use crate::{derivation::Derivation, DerivationError}; use nix_compat::store_path::StorePath; impl Derivation { /// validate ensures a Derivation struct is properly populated, /// and returns a [ValidateDerivationError] if not. /// if `validate_output_paths` is set to false, the output paths are /// excluded from validation. /// This is helpful to validate struct population before invoking /// [Derivation::calculate_output_paths]. pub fn validate(&self, validate_output_paths: bool) -> Result<(), DerivationError> { // Ensure the number of outputs is > 1 if self.outputs.is_empty() { return Err(DerivationError::NoOutputs()); } // Validate all outputs for (output_name, output) in &self.outputs { // empty output names are invalid. // // `drv` is an invalid output name too, as this would cause // a `builtins.derivation` call to return an attrset with a // `drvPath` key (which already exists) and has a different // meaning. // // Other output names that don't match the name restrictions from // [StorePath] will fail the [StorePath::validate_name] check. if output_name.is_empty() || output_name == "drv" || StorePath::validate_name(&output_name).is_err() { return Err(DerivationError::InvalidOutputName(output_name.to_string())); } if output.is_fixed() { if self.outputs.len() != 1 { return Err(DerivationError::MoreThanOneOutputButFixed()); } if output_name != "out" { return Err(DerivationError::InvalidOutputNameForFixed( output_name.to_string(), )); } break; } if let Err(e) = output.validate(validate_output_paths) { return Err(DerivationError::InvalidOutput(output_name.to_string(), e)); } } // Validate all input_derivations for (input_derivation_path, output_names) in &self.input_derivations { // Validate input_derivation_path if let Err(e) = StorePath::from_absolute_path(input_derivation_path) { return Err(DerivationError::InvalidInputDerivationPath( input_derivation_path.to_string(), e, )); } if !input_derivation_path.ends_with(".drv") { return Err(DerivationError::InvalidInputDerivationPrefix( input_derivation_path.to_string(), )); } if output_names.is_empty() { return Err(DerivationError::EmptyInputDerivationOutputNames( input_derivation_path.to_string(), )); } for output_name in output_names.iter() { // empty output names are invalid. // // `drv` is an invalid output name too, as this would cause // a `builtins.derivation` call to return an attrset with a // `drvPath` key (which already exists) and has a different // meaning. // // Other output names that don't match the name restrictions from // [StorePath] will fail the [StorePath::validate_name] check. if output_name.is_empty() || output_name == "drv" || StorePath::validate_name(&output_name).is_err() { return Err(DerivationError::InvalidInputDerivationOutputName( input_derivation_path.to_string(), output_name.to_string(), )); } } } // Validate all input_sources for input_source in self.input_sources.iter() { if let Err(e) = StorePath::from_absolute_path(input_source) { return Err(DerivationError::InvalidInputSourcesPath( input_source.to_string(), e, )); } } // validate platform if self.system.is_empty() { return Err(DerivationError::InvalidPlatform(self.system.to_string())); } // validate builder if self.builder.is_empty() { return Err(DerivationError::InvalidBuilder(self.builder.to_string())); } // validate env, none of the keys may be empty. // We skip the `name` validation seen in go-nix. for k in self.environment.keys() { if k.is_empty() { return Err(DerivationError::InvalidEnvironmentKey(k.to_string())); } } Ok(()) } }