Mirror of BoringSSL (grpc依赖)
https://boringssl.googlesource.com/boringssl
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249 lines
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249 lines
11 KiB
4 years ago
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# BoringSSL API Conventions
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This document describes conventions for BoringSSL APIs. The [style
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guide](/STYLE.md) also includes guidelines, but this document is targeted at
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both API consumers and developers.
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## Documentation
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All supported public APIs are documented in the public header files, found in
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`include/openssl`. The API documentation is also available
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[online](https://commondatastorage.googleapis.com/chromium-boringssl-docs/headers.html).
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Some headers lack documention comments. These are functions and structures from
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OpenSSL's legacy ASN.1, X.509, and PEM implementation. If possible, avoid using
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them. These are left largely unmodified from upstream and are retained only for
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compatibility with existing OpenSSL consumers.
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## Forward declarations
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Do not write `typedef struct foo_st FOO` or try otherwise to define BoringSSL's
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types. Including `openssl/base.h` (or `openssl/ossl_typ.h` for consumers who
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wish to be OpenSSL-compatible) will forward-declare each type without importing
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the rest of the library or invasive macros.
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## Error-handling
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Most functions in BoringSSL may fail, either due to allocation failures or input
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errors. Functions which return an `int` typically return one on success and zero
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on failure. Functions which return a pointer typically return `NULL` on failure.
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However, due to legacy constraints, some functions are more complex. Consult the
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API documentation before using a function.
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On error, most functions also push errors on the error queue, an `errno`-like
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mechanism. See the documentation for
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[err.h](https://commondatastorage.googleapis.com/chromium-boringssl-docs/err.h.html)
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for more details.
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As with `errno`, callers must test the function's return value, not the error
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queue to determine whether an operation failed. Some codepaths may not interact
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with the error queue, and the error queue may have state from a previous failed
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operation.
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When ignoring a failed operation, it is recommended to call `ERR_clear_error` to
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avoid the state interacting with future operations. Failing to do so should not
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affect the actual behavior of any functions, but may result in errors from both
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operations being mixed in error logging. We hope to
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[improve](https://bugs.chromium.org/p/boringssl/issues/detail?id=38) this
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situation in the future.
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Where possible, avoid conditioning on specific reason codes and limit usage to
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logging. The reason codes are very specific and may change over time.
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## Memory allocation
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BoringSSL allocates memory via `OPENSSL_malloc`, found in `mem.h`. Use
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`OPENSSL_free`, found in the same header file, to release it. BoringSSL
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functions will fail gracefully on allocation error, but it is recommended to use
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a `malloc` implementation that `abort`s on failure.
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## Object initialization and cleanup
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BoringSSL defines a number of structs for use in its APIs. It is a C library,
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so the caller is responsible for ensuring these structs are properly
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initialized and released. Consult the documentation for a module for the
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proper use of its types. Some general conventions are listed below.
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### Heap-allocated types
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Some types, such as `RSA`, are heap-allocated. All instances will be allocated
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and returned from BoringSSL's APIs. It is an error to instantiate a heap-
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allocated type on the stack or embedded within another object.
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Heap-allocated types may have functioned named like `RSA_new` which allocates a
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fresh blank `RSA`. Other functions may also return newly-allocated instances.
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For example, `RSA_parse_public_key` is documented to return a newly-allocated
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`RSA` object.
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Heap-allocated objects must be released by the corresponding free function,
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named like `RSA_free`. Like C's `free` and C++'s `delete`, all free functions
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internally check for `NULL`. Consumers are not required to check for `NULL`
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before calling.
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A heap-allocated type may be reference-counted. In this case, a function named
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like `RSA_up_ref` will be available to take an additional reference count. The
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free function must be called to decrement the reference count. It will only
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release resources when the final reference is released. For OpenSSL
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compatibility, these functions return `int`, but callers may assume they always
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successfully return one because reference counts use saturating arithmetic.
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C++ consumers are recommended to use `bssl::UniquePtr` to manage heap-allocated
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objects. `bssl::UniquePtr<T>`, like other types, is forward-declared in
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`openssl/base.h`. Code that needs access to the free functions, such as code
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which destroys a `bssl::UniquePtr`, must include the corresponding module's
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header. (This matches `std::unique_ptr`'s relationship with forward
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declarations.) Note, despite the name, `bssl::UniquePtr` is also used with
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reference-counted types. It owns a single reference to the object. To take an
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additional reference, use the `bssl::UpRef` function, which will return a
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separate `bssl::UniquePtr`.
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### Stack-allocated types
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Other types in BoringSSL are stack-allocated, such as `EVP_MD_CTX`. These
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types may be allocated on the stack or embedded within another object.
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However, they must still be initialized before use.
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Every stack-allocated object in BoringSSL has a *zero state*, analogous to
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initializing a pointer to `NULL`. In this state, the object may not be
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completely initialized, but it is safe to call cleanup functions. Entering the
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zero state cannot fail. (It is usually `memset(0)`.)
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The function to enter the zero state is named like `EVP_MD_CTX_init` or
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`CBB_zero` and will always return `void`. To release resources associated with
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the type, call the cleanup function, named like `EVP_MD_CTX_cleanup`. The
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cleanup function must be called on all codepaths, regardless of success or
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failure. For example:
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uint8_t md[EVP_MAX_MD_SIZE];
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unsigned md_len;
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EVP_MD_CTX ctx;
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EVP_MD_CTX_init(&ctx); /* Enter the zero state. */
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int ok = EVP_DigestInit_ex(&ctx, EVP_sha256(), NULL) &&
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EVP_DigestUpdate(&ctx, "hello ", 6) &&
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EVP_DigestUpdate(&ctx, "world", 5) &&
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EVP_DigestFinal_ex(&ctx, md, &md_len);
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EVP_MD_CTX_cleanup(&ctx); /* Release |ctx|. */
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Note that `EVP_MD_CTX_cleanup` is called whether or not the `EVP_Digest*`
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operations succeeded. More complex C functions may use the `goto err` pattern:
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int ret = 0;
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EVP_MD_CTX ctx;
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EVP_MD_CTX_init(&ctx);
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if (!some_other_operation()) {
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goto err;
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}
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uint8_t md[EVP_MAX_MD_SIZE];
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unsigned md_len;
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if (!EVP_DigestInit_ex(&ctx, EVP_sha256(), NULL) ||
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!EVP_DigestUpdate(&ctx, "hello ", 6) ||
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!EVP_DigestUpdate(&ctx, "world", 5) ||
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!EVP_DigestFinal_ex(&ctx, md, &md_len) {
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goto err;
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}
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ret = 1;
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err:
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EVP_MD_CTX_cleanup(&ctx);
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return ret;
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Note that, because `ctx` is set to the zero state before any failures,
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`EVP_MD_CTX_cleanup` is safe to call even if the first operation fails before
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`EVP_DigestInit_ex`. However, it would be illegal to move the `EVP_MD_CTX_init`
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below the `some_other_operation` call.
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As a rule of thumb, enter the zero state of stack-allocated structs in the
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same place they are declared.
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C++ consumers are recommended to use the wrappers named like
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`bssl::ScopedEVP_MD_CTX`, defined in the corresponding module's header. These
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wrappers are automatically initialized to the zero state and are automatically
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cleaned up.
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### Data-only types
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A few types, such as `SHA_CTX`, are data-only types and do not require cleanup.
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These are usually for low-level cryptographic operations. These types may be
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used freely without special cleanup conventions.
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### Ownership and lifetime
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When working with allocated objects, it is important to think about *ownership*
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of each object, or what code is responsible for releasing it. This matches the
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corresponding notion in higher-level languages like C++ and Rust.
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Ownership applies to both uniquely-owned types and reference-counted types. For
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the latter, ownership means the code is responsible for releasing one
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reference. Note a *reference* in BoringSSL refers to an increment (and eventual
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decrement) of an object's reference count, not `T&` in C++. Thus, to "take a
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reference" means to increment the reference count and take ownership of
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decrementing it.
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As BoringSSL's APIs are primarily in C, ownership and lifetime obligations are
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not rigorously annotated in the type signatures or checked at compile-time.
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Instead, they are described in
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[API documentation](https://commondatastorage.googleapis.com/chromium-boringssl-docs/headers.html).
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This section describes some conventions.
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Unless otherwise documented, functions do not take ownership of pointer
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arguments. The pointer typically must remain valid for the duration of the
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function call. The function may internally copy information from the argument or
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take a reference, but the caller is free to release its copy or reference at any
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point after the call completes.
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A function may instead be documented to *take* or *transfer* ownership of a
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pointer. The caller must own the object before the function call and, after
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transfer, no longer owns it. As a corollary, the caller may no longer reference
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the object without a separate guarantee on the lifetime. The function may even
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release the object before returning. Callers that wish to independently retain a
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transfered object must therefore take a reference or make a copy before
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transferring. Callers should also take note of whether the function is
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documented to transfer pointers unconditionally or only on success. Unlike C++
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and Rust, functions in BoringSSL typically only transfer on success.
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Likewise, output pointers may be owning or non-owning. Unless otherwise
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documented, functions output non-owning pointers. The caller is not responsible
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for releasing the output pointer, but it must not use the pointer beyond its
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lifetime. The pointer may be released when the parent object is released or even
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sooner on state change in the parent object.
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If documented to output a *newly-allocated* object or a *reference* or *copy* of
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one, the caller is responsible for releasing the object when it is done.
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By convention, functions named `get0` return non-owning pointers. Functions
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named `new` or `get1` return owning pointers. Functions named `set0` take
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ownership of arguments. Functions named `set1` do not. They typically take a
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reference or make a copy internally. These names originally referred to the
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effect on a reference count, but the convention applies equally to
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non-reference-counted types.
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API documentation may also describe more complex obligations. For instance, an
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object may borrow a pointer for longer than the duration of a single function
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call, in which case the caller must ensure the lifetime extends accordingly.
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Memory errors are one of the most common and dangerous bugs in C and C++, so
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callers are encouraged to make use of tools such as
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[AddressSanitizer](https://clang.llvm.org/docs/AddressSanitizer.html) and
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higher-level languages.
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## Thread safety
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BoringSSL is internally aware of the platform threading library and calls into
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it as needed. Consult the API documentation for the threading guarantees of
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particular objects. In general, stateless reference-counted objects like `RSA`
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or `EVP_PKEY` which represent keys may typically be used from multiple threads
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simultaneously, provided no thread mutates the key.
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