# MISRA Compliance The FreeRTOS-Plus-TCP library files conform to the [MISRA C:2012](https://www.misra.org.uk/MISRAHome/MISRAC2012/tabid/196/Default.aspx) guidelines, with the deviations listed below. Compliance is checked with Coverity static analysis. Since the FreeRTOS-Plus-TCP library is designed for small-embedded devices, it needs to have a very small memory footprint and has to be efficient. To achieve that and to increase the performace of the IP-stack, it deviates from some MISRA rules. The specific deviations, suppressed inline, are listed below. Additionally, [MISRA configuration file](https://github.com/FreeRTOS/FreeRTOS-Plus-TCP/blob/main/test/Coverity/coverity_misra.config) contains the project wide deviations. ### Suppressed with Coverity Comments To find the violation references in the source files run grep on the source code with ( Assuming rule 11.4 violation; with justification in point 2 ): ``` grep 'MISRA Ref 11.4.2' . -rI ``` #### Directive 4.12 _Ref 4.12.1_ - MISRA C:2012 Directive 4.12: Dynamic memory allocation shall not be used. MISRA warns against the use of dynamic memory allocation as it might lead to undefined behavior if not used properly. However, the FreeRTOS-Plus-TCP library only uses the memory allocation primitives defined by the FreeRTOS-Kernel, which are deterministic. Additionally, proper care is taken in the code to not use free'd pointers and to check the validity of malloc'd memory before it is dereferenced or used. #### Rule 2.2 _Ref 2.2.1_ - MISRA C-2012 Rule 2.2 Unions are used for checksum computation to speed up the process by utilizing the full length of registers (32-bits). After this, the 16-bit union members are used to then compute the final checksum. Doing this is considered as 'overwriting the variable' by Coverity. Thus, it marks some statements as dead code. This is a false positive. #### Rule 8.9 _Ref 8.9.1_ - MISRA C-2012 Rule 8.9 For unit-tests to be repeatable and independent of the order of execution, some variables have file scope definitions rather than function scope. #### Rule 8.13 _Ref 8.13.1_ - MISRA C-2012 Rule 8.13 Parameter passed is never used, should be declared as const. The argument passed to the `prvIPTask` function is left unused which is considered as the variable not being used and thus warranting the use of `const`. However, the FreeRTOS-kernel function `xTaskCreate` expects a function signature of type `void vSomeFunction( void * pvArgs )`. To satisfy that requirement, the function signature of `prvIPTask` does not have a `const` qualifier in the parameter signature. #### Rule 10.5 _Ref 10.5.1_ - MISRA C-2012 Rule 10.5 Converting from an unsigned to an enum type. The operation is safe to perform in that case, as we are using a generic API to send and receive data, in that case the exact data sent it is received #### Rule 11.1 _Ref 11.1.1_ - MISRA C-2012 Rule 11.1 Converting from a void pointer to a function pointer. The `FreeRTOS_setsockopt` API allows users to configure sockets by setting various options. In order to do so, the function must accept one parameter which, based on the option value, can be casted to the corresponding socket field. To that end, that parameter is of `void *` type to accommodate all values. The caller of the API is responsible for providing correct function pointer to the API. Thus, this violation can be safely suppressed. #### Rule 11.3 _Ref 11.3.1_ - MISRA C-2012 Rule 11.3 The data received/sent by the IP stack is represent as a byte stream. This byte stream needs to be casted to various data structures to access certain fields of the packet. However, when casting a byte stream to a structure, MISRA warns us that it can lead to unaligned access. But, in case of FreeRTOS+TCP, the buffer in which the packets are stored are always aligned to a 4 byte word boundary with an offset of 2 bytes. The reason for this 2 byte offset is that the ethernet header is of 14 (12 + 2) bytes. Thus, everything except the ethernet header is properly aligned. There is one alignment exception, which is the sender protocol address in the ARP Header. To combat that, the sender protocol address field is declared as an array of 4 bytes instead of a `uint32_t`. More details can be found [here](https://github.com/FreeRTOS/FreeRTOS-Plus-TCP/pull/512#pullrequestreview-1035211706). #### Rule 11.4 _Ref 11.4.1_ - MISRA c-2012 Rule 11.4 Warns about conversion between a pointer and an integer. Whenever a socket is created using the `FreeRTOS_Socket` API, either a valid socket (a valid non-NULL pointer) is returned; or `FREERTOS_INVALID_SOCKET` is returned (which is essentially ~0U) to depict an error in the socket creation process. This conversion from ~0U to a pointer is used to convey the error to various functions. If the pointer is equal to `FREERTOS_INVALID_SOCKET`, then it is not dereferenced. Thus, this violation can be safely suppressed. _Ref 11.4.2_ - MISRA Rule 11.4 The following statement may trigger a: warning: cast increases required alignment of target type [-Wcast-align]. It has been programatically checked that the pointer is well aligned before this point. _Ref 11.4.3_ - MISRA Rule 11.4 warns about casting pointer to an integer and vice versa. Here, the poiner to the starting byte of the packet is cast to an integer which is then used to see whether the pointer is well aligned or not. It is not used to access any pointer values. Thus, this violation can be safely suppressed. #### Rule 11.6 _Ref 11.6.1_ - When sending and receiving a DHCP event to the IP-stack, the events are converted to a void pointer and sent to the IP-task. The function used to send the events handles various events for the IP-task and thus only accepts void pointers. The IP-task converts the void pointer back to the original event. Thus, this rule can be safely suppressed. _Ref 11.6.2_ - MISRA Rule 11.6 `uintptr_t` is guaranteed by the implementation to fit a pointer size of the platform. The pointer has to be moved backward by a constant offset to get to a 'hidden' pointer which is not available for the user to use. This conversion is done to achieve that while avoiding pointer arithmetic. #### Rule 11.8 _Ref 11.8.1_ - MISRA c-2012 Rule 11.8 warns about removing the `const` qualifier when assigning one value to another. In this case however, a function pointer is being copied. It doesn't make sense in case of function pointers for the pointee to be const or mutable. Thus, this rule is safe to suppress. 1 #### Rule 14.3 _Ref 14.3.1_ - MISRA C-2012 Rule 14.3 False positive as the value might be changed depending on the conditionally compiled code #### Rule 17.2 _Ref 17.2.1_ - MISRA C-2012 Rule 17.2 warns about using recursion in software as that can have severe implications on the stack usage and can lead to a serious issue. In this case however, the number of recursions are limited by design. Any socket spawned (child) by a socket in listening state (parent) cannot be in listening state. Thus it is not possible for the child to have a secondary child socket thereby limiting the number of recursive calls to one. #### Rule 20.5 _Ref 20.5.1_ - MISRA C-2012 Rule 20.5 warns against the use of #undef. FreeRTOS-Plus-TCP allows its users to set some configuration macros to modify the behavior/performance of the library according to their needs. However, the macros values must be within certain bounds. To achieve that, if the macro values lie outside of the bounds, they are undefined using `#undef` before being redefined to a proper value. #### Rule 20.10 _Ref 20.10.1_ - MISRA C-2012 Rule 20.10 warns against the use of ## concatination operator. However, in this case, it must be used to support compile time assertions in case the preprocessor does not suppport sizeof. This operation (assert) has no runtime execution. #### Rule 21.6 _Ref 21.6.1_ - MISRA C-2012 Rule 21.6 warns about the use of standard library input/output functions as they might have implementation defined or undefined behaviour. The function `snprintf` is used to insert information in a logging string. This is only used in a utility function which aids in debugging and is not part of the 'core' code governing the functionality of the TCP/IP stack.