use crate::extensions::Extensions; use crate::parser::query::{Directive, Field, SelectionSet}; use crate::schema::SchemaEnv; use crate::{ InputValueType, Lookahead, Pos, Positioned, QueryError, QueryResponse, Result, Type, Value, }; use async_graphql_parser::query::Document; use async_graphql_parser::UploadValue; use fnv::FnvHashMap; use futures::Future; use parking_lot::Mutex; use std::any::{Any, TypeId}; use std::collections::BTreeMap; use std::fs::File; use std::ops::{Deref, DerefMut}; use std::pin::Pin; use std::sync::atomic::AtomicUsize; use std::sync::Arc; /// Variables of query #[derive(Debug, Clone)] pub struct Variables(Value); impl Default for Variables { fn default() -> Self { Self(Value::Object(Default::default())) } } impl Deref for Variables { type Target = BTreeMap; fn deref(&self) -> &Self::Target { if let Value::Object(obj) = &self.0 { obj } else { unreachable!() } } } impl DerefMut for Variables { fn deref_mut(&mut self) -> &mut Self::Target { if let Value::Object(obj) = &mut self.0 { obj } else { unreachable!() } } } impl Variables { /// Parse variables from JSON object. pub fn parse_from_json(value: serde_json::Value) -> Result { if let Value::Object(obj) = value.into() { Ok(Variables(Value::Object(obj))) } else { Ok(Default::default()) } } pub(crate) fn set_upload( &mut self, var_path: &str, filename: String, content_type: Option, content: File, ) { let mut it = var_path.split('.').peekable(); if let Some(first) = it.next() { if first != "variables" { return; } } let mut current = &mut self.0; while let Some(s) = it.next() { let has_next = it.peek().is_some(); if let Ok(idx) = s.parse::() { if let Value::List(ls) = current { if let Some(value) = ls.get_mut(idx as usize) { if !has_next { *value = Value::Upload(UploadValue { filename, content_type, content, }); return; } else { current = value; } } else { return; } } } else if let Value::Object(obj) = current { if let Some(value) = obj.get_mut(s) { if !has_next { *value = Value::Upload(UploadValue { filename, content_type, content, }); return; } else { current = value; } } else { return; } } } } } #[derive(Default)] /// Schema/Context data pub struct Data(FnvHashMap>); impl Data { #[allow(missing_docs)] pub fn insert(&mut self, data: D) { self.0.insert(TypeId::of::(), Box::new(data)); } } /// Context for `SelectionSet` pub type ContextSelectionSet<'a> = ContextBase<'a, &'a Positioned>; /// Context object for resolve field pub type Context<'a> = ContextBase<'a, &'a Positioned>; /// The query path segment #[derive(Clone)] pub enum QueryPathSegment<'a> { /// Index Index(usize), /// Field name Name(&'a str), } /// The query path node #[derive(Clone)] pub struct QueryPathNode<'a> { /// Parent node pub parent: Option<&'a QueryPathNode<'a>>, /// Current path segment pub segment: QueryPathSegment<'a>, } impl<'a> std::fmt::Display for QueryPathNode<'a> { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { let mut first = true; self.for_each(|segment| { if !first { write!(f, ".").ok(); } match segment { QueryPathSegment::Index(idx) => { write!(f, "{}", *idx).ok(); } QueryPathSegment::Name(name) => { write!(f, "{}", name).ok(); } } first = false; }); Ok(()) } } impl<'a> QueryPathNode<'a> { pub(crate) fn field_name(&self) -> &str { let mut p = self; loop { if let QueryPathSegment::Name(name) = &p.segment { return name; } p = p.parent.unwrap(); } } pub(crate) fn for_each)>(&self, mut f: F) { self.for_each_ref(&mut f); } fn for_each_ref)>(&self, f: &mut F) { if let Some(parent) = &self.parent { parent.for_each_ref(f); } f(&self.segment); } #[doc(hidden)] pub fn to_json(&self) -> Vec { let mut path: Vec = Vec::new(); self.for_each(|segment| { path.push(match segment { QueryPathSegment::Index(idx) => (*idx).into(), QueryPathSegment::Name(name) => (*name).to_string().into(), }) }); path } } /// Represents the unique id of the resolve #[derive(Copy, Clone, Debug)] pub struct ResolveId { /// Parent id pub parent: Option, /// Current id pub current: usize, } impl ResolveId { pub(crate) fn root() -> ResolveId { ResolveId { parent: None, current: 0, } } } impl std::fmt::Display for ResolveId { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { if let Some(parent) = self.parent { write!(f, "{}:{}", parent, self.current) } else { write!(f, "{}", self.current) } } } #[doc(hidden)] pub type BoxDeferFuture = Pin> + Send + 'static>>; #[doc(hidden)] pub struct DeferList { pub path_prefix: Vec, pub futures: Mutex>, } impl DeferList { pub(crate) fn append(&self, fut: F) where F: Future> + Send + 'static, { self.futures.lock().push(Box::pin(fut)); } } /// Query context #[derive(Clone)] pub struct ContextBase<'a, T> { #[allow(missing_docs)] pub path_node: Option>, pub(crate) resolve_id: ResolveId, pub(crate) inc_resolve_id: &'a AtomicUsize, #[doc(hidden)] pub item: T, pub(crate) schema_env: &'a SchemaEnv, pub(crate) query_env: &'a QueryEnv, pub(crate) defer_list: Option<&'a DeferList>, } impl<'a, T> Deref for ContextBase<'a, T> { type Target = T; fn deref(&self) -> &Self::Target { &self.item } } #[doc(hidden)] pub struct QueryEnvInner { pub extensions: Extensions, pub variables: Variables, pub document: Document, pub ctx_data: Arc, } #[doc(hidden)] #[derive(Clone)] pub struct QueryEnv(Arc); impl Deref for QueryEnv { type Target = QueryEnvInner; fn deref(&self) -> &Self::Target { &self.0 } } impl QueryEnv { #[doc(hidden)] pub fn new( extensions: Extensions, variables: Variables, document: Document, ctx_data: Arc, ) -> QueryEnv { QueryEnv(Arc::new(QueryEnvInner { extensions, variables, document, ctx_data, })) } #[doc(hidden)] pub fn create_context<'a, T>( &'a self, schema_env: &'a SchemaEnv, path_node: Option>, item: T, inc_resolve_id: &'a AtomicUsize, defer_list: Option<&'a DeferList>, ) -> ContextBase<'a, T> { ContextBase { path_node, resolve_id: ResolveId::root(), inc_resolve_id, item, schema_env, query_env: self, defer_list, } } } impl<'a, T> ContextBase<'a, T> { fn get_child_resolve_id(&self) -> ResolveId { let id = self .inc_resolve_id .fetch_add(1, std::sync::atomic::Ordering::Relaxed) + 1; ResolveId { parent: Some(self.resolve_id.current), current: id, } } #[doc(hidden)] pub fn with_field( &'a self, field: &'a Positioned, ) -> ContextBase<'a, &'a Positioned> { ContextBase { path_node: Some(QueryPathNode { parent: self.path_node.as_ref(), segment: QueryPathSegment::Name( field .alias .as_ref() .map(|alias| alias.as_str()) .unwrap_or_else(|| field.name.as_str()), ), }), item: field, resolve_id: self.get_child_resolve_id(), inc_resolve_id: self.inc_resolve_id, schema_env: self.schema_env, query_env: self.query_env, defer_list: self.defer_list, } } #[doc(hidden)] pub fn with_selection_set( &self, selection_set: &'a Positioned, ) -> ContextBase<'a, &'a Positioned> { ContextBase { path_node: self.path_node.clone(), item: selection_set, resolve_id: self.resolve_id, inc_resolve_id: &self.inc_resolve_id, schema_env: self.schema_env, query_env: self.query_env, defer_list: self.defer_list, } } /// Gets the global data defined in the `Context` or `Schema`. /// /// If both `Schema` and `Query` have the same data type, the data in the `Query` is obtained. /// /// # Panics /// /// It will panic if the specified data type does not exist. pub fn data(&self) -> &D { self.data_opt::() .expect("The specified data type does not exist.") } /// Gets the global data defined in the `Context` or `Schema`, returns `None` if the specified type data does not exist. pub fn data_opt(&self) -> Option<&D> { self.query_env .ctx_data .0 .get(&TypeId::of::()) .or_else(|| self.schema_env.data.0.get(&TypeId::of::())) .and_then(|d| d.downcast_ref::()) } fn var_value(&self, name: &str, pos: Pos) -> Result { let def = self .query_env .document .current_operation() .variable_definitions .iter() .find(|def| def.name.node == name); if let Some(def) = def { if let Some(var_value) = self.query_env.variables.get(def.name.as_str()) { return Ok(var_value.clone()); } else if let Some(default) = &def.default_value { return Ok(default.clone_inner()); } } Err(QueryError::VarNotDefined { var_name: name.to_string(), } .into_error(pos)) } fn resolve_input_value(&self, mut value: Value, pos: Pos) -> Result { match value { Value::Variable(var_name) => self.var_value(&var_name, pos), Value::List(ref mut ls) => { for value in ls { if let Value::Variable(var_name) = value { *value = self.var_value(&var_name, pos)?; } } Ok(value) } Value::Object(ref mut obj) => { for value in obj.values_mut() { if let Value::Variable(var_name) = value { *value = self.var_value(&var_name, pos)?; } } Ok(value) } _ => Ok(value), } } #[doc(hidden)] pub fn is_skip(&self, directives: &[Positioned]) -> Result { for directive in directives { if directive.name.node == "skip" { if let Some(value) = directive.get_argument("if") { match InputValueType::parse( self.resolve_input_value(value.clone_inner(), value.position())?, ) { Ok(true) => return Ok(true), Ok(false) => {} Err(err) => { return Err(err.into_error(value.pos, bool::qualified_type_name())) } } } else { return Err(QueryError::RequiredDirectiveArgs { directive: "@skip", arg_name: "if", arg_type: "Boolean!", } .into_error(directive.position())); } } else if directive.name.node == "include" { if let Some(value) = directive.get_argument("if") { match InputValueType::parse( self.resolve_input_value(value.clone_inner(), value.position())?, ) { Ok(false) => return Ok(true), Ok(true) => {} Err(err) => { return Err(err.into_error(value.pos, bool::qualified_type_name())) } } } else { return Err(QueryError::RequiredDirectiveArgs { directive: "@include", arg_name: "if", arg_type: "Boolean!", } .into_error(directive.position())); } } } Ok(false) } #[doc(hidden)] pub fn is_defer(&self, directives: &[Positioned]) -> bool { directives.iter().any(|d| d.name.node == "defer") } #[doc(hidden)] pub fn is_stream(&self, directives: &[Positioned]) -> bool { directives.iter().any(|d| d.name.node == "stream") } } impl<'a> ContextBase<'a, &'a Positioned> { #[doc(hidden)] pub fn with_index(&'a self, idx: usize) -> ContextBase<'a, &'a Positioned> { ContextBase { path_node: Some(QueryPathNode { parent: self.path_node.as_ref(), segment: QueryPathSegment::Index(idx), }), item: self.item, resolve_id: self.get_child_resolve_id(), inc_resolve_id: self.inc_resolve_id, schema_env: self.schema_env, query_env: self.query_env, defer_list: self.defer_list, } } } impl<'a> ContextBase<'a, &'a Positioned> { #[doc(hidden)] pub fn param_value Value>( &self, name: &str, default: F, ) -> Result { match self.get_argument(name).cloned() { Some(value) => { let pos = value.position(); let value = self.resolve_input_value(value.into_inner(), pos)?; match InputValueType::parse(value) { Ok(res) => Ok(res), Err(err) => Err(err.into_error(pos, T::qualified_type_name())), } } None => { let value = default(); match InputValueType::parse(value) { Ok(res) => Ok(res), Err(err) => { // The default value has no valid location. Err(err.into_error(Pos::default(), T::qualified_type_name())) } } } } } #[doc(hidden)] pub fn result_name(&self) -> &str { self.item .alias .as_ref() .map(|alias| alias.as_str()) .unwrap_or_else(|| self.item.name.as_str()) } /// Get the position of the current field in the query code. pub fn position(&self) -> Pos { self.pos } /// Creates a uniform interface to inspect the forthcoming selections. /// /// # Examples /// /// ```no_run /// use async_graphql::*; /// /// #[SimpleObject] /// struct Detail { /// c: i32, /// d: i32, /// } /// /// #[SimpleObject] /// struct MyObj { /// a: i32, /// b: i32, /// #[field(ref)] /// detail: Detail, /// } /// /// struct Query; /// /// #[Object] /// impl Query { /// async fn obj(&self, ctx: &Context<'_>) -> MyObj { /// if ctx.look_ahead().field("a").exists() { /// // This is a query like `obj { a }` /// } else if ctx.look_ahead().field("detail").field("c").exists() { /// // This is a query like `obj { detail { c } }` /// } else { /// // This query doesn't have `a` /// } /// unimplemented!() /// } /// } /// ``` pub fn look_ahead(&self) -> Lookahead { Lookahead { document: &self.query_env.document, field: Some(&self.item.node), } } }