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README.txt
syscall/README.txt ================== This directory supports a syscall layer from communication between a monolithic, kernel-mode NuttX kernel and a separately built, user-mode application set. With most MCUs, NuttX is built as a flat, single executable image containing the NuttX RTOS along with all application code. The RTOS code and the application run in the same address space and at the same kernel- mode privileges. In order to exploit security features of certain processors, an alternative build model is also supported: NuttX can be built separately as a monolithic, kernel-mode module and the applications can be added as a separately built, user-mode module. The syscall layer provided in this directory serves as the communication layer from the user-mode application into the kernel-mode RTOS. The switch from user-mode to kernel-mode is accomplished using software interrupts (SWIs). SWIs are implemented differently and named differently by different manufacturers but all work essentially the same: A special instruction is executed in user-mode that causes a software generated interrupt. The software generated interrupt is caught within the kernel and handle in kernel-mode. Header Files ============ include/syscall.h This header file supports general access to SWI facilities. It is simply a wrapper file that includes include/sys/syscall.h and include/arch/syscall.h. include/sys/syscall.h The SWIs received by the kernel are distinguish by a code that identifies how to process the SWI. This header file defines all such codes understood by the NuttX kernel. include/arch/syscall.h (or arch/<cpu>/include/syscall.h) This header file is provided by the platform-specific logic and declares (or defines) the mechanism for providing software interrupts on this platform. The following functions must be declared (or defined) in this header file: - SWI with SYS_ call number and one parameter uintptr_t sys_call0(unsigned int nbr); - SWI with SYS_ call number and one parameter uintptr_t sys_call1(unsigned int nbr, uintptr_t parm1); - SWI with SYS_ call number and two parameters uintptr_t sys_call2(unsigned int nbr, uintptr_t parm1, uintptr_t parm2); - SWI with SYS_ call number and three parameters uintptr_t sys_call3(unsigned int nbr, uintptr_t parm1, uintptr_t parm2, uintptr_t parm3); - SWI with SYS_ call number and four parameters uintptr_t sys_call4(unsigned int nbr, uintptr_t parm1, uintptr_t parm2, uintptr_t parm3, uintptr_t parm4); - SWI with SYS_ call number and five parameters uintptr_t sys_call5(unsigned int nbr, uintptr_t parm1, uintptr_t parm2, uintptr_t parm3, uintptr_t parm4, uintptr_t parm5); - SWI with SYS_ call number and six parameters uintptr_t sys_call6(unsigned int nbr, uintptr_t parm1, uintptr_t parm2, uintptr_t parm3, uintptr_t parm4, uintptr_t parm5, uintptr_t parm6); Syscall Database ================ Sycall information is maintained in a database. That "database" is implemented as a simple comma-separated-value file, syscall.csv. Most spreadsheets programs will accept this format and can be used to maintain the syscall database. The format of the CSV file for each line is: Field 1: Function name Field 2: The header file that contains the function prototype Field 3: Condition for compilation Field 4: The type of function return value. Field 5 - N+5: The type of each of the N formal parameters of the function Each type field has a format as follows: type name: For all simpler types formal type | actual type: For array types where the form of the formal (eg. int parm[2]) differs from the type of actual passed parameter (eg. int*). This is necessary because you cannot do simple casts to array types. formal type | union member actual type | union member fieldname: A similar situation exists for unions. For example, the formal parameter type union sigval -- You cannot cast a uintptr_t to a union sigval, but you can cast to the type of one of the union member types when passing the actual paramter. Similarly, we cannot cast a union sigval to a uinptr_t either. Rather, we need to cast a specific union member fieldname to uintptr_t. NOTE: This CSV file is used both to support the generate of trap information, but also for the generation of symbol tables. See nuttx/tools/README.txt and nuttx/lib/README.txt for further information. Auto-Generated Files ==================== Stubs and proxies for the sycalls are automatically generated from this CSV database. Here the following definition is used: Proxy - A tiny bit of code that executes in the user space. A proxy has exactly the same function prototype as does the "real" function for which it proxies. However, it only serves to map the function call into a syscall, marshaling all of the system call parameters as necessary. Stub - Another tiny bit of code that executes within the NuttX kernel that is used to map a software interrupt received by the kernel to a kernel function call. The stubs receive the marshaled system call data, and perform the actually kernel function call (in kernel-mode) on behalf of the proxy function. Sub-Directories =============== stubs - Autogenerated stub files are placed in this directory. proxies - Autogenerated proxy files are placed in this directory. mksyscall ========= mksyscall is C program that is used used during the initial NuttX build by the logic in the top-level syscall/ directory. Information about the stubs and proxies is maintained in a comma separated value (CSV) file in the syscall/ directory. The mksyscall program will accept this CVS file as input and generate all of the required proxy or stub files as output. See tools/README.txt for additional information.