{"$message_type":"diagnostic","message":"cannot find type `Incoming` in crate `http_body_util`","code":{"code":"E0425","explanation":"An unresolved name was used.\n\nErroneous code examples:\n\n```compile_fail,E0425\nsomething_that_doesnt_exist::foo;\n// error: unresolved name `something_that_doesnt_exist::foo`\n\n// or:\n\ntrait Foo {\n fn bar() {\n Self; // error: unresolved name `Self`\n }\n}\n\n// or:\n\nlet x = unknown_variable; // error: unresolved name `unknown_variable`\n```\n\nPlease verify that the name wasn't misspelled and ensure that the\nidentifier being referred to is valid for the given situation. Example:\n\n```\nenum something_that_does_exist {\n Foo,\n}\n```\n\nOr:\n\n```\nmod something_that_does_exist {\n pub static foo : i32 = 0i32;\n}\n\nsomething_that_does_exist::foo; // ok!\n```\n\nOr:\n\n```\nlet unknown_variable = 12u32;\nlet x = unknown_variable; // ok!\n```\n\nIf the item is not defined in the current module, it must be imported using a\n`use` statement, like so:\n\n```\n# mod foo { pub fn bar() {} }\n# fn main() {\nuse foo::bar;\nbar();\n# }\n```\n\nIf the item you are importing is not defined in some super-module of the\ncurrent module, then it must also be declared as public (e.g., `pub fn`).\n"},"level":"error","spans":[{"file_name":"archipelago/src/api/handler.rs","byte_start":723,"byte_end":731,"line_start":29,"line_end":29,"column_start":38,"column_end":46,"is_primary":true,"text":[{"text":" req: Request<http_body_util::Incoming>,","highlight_start":38,"highlight_end":46}],"label":"not found in `http_body_util`","suggested_replacement":null,"suggestion_applicability":null,"expansion":null}],"children":[{"message":"consider importing one of these structs","code":null,"level":"help","spans":[{"file_name":"archipelago/src/api/handler.rs","byte_start":0,"byte_end":0,"line_start":1,"line_end":1,"column_start":1,"column_end":1,"is_primary":true,"text":[{"text":"use crate::api::rpc::RpcHandler;","highlight_start":1,"highlight_end":1}],"label":null,"suggested_replacement":"use std::net::Incoming;\n","suggestion_applicability":"MaybeIncorrect","expansion":null},{"file_name":"archipelago/src/api/handler.rs","byte_start":0,"byte_end":0,"line_start":1,"line_end":1,"column_start":1,"column_end":1,"is_primary":true,"text":[{"text":"use crate::api::rpc::RpcHandler;","highlight_start":1,"highlight_end":1}],"label":null,"suggested_replacement":"use std::os::unix::net::Incoming;\n","suggestion_applicability":"MaybeIncorrect","expansion":null}],"children":[],"rendered":null},{"message":"if you import `Incoming`, refer to it directly","code":null,"level":"help","spans":[{"file_name":"archipelago/src/api/handler.rs","byte_start":707,"byte_end":723,"line_start":29,"line_end":29,"column_start":22,"column_end":38,"is_primary":true,"text":[{"text":" req: Request<http_body_util::Incoming>,","highlight_start":22,"highlight_end":38}],"label":null,"suggested_replacement":"","suggestion_applicability":"Unspecified","expansion":null}],"children":[],"rendered":null}],"rendered":"\u001b[1m\u001b[91merror[E0425]\u001b[0m\u001b[1m: cannot find type `Incoming` in crate `http_body_util`\u001b[0m\n \u001b[1m\u001b[94m--> \u001b[0marchipelago/src/api/handler.rs:29:38\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[94m29\u001b[0m \u001b[1m\u001b[94m|\u001b[0m req: Request<http_body_util::Incoming>,\n \u001b[1m\u001b[94m|\u001b[0m \u001b[1m\u001b[91m^^^^^^^^\u001b[0m \u001b[1m\u001b[91mnot found in `http_body_util`\u001b[0m\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[96mhelp\u001b[0m: consider importing one of these structs\n \u001b[1m\u001b[94m|\u001b[0m\n \u001b[1m\u001b[94m1\u001b[0m \u001b[92m+ use std::net::Incoming;\u001b[0m\n \u001b[1m\u001b[94m|\u001b[0m\n \u001b[1m\u001b[94m1\u001b[0m \u001b[92m+ use std::os::unix::net::Incoming;\u001b[0m\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[96mhelp\u001b[0m: if you import `Incoming`, refer to it directly\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[94m29\u001b[0m \u001
{"$message_type":"diagnostic","message":"unused import: `tokio::sync::RwLock`","code":{"code":"unused_imports","explanation":null},"level":"warning","spans":[{"file_name":"archipelago/src/container/dev_orchestrator.rs","byte_start":246,"byte_end":265,"line_start":8,"line_end":8,"column_start":5,"column_end":24,"is_primary":true,"text":[{"text":"use tokio::sync::RwLock;","highlight_start":5,"highlight_end":24}],"label":null,"suggested_replacement":null,"suggestion_applicability":null,"expansion":null}],"children":[{"message":"remove the whole `use` item","code":null,"level":"help","spans":[{"file_name":"archipelago/src/container/dev_orchestrator.rs","byte_start":242,"byte_end":267,"line_start":8,"line_end":9,"column_start":1,"column_end":1,"is_primary":true,"text":[{"text":"use tokio::sync::RwLock;","highlight_start":1,"highlight_end":25},{"text":"","highlight_start":1,"highlight_end":1}],"label":null,"suggested_replacement":"","suggestion_applicability":"MachineApplicable","expansion":null}],"children":[],"rendered":null}],"rendered":"\u001b[1m\u001b[33mwarning\u001b[0m\u001b[1m: unused import: `tokio::sync::RwLock`\u001b[0m\n \u001b[1m\u001b[94m--> \u001b[0marchipelago/src/container/dev_orchestrator.rs:8:5\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[94m8\u001b[0m \u001b[1m\u001b[94m|\u001b[0m use tokio::sync::RwLock;\n \u001b[1m\u001b[94m|\u001b[0m \u001b[1m\u001b[33m^^^^^^^^^^^^^^^^^^^\u001b[0m\n\n"}
{"$message_type":"diagnostic","message":"unused import: `data_manager::DevDataManager`","code":{"code":"unused_imports","explanation":null},"level":"warning","spans":[{"file_name":"archipelago/src/container/mod.rs","byte_start":57,"byte_end":85,"line_start":4,"line_end":4,"column_start":9,"column_end":37,"is_primary":true,"text":[{"text":"pub use data_manager::DevDataManager;","highlight_start":9,"highlight_end":37}],"label":null,"suggested_replacement":null,"suggestion_applicability":null,"expansion":null}],"children":[{"message":"remove the whole `use` item","code":null,"level":"help","spans":[{"file_name":"archipelago/src/container/mod.rs","byte_start":49,"byte_end":87,"line_start":4,"line_end":5,"column_start":1,"column_end":1,"is_primary":true,"text":[{"text":"pub use data_manager::DevDataManager;","highlight_start":1,"highlight_end":38},{"text":"pub use dev_orchestrator::DevContainerOrchestrator;","highlight_start":1,"highlight_end":1}],"label":null,"suggested_replacement":"","suggestion_applicability":"MachineApplicable","expansion":null}],"children":[],"rendered":null}],"rendered":"\u001b[1m\u001b[33mwarning\u001b[0m\u001b[1m: unused import: `data_manager::DevDataManager`\u001b[0m\n \u001b[1m\u001b[94m--> \u001b[0marchipelago/src/container/mod.rs:4:9\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[94m4\u001b[0m \u001b[1m\u001b[94m|\u001b[0m pub use data_manager::DevDataManager;\n \u001b[1m\u001b[94m|\u001b[0m \u001b[1m\u001b[33m^^^^^^^^^^^^^^^^^^^^^^^^^^^^\u001b[0m\n\n"}
{"$message_type":"diagnostic","message":"type annotations needed","code":{"code":"E0282","explanation":"The compiler could not infer a type and asked for a type annotation.\n\nErroneous code example:\n\n```compile_fail,E0282\nlet x = Vec::new();\n```\n\nThis error indicates that type inference did not result in one unique possible\ntype, and extra information is required. In most cases this can be provided\nby adding a type annotation. Sometimes you need to specify a generic type\nparameter manually.\n\nIn the example above, type `Vec` has a type parameter `T`. When calling\n`Vec::new`, barring any other later usage of the variable `x` that allows the\ncompiler to infer what type `T` is, the compiler needs to be told what it is.\n\nThe type can be specified on the variable:\n\n```\nlet x: Vec<i32> = Vec::new();\n```\n\nThe type can also be specified in the path of the expression:\n\n```\nlet x = Vec::<i32>::new();\n```\n\nIn cases with more complex types, it is not necessary to annotate the full\ntype. Once the ambiguity is resolved, the compiler can infer the rest:\n\n```\nlet x: Vec<_> = \"hello\".chars().rev().collect();\n```\n\nAnother way to provide the compiler with enough information, is to specify the\ngeneric type parameter:\n\n```\nlet x = \"hello\".chars().rev().collect::<Vec<char>>();\n```\n\nAgain, you need not specify the full type if the compiler can infer it:\n\n```\nlet x = \"hello\".chars().rev().collect::<Vec<_>>();\n```\n\nApart from a method or function with a generic type parameter, this error can\noccur when a type parameter of a struct or trait cannot be inferred. In that\ncase it is not always possible to use a type annotation, because all candidates\nhave the same return type. For instance:\n\n```compile_fail,E0282\nstruct Foo<T> {\n num: T,\n}\n\nimpl<T> Foo<T> {\n fn bar() -> i32 {\n 0\n }\n\n fn baz() {\n let number = Foo::bar();\n }\n}\n```\n\nThis will fail because the compiler does not know which instance of `Foo` to\ncall `bar` on. Change `Foo::bar()` to `Foo::<T>::bar()` to resolve the error.\n"},"level":"error","spans":[{"file_name":"archipelago/src/api/handler.rs","byte_start":1136,"byte_end":1140,"line_start":38,"line_end":38,"column_start":59,"column_end":63,"is_primary":true,"text":[{"text":" let collected: http_body_util::Collected<Bytes> = body.collect().await","highlight_start":59,"highlight_end":63}],"label":"cannot infer type","suggested_replacement":null,"suggestion_applicability":null,"expansion":null}],"children":[],"rendered":"\u001b[1m\u001b[91merror[E0282]\u001b[0m\u001b[1m: type annotations needed\u001b[0m\n \u001b[1m\u001b[94m--> \u001b[0marchipelago/src/api/handler.rs:38:59\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[94m38\u001b[0m \u001b[1m\u001b[94m|\u001b[0m let collected: http_body_util::Collected<Bytes> = body.collect().await\n \u001b[1m\u001b[94m|\u001b[0m \u001b[1m\u001b[91m^^^^\u001b[0m \u001b[1m\u001b[91mcannot infer type\u001b[0m\n\n"}
{"$message_type":"diagnostic","message":"type annotations needed","code":{"code":"E0282","explanation":"The compiler could not infer a type and asked for a type annotation.\n\nErroneous code example:\n\n```compile_fail,E0282\nlet x = Vec::new();\n```\n\nThis error indicates that type inference did not result in one unique possible\ntype, and extra information is required. In most cases this can be provided\nby adding a type annotation. Sometimes you need to specify a generic type\nparameter manually.\n\nIn the example above, type `Vec` has a type parameter `T`. When calling\n`Vec::new`, barring any other later usage of the variable `x` that allows the\ncompiler to infer what type `T` is, the compiler needs to be told what it is.\n\nThe type can be specified on the variable:\n\n```\nlet x: Vec<i32> = Vec::new();\n```\n\nThe type can also be specified in the path of the expression:\n\n```\nlet x = Vec::<i32>::new();\n```\n\nIn cases with more complex types, it is not necessary to annotate the full\ntype. Once the ambiguity is resolved, the compiler can infer the rest:\n\n```\nlet x: Vec<_> = \"hello\".chars().rev().collect();\n```\n\nAnother way to provide the compiler with enough information, is to specify the\ngeneric type parameter:\n\n```\nlet x = \"hello\".chars().rev().collect::<Vec<char>>();\n```\n\nAgain, you need not specify the full type if the compiler can infer it:\n\n```\nlet x = \"hello\".chars().rev().collect::<Vec<_>>();\n```\n\nApart from a method or function with a generic type parameter, this error can\noccur when a type parameter of a struct or trait cannot be inferred. In that\ncase it is not always possible to use a type annotation, because all candidates\nhave the same return type. For instance:\n\n```compile_fail,E0282\nstruct Foo<T> {\n num: T,\n}\n\nimpl<T> Foo<T> {\n fn bar() -> i32 {\n 0\n }\n\n fn baz() {\n let number = Foo::bar();\n }\n}\n```\n\nThis will fail because the compiler does not know which instance of `Foo` to\ncall `bar` on. Change `Foo::bar()` to `Foo::<T>::bar()` to resolve the error.\n"},"level":"error","spans":[{"file_name":"archipelago/src/api/handler.rs","byte_start":1136,"byte_end":1156,"line_start":38,"line_end":38,"column_start":59,"column_end":79,"is_primary":true,"text":[{"text":" let collected: http_body_util::Collected<Bytes> = body.collect().await","highlight_start":59,"highlight_end":79}],"label":"cannot infer type","suggested_replacement":null,"suggestion_applicability":null,"expansion":null}],"children":[],"rendered":"\u001b[1m\u001b[91merror[E0282]\u001b[0m\u001b[1m: type annotations needed\u001b[0m\n \u001b[1m\u001b[94m--> \u001b[0marchipelago/src/api/handler.rs:38:59\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[94m38\u001b[0m \u001b[1m\u001b[94m|\u001b[0m let collected: http_body_util::Collected<Bytes> = body.collect().await\n \u001b[1m\u001b[94m|\u001b[0m \u001b[1m\u001b[91m^^^^^^^^^^^^^^^^^^^^\u001b[0m \u001b[1m\u001b[91mcannot infer type\u001b[0m\n\n"}
{"$message_type":"diagnostic","message":"unused variable: `manifest_path`","code":{"code":"unused_variables","explanation":null},"level":"warning","spans":[{"file_name":"archipelago/src/container/dev_orchestrator.rs","byte_start":2370,"byte_end":2383,"line_start":68,"line_end":68,"column_start":9,"column_end":22,"is_primary":true,"text":[{"text":" manifest_path: &str,","highlight_start":9,"highlight_end":22}],"label":null,"suggested_replacement":null,"suggestion_applicability":null,"expansion":null}],"children":[{"message":"`#[warn(unused_variables)]` (part of `#[warn(unused)]`) on by default","code":null,"level":"note","spans":[],"children":[],"rendered":null},{"message":"if this is intentional, prefix it with an underscore","code":null,"level":"help","spans":[{"file_name":"archipelago/src/container/dev_orchestrator.rs","byte_start":2370,"byte_end":2383,"line_start":68,"line_end":68,"column_start":9,"column_end":22,"is_primary":true,"text":[{"text":" manifest_path: &str,","highlight_start":9,"highlight_end":22}],"label":null,"suggested_replacement":"_manifest_path","suggestion_applicability":"MachineApplicable","expansion":null}],"children":[],"rendered":null}],"rendered":"\u001b[1m\u001b[33mwarning\u001b[0m\u001b[1m: unused variable: `manifest_path`\u001b[0m\n \u001b[1m\u001b[94m--> \u001b[0marchipelago/src/container/dev_orchestrator.rs:68:9\n \u001b[1m\u001b[94m|\u001b[0m\n\u001b[1m\u001b[94m68\u001b[0m \u001b[1m\u001b[94m|\u001b[0m manifest_path: &str,\n \u001b[1m\u001b[94m|\u001b[0m \u001b[1m\u001b[33m^^^^^^^^^^^^^\u001b[0m \u001b[1m\u001b[33mhelp: if this is intentional, prefix it with an underscore: `_manifest_path`\u001b[0m\n \u001b[1m\u001b[94m|\u001b[0m\n \u001b[1m\u001b[94m= \u001b[0m\u001b[1mnote\u001b[0m: `#[warn(unused_variables)]` (part of `#[warn(unused)]`) on by default\n\n"}
{"$message_type":"diagnostic","message":"aborting due to 3 previous errors; 11 warnings emitted","code":null,"level":"error","spans":[],"children":[],"rendered":"\u001b[1m\u001b[91merror\u001b[0m\u001b[1m: aborting due to 3 previous errors; 11 warnings emitted\u001b[0m\n\n"}
{"$message_type":"diagnostic","message":"Some errors have detailed explanations: E0282, E0425.","code":null,"level":"failure-note","spans":[],"children":[],"rendered":"\u001b[1mSome errors have detailed explanations: E0282, E0425.\u001b[0m\n"}
{"$message_type":"diagnostic","message":"For more information about an error, try `rustc --explain E0282`.","code":null,"level":"failure-note","spans":[],"children":[],"rendered":"\u001b[1mFor more information about an error, try `rustc --explain E0282`.\u001b[0m\n"}