#!/usr/bin/python # coding: utf-8 -*- """The module implements version management following semantic versioning principles with custom adaptations for Arista EOS and CloudVision Portal (CVP) software versioning schemes. Classes ------- SemVer: Base class implementing semantic versioning with comparison and matching capabilities. EosVersion: Specialized version handling for Arista EOS software releases. CvpVersion: Specialized version handling for CloudVision Portal releases. Attributes ---------- major : int Major version number. minor : int Minor version number. patch : int Patch version number. rtype : Optional[str] Release type (e.g., 'M' for maintenance, 'F' for feature). other : Any Additional version information. regex_version : ClassVar[Pattern[str]] Regular expression to extract version information. regex_branch : ClassVar[Pattern[str]] Regular expression to extract branch information. description : str A basic description of this class. Examples -------- # Basic SemVer usage: >>> version = SemVer(major=4, minor=23, patch=3) '4.23.3' # EOS version handling: >>> eos = EosVersion.from_str('4.23.3M') >>> eos.branch '4.23' # CVP version handling: >>> cvp = CvpVersion.from_str('2024.1.0') >>> str(cvp) The module enforces version format validation through regular expressions and provides comprehensive comparison operations (==, !=, <, <=, >, >=) between versions. Note: -------- - EOS versions follow the format: ..[M|F] - CVP versions follow the format: .. """ from __future__ import annotations import re import typing import logging from typing import Any, Optional, Pattern, ClassVar from loguru import logger from pydantic import BaseModel from eos_downloader.tools import exc_to_str # logger = logging.getLogger(__name__) class SemVer(BaseModel): """A class to represent a Semantic Version (SemVer) based on pydanntic. This class provides methods to parse, compare, and manipulate semantic versions. It supports standard semantic versioning with optional release type and additional version information. Examples -------- >>> version = SemVer(major=4, minor=23, patch=3, rtype="M") >>> str(version) '4.23.3M' >>> version2 = SemVer.from_str('4.24.1F') >>> version2.branch '4.24' >>> version < version2 True >>> version.match("<=4.24.0") True >>> version.is_in_branch("4.23") True Attributes ---------- major : int Major version number. minor : int Minor version number. patch : int Patch version number. rtype : Optional[str] Release type (e.g., 'M' for maintenance, 'F' for feature). other : Any Additional version information. regex_version : ClassVar[Pattern[str]] Regular expression to extract version information. regex_branch : ClassVar[Pattern[str]] Regular expression to extract branch information. description : str A basic description of this class. """ major: int = 0 minor: int = 0 patch: int = 0 rtype: Optional[str] = None other: Any = None # Regular Expression to extract version information. regex_version: ClassVar[Pattern[str]] = re.compile( r"^.*(?P\d+)\.(?P\d+)\.(?P\d{1,2})(?P\.\d*)*(?P[M,F])*$" ) regex_branch: ClassVar[Pattern[str]] = re.compile( r"^.*(?P\d+)\.(?P\d+)(\.?P\d)*(\.\d)*(?P[M,F])*$" ) # A Basic description of this class description: str = "A Generic SemVer implementation" @classmethod def from_str(cls, semver: str) -> SemVer: """Parse a string into a SemVer object. This method parses a semantic version string or branch name into a SemVer object. It supports both standard semver format (x.y.z) and branch format. Parameters ---------- semver : str The version string to parse. Can be either a semantic version string (e.g., "1.2.3") or a branch format. Returns ------- SemVer A SemVer object representing the parsed version. Returns an empty SemVer object if parsing fails. Examples -------- >>> SemVer.from_str("1.2.3") SemVer(major=1, minor=2, patch=3) >>> SemVer.from_str("branch-1.2.3") SemVer(major=1, minor=2, patch=3) """ logging.debug(f"Creating SemVer object from string: {semver}") if cls.regex_version.match(semver): matches = cls.regex_version.match(semver) # assert matches is not None assert matches is not None logging.debug(f"Matches version: {matches}") return cls(**matches.groupdict()) if cls.regex_branch.match(semver): matches = cls.regex_branch.match(semver) # assert matches is not None assert matches is not None logging.debug(f"Matches branch: {matches}") return cls(**matches.groupdict()) logging.error(f"Error occured with {semver}") return SemVer() @property def branch(self) -> str: """ Extract branch of version. Returns ------- str Branch from version. """ return f"{self.major}.{self.minor}" def __str__(self) -> str: """ Standard str representation. Return string for EOS version like 4.23.3M. Returns ------- str A standard EOS version string representing ... """ return f"{self.major}.{self.minor}.{self.patch}{self.other if self.other is not None else ''}{self.rtype if self.rtype is not None else ''}" def _compare(self, other: SemVer) -> float: """ An internal comparison function to compare 2 EosVersion objects. Do a deep comparison from Major to Release Type. The return value is: - negative if ver1 < ver2, - zero if ver1 == ver2, - strictly positive if ver1 > ver2. Parameters ---------- other : SemVer An EosVersion to compare with this object. Raises ------ ValueError Raise ValueError if input is incorrect type. Returns ------- float -1 if ver1 < ver2, 0 if ver1 == ver2, 1 if ver1 > ver2. """ if not isinstance(other, SemVer): raise ValueError( f"could not compare {other} as it is not an EosVersion object" ) comparison_flag: float = 0 for key, _ in self.dict().items(): if ( comparison_flag == 0 and self.model_dump()[key] is None or other.model_dump()[key] is None ): return comparison_flag if ( comparison_flag == 0 and self.model_dump()[key] < other.model_dump()[key] ): comparison_flag = -1 if ( comparison_flag == 0 and self.model_dump()[key] > other.model_dump()[key] ): comparison_flag = 1 if comparison_flag != 0: logging.debug( f"Comparison flag {self.model_dump()[key]} with {other.model_dump()[key]}: {comparison_flag}" ) return comparison_flag return comparison_flag @typing.no_type_check def __eq__(self, other): """Implement __eq__ function (==)""" return self._compare(other) == 0 @typing.no_type_check def __ne__(self, other): # type: ignore """Implement __nw__ function (!=)""" return self._compare(other) != 0 @typing.no_type_check def __lt__(self, other): # type: ignore """Implement __lt__ function (<)""" return self._compare(other) < 0 @typing.no_type_check def __le__(self, other): # type: ignore """Implement __le__ function (<=)""" return self._compare(other) <= 0 @typing.no_type_check def __gt__(self, other): # type: ignore """Implement __gt__ function (>)""" return self._compare(other) > 0 @typing.no_type_check def __ge__(self, other): # type: ignore """Implement __ge__ function (>=)""" return self._compare(other) >= 0 def match(self, match_expr: str) -> bool: """ Compare self to match a match expression. Parameters ---------- match_expr : str Optional operator and version; valid operators are: ``<`` smaller than ``>`` greater than ``>=`` greater or equal than ``<=`` smaller or equal than ``==`` equal ``!=`` not equal. Raises ------ ValueError If input has no match_expr nor match_ver. Returns ------- bool True if the expression matches the version, otherwise False. Examples -------- >>> eos_version.match("<=4.23.3M") True >>> eos_version.match("==4.23.3M") False """ prefix = match_expr[:2] if prefix in (">=", "<=", "==", "!="): match_version = match_expr[2:] elif prefix and prefix[0] in (">", "<"): prefix = prefix[0] match_version = match_expr[1:] elif match_expr and match_expr[0] in "0123456789": prefix = "==" match_version = match_expr else: raise ValueError( "match_expr parameter should be in format , " "where is one of " "['<', '>', '==', '<=', '>=', '!=']. " f"You provided: {match_expr}" ) possibilities_dict = { ">": (1,), "<": (-1,), "==": (0,), "!=": (-1, 1), ">=": (0, 1), "<=": (-1, 0), } possibilities = possibilities_dict[prefix] cmp_res = self._compare(SemVer.from_str(match_version)) return cmp_res in possibilities def is_in_branch(self, branch_str: str) -> bool: """ Check if current version is part of a branch version. Comparison is done across MAJOR and MINOR. Parameters ---------- branch_str : str A string for EOS branch. It supports following formats 4.23 or 4.23.0. Returns ------- bool True if current version is in provided branch, otherwise False. """ logging.info(f"Checking if {self} is in branch {branch_str}") try: branch = SemVer.from_str(branch_str) except Exception as error: # pylint: disable = broad-exception-caught logger.error(exc_to_str(error)) else: return self.major == branch.major and self.minor == branch.minor return False class EosVersion(SemVer): """EosVersion object to play with version management in code. Since EOS is not using strictly semver approach, this class mimics some functions from the semver library for Arista EOS versions. It is based on Pydantic and provides helpers for comparison. Examples -------- >>> version = EosVersion(major=4, minor=21, patch=1, rtype="M") >>> print(version) EosVersion(major=4, minor=21, patch=1, rtype='M', other=None) >>> version = EosVersion.from_str('4.32.1F') >>> print(version) EosVersion(major=4, minor=32, patch=1, rtype='F', other=None) Attributes ---------- major : int Major version number, default is 4. minor : int Minor version number, default is 0. patch : int Patch version number, default is 0. rtype : Optional[str] Release type, default is "F". other : Any Any other version information. regex_version : ClassVar[Pattern[str]] Regular expression to extract version information. regex_branch : ClassVar[Pattern[str]] Regular expression to extract branch information. description : str A basic description of this class, default is "A Generic SemVer implementation". """ major: int = 4 minor: int = 0 patch: int = 0 rtype: Optional[str] = "F" other: Any = None # Regular Expression to extract version information. regex_version: ClassVar[Pattern[str]] = re.compile( r"^.*(?P4)\.(?P\d{1,2})\.(?P\d{1,2})(?P\.\d*)*(?P[M,F])*$" ) regex_branch: ClassVar[Pattern[str]] = re.compile( r"^.*(?P4)\.(?P\d{1,2})(\.?P\d)*(\.\d)*(?P[M,F])*$" ) # A Basic description of this class description: str = "A SemVer implementation for EOS" class CvpVersion(SemVer): """A CloudVision Portal Version class that inherits from SemVer. This class implements version management for CloudVision Portal (CVP) versions following a modified semantic versioning pattern where: - major version represents the year (e.g. 2024) - minor version represents feature releases - patch version represents bug fixes Examples -------- >>> version = CvpVersion(2024, 1, 0) >>> str(version) '2024.1.0' Attributes ---------- major : int The year component of the version (e.g. 2024). minor : int The minor version number. patch : int The patch version number. rtype : Optional[str] Release type if any. other : Any Additional version information if any. regex_version : ClassVar[Pattern[str]] Regular expression to parse version strings. regex_branch : ClassVar[Pattern[str]] Regular expression to parse branch version strings. description : str Brief description of the class purpose. """ major: int = 2024 minor: int = 0 patch: int = 0 rtype: Optional[str] = None other: Any = None # Regular Expression to extract version information. regex_version: ClassVar[Pattern[str]] = re.compile( r"^.*(?P\d{4})\.(?P\d{1,2})\.(?P\d{1,2})(?P\.\d*)*$" ) regex_branch: ClassVar[Pattern[str]] = re.compile( r"^.*(?P\d{4})\.(?P\d{1,2})\.(?P\d{1,2})(?P\.\d*)*$" ) # A Basic description of this class description: str = "A SemVer implementation for CloudVision"