syntax = "proto3"; option go_package = "hclspec"; /* Spec allows exposing the specification for an HCL body, allowing for parsing and validation. Certain expressions within a specification may use the following functions. The documentation for each spec type above specifies where functions may be used. * `abs(number)` returns the absolute (positive) value of the given number. * `coalesce(vals...)` returns the first non-null value given. * `concat(lists...)` concatenates together all of the given lists to produce a new list. * `hasindex(val, idx)` returns true if the expression `val[idx]` could succeed. * `int(number)` returns the integer portion of the given number, rounding towards zero. * `jsondecode(str)` interprets the given string as JSON and returns the resulting data structure. * `jsonencode(val)` returns a JSON-serialized version of the given value. * `length(collection)` returns the number of elements in the given collection (list, set, map, object, or tuple). * `lower(string)` returns the given string with all uppercase letters converted to lowercase. * `max(numbers...)` returns the greatest of the given numbers. * `min(numbers...)` returns the smallest of the given numbers. * `reverse(string)` returns the given string with all of the characters in reverse order. * `strlen(string)` returns the number of characters in the given string. * `substr(string, offset, length)` returns the requested substring of the given string. * `upper(string)` returns the given string with all lowercase letters converted to uppercase. ## Type Expressions Type expressions are used to describe the expected type of an attribute, as an additional validation constraint. A type expression uses primitive type names and compound type constructors. A type constructor builds a new type based on one or more type expression arguments. The following type names and type constructors are supported: * `any` is a wildcard that accepts a value of any type. (In HCL terms, this is the _dynamic pseudo-type_.) * `string` is a Unicode string. * `number` is an arbitrary-precision floating point number. * `bool` is a boolean value (`true` or `false`) * `list(element_type)` constructs a list type with the given element type * `set(element_type)` constructs a set type with the given element type * `map(element_type)` constructs a map type with the given element type * `object({name1 = element_type, name2 = element_type, ...})` constructs an object type with the given attribute types. * `tuple([element_type, element_type, ...])` constructs a tuple type with the given element types. This can be used, for example, to require an array with a particular number of elements, or with elements of different types. `null` is a valid value of any type, and not a type itself. */ package hashicorp.nomad.plugins.shared.hclspec; // Spec defines the available specification types. message Spec { oneof block { Object object = 1; Array array = 2; Attr Attr = 3; Block block_value = 4; BlockList block_list = 5; BlockSet block_set = 6; BlockMap block_map = 7; Default default = 8; Literal literal = 9; } } /* Attr spec type reads the value of an attribute in the current body and returns that value as its result. It also creates validation constraints for the given attribute name and its value. ```hcl Attr { name = "document_root" type = string required = true } ``` `Attr` spec blocks accept the following arguments: * `name` (required) - The attribute name to expect within the HCL input file. This may be omitted when a default name selector is created by a parent `Object` spec, if the input attribute name should match the output JSON object property name. * `type` (optional) - A [type expression](#type-expressions) that the given attribute value must conform to. If this argument is set, `hcldec` will automatically convert the given input value to this type or produce an error if that is not possible. * `required` (optional) - If set to `true`, `hcldec` will produce an error if a value is not provided for the source attribute. `Attr` is a leaf spec type, so no nested spec blocks are permitted. */ message Attr { string name = 1; string type = 2; bool required = 3; } /* Block spec type applies one nested spec block to the contents of a block within the current body and returns the result of that spec. It also creates validation constraints for the given block type name. ```hcl Block { name = "logging" Object { Attr "level" { type = string } Attr "file" { type = string } } } ``` `Block` spec blocks accept the following arguments: * `name` (required) - The block type name to expect within the HCL input file. This may be omitted when a default name selector is created by a parent `Object` spec, if the input block type name should match the output JSON object property name. * `required` (optional) - If set to `true`, `hcldec` will produce an error if a block of the specified type is not present in the current body. `Block` creates a validation constraint that there must be zero or one blocks of the given type name, or exactly one if `required` is set. `Block` expects a single nested spec block, which is applied to the body of the block of the given type when it is present. */ message Block { string name = 1; bool required = 2; Spec nested = 3; } /* BlockList spec type is similar to `Block`, but it accepts zero or more blocks of a specified type rather than requiring zero or one. The result is a JSON array with one entry per block of the given type. ```hcl BlockList { name = "log_file" Object { Attr "level" { type = string } Attr "filename" { type = string required = true } } } ``` `BlockList` spec blocks accept the following arguments: * `name` (required) - The block type name to expect within the HCL input file. This may be omitted when a default name selector is created by a parent `Object` spec, if the input block type name should match the output JSON object property name. * `min_items` (optional) - If set to a number greater than zero, `hcldec` will produce an error if fewer than the given number of blocks are present. * `max_items` (optional) - If set to a number greater than zero, `hcldec` will produce an error if more than the given number of blocks are present. This attribute must be greater than or equal to `min_items` if both are set. `Block` creates a validation constraint on the number of blocks of the given type that must be present. `Block` expects a single nested spec block, which is applied to the body of each matching block to produce the resulting list items. */ message BlockList { string name = 1; uint64 min_items = 2; uint64 max_items = 3; Spec nested = 4; } /* BlockSet spec type behaves the same as BlockList except that the result is in no specific order and any duplicate items are removed. ```hcl BlockSet { name = "log_file" Object { Attr "level" { type = string } Attr "filename" { type = string required = true } } } ``` The contents of `BlockSet` are the same as for `BlockList`. */ message BlockSet { string name = 1; uint64 min_items = 2; uint64 max_items = 3; Spec nested = 4; } /* BlockMap spec type is similar to `Block`, but it accepts zero or more blocks of a specified type rather than requiring zero or one. The result is a JSON object, or possibly multiple nested JSON objects, whose properties are derived from the labels set on each matching block. ```hcl BlockMap { name = "log_file" labels = ["filename"] Object { Attr "level" { type = string required = true } } } ``` `BlockMap` spec blocks accept the following arguments: * `name` (required) - The block type name to expect within the HCL input file. This may be omitted when a default name selector is created by a parent `Object` spec, if the input block type name should match the output JSON object property name. * `labels` (required) - A list of user-oriented block label names. Each entry in this list creates one level of object within the output value, and requires one additional block header label on any child block of this type. Block header labels are the quoted strings that appear after the block type name but before the opening `{`. `Block` creates a validation constraint on the number of labels that blocks of the given type must have. `Block` expects a single nested spec block, which is applied to the body of each matching block to produce the resulting map items. */ message BlockMap { string name = 1; repeated string labels = 2; Spec nested = 3; } /* Literal spec type returns a given literal value, and creates no validation constraints. It is most commonly used with the `Default` spec type to create a fallback value, but can also be used e.g. to fill out required properties in an `Object` spec that do not correspond to any construct in the input configuration. ```hcl Literal { value = "hello world" } ``` `Literal` spec blocks accept the following argument: * `value` (required) - The value to return. This attribute may be an expression that uses [functions](#spec-definition-functions). `Literal` is a leaf spec type, so no nested spec blocks are permitted. */ message Literal { string value = 1; } /* Default spec type evaluates a sequence of nested specs in turn and returns the result of the first one that produces a non-null value. It creates no validation constraints of its own, but passes on the validation constraints from its first nested block. ```hcl Default { Attr { name = "private" type = bool } Literal { value = false } } ``` A `Default` spec block must have at least one nested spec block, and should generally have at least two since otherwise the `Default` wrapper is a no-op. The second and any subsequent spec blocks are _fallback_ specs. These exhibit their usual behavior but are not able to impose validation constraints on the current body since they are not evaluated unless all prior specs produce `null` as their result. */ message Default { Spec primary = 1; Spec default = 2; } /* Object spec type is the most commonly used at the root of a spec file. Its result is a JSON object whose properties are set based on any nested spec blocks: ```hcl Object { Attr "name" { type = "string" } Block "address" { Object { Attr "street" { type = "string" } # ... } } } ``` Nested spec blocks inside `Object` must always have an extra block label `"name"`, `"address"` and `"street"` in the above example) that specifies the name of the property that should be created in the JSON object result. This label also acts as a default name selector for the nested spec, allowing the `Attr` blocks in the above example to omit the usually-required `name` argument in cases where the HCL input name and JSON output name are the same. An `Object` spec block creates no validation constraints, but it passes on any validation constraints created by the nested specs. */ message Object { map attributes = 1; } /* Array spec type produces a JSON array whose elements are set based on any nested spec blocks: ```hcl Array { Attr { name = "first_element" type = "string" } Attr { name = "second_element" type = "string" } } ``` An `Array` spec block creates no validation constraints, but it passes on any validation constraints created by the nested specs. */ message Array { repeated Spec values = 1; }