FreeRTOS-Plus/Source/Reliance-Edge/os/freertos/include/redosdeviations.h - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /*             ----> DO NOT REMOVE THE FOLLOWING NOTICE <----

                    Copyright (c) 2014-2015 Datalight, Inc.
                        All Rights Reserved Worldwide.

     This program is free software; you can redistribute it and/or modify
     it under the terms of the GNU General Public License as published by
     the Free Software Foundation; use version 2 of the License.

     This program is distributed in the hope that it will be useful,
     but "AS-IS," WITHOUT ANY WARRANTY; without even the implied warranty
     of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     GNU General Public License for more details.

     You should have received a copy of the GNU General Public License along
     with this program; if not, write to the Free Software Foundation, Inc.,
     51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
 */
 /*  Businesses and individuals that for commercial or other reasons cannot
     comply with the terms of the GPLv2 license may obtain a commercial license
     before incorporating Reliance Edge into proprietary software for
     distribution in any form.  Visit http://www.datalight.com/reliance-edge for
     more information.
 */
 /** @file
     @brief Macros to encapsulate MISRA C:2012 deviations in OS-specific code.
 */
 #ifndef REDOSDEVIATIONS_H
 #define REDOSDEVIATIONS_H


 #if REDCONF_OUTPUT == 1
 /*  Needed for PRINT_ASSERT() and OUTPUT_CHARACTER().
 */
 #include <stdio.h>
 #endif


 #if (REDCONF_ASSERTS == 1) && (REDCONF_OUTPUT == 1)
 /** Print a formatted message for an assertion.

     Usages of this macro deviate from MISRA C:2012 Rule 21.6 (required).  Using
     printf() is the most convenient way to output this information; and the risk
     of "unspecified, undefined and implementation-defined" behavior causing
     problems (as cited in the rationale for the rule) is small.  The driver does
     not depend on this string being outputted correctly.  Furthermore, use of
     printf() disappears when either asserts or output are disabled.

     As Rule 21.6 is required, a separate deviation record is required.
 */
 #define PRINT_ASSERT(file, line) \
     printf("Assertion failed in \"%s\" at line %u\n\r", ((file) == NULL) ? "" : (file), (unsigned)(line))
 #endif


 /** Cast a value to unsigned long.

     Usages of this macro deviate from MISRA C:2012 Directive 4.6.  This macro is
     used in two places to cast a uint64_t value (used by the block device
     abstraction for sector numbers) to unsigned long, since third-party code
     which is not under the control of this project uses unsigned long for sector
     numbers.  The cast is guaranteed to not lose any information, since when the
     disk is opened the sector count is verified to be less than or equal to an
     unsigned long value.  The text of the directive mentions that "it might be
     desirable not to apply this guideline when interfacing with ... code outside
     the project's control", which describes the situation for this deviation.

     As Directive 4.6 is advisory, a deviation record is not required.  This
     notice is the only record of the deviation.
 */
 #define CAST_ULONG(ull) ((unsigned long)(ull))


 /** Cast a const-qualified pointer to a pointer which is *not* const-qualified.

     Usages of this macro deviate from MISRA C:2012 Rule 11.8.  This macro is
     used in exactly one place in order to cope with a poorly designed
     third-party interface.  Reliance Edge, at every level of the stack, uses
     const-qualified pointers for buffers used in write operations, since the
     data is read from the buffer, and the buffer does not need to be modified
     (consistent with Rule 8.13).  One of the third-party block device interfaces
     that Reliance Edge interfaces with does not follow this convention: it uses
     an unqualified pointer for the buffer parameter of its sector write
     function.  This forces the need for the cast to avoid warnings.  The
     implementation of the sector write function is provided by the user, so it
     is to be hoped that the buffer is not actually modified.

     As Rule 11.8 is required, a separate deviation record is required.
 */
 #define CAST_AWAY_CONST(type, ptr) ((type *)(ptr))


 /** Allocate zero-initialized (cleared) memory.

     All usages of this macro deviate from MISRA C:2012 Directive 4.12 (required)
     and Rule 21.3 (required).  In the context of the single place it is actually
     used, this macro also deviates from Rule 22.1 (required).

     This macro is used in the FreeRTOS block device code in order to allocate a
     RAM disk, when that implementation of the block device is selected.  The
     primary rationale for all these deviations is that a) the RAM disk cannot be
     allocated statically (since the volume information is stored in a
     structure), and b) the RAM disk is primarily intended as a temporary testing
     tool for users who want to try out Reliance Edge before the real storage
     media is available.  In most real systems, Reliance Edge is used with
     non-volatile storage like SD/MMC or eMMC, not with RAM disks.

     Rule 22.1 states that all resources which are allocated must also be
     explicitly freed.  The RAM disk is allocated and never freed, deviating from
     that rule.  This is done because the data in the RAM disk is emulating a
     non-volatile storage medium, and thus needs to persist even after the block
     device is closed, to allow the file system to be ormatted and then mounted,
     or unmounted and remounted in the course of a test.  Thus the memory will
     remain allocated until the target device is rebooted.  This is assumed to be
     acceptable for the primary purpose of the RAM disk, which is preliminary
     testing.

     As Directive 4.12, Rule 21.3, and Rule 22.1 are all required, separate
     deviation records are required.
 */
 #define ALLOCATE_CLEARED_MEMORY(nelem, elsize) calloc(nelem, elsize)


 #if REDCONF_OUTPUT == 1
 /** Output a character to a serial port or other display device.

     Usages of this macro deviate from MISRA C:2012 Rule 21.6 (required).
     FreeRTOS does not include a standard method of printing characters, so
     putchar() is the most convenient and portable way to accomplish the task.
     The risk of "unspecified, undefined and implementation-defined" behavior
     causing problems (as cited in the rationale for the rule) is small.  The
     driver does not depend on the character being outputted correctly.
     Furthermore, use of putchar() disappears when output is disabled.

     As Rule 21.6 is required, a separate deviation record is required.
 */
 #define OUTPUT_CHARACTER(ch) (void)putchar(ch)
 #endif


 #if (REDCONF_TASK_COUNT > 1U) && (REDCONF_API_POSIX == 1)
 /** Cast a TaskHandle_t (a pointer type) to uintptr_t.

     Usage of this macro deivate from MISRA-C:2012 Rule 11.4 (advisory).  This
     macro is used for the FreeRTOS version of RedOsTaskId().  Some RTOSes
     natively use an integer for task IDs; others use pointers.  RedOsTaskId()
     uses integers, FreeRTOS uses pointers; to reconcile this difference, the
     pointer must be cast to integer.  This is fairly safe, since the resulting
     integer is never cast back to a pointer; and although the integer
     representation of a pointer is implementation-defined, the representation is
     irrelevant provided that unique pointers are converted to unique integers.

     As Rule 11.4 is advisory, a deviation record is not required.  This notice
     is the only record of the deviation.
 */
 #define CAST_TASK_PTR_TO_UINTPTR(taskptr) ((uintptr_t)(taskptr))
 #endif


 /** Ignore the return value of a function (cast to void)

     Usages of this macro deviate from MISRA C:2012 Directive 4.7, which states
     that error information must be checked immediately after a function returns
     potential error information.

     If asserts and output are enabled, then this macro is used to document that
     the return value of printf() is ignored.  A failure of printf() does not
     impact the filesystem core, nor is there anything the filesystem can do to
     respond to such an error (especially since it occurs within an assert).
     Thus, the most reasonable action is to ignore the error.

     In the STM32 SDIO block device implementation, errors are also ignored in an
     IRQ interrupt handler.  This is the most reasonable action to take for two
     reasons: (a) it would be dangerous to spend processor time responding to the
     error inside the IRQ handler; (b) it has been verified that the same error
     is propegated to the DiskRead/Write method, which does return the error to
     the core.

     In the Atmel SD/MMC block device implementation, error information from
     sd_mmc_read_capacity() is ignored.  This is a reasonable action because all
     of the possible error conditions were eliminated by a previous check.
     sd_mmc_read_capacity() fails under the same conditions as
     sd_mmc_test_unit_ready(), which was checked ealier in the same function.

     In the mutex module, error information returned from the mutex release
     function is ignored when asserts are disabled.  This is a reasonable action
     because the mutex release function (xSemaphoreGive) is documented only to
     fail if the mutex was not obtained correctly, which can be demonstrably
     avoided.

     As Directive 4.7 is required, a separate deviation record is required.
 */
 #define IGNORE_ERRORS(fn) ((void) (fn))


 /** @brief Determine whether a pointer is aligned on a 32-bit boundary.

     This is used to determine whether a data buffer meets the requirements of
     the underlying block device implementation.  When transferring data via
     DMA (Direct Memory Access) on an STM32 device, the data buffer must be cast
     as a uint32 pointer, and unexpected behavior may occur if the buffer is not
     aligned correctly.

     There is no way to perform this check without deviating from MISRA C rules
     against casting pointers to integer types.  Usage of this macro deviates
     from MISRA C:2012 Rule 11.4 (advisory).  The main rationale the rule cites
     against converting pointers to integers is that the chosen integer type may
     not be able to represent the pointer; this is a non-issue here since we use
     uintptr_t.  The text says the rule still applies when using uintptr_t due to
     concern about unaligned pointers, but that is not an issue here since the
     integer value of the pointer is not saved and not converted back into a
     pointer and dereferenced.  The result of casting a pointer to a sufficiently
     large integer is implementation-defined, but macros similar to this one have
     been used by Datalight for a long time in a wide variety of environments and
     they have always worked as expected.

     This deviation only occurs when using the STM32 SDIO block device
     implementation.

     As Rule 11.4 is advisory, a deviation record is not required.  This notice
     is the only record of deviation.
 */
 #define IS_UINT32_ALIGNED_PTR(ptr) (((uintptr_t)(ptr) & (sizeof(uint32_t) - 1U)) == 0U)


 /** @brief Cast a 32-bit aligned void pointer to a uint32 pointer.

     Usages of this macro deviate from MISRA C:2012 Rule 11.5 (advisory).  A
     cast from a void pointer to an object pointer is discouraged because of
     potential alignment issues.  However, this macro is only used to cast
     pointers that have already been tested to be 32-bit aligned, so the
     operation will be safe.

     This deviation only occurs when using the STM32 SDIO block device
     implementation.

     As rule 11.5 is advisory, a deviation record is not required.  This notice
     is the only record of the deviation.
 */
 #define CAST_UINT32_PTR(ptr) ((uint32_t *) (ptr))


 #endif
	/* ----> DO NOT REMOVE THE FOLLOWING NOTICE <----

	Copyright (c) 2014-2015 Datalight, Inc.
	All Rights Reserved Worldwide.

	This program is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; use version 2 of the License.

	This program is distributed in the hope that it will be useful,
	but "AS-IS," WITHOUT ANY WARRANTY; without even the implied warranty
	of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License along
	with this program; if not, write to the Free Software Foundation, Inc.,
	51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
	*/
	/* Businesses and individuals that for commercial or other reasons cannot
	comply with the terms of the GPLv2 license may obtain a commercial license
	before incorporating Reliance Edge into proprietary software for
	distribution in any form. Visit http://www.datalight.com/reliance-edge for
	more information.
	*/
	/** @file
	@brief Macros to encapsulate MISRA C:2012 deviations in OS-specific code.
	*/
	#ifndef REDOSDEVIATIONS_H
	#define REDOSDEVIATIONS_H


	#if REDCONF_OUTPUT == 1
	/* Needed for PRINT_ASSERT() and OUTPUT_CHARACTER().
	*/
	#include <stdio.h>
	#endif


	#if (REDCONF_ASSERTS == 1) && (REDCONF_OUTPUT == 1)
	/** Print a formatted message for an assertion.

	Usages of this macro deviate from MISRA C:2012 Rule 21.6 (required). Using
	printf() is the most convenient way to output this information; and the risk
	of "unspecified, undefined and implementation-defined" behavior causing
	problems (as cited in the rationale for the rule) is small. The driver does
	not depend on this string being outputted correctly. Furthermore, use of
	printf() disappears when either asserts or output are disabled.

	As Rule 21.6 is required, a separate deviation record is required.
	*/
	#define PRINT_ASSERT(file, line) \
	printf("Assertion failed in \"%s\" at line %u\n\r", ((file) == NULL) ? "" : (file), (unsigned)(line))
	#endif


	/** Cast a value to unsigned long.

	Usages of this macro deviate from MISRA C:2012 Directive 4.6. This macro is
	used in two places to cast a uint64_t value (used by the block device
	abstraction for sector numbers) to unsigned long, since third-party code
	which is not under the control of this project uses unsigned long for sector
	numbers. The cast is guaranteed to not lose any information, since when the
	disk is opened the sector count is verified to be less than or equal to an
	unsigned long value. The text of the directive mentions that "it might be
	desirable not to apply this guideline when interfacing with ... code outside
	the project's control", which describes the situation for this deviation.

	As Directive 4.6 is advisory, a deviation record is not required. This
	notice is the only record of the deviation.
	*/
	#define CAST_ULONG(ull) ((unsigned long)(ull))


	/** Cast a const-qualified pointer to a pointer which is not const-qualified.

	Usages of this macro deviate from MISRA C:2012 Rule 11.8. This macro is
	used in exactly one place in order to cope with a poorly designed
	third-party interface. Reliance Edge, at every level of the stack, uses
	const-qualified pointers for buffers used in write operations, since the
	data is read from the buffer, and the buffer does not need to be modified
	(consistent with Rule 8.13). One of the third-party block device interfaces
	that Reliance Edge interfaces with does not follow this convention: it uses
	an unqualified pointer for the buffer parameter of its sector write
	function. This forces the need for the cast to avoid warnings. The
	implementation of the sector write function is provided by the user, so it
	is to be hoped that the buffer is not actually modified.

	As Rule 11.8 is required, a separate deviation record is required.
	*/
	#define CAST_AWAY_CONST(type, ptr) ((type *)(ptr))


	/** Allocate zero-initialized (cleared) memory.

	All usages of this macro deviate from MISRA C:2012 Directive 4.12 (required)
	and Rule 21.3 (required). In the context of the single place it is actually
	used, this macro also deviates from Rule 22.1 (required).

	This macro is used in the FreeRTOS block device code in order to allocate a
	RAM disk, when that implementation of the block device is selected. The
	primary rationale for all these deviations is that a) the RAM disk cannot be
	allocated statically (since the volume information is stored in a
	structure), and b) the RAM disk is primarily intended as a temporary testing
	tool for users who want to try out Reliance Edge before the real storage
	media is available. In most real systems, Reliance Edge is used with
	non-volatile storage like SD/MMC or eMMC, not with RAM disks.

	Rule 22.1 states that all resources which are allocated must also be
	explicitly freed. The RAM disk is allocated and never freed, deviating from
	that rule. This is done because the data in the RAM disk is emulating a
	non-volatile storage medium, and thus needs to persist even after the block
	device is closed, to allow the file system to be ormatted and then mounted,
	or unmounted and remounted in the course of a test. Thus the memory will
	remain allocated until the target device is rebooted. This is assumed to be
	acceptable for the primary purpose of the RAM disk, which is preliminary
	testing.

	As Directive 4.12, Rule 21.3, and Rule 22.1 are all required, separate
	deviation records are required.
	*/
	#define ALLOCATE_CLEARED_MEMORY(nelem, elsize) calloc(nelem, elsize)


	#if REDCONF_OUTPUT == 1
	/** Output a character to a serial port or other display device.

	Usages of this macro deviate from MISRA C:2012 Rule 21.6 (required).
	FreeRTOS does not include a standard method of printing characters, so
	putchar() is the most convenient and portable way to accomplish the task.
	The risk of "unspecified, undefined and implementation-defined" behavior
	causing problems (as cited in the rationale for the rule) is small. The
	driver does not depend on the character being outputted correctly.
	Furthermore, use of putchar() disappears when output is disabled.

	As Rule 21.6 is required, a separate deviation record is required.
	*/
	#define OUTPUT_CHARACTER(ch) (void)putchar(ch)
	#endif


	#if (REDCONF_TASK_COUNT > 1U) && (REDCONF_API_POSIX == 1)
	/** Cast a TaskHandle_t (a pointer type) to uintptr_t.

	Usage of this macro deivate from MISRA-C:2012 Rule 11.4 (advisory). This
	macro is used for the FreeRTOS version of RedOsTaskId(). Some RTOSes
	natively use an integer for task IDs; others use pointers. RedOsTaskId()
	uses integers, FreeRTOS uses pointers; to reconcile this difference, the
	pointer must be cast to integer. This is fairly safe, since the resulting
	integer is never cast back to a pointer; and although the integer
	representation of a pointer is implementation-defined, the representation is
	irrelevant provided that unique pointers are converted to unique integers.

	As Rule 11.4 is advisory, a deviation record is not required. This notice
	is the only record of the deviation.
	*/
	#define CAST_TASK_PTR_TO_UINTPTR(taskptr) ((uintptr_t)(taskptr))
	#endif


	/** Ignore the return value of a function (cast to void)

	Usages of this macro deviate from MISRA C:2012 Directive 4.7, which states
	that error information must be checked immediately after a function returns
	potential error information.

	If asserts and output are enabled, then this macro is used to document that
	the return value of printf() is ignored. A failure of printf() does not
	impact the filesystem core, nor is there anything the filesystem can do to
	respond to such an error (especially since it occurs within an assert).
	Thus, the most reasonable action is to ignore the error.

	In the STM32 SDIO block device implementation, errors are also ignored in an
	IRQ interrupt handler. This is the most reasonable action to take for two
	reasons: (a) it would be dangerous to spend processor time responding to the
	error inside the IRQ handler; (b) it has been verified that the same error
	is propegated to the DiskRead/Write method, which does return the error to
	the core.

	In the Atmel SD/MMC block device implementation, error information from
	sd_mmc_read_capacity() is ignored. This is a reasonable action because all
	of the possible error conditions were eliminated by a previous check.
	sd_mmc_read_capacity() fails under the same conditions as
	sd_mmc_test_unit_ready(), which was checked ealier in the same function.

	In the mutex module, error information returned from the mutex release
	function is ignored when asserts are disabled. This is a reasonable action
	because the mutex release function (xSemaphoreGive) is documented only to
	fail if the mutex was not obtained correctly, which can be demonstrably
	avoided.

	As Directive 4.7 is required, a separate deviation record is required.
	*/
	#define IGNORE_ERRORS(fn) ((void) (fn))


	/** @brief Determine whether a pointer is aligned on a 32-bit boundary.

	This is used to determine whether a data buffer meets the requirements of
	the underlying block device implementation. When transferring data via
	DMA (Direct Memory Access) on an STM32 device, the data buffer must be cast
	as a uint32 pointer, and unexpected behavior may occur if the buffer is not
	aligned correctly.

	There is no way to perform this check without deviating from MISRA C rules
	against casting pointers to integer types. Usage of this macro deviates
	from MISRA C:2012 Rule 11.4 (advisory). The main rationale the rule cites
	against converting pointers to integers is that the chosen integer type may
	not be able to represent the pointer; this is a non-issue here since we use
	uintptr_t. The text says the rule still applies when using uintptr_t due to
	concern about unaligned pointers, but that is not an issue here since the
	integer value of the pointer is not saved and not converted back into a
	pointer and dereferenced. The result of casting a pointer to a sufficiently
	large integer is implementation-defined, but macros similar to this one have
	been used by Datalight for a long time in a wide variety of environments and
	they have always worked as expected.

	This deviation only occurs when using the STM32 SDIO block device
	implementation.

	As Rule 11.4 is advisory, a deviation record is not required. This notice
	is the only record of deviation.
	*/
	#define IS_UINT32_ALIGNED_PTR(ptr) (((uintptr_t)(ptr) & (sizeof(uint32_t) - 1U)) == 0U)


	/** @brief Cast a 32-bit aligned void pointer to a uint32 pointer.

	Usages of this macro deviate from MISRA C:2012 Rule 11.5 (advisory). A
	cast from a void pointer to an object pointer is discouraged because of
	potential alignment issues. However, this macro is only used to cast
	pointers that have already been tested to be 32-bit aligned, so the
	operation will be safe.

	This deviation only occurs when using the STM32 SDIO block device
	implementation.

	As rule 11.5 is advisory, a deviation record is not required. This notice
	is the only record of the deviation.
	*/
	#define CAST_UINT32_PTR(ptr) ((uint32_t *) (ptr))


	#endif