STYLE.md - boringssl - Git at Google

 # BoringSSL Style Guide

 BoringSSL usually follows the
 [Google C++ style guide](https://google.github.io/styleguide/cppguide.html),
 The rest of this document describes differences and clarifications on
 top of the base guide.


 ## Legacy code

 As a derivative of OpenSSL, BoringSSL contains a lot of legacy code that
 does not follow this style guide. Particularly where public API is
 concerned, balance consistency within a module with the benefits of a
 given rule. Module-wide deviations on naming should be respected while
 integer and return value conventions take precedence over consistency.

 Modules from OpenSSL's legacy ASN.1 and X.509 stack are retained for
 compatibility and left largely unmodified. To ease importing patches from
 upstream, they match OpenSSL's new indentation style. For Emacs,
 `doc/openssl-c-indent.el` from OpenSSL may be helpful in this.


 ## Language

 The majority of the project is in C, so C++-specific rules in the
 Google style guide do not apply. Support for C99 features depends on
 our target platforms. Typically, Chromium's target MSVC is the most
 restrictive.

 Variable declarations in the middle of a function or inside a `for` loop are
 allowed and preferred where possible. Note that the common `goto err` cleanup
 pattern requires lifting some variable declarations.

 Comments should be `// C99-style` for consistency with C++.

 When declaring pointer types, `*` should be placed next to the variable name,
 not the type. So

     uint8_t *ptr;

 not

     uint8_t* ptr;

 Rather than `malloc()` and `free()`, use the wrappers `OPENSSL_malloc()`
 and `OPENSSL_free()`. Use the standard C `assert()` function freely.

 Use the following wrappers, found in `crypto/internal.h` instead of the
 corresponding C standard library functions. They behave the same but avoid
 confusing undefined behavior.

 * `OPENSSL_memchr`
 * `OPENSSL_memcmp`
 * `OPENSSL_memcpy`
 * `OPENSSL_memmove`
 * `OPENSSL_memset`

 For new constants, prefer enums when the values are sequential and typed
 constants for flags. If adding values to an existing set of `#define`s,
 continue with `#define`.


 ## libssl

 libssl was originally written in C but is being incrementally rewritten in
 C++11. As of writing, much of the style matches our C conventions rather than
 Google C++. Additionally, libssl on Linux currently may not depend on the C++
 runtime. See the C++ utilities in `ssl/internal.h` for replacements for
 problematic C++ constructs. The `util/check_imported_libraries.go` script may be
 used with a shared library build to check if a new construct is okay.

 If unsure, match surrounding code. Discrepancies between it and Google C++ style
 will be fixed over time.


 ## Formatting

 Single-statement blocks are not allowed. All conditions and loops must
 use braces:

     if (foo) {
       do_something();
     }

 not

     if (foo)
       do_something();


 ## Integers

 Prefer using explicitly-sized integers where appropriate rather than
 generic C ones. For instance, to represent a byte, use `uint8_t`, not
 `unsigned char`. Likewise, represent a two-byte field as `uint16_t`, not
 `unsigned short`.

 Sizes are represented as `size_t`.

 Within a struct that is retained across the lifetime of an SSL
 connection, if bounds of a size are known and it's easy, use a smaller
 integer type like `uint8_t`. This is a "free" connection footprint
 optimization for servers. Don't make code significantly more complex for
 it, and do still check the bounds when passing in and out of the
 struct. This narrowing should not propagate to local variables and
 function parameters.

 When doing arithmetic, account for overflow conditions.

 Except with platform APIs, do not use `ssize_t`. MSVC lacks it, and
 prefer out-of-band error signaling for `size_t` (see Return values).


 ## Naming

 Follow Google naming conventions in C++ files. In C files, use the
 following naming conventions for consistency with existing OpenSSL and C
 styles:

 Define structs with typedef named `TYPE_NAME`. The corresponding struct
 should be named `struct type_name_st`.

 Name public functions as `MODULE_function_name`, unless the module
 already uses a different naming scheme for legacy reasons. The module
 name should be a type name if the function is a method of a particular
 type.

 Some types are allocated within the library while others are initialized
 into a struct allocated by the caller, often on the stack. Name these
 functions `TYPE_NAME_new`/`TYPE_NAME_free` and
 `TYPE_NAME_init`/`TYPE_NAME_cleanup`, respectively. All `TYPE_NAME_free`
 functions must do nothing on `NULL` input.

 If a variable is the length of a pointer value, it has the suffix
 `_len`. An output parameter is named `out` or has an `out_` prefix. For
 instance, For instance:

     uint8_t *out,
     size_t *out_len,
     const uint8_t *in,
     size_t in_len,

 Name public headers like `include/openssl/evp.h` with header guards like
 `OPENSSL_HEADER_EVP_H`. Name internal headers like
 `crypto/ec/internal.h` with header guards like
 `OPENSSL_HEADER_EC_INTERNAL_H`.

 Name enums like `enum unix_hacker_t`. For instance:

     enum should_free_handshake_buffer_t {
       free_handshake_buffer,
       dont_free_handshake_buffer,
     };


 ## Return values

 As even `malloc` may fail in BoringSSL, the vast majority of functions
 will have a failure case. Functions should return `int` with one on
 success and zero on error. Do not overload the return value to both
 signal success/failure and output an integer. For example:

     OPENSSL_EXPORT int CBS_get_u16(CBS *cbs, uint16_t *out);

 If a function needs more than a true/false result code, define an enum
 rather than arbitrarily assigning meaning to int values.

 If a function outputs a pointer to an object on success and there are no
 other outputs, return the pointer directly and `NULL` on error.


 ## Parameters

 Where not constrained by legacy code, parameter order should be:

 1. context parameters
 2. output parameters
 3. input parameters

 For example,

     /* CBB_add_asn sets |*out_contents| to a |CBB| into which the contents of an
      * ASN.1 object can be written. The |tag| argument will be used as the tag for
      * the object. It returns one on success or zero on error. */
     OPENSSL_EXPORT int CBB_add_asn1(CBB *cbb, CBB *out_contents, unsigned tag);


 ## Documentation

 All public symbols must have a documentation comment in their header
 file. The style is based on that of Go. The first sentence begins with
 the symbol name, optionally prefixed with "A" or "An". Apart from the
 initial mention of symbol, references to other symbols or parameter
 names should be surrounded by |pipes|.

 Documentation should be concise but completely describe the exposed
 behavior of the function. Pay special note to success/failure behaviors
 and caller obligations on object lifetimes. If this sacrifices
 conciseness, consider simplifying the function's behavior.

     // EVP_DigestVerifyUpdate appends |len| bytes from |data| to the data which
     // will be verified by |EVP_DigestVerifyFinal|. It returns one on success and
     // zero otherwise.
     OPENSSL_EXPORT int EVP_DigestVerifyUpdate(EVP_MD_CTX *ctx, const void *data,
                                               size_t len);

 Explicitly mention any surprising edge cases or deviations from common
 return value patterns in legacy functions.

     // RSA_private_encrypt encrypts |flen| bytes from |from| with the private key in
     // |rsa| and writes the encrypted data to |to|. The |to| buffer must have at
     // least |RSA_size| bytes of space. It returns the number of bytes written, or
     // -1 on error. The |padding| argument must be one of the |RSA_*_PADDING|
     // values. If in doubt, |RSA_PKCS1_PADDING| is the most common.
     //
     // WARNING: this function is dangerous because it breaks the usual return value
     // convention. Use |RSA_sign_raw| instead.
     OPENSSL_EXPORT int RSA_private_encrypt(int flen, const uint8_t *from,
                                            uint8_t *to, RSA *rsa, int padding);

 Document private functions in their `internal.h` header or, if static,
 where defined.


 ## Build logic

 BoringSSL is used by many projects with many different build tools.
 Reimplementing and maintaining build logic in each downstream build is
 cumbersome, so build logic should be avoided where possible. Platform-specific
 files should be excluded by wrapping the contents in `#ifdef`s, rather than
 computing platform-specific file lists. Generated source files such as perlasm
 and `err_data.c` may be used in the standalone CMake build but, for downstream
 builds, they should be pre-generated in `generate_build_files.py`.
	# BoringSSL Style Guide

	BoringSSL usually follows the
	[Google C++ style guide](https://google.github.io/styleguide/cppguide.html),
	The rest of this document describes differences and clarifications on
	top of the base guide.


	## Legacy code

	As a derivative of OpenSSL, BoringSSL contains a lot of legacy code that
	does not follow this style guide. Particularly where public API is
	concerned, balance consistency within a module with the benefits of a
	given rule. Module-wide deviations on naming should be respected while
	integer and return value conventions take precedence over consistency.

	Modules from OpenSSL's legacy ASN.1 and X.509 stack are retained for
	compatibility and left largely unmodified. To ease importing patches from
	upstream, they match OpenSSL's new indentation style. For Emacs,
	`doc/openssl-c-indent.el` from OpenSSL may be helpful in this.


	## Language

	The majority of the project is in C, so C++-specific rules in the
	Google style guide do not apply. Support for C99 features depends on
	our target platforms. Typically, Chromium's target MSVC is the most
	restrictive.

	Variable declarations in the middle of a function or inside a `for` loop are
	allowed and preferred where possible. Note that the common `goto err` cleanup
	pattern requires lifting some variable declarations.

	Comments should be `// C99-style` for consistency with C++.

	When declaring pointer types, `*` should be placed next to the variable name,
	not the type. So

	uint8_t *ptr;

	not

	uint8_t* ptr;

	Rather than `malloc()` and `free()`, use the wrappers `OPENSSL_malloc()`
	and `OPENSSL_free()`. Use the standard C `assert()` function freely.

	Use the following wrappers, found in `crypto/internal.h` instead of the
	corresponding C standard library functions. They behave the same but avoid
	confusing undefined behavior.

	* `OPENSSL_memchr`
	* `OPENSSL_memcmp`
	* `OPENSSL_memcpy`
	* `OPENSSL_memmove`
	* `OPENSSL_memset`

	For new constants, prefer enums when the values are sequential and typed
	constants for flags. If adding values to an existing set of `#define`s,
	continue with `#define`.


	## libssl

	libssl was originally written in C but is being incrementally rewritten in
	C++11. As of writing, much of the style matches our C conventions rather than
	Google C++. Additionally, libssl on Linux currently may not depend on the C++
	runtime. See the C++ utilities in `ssl/internal.h` for replacements for
	problematic C++ constructs. The `util/check_imported_libraries.go` script may be
	used with a shared library build to check if a new construct is okay.

	If unsure, match surrounding code. Discrepancies between it and Google C++ style
	will be fixed over time.


	## Formatting

	Single-statement blocks are not allowed. All conditions and loops must
	use braces:

	if (foo) {
	do_something();
	}

	not

	if (foo)
	do_something();


	## Integers

	Prefer using explicitly-sized integers where appropriate rather than
	generic C ones. For instance, to represent a byte, use `uint8_t`, not
	`unsigned char`. Likewise, represent a two-byte field as `uint16_t`, not
	`unsigned short`.

	Sizes are represented as `size_t`.

	Within a struct that is retained across the lifetime of an SSL
	connection, if bounds of a size are known and it's easy, use a smaller
	integer type like `uint8_t`. This is a "free" connection footprint
	optimization for servers. Don't make code significantly more complex for
	it, and do still check the bounds when passing in and out of the
	struct. This narrowing should not propagate to local variables and
	function parameters.

	When doing arithmetic, account for overflow conditions.

	Except with platform APIs, do not use `ssize_t`. MSVC lacks it, and
	prefer out-of-band error signaling for `size_t` (see Return values).


	## Naming

	Follow Google naming conventions in C++ files. In C files, use the
	following naming conventions for consistency with existing OpenSSL and C
	styles:

	Define structs with typedef named `TYPE_NAME`. The corresponding struct
	should be named `struct type_name_st`.

	Name public functions as `MODULE_function_name`, unless the module
	already uses a different naming scheme for legacy reasons. The module
	name should be a type name if the function is a method of a particular
	type.

	Some types are allocated within the library while others are initialized
	into a struct allocated by the caller, often on the stack. Name these
	functions `TYPE_NAME_new`/`TYPE_NAME_free` and
	`TYPE_NAME_init`/`TYPE_NAME_cleanup`, respectively. All `TYPE_NAME_free`
	functions must do nothing on `NULL` input.

	If a variable is the length of a pointer value, it has the suffix
	`_len`. An output parameter is named `out` or has an `out_` prefix. For
	instance, For instance:

	uint8_t *out,
	size_t *out_len,
	const uint8_t *in,
	size_t in_len,

	Name public headers like `include/openssl/evp.h` with header guards like
	`OPENSSL_HEADER_EVP_H`. Name internal headers like
	`crypto/ec/internal.h` with header guards like
	`OPENSSL_HEADER_EC_INTERNAL_H`.

	Name enums like `enum unix_hacker_t`. For instance:

	enum should_free_handshake_buffer_t {
	free_handshake_buffer,
	dont_free_handshake_buffer,
	};


	## Return values

	As even `malloc` may fail in BoringSSL, the vast majority of functions
	will have a failure case. Functions should return `int` with one on
	success and zero on error. Do not overload the return value to both
	signal success/failure and output an integer. For example:

	OPENSSL_EXPORT int CBS_get_u16(CBS cbs, uint16_t out);

	If a function needs more than a true/false result code, define an enum
	rather than arbitrarily assigning meaning to int values.

	If a function outputs a pointer to an object on success and there are no
	other outputs, return the pointer directly and `NULL` on error.


	## Parameters

	Where not constrained by legacy code, parameter order should be:

	1. context parameters
	2. output parameters
	3. input parameters

	For example,

	/* CBB_add_asn sets \|*out_contents\| to a \|CBB\| into which the contents of an
	* ASN.1 object can be written. The \|tag\| argument will be used as the tag for
	* the object. It returns one on success or zero on error. */
	OPENSSL_EXPORT int CBB_add_asn1(CBB cbb, CBB out_contents, unsigned tag);


	## Documentation

	All public symbols must have a documentation comment in their header
	file. The style is based on that of Go. The first sentence begins with
	the symbol name, optionally prefixed with "A" or "An". Apart from the
	initial mention of symbol, references to other symbols or parameter
	names should be surrounded by \|pipes\|.

	Documentation should be concise but completely describe the exposed
	behavior of the function. Pay special note to success/failure behaviors
	and caller obligations on object lifetimes. If this sacrifices
	conciseness, consider simplifying the function's behavior.

	// EVP_DigestVerifyUpdate appends \|len\| bytes from \|data\| to the data which
	// will be verified by \|EVP_DigestVerifyFinal\|. It returns one on success and
	// zero otherwise.
	OPENSSL_EXPORT int EVP_DigestVerifyUpdate(EVP_MD_CTX ctx, const void data,
	size_t len);

	Explicitly mention any surprising edge cases or deviations from common
	return value patterns in legacy functions.

	// RSA_private_encrypt encrypts \|flen\| bytes from \|from\| with the private key in
	// \|rsa\| and writes the encrypted data to \|to\|. The \|to\| buffer must have at
	// least \|RSA_size\| bytes of space. It returns the number of bytes written, or
	// -1 on error. The \|padding\| argument must be one of the \|RSA_*_PADDING\|
	// values. If in doubt, \|RSA_PKCS1_PADDING\| is the most common.
	//
	// WARNING: this function is dangerous because it breaks the usual return value
	// convention. Use \|RSA_sign_raw\| instead.
	OPENSSL_EXPORT int RSA_private_encrypt(int flen, const uint8_t *from,
	uint8_t to, RSA rsa, int padding);

	Document private functions in their `internal.h` header or, if static,
	where defined.


	## Build logic

	BoringSSL is used by many projects with many different build tools.
	Reimplementing and maintaining build logic in each downstream build is
	cumbersome, so build logic should be avoided where possible. Platform-specific
	files should be excluded by wrapping the contents in `#ifdef`s, rather than
	computing platform-specific file lists. Generated source files such as perlasm
	and `err_data.c` may be used in the standalone CMake build but, for downstream
	builds, they should be pre-generated in `generate_build_files.py`.