond = _Constify(cond) |
| self.false_val = _Constify(false_val) |
| |
| def ToPerfJson(self): |
| true_str = self.true_val.ToPerfJson() |
| cond_str = self.cond.ToPerfJson() |
| false_str = self.false_val.ToPerfJson() |
| return f'({true_str} if {cond_str} else {false_str})' |
| |
| def ToPython(self): |
| return (f'Select({self.true_val.ToPython()}, {self.cond.ToPython()}, ' |
| f'{self.false_val.ToPython()})') |
| |
| def Simplify(self) -> Expression: |
| cond = self.cond.Simplify() |
| true_val = self.true_val.Simplify() |
| false_val = self.false_val.Simplify() |
| if isinstance(cond, Constant): |
| return false_val if cond.value == '0' else true_val |
| |
| if true_val.Equals(false_val): |
| return true_val |
| |
| return Select(true_val, cond, false_val) |
| |
| def Equals(self, other: Expression) -> bool: |
| if isinstance(other, Select): |
| return self.cond.Equals(other.cond) and self.false_val.Equals( |
| other.false_val) and self.true_val.Equals(other.true_val) |
| return False |
| |
| def Substitute(self, name: str, expression: Expression) -> Expression: |
| if self.Equals(expression): |
| return Event(name) |
| true_val = self.true_val.Substitute(name, expression) |
| cond = self.cond.Substitute(name, expression) |
| false_val = self.false_val.Substitute(name, expression) |
| return Select(true_val, cond, false_val) |
| |
| |
| class Function(Expression): |
| """A function in an expression like min, max, d_ratio.""" |
| |
| def __init__(self, |
| fn: str, |
| lhs: Union[int, float, Expression], |
| rhs: Optional[Union[int, float, Expression]] = None): |
| self.fn = fn |
| self.lhs = _Constify(lhs) |
| self.rhs = _Constify(rhs) |
| |
| def ToPerfJson(self): |
| if self.rhs: |
| return f'{self.fn}({self.lhs.ToPerfJson()}, {self.rhs.ToPerfJson()})' |
| return f'{self.fn}({self.lhs.ToPerfJson()})' |
| |
| def ToPython(self): |
| if self.rhs: |
| return f'{self.fn}({self.lhs.ToPython()}, {self.rhs.ToPython()})' |
| return f'{self.fn}({self.lhs.ToPython()})' |
| |
| def Simplify(self) -> Expression: |
| lhs = self.lhs.Simplify() |
| rhs = self.rhs.Simplify() if self.rhs else None |
| if isinstance(lhs, Constant) and isinstance(rhs, Constant): |
| if self.fn == 'd_ratio': |
| if rhs.value == '0': |
| return Constant(0) |
| Constant(ast.literal_eval(f'{lhs} / {rhs}')) |
| return Constant(ast.literal_eval(f'{self.fn}({lhs}, {rhs})')) |
| |
| return Function(self.fn, lhs, rhs) |
| |
| def Equals(self, other: Expression) -> bool: |
| if isinstance(other, Function): |
| result = self.fn == other.fn and self.lhs.Equals(other.lhs) |
| if self.rhs: |
| result = result and self.rhs.Equals(other.rhs) |
| return result |
| return False |
| |
| def Substitute(self, name: str, expression: Expression) -> Expression: |
| if self.Equals(expression): |
| return Event(name) |
| lhs = self.lhs.Substitute(name, expression) |
| rhs = None |
| if self.rhs: |
| rhs = self.rhs.Substitute(name, expression) |
| return Function(self.fn, lhs, rhs) |
| |
| |
| def _FixEscapes(s: str) -> str: |
| s = re.sub(r'([^\\]),', r'\1\\,', s) |
| return re.sub(r'([^\\])=', r'\1\\=', s) |
| |
| |
| class Event(Expression): |
| """An event in an expression.""" |
| |
| def __init__(self, name: str, legacy_name: str = ''): |
| self.name = _FixEscapes(name) |
| self.legacy_name = _FixEscapes(legacy_name) |
| |
| def ToPerfJson(self): |
| result = re.sub('/', '@', self.name) |
| return result |
| |
| def ToPython(self): |
| return f'Event(r"{self.name}")' |
| |
| def Simplify(self) -> Expression: |
| return self |
| |
| def Equals(self, other: Expression) -> bool: |
| return isinstance(other, Event) and self.name == other.name |
| |
| def Substitute(self, name: str, expression: Expression) -> Expression: |
| return self |
| |
| |
| class Constant(Expression): |
| """A constant within the expression tree.""" |
| |
| def __init__(self, value: Union[float, str]): |
| ctx = decimal.Context() |
| ctx.prec = 20 |
| dec = ctx.create_decimal(repr(value) if isinstance(value, float) else value) |
| self.value = dec.normalize().to_eng_string() |
| self.value = self.value.replace('+', '') |
| self.value = self.value.replace('E', 'e') |
| |
| def ToPerfJson(self): |
| return self.value |
| |
| def ToPython(self): |
| return f'Constant({self.value})' |
| |
| def Simplify(self) -> Expression: |
| return self |
| |
| def Equals(self, other: Expression) -> bool: |
| return isinstance(other, Constant) and self.value == other.value |
| |
| def Substitute(self, name: str, expression: Expression) -> Expression: |
| return self |
| |
| |
| class Literal(Expression): |
| """A runtime literal within the expression tree.""" |
| |
| def __init__(self, value: str): |
| self.value = value |
| |
| def ToPerfJson(self): |
| return self.value |
| |
| def ToPython(self): |
| return f'Literal({self.value})' |
| |
| def Simplify(self) -> Expression: |
| return self |
| |
| def Equals(self, other: Expression) -> bool: |
| return isinstance(other, Literal) and self.value == other.value |
| |
| def Substitute(self, name: str, expression: Expression) -> Expression: |
| return self |
| |
| |
| def min(lhs: Union[int, float, Expression], rhs: Union[int, float, |
| Expression]) -> Function: |
| # pylint: disable=redefined-builtin |
| # pylint: disable=invalid-name |
| return Function('min', lhs, rhs) |
| |
| |
| def max(lhs: Union[int, float, Expression], rhs: Union[int, float, |
| Expression]) -> Function: |
| # pylint: disable=redefined-builtin |
| # pylint: disable=invalid-name |
| return Function('max', lhs, rhs) |
| |
| |
| def d_ratio(lhs: Union[int, float, Expression], |
| rhs: Union[int, float, Expression]) -> Function: |
| # pylint: disable=redefined-builtin |
| # pylint: disable=invalid-name |
| return Function('d_ratio', lhs, rhs) |
| |
| |
| def source_count(event: Event) -> Function: |
| # pylint: disable=redefined-builtin |
| # pylint: disable=invalid-name |
| return Function('source_count', event) |
| |
| |
| def has_event(event: Event) -> Function: |
| # pylint: disable=redefined-builtin |
| # pylint: disable=invalid-name |
| return Function('has_event', event) |
| |
| def strcmp_cpuid_str(cpuid: Event) -> Function: |
| # pylint: disable=redefined-builtin |
| # pylint: disable=invalid-name |
| return Function('strcmp_cpuid_str', cpuid) |
| |
| class Metric: |
| """An individual metric that will specifiable on the perf command line.""" |
| groups: Set[str] |
| expr: Expression |
| scale_unit: str |
| constraint: bool |
| |
| def __init__(self, |
| name: str, |
| description: str, |
| expr: Expression, |
| scale_unit: str, |
| constraint: bool = False): |
| self.name = name |
| self.description = description |
| self.expr = expr.Simplify() |
| # Workraound valid_only_metric hiding certain metrics based on unit. |
| scale_unit = scale_unit.replace('/sec', ' per sec') |
| if scale_unit[0].isdigit(): |
| self.scale_unit = scale_unit |
| else: |
| self.scale_unit = f'1{scale_unit}' |
| self.constraint = constraint |
| self.groups = set() |
| |
| def __lt__(self, other): |
| """Sort order.""" |
| return self.name < other.name |
| |
| def AddToMetricGroup(self, group): |
| """Callback used when being added to a MetricGroup.""" |
| self.groups.add(group.name) |
| |
| def Flatten(self) -> Set['Metric']: |
| """Return a leaf metric.""" |
| return set([self]) |
| |
| def ToPerfJson(self) -> Dict[str, str]: |
| """Return as dictionary for Json generation.""" |
| result = { |
| 'MetricName': self.name, |
| 'MetricGroup': ';'.join(sorted(self.groups)), |
| 'BriefDescription': self.description, |
| 'MetricExpr': self.expr.ToPerfJson(), |
| 'ScaleUnit': self.scale_unit |
| } |
| if self.constraint: |
| result['MetricConstraint'] = 'NO_NMI_WATCHDOG' |
| |
| return result |
| |
| |
| class _MetricJsonEncoder(json.JSONEncoder): |
| """Special handling for Metric objects.""" |
| |
| def default(self, o): |
| if isinstance(o, Metric): |
| return o.ToPerfJson() |
| return json.JSONEncoder.default(self, o) |
| |
| |
| class MetricGroup: |
| """A group of metrics. |
| |
| Metric groups may be specificd on the perf command line, but within |
| the json they aren't encoded. Metrics may be in multiple groups |
| which can facilitate arrangements similar to trees. |
| """ |
| |
| def __init__(self, name: str, metric_list: List[Union[Metric, |
| 'MetricGroup']]): |
| self.name = name |
| self.metric_list = metric_list |
| for metric in metric_list: |
| metric.AddToMetricGroup(self) |
| |
| def AddToMetricGroup(self, group): |
| """Callback used when a MetricGroup is added into another.""" |
| for metric in self.metric_list: |
| metric.AddToMetricGroup(group) |
| |
| def Flatten(self) -> Set[Metric]: |
| """Returns a set of all leaf metrics.""" |
| result = set() |
| for x in self.metric_list: |
| result = result.union(x.Flatten()) |
| |
| return result |
| |
| def ToPerfJson(self) -> str: |
| return json.dumps(sorted(self.Flatten()), indent=2, cls=_MetricJsonEncoder) |
| |
| def __str__(self) -> str: |
| return self.ToPerfJson() |
| |
| |
| class _RewriteIfExpToSelect(ast.NodeTransformer): |
| """Transformer to convert if-else nodes to Select expressions.""" |
| |
| def visit_IfExp(self, node): |
| # pylint: disable=invalid-name |
| self.generic_visit(node) |
| call = ast.Call( |
| func=ast.Name(id='Select', ctx=ast.Load()), |
| args=[node.body, node.test, node.orelse], |
| keywords=[]) |
| ast.copy_location(call, node.test) |
| return call |
| |
| |
| def ParsePerfJson(orig: str) -> Expression: |
| """A simple json metric expression decoder. |
| |
| Converts a json encoded metric expression by way of python's ast and |
| eval routine. First tokens are mapped to Event calls, then |
| accidentally converted keywords or literals are mapped to their |
| appropriate calls. Python's ast is used to match if-else that can't |
| be handled via operator overloading. Finally the ast is evaluated. |
| |
| Args: |
| orig (str): String to parse. |
| |
| Returns: |
| Expression: The parsed string. |
| """ |
| # pylint: disable=eval-used |
| py = orig.strip() |
| # First try to convert everything that looks like a string (event name) into Event(r"EVENT_NAME"). |
| # This isn't very selective so is followed up by converting some unwanted conversions back again |
| py = re.sub(r'([a-zA-Z][^-+/\* \\\(\),]*(?:\\.[^-+/\* \\\(\),]*)*)', |
| r'Event(r"\1")', py) |
| # If it started with a # it should have been a literal, rather than an event name |
| py = re.sub(r'#Event\(r"([^"]*)"\)', r'Literal("#\1")', py) |
| # Convert accidentally converted hex constants ("0Event(r"xDEADBEEF)"") back to a constant, |
| # but keep it wrapped in Event(), otherwise Python drops the 0x prefix and it gets interpreted as |
| # a double by the Bison parser |
| py = re.sub(r'0Event\(r"[xX]([0-9a-fA-F]*)"\)', r'Event("0x\1")', py) |
| # Convert accidentally converted scientific notation constants back |
| py = re.sub(r'([0-9]+)Event\(r"(e[0-9]+)"\)', r'\1\2', py) |
| # Convert all the known keywords back from events to just the keyword |
| keywords = ['if', 'else', 'min', 'max', 'd_ratio', 'source_count', 'has_event', 'strcmp_cpuid_str', |
| 'cpuid_not_more_than'] |
| for kw in keywords: |
| py = re.sub(rf'Event\(r"{kw}"\)', kw, py) |
| try: |
| parsed = ast.parse(py, mode='eval') |
| except SyntaxError as e: |
| raise SyntaxError(f'Parsing expression:\n{orig}') from e |
| _RewriteIfExpToSelect().visit(parsed) |
| parsed = ast.fix_missing_locations(parsed) |
| return _Constify(eval(compile(parsed, orig, 'eval'))) |
| |
| |
| def RewriteMetricsInTermsOfOthers(metrics: List[Tuple[str, str, Expression]] |
| )-> Dict[Tuple[str, str], Expression]: |
| """Shorten metrics by rewriting in terms of others. |
| |
| Args: |
| metrics (list): pmus, metric names and their expressions. |
| Returns: |
| Dict: mapping from a pmu, metric name pair to a shortened expression. |
| """ |
| updates: Dict[Tuple[str, str], Expression] = dict() |
| for outer_pmu, outer_name, outer_expression in metrics: |
| if outer_pmu is None: |
| outer_pmu = 'cpu' |
| updated = outer_expression |
| while True: |
| for inner_pmu, inner_name, inner_expression in metrics: |
| if inner_pmu is None: |
| inner_pmu = 'cpu' |
| if inner_pmu.lower() != outer_pmu.lower(): |
| continue |
| if inner_name.lower() == outer_name.lower(): |
| continue |
| if (inner_pmu, inner_name) in updates: |
| inner_expression = updates[(inner_pmu, inner_name)] |
| updated = updated.Substitute(inner_name, inner_expression) |
| if updated.Equals(outer_expression): |
| break |
| if (outer_pmu, outer_name) in updates and updated.Equals(updates[(outer_pmu, outer_name)]): |
| break |
| updates[(outer_pmu, outer_name)] = updated |
| return updates |