nixpkgs/pkgs/stdenv/generic/check-meta.nix

307 lines
12 KiB
Nix
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

# Checks derivation meta and attrs for problems (like brokenness,
# licenses, etc).
{ lib, config, hostPlatform }:
let
# If we're in hydra, we can dispense with the more verbose error
# messages and make problems easier to spot.
inHydra = config.inHydra or false;
getName = attrs: attrs.name or ("${attrs.pname or "«name-missing»"}-${attrs.version or "«version-missing»"}");
# See discussion at https://github.com/NixOS/nixpkgs/pull/25304#issuecomment-298385426
# for why this defaults to false, but I (@copumpkin) want to default it to true soon.
shouldCheckMeta = config.checkMeta or false;
allowUnfree = config.allowUnfree or false
|| builtins.getEnv "NIXPKGS_ALLOW_UNFREE" == "1";
allowlist = config.allowlistedLicenses or config.whitelistedLicenses or [];
blocklist = config.blocklistedLicenses or config.blacklistedLicenses or [];
onlyLicenses = list:
lib.lists.all (license:
let l = lib.licenses.${license.shortName or "BROKEN"} or false; in
if license == l then true else
throw ''${showLicense license} is not an attribute of lib.licenses''
) list;
areLicenseListsValid =
if lib.mutuallyExclusive allowlist blocklist then
assert onlyLicenses allowlist; assert onlyLicenses blocklist; true
else
throw "allowlistedLicenses and blocklistedLicenses are not mutually exclusive.";
hasLicense = attrs:
attrs ? meta.license;
hasAllowlistedLicense = assert areLicenseListsValid; attrs:
hasLicense attrs && lib.lists.any (l: builtins.elem l allowlist) (lib.lists.toList attrs.meta.license);
hasBlocklistedLicense = assert areLicenseListsValid; attrs:
hasLicense attrs && lib.lists.any (l: builtins.elem l blocklist) (lib.lists.toList attrs.meta.license);
allowBroken = config.allowBroken or false
|| builtins.getEnv "NIXPKGS_ALLOW_BROKEN" == "1";
allowUnsupportedSystem = config.allowUnsupportedSystem or false
|| builtins.getEnv "NIXPKGS_ALLOW_UNSUPPORTED_SYSTEM" == "1";
isUnfree = licenses: lib.lists.any (l: !l.free or true) licenses;
hasUnfreeLicense = attrs:
hasLicense attrs &&
isUnfree (lib.lists.toList attrs.meta.license);
isMarkedBroken = attrs: attrs.meta.broken or false;
hasUnsupportedPlatform = attrs:
(!lib.lists.elem hostPlatform.system (attrs.meta.platforms or lib.platforms.all) ||
lib.lists.elem hostPlatform.system (attrs.meta.badPlatforms or []));
isMarkedInsecure = attrs: (attrs.meta.knownVulnerabilities or []) != [];
# Alow granular checks to allow only some unfree packages
# Example:
# {pkgs, ...}:
# {
# allowUnfree = false;
# allowUnfreePredicate = (x: pkgs.lib.hasPrefix "vscode" x.name);
# }
allowUnfreePredicate = config.allowUnfreePredicate or (x: false);
# Check whether unfree packages are allowed and if not, whether the
# package has an unfree license and is not explicitely allowed by the
# `allowUnfreePredicate` function.
hasDeniedUnfreeLicense = attrs:
hasUnfreeLicense attrs &&
!allowUnfree &&
!allowUnfreePredicate attrs;
allowInsecureDefaultPredicate = x: builtins.elem (getName x) (config.permittedInsecurePackages or []);
allowInsecurePredicate = x: (config.allowInsecurePredicate or allowInsecureDefaultPredicate) x;
hasAllowedInsecure = attrs:
!(isMarkedInsecure attrs) ||
allowInsecurePredicate attrs ||
builtins.getEnv "NIXPKGS_ALLOW_INSECURE" == "1";
showLicense = license: toString (map (l: l.shortName or "unknown") (lib.lists.toList license));
pos_str = meta: meta.position or "«unknown-file»";
remediation = {
unfree = remediate_allowlist "Unfree" remediate_unfree_predicate;
broken = remediate_allowlist "Broken" (x: "");
unsupported = remediate_allowlist "UnsupportedSystem" (x: "");
blocklisted = x: "";
insecure = remediate_insecure;
broken-outputs = remediateOutputsToInstall;
unknown-meta = x: "";
};
remediation_env_var = allow_attr: {
Unfree = "NIXPKGS_ALLOW_UNFREE";
Broken = "NIXPKGS_ALLOW_BROKEN";
UnsupportedSystem = "NIXPKGS_ALLOW_UNSUPPORTED_SYSTEM";
}.${allow_attr};
remediation_phrase = allow_attr: {
Unfree = "unfree packages";
Broken = "broken packages";
UnsupportedSystem = "packages that are unsupported for this system";
}.${allow_attr};
remediate_unfree_predicate = attrs:
''
Alternatively you can configure a predicate to allow specific packages:
{ nixpkgs.config.allowUnfreePredicate = pkg: builtins.elem (lib.getName pkg) [
"${lib.getName attrs}"
];
}
'';
remediate_allowlist = allow_attr: rebuild_amendment: attrs:
''
a) To temporarily allow ${remediation_phrase allow_attr}, you can use an environment variable
for a single invocation of the nix tools.
$ export ${remediation_env_var allow_attr}=1
b) For `nixos-rebuild` you can set
{ nixpkgs.config.allow${allow_attr} = true; }
in configuration.nix to override this.
${rebuild_amendment attrs}
c) For `nix-env`, `nix-build`, `nix-shell` or any other Nix command you can add
{ allow${allow_attr} = true; }
to ~/.config/nixpkgs/config.nix.
'';
remediate_insecure = attrs:
''
Known issues:
'' + (lib.concatStrings (map (issue: " - ${issue}\n") attrs.meta.knownVulnerabilities)) + ''
You can install it anyway by allowing this package, using the
following methods:
a) To temporarily allow all insecure packages, you can use an environment
variable for a single invocation of the nix tools:
$ export NIXPKGS_ALLOW_INSECURE=1
b) for `nixos-rebuild` you can add ${getName attrs} to
`nixpkgs.config.permittedInsecurePackages` in the configuration.nix,
like so:
{
nixpkgs.config.permittedInsecurePackages = [
"${getName attrs}"
];
}
c) For `nix-env`, `nix-build`, `nix-shell` or any other Nix command you can add
${getName attrs} to `permittedInsecurePackages` in
~/.config/nixpkgs/config.nix, like so:
{
permittedInsecurePackages = [
"${getName attrs}"
];
}
'';
remediateOutputsToInstall = attrs: let
expectedOutputs = attrs.meta.outputsToInstall or [];
actualOutputs = attrs.outputs or [ "out" ];
missingOutputs = builtins.filter (output: ! builtins.elem output actualOutputs) expectedOutputs;
in ''
The package ${getName attrs} has set meta.outputsToInstall to: ${builtins.concatStringsSep ", " expectedOutputs}
however ${getName attrs} only has the outputs: ${builtins.concatStringsSep ", " actualOutputs}
and is missing the following ouputs:
${lib.concatStrings (builtins.map (output: " - ${output}\n") missingOutputs)}
'';
handleEvalIssue = { meta, attrs }: { reason , errormsg ? "" }:
let
msg = if inHydra
then "Failed to evaluate ${getName attrs}: «${reason}»: ${errormsg}"
else ''
Package ${getName attrs} in ${pos_str meta} ${errormsg}, refusing to evaluate.
'' + (builtins.getAttr reason remediation) attrs;
handler = if config ? handleEvalIssue
then config.handleEvalIssue reason
else throw;
in handler msg;
metaTypes = with lib.types; rec {
# These keys are documented
description = str;
mainProgram = str;
longDescription = str;
branch = str;
homepage = either (listOf str) str;
downloadPage = str;
changelog = either (listOf str) str;
license = either (listOf lib.types.attrs) (either lib.types.attrs str);
maintainers = listOf (attrsOf str);
priority = int;
platforms = listOf str;
hydraPlatforms = listOf str;
broken = bool;
unfree = bool;
unsupported = bool;
insecure = bool;
# TODO: refactor once something like Profpatsch's types-simple will land
# This is currently dead code due to https://github.com/NixOS/nix/issues/2532
tests = attrsOf (mkOptionType {
name = "test";
check = x: x == {} || ( # Accept {} for tests that are unsupported
isDerivation x &&
x ? meta.timeout
);
merge = lib.options.mergeOneOption;
});
timeout = int;
# Weirder stuff that doesn't appear in the documentation?
maxSilent = int;
knownVulnerabilities = listOf str;
name = str;
version = str;
tag = str;
updateWalker = bool;
executables = listOf str;
outputsToInstall = listOf str;
position = str;
available = bool;
repositories = attrsOf str;
isBuildPythonPackage = platforms;
schedulingPriority = int;
downloadURLRegexp = str;
isFcitxEngine = bool;
isIbusEngine = bool;
isGutenprint = bool;
badPlatforms = platforms;
};
checkMetaAttr = k: v:
if metaTypes?${k} then
if metaTypes.${k}.check v then null else "key '${k}' has a value ${toString v} of an invalid type ${builtins.typeOf v}; expected ${metaTypes.${k}.description}"
else "key '${k}' is unrecognized; expected one of: \n\t [${lib.concatMapStringsSep ", " (x: "'${x}'") (lib.attrNames metaTypes)}]";
checkMeta = meta: if shouldCheckMeta then lib.remove null (lib.mapAttrsToList checkMetaAttr meta) else [];
checkOutputsToInstall = attrs: let
expectedOutputs = attrs.meta.outputsToInstall or [];
actualOutputs = attrs.outputs or [ "out" ];
missingOutputs = builtins.filter (output: ! builtins.elem output actualOutputs) expectedOutputs;
in if shouldCheckMeta
then builtins.length missingOutputs > 0
else false;
# Check if a derivation is valid, that is whether it passes checks for
# e.g brokenness or license.
#
# Return { valid: Bool } and additionally
# { reason: String; errormsg: String } if it is not valid, where
# reason is one of "unfree", "blocklisted", "broken", "insecure", ...
# Along with a boolean flag for each reason
checkValidity = attrs:
{
unfree = hasUnfreeLicense attrs;
broken = isMarkedBroken attrs;
unsupported = hasUnsupportedPlatform attrs;
insecure = isMarkedInsecure attrs;
}
// (if hasDeniedUnfreeLicense attrs && !(hasAllowlistedLicense attrs) then
{ valid = false; reason = "unfree"; errormsg = "has an unfree license (${showLicense attrs.meta.license})"; }
else if hasBlocklistedLicense attrs then
{ valid = false; reason = "blocklisted"; errormsg = "has a blocklisted license (${showLicense attrs.meta.license})"; }
else if !allowBroken && attrs.meta.broken or false then
{ valid = false; reason = "broken"; errormsg = "is marked as broken"; }
else if !allowUnsupportedSystem && hasUnsupportedPlatform attrs then
{ valid = false; reason = "unsupported"; errormsg = "is not supported on ${hostPlatform.system}"; }
else if !(hasAllowedInsecure attrs) then
{ valid = false; reason = "insecure"; errormsg = "is marked as insecure"; }
else if checkOutputsToInstall attrs then
{ valid = false; reason = "broken-outputs"; errormsg = "has invalid meta.outputsToInstall"; }
else let res = checkMeta (attrs.meta or {}); in if res != [] then
{ valid = false; reason = "unknown-meta"; errormsg = "has an invalid meta attrset:${lib.concatMapStrings (x: "\n\t - " + x) res}"; }
else { valid = true; });
assertValidity = { meta, attrs }: let
validity = checkValidity attrs;
in validity // {
# Throw an error if trying to evaluate an non-valid derivation
handled = if !validity.valid
then handleEvalIssue { inherit meta attrs; } { inherit (validity) reason errormsg; }
else true;
};
in assertValidity