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Diffstat (limited to 'drivers/mxc/security/sahara2/include/portable_os.h')
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diff --git a/drivers/mxc/security/sahara2/include/portable_os.h b/drivers/mxc/security/sahara2/include/portable_os.h new file mode 100644 index 000000000000..445acd5d420c --- /dev/null +++ b/drivers/mxc/security/sahara2/include/portable_os.h @@ -0,0 +1,1453 @@ +/* + * Copyright (C) 2004-2010 Freescale Semiconductor, Inc. All Rights Reserved. + */ + +/* + * The code contained herein is licensed under the GNU General Public + * License. You may obtain a copy of the GNU General Public License + * Version 2 or later at the following locations: + * + * http://www.opensource.org/licenses/gpl-license.html + * http://www.gnu.org/copyleft/gpl.html + */ + +#ifndef PORTABLE_OS_H +#define PORTABLE_OS_H + +/***************************************************************************/ + +/* + * Add support for your target OS by checking appropriate flags and then + * including the appropriate file. Don't forget to document the conditions + * in the later documentation section at the beginning of the + * DOXYGEN_PORTABLE_OS_DOC. + */ + +#if defined(LINUX_KERNEL) + +#include "linux_port.h" + +#elif defined(PORTABLE_OS) + +#include "check_portability.h" + +#else + +#error Target OS unsupported or unspecified + +#endif + + +/***************************************************************************/ + +/*! + * @file portable_os.h + * + * This file should be included by portable driver code in order to gain access + * to the OS-specific header files. It is the only OS-related header file that + * the writer of a portable driver should need. + * + * This file also contains the documentation for the common API. + * + * Begin reading the documentation for this file at the @ref index "main page". + * + */ + +/*! + * @if USE_MAINPAGE + * @mainpage Generic OS API for STC Drivers + * @endif + * + * @section intro_sec Introduction + * + * This defines the API / kernel programming environment for portable drivers. + * + * This API is broken up into several functional areas. It greatly limits the + * choices of a device-driver author, but at the same time should allow for + * greater portability of the resulting code. + * + * Each kernel-to-driver function (initialization function, interrupt service + * routine, etc.) has a 'portable signature' which must be used, and a specific + * function which must be called to generate the return statement. There is + * one exception, a background task or "bottom half" routine, which instead has + * a specific structure which must be followed. These signatures and function + * definitions are found in @ref drsigs. + * + * None of these kernel-to-driver functions seem to get any arguments passed to + * them. Instead, there are @ref drsigargs which allow one of these functions + * to get at fairly generic parts of its calling arguments, if there are any. + * + * Almost every driver will have some need to call the operating system + * @ref dkops is the list of services which are available to the driver. + * + * + * @subsection warn_sec Warning + * + * The specifics of the types, values of the various enumerations + * (unless specifically stated, like = 0), etc., are only here for illustrative + * purposes. No attempts should be made to make use of any specific knowledge + * gleaned from this documentation. These types are only meant to be passed in + * and out of the API, and their contents are to be handled only by the + * provided OS-specific functions. + * + * Also, note that the function may be provided as macros in some + * implementations, or vice versa. + * + * + * @section dev_sec Writing a Portable Driver + * + * First off, writing a portable driver means calling no function in an OS + * except what is available through this header file. + * + * Secondly, all OS-called functions in your driver must be invoked and + * referenced through the signature routines. + * + * Thirdly, there might be some rules which you can get away with ignoring or + * violating on one OS, yet will cause your code not to be portable to a + * different OS. + * + * + * @section limit_sec Limitations + * + * This API is not expected to handle every type of driver which may be found + * in an operating system. For example, it will not be able to handle the + * usual design for something like a UART driver, where there are multiple + * logical devices to access, because the design usually calls for some sort of + * indication to the #OS_DEV_TASK() function or OS_DEV_ISR() to indicate which + * channel is to be serviced by that instance of the task/function. This sort + * of argument is missing in this API for functions like os_dev_schedule_task() and + * os_register_interrupt(). + * + * + * @section port_guide Porting Guidelines + * + * This section is intended for a developer who needs to port the header file + * to an operating system which is not yet supported. + * + * This interface allows for a lot of flexibility when it comes to porting to + * an operating systems device driver interface. There are three main areas to + * examine: The use of Driver Routine Signatures, the use of Driver Argument + * Access functions, the Calls to Kernel Functions, and Data Types. + * + * + * @subsection port_sig Porting Driver Routine Signatures + * + * The three macros for each function (e.g. #OS_DEV_INIT(), #OS_DEV_INIT_DCL(), + * and #OS_DEV_INIT_REF()) allow the flexibility of having a 'wrapper' function + * with the OS-required signature, which would then call the user's function + * with some different signature. + * + * The first form would lay down the wrapper function, followed by the + * signature for the user function. The second form would lay down just the + * signatures for both functions, and the last function would reference the + * wrapper function, since that is the interface function called by the OS. + * + * Note that the driver author has no visibility at all to the signature of the + * routines. The author can access arguments only through a limited set of + * functions, and must return via another function. + * + * The Return Functions allow a lot of flexibility in converting the return + * value, or not returning a value at all. These will likely be implemented as + * macros. + * + * + * @subsection port_arg Porting Driver Argument Access Functions + * + * The signatures defined by the guide will usually be replaced with macro + * definitions. + * + * + * @subsection port_dki Porting Calls to Kernel Functions + * + * The signatures defined by the guide may be replaced with macro definitions, + * if that makes more sense. + * + * Implementors are free to ignore arguments which are not applicable to their + * OS. + * + * @subsection port_datatypes Porting Data Types + * + * + */ + +/*************************************************************************** + * Compile flags + **************************************************************************/ + +/* + * This compile flag should only be turned on when running doxygen to generate + * the API documentation. + */ +#ifdef DOXYGEN_PORTABLE_OS_DOC + +/*! + * @todo module_init()/module_cleanup() for Linux need to be added to OS + * abstractions. Also need EXPORT_SYMBOL() equivalent?? + * + */ + +/* Drop OS differentation documentation here */ + +/*! + * \#define this flag to build your driver as a Linux driver + */ +#define LINUX + +/* end OS differentation documentation */ + +/*! + * Symbol to give version number of the implementation file. Earliest + * definition is in version 1.1, with value 101 (to mean version 1.1) + */ +#define PORTABLE_OS_VERSION 101 + +/* + * NOTICE: The following definitions (the rest of the file) are not meant ever + * to be compiled. Instead, they are the documentation for the portable OS + * API, to be used by driver writers. + * + * Each individual OS port will define each of these types, functions, or + * macros as appropriate to the target OS. This is why they are under the + * DOXYGEN_PORTABLE_OS_DOC flag. + */ + +/*************************************************************************** + * Type definitions + **************************************************************************/ + +/*! + * Type used for registering and deregistering interrupts. + * + * This is typically an interrupt channel number. + */ +typedef int os_interrupt_id_t; + +/*! + * Type used as handle for a process + * + * See #os_get_process_handle() and #os_send_signal(). + */ +typedef int os_process_handle_t; + +/*! + * Generic return code for functions which need such a thing. + * + * No knowledge should be assumed of the value of any of these symbols except + * that @c OS_ERROR_OK_S is guaranteed to be zero. + * + * @todo Any other named values? What about (-EAGAIN? -ERESTARTSYS? Are they + * too Linux/Unix-specific read()/write() return values) ? + */ +typedef enum { + OS_ERROR_OK_S = 0, /*!< Success */ + OS_ERROR_FAIL_S, /*!< Generic driver failure */ + OS_ERROR_NO_MEMORY_S, /*!< Failure to acquire/use memory */ + OS_ERROR_BAD_ADDRESS_S, /*!< Bad address */ + OS_ERROR_BAD_ARG_S /*!< Bad input argument */ +} os_error_code; + +/*! + * Handle to a lock. + */ +typedef int *os_lock_t; + +/*! + * Context while locking. + */ +typedef int os_lock_context_t; + +/*! + * An object which can be slept on and later used to wake any/all sleepers. + */ +typedef int os_sleep_object_t; + +/*! + * Driver registration handle + */ +typedef void *os_driver_reg_t; + +/*! + * Function signature for an #OS_DEV_INIT() function. + * + * @return A call to os_dev_init_return() function. + */ +typedef void (*os_init_function_t) (void); + +/*! + * Function signature for an #OS_DEV_SHUTDOWN() function. + * + * @return A call to os_dev_shutdown_return() function. + */ +typedef void (*os_shutdown_function_t) (void); + +/*! + * Function signature for a user-driver function. + * + * @return A call to the appropriate os_dev_xxx_return() function. + */ +typedef void (*os_user_function_t) (void); + +/*! + * Function signature for the portable interrupt handler + * + * While it would be nice to know which interrupt is being serviced, the + * Least Common Denominator rule says that no arguments get passed in. + * + * @return A call to #os_dev_isr_return() + */ +typedef void (*os_interrupt_handler_t) (void); + +/*! + * Function signature for a task function + * + * Many task function definitions get some sort of generic argument so that the + * same function can run across many (queues, channels, ...) as separate task + * instances. This has been left out of this API. + * + * This function must be structured as documented by #OS_DEV_TASK(). + * + */ +typedef void (*os_task_fn_t) (void); + +/*! + * Function types which can be associated with driver entry points. These are + * used in os_driver_add_registration(). + * + * Note that init and shutdown are absent. + */ +typedef enum { + OS_FN_OPEN, /*!< open() operation handler. */ + OS_FN_CLOSE, /*!< close() operation handler. */ + OS_FN_READ, /*!< read() operation handler. */ + OS_FN_WRITE, /*!< write() operation handler. */ + OS_FN_IOCTL, /*!< ioctl() operation handler. */ + OS_FN_MMAP /*!< mmap() operation handler. */ +} os_driver_fn_t; + +/*************************************************************************** + * Driver-to-Kernel Operations + **************************************************************************/ + +/*! + * @defgroup dkops Driver-to-Kernel Operations + * + * These are the operations which drivers should call to get the OS to perform + * services. + */ + +/*! @addtogroup dkops */ +/*! @{ */ + +/*! + * Register an interrupt handler. + * + * @param driver_name The name of the driver + * @param interrupt_id The interrupt line to monitor (type + * #os_interrupt_id_t) + * @param function The function to be called to handle an interrupt + * + * @return #os_error_code + */ +os_error_code os_register_interrupt(char *driver_name, + os_interrupt_id_t interrupt_id, + os_interrupt_handler_t function); + +/*! + * Deregister an interrupt handler. + * + * @param interrupt_id The interrupt line to stop monitoring + * + * @return #os_error_code + */ +os_error_code os_deregister_interrupt(os_interrupt_id_t interrupt_id); + +/*! + * Initialize driver registration. + * + * If the driver handles open(), close(), ioctl(), read(), write(), or mmap() + * calls, then it needs to register their location with the kernel so that they + * get associated with the device. + * + * @param handle The handle object to be used with this registration. The + * object must live (be in memory somewhere) at least until + * os_driver_remove_registration() is called. + * + * @return An os error code. + */ +os_error_code os_driver_init_registration(os_driver_reg_t handle); + +/*! + * Add a function registration to driver registration. + * + * @param handle The handle used with #os_driver_init_registration(). + * @param name Which function is being supported. + * @param function The result of a call to a @c _REF version of one of the + * driver function signature macros + * driver function signature macros + * @return void + */ +void os_driver_add_registration(os_driver_reg_t handle, os_driver_fn_t name, + void *function); + +/*! + * Finalize the driver registration with the kernel. + * + * Upon return from this call, the driver may begin receiving calls at the + * defined entry points. + * + * @param handle The handle used with #os_driver_init_registration(). + * @param major The major device number to be associated with the driver. + * If this value is zero, a major number may be assigned. + * See #os_driver_get_major() to determine final value. + * #os_driver_remove_registration(). + * @param driver_name The driver name. Can be used as part of 'device node' + * name on platforms which support such a feature. + * + * @return An error code + */ +os_error_code os_driver_complete_registration(os_driver_reg_t handle, + int major, char *driver_name); + +/*! + * Get driver Major Number from handle after a successful registration. + * + * @param handle A handle which has completed registration. + * + * @return The major number (if any) associated with the handle. + */ +uint32_t os_driver_get_major(os_driver_reg_t handle); + +/*! + * Remove the driver's registration with the kernel. + * + * Upon return from this call, the driver not receive any more calls at the + * defined entry points (other than ISR and shutdown). + * + * @param major The major device number to be associated with the driver. + * @param driver_name The driver name + * + * @return An error code. + */ +os_error_code os_driver_remove_registration(int major, char *driver_name); + +/*! + * Print a message to console / into log file. After the @c msg argument a + * number of printf-style arguments may be added. Types should be limited to + * printf string, char, octal, decimal, and hexadecimal types. (This excludes + * pointers, and floating point). + * + * @param msg The message to print to console / system log + * + * @return (void) + */ +void os_printk(char *msg, ...); + +/*! + * Allocate some kernel memory + * + * @param amount Number of 8-bit bytes to allocate + * @param flags Some indication of purpose of memory (needs definition) + * + * @return Pointer to allocated memory, or NULL if failed. + */ +void *os_alloc_memory(unsigned amount, int flags); + +/*! + * Free some kernel memory + * + * @param location The beginning of the region to be freed. + * + * Do some OSes have separate free() functions which should be + * distinguished by passing in @c flags here, too? Don't some also require the + * size of the buffer being freed? Perhaps separate routines for each + * alloc/free pair (DMAable, etc.)? + */ +void os_free_memory(void *location); + +/*! + * Allocate cache-coherent memory + * + * @param amount Number of bytes to allocate + * @param[out] dma_addrp Location to store physical address of allocated + * memory. + * @param flags Some indication of purpose of memory (needs + * definition). + * + * @return (virtual space) pointer to allocated memory, or NULL if failed. + * + */ +void *os_alloc_coherent(unsigned amount, uint32_t * dma_addrp, int flags); + +/*! + * Free cache-coherent memory + * + * @param size Number of bytes which were allocated. + * @param[out] virt_addr Virtual(kernel) address of memory.to be freed, as + * returned by #os_alloc_coherent(). + * @param[out] dma_addr Physical address of memory.to be freed, as returned + * by #os_alloc_coherent(). + * + * @return void + * + */ +void os_free_coherent(unsigned size, void *virt_addr, uint32_t dma_addr); + +/*! + * Map an I/O space into kernel memory space + * + * @param start The starting address of the (physical / io space) region + * @param range_bytes The number of bytes to map + * + * @return A pointer to the mapped area, or NULL on failure + */ +void *os_map_device(uint32_t start, unsigned range_bytes); + +/*! + * Unmap an I/O space from kernel memory space + * + * @param start The starting address of the (virtual) region + * @param range_bytes The number of bytes to unmap + * + * @return None + */ +void os_unmap_device(void *start, unsigned range_bytes); + +/*! + * Copy data from Kernel space to User space + * + * @param to The target location in user memory + * @param from The source location in kernel memory + * @param size The number of bytes to be copied + * + * @return #os_error_code + */ +os_error_code os_copy_to_user(void *to, void *from, unsigned size); + +/*! + * Copy data from User space to Kernel space + * + * @param to The target location in kernel memory + * @param from The source location in user memory + * @param size The number of bytes to be copied + * + * @return #os_error_code + */ +os_error_code os_copy_from_user(void *to, void *from, unsigned size); + +/*! + * Read an 8-bit device register + * + * @param register_address The (bus) address of the register to write to + * @return The value in the register + */ +uint8_t os_read8(uint8_t * register_address); + +/*! + * Write an 8-bit device register + * + * @param register_address The (bus) address of the register to write to + * @param value The value to write into the register + */ +void os_write8(uint8_t * register_address, uint8_t value); + +/*! + * Read a 16-bit device register + * + * @param register_address The (bus) address of the register to write to + * @return The value in the register + */ +uint16_t os_read16(uint16_t * register_address); + +/*! + * Write a 16-bit device register + * + * @param register_address The (bus) address of the register to write to + * @param value The value to write into the register + */ +void os_write16(uint16_t * register_address, uint16_t value); + +/*! + * Read a 32-bit device register + * + * @param register_address The (bus) address of the register to write to + * @return The value in the register + */ +uint32_t os_read32(uint32_t * register_address); + +/*! + * Write a 32-bit device register + * + * @param register_address The (bus) address of the register to write to + * @param value The value to write into the register + */ +void os_write32(uint32_t * register_address, uint32_t value); + +/*! + * Read a 64-bit device register + * + * @param register_address The (bus) address of the register to write to + * @return The value in the register + */ +uint64_t os_read64(uint64_t * register_address); + +/*! + * Write a 64-bit device register + * + * @param register_address The (bus) address of the register to write to + * @param value The value to write into the register + */ +void os_write64(uint64_t * register_address, uint64_t value); + +/*! + * Prepare a task to execute the given function. This should only be done once + * per task, during the driver's initialization routine. + * + * @param task_fn Name of the OS_DEV_TASK() function to be created. + * + * @return an OS ERROR code. + */ +os_error os_create_task(os_task_fn_t * task_fn); + +/*! + * Run the task associated with an #OS_DEV_TASK() function + * + * The task will begin execution sometime after or during this call. + * + * @param task_fn Name of the OS_DEV_TASK() function to be scheduled. + * + * @return void + */ +void os_dev_schedule_task(os_task_fn_t * task_fn); + +/*! + * Make sure that task is no longer running and will no longer run. + * + * This function will not return until both are true. This is useful when + * shutting down a driver. + * + * @param task_fn Name of the OS_DEV_TASK() funciton to be stopped. + * + */ +void os_stop_task(os_task_fn_t * task_fn); + +/*! + * Delay some number of microseconds + * + * Note that this is a busy-loop, not a suspension of the task/process. + * + * @param msecs The number of microseconds to delay + * + * @return void + */ +void os_mdelay(unsigned long msecs); + +/*! + * Calculate virtual address from physical address + * + * @param pa Physical address + * + * @return virtual address + * + * @note this assumes that addresses are 32 bits wide + */ +void *os_va(uint32_t pa); + +/*! + * Calculate physical address from virtual address + * + * + * @param va Virtual address + * + * @return physical address + * + * @note this assumes that addresses are 32 bits wide + */ +uint32_t os_pa(void *va); + +/*! + * Allocate and initialize a lock, returning a lock handle. + * + * The lock state will be initialized to 'unlocked'. + * + * @return A lock handle, or NULL if an error occurred. + */ +os_lock_t os_lock_alloc_init(void); + +/*! + * Acquire a lock. + * + * This function should only be called from an interrupt service routine. + * + * @param lock_handle A handle to the lock to acquire. + * + * @return void + */ +void os_lock(os_lock_t lock_handle); + +/*! + * Unlock a lock. Lock must have been acquired by #os_lock(). + * + * @param lock_handle A handle to the lock to unlock. + * + * @return void + */ +void os_unlock(os_lock_t lock_handle); + +/*! + * Acquire a lock in non-ISR context + * + * This function will spin until the lock is available. + * + * @param lock_handle A handle of the lock to acquire. + * @param context Place to save the before-lock context + * + * @return void + */ +void os_lock_save_context(os_lock_t lock_handle, os_lock_context_t context); + +/*! + * Release a lock in non-ISR context + * + * @param lock_handle A handle of the lock to release. + * @param context Place where before-lock context was saved. + * + * @return void + */ +void os_unlock_restore_context(os_lock_t lock_handle, + os_lock_context_t context); + +/*! + * Deallocate a lock handle. + * + * @param lock_handle An #os_lock_t that has been allocated. + * + * @return void + */ +void os_lock_deallocate(os_lock_t lock_handle); + +/*! + * Determine process handle + * + * The process handle of the current user is returned. + * + * @return A handle on the current process. + */ +os_process_handle_t os_get_process_handle(); + +/*! + * Send a signal to a process + * + * @param proc A handle to the target process. + * @param sig The POSIX signal to send to that process. + */ +void os_send_signal(os_process_handle_t proc, int sig); + +/*! + * Get some random bytes + * + * @param buf The location to store the random data. + * @param count The number of bytes to store. + * + * @return void + */ +void os_get_random_bytes(void *buf, unsigned count); + +/*! + * Go to sleep on an object. + * + * Example: code = os_sleep(my_queue, available_count == 0, 0); + * + * @param object The object on which to sleep + * @param condition An expression to check for sleep completion. Must be + * coded so that it can be referenced more than once inside + * macro, i.e., no ++ or other modifying expressions. + * @param atomic Non-zero if sleep must not return until condition. + * + * @return error code -- OK or sleep interrupted?? + */ +os_error_code os_sleep(os_sleep_object_t object, unsigned condition, + unsigned atomic); + +/*! + * Wake up whatever is sleeping on sleep object + * + * @param object The object on which things might be sleeping + * + * @return none + */ +void os_wake_sleepers(os_sleep_object_t object); + + /*! @} *//* dkops */ + +/***************************************************************************** + * Function-signature-generating macros + *****************************************************************************/ + +/*! + * @defgroup drsigs Driver Function Signatures + * + * These macros will define the entry point signatures for interrupt handlers; + * driver initialization and shutdown; device open/close; etc. They are to be + * used whenever the Kernel will call into the Driver. They are not + * appropriate for driver calls to other routines in the driver. + * + * There are three versions of each macro for a given Driver Entry Point. The + * first version is used to define a function and its implementation in the + * driver.c file, e.g. #OS_DEV_INIT(). + * + * The second form is used whenever a forward declaration (prototype) is + * needed. It has the letters @c _DCL appended to the name of the definition + * function. These are not otherwise mentioned in this documenation. + * + * There is a third form used when a reference to a function is required, for + * instance when passing the routine as a pointer to a function. It has the + * letters @c _REF appended to the name of the definition function + * (e.g. DEV_IOCTL_REF). + * + * Note that these two extra forms are required because of the possibility of + * having an invisible 'wrapper function' created by the os-specific header + * file which would need to be invoked by the operating system, and which in + * turn would invoke the generic function. + * + * Example: + * + * (in a header file) + * @code + * OS_DEV_INIT_DCL(widget_init); + * OS_DEV_ISR_DCL(widget_isr); + * @endcode + * + * (in an implementation file) + * @code + * OS_DEV_INIT(widget, widget_init) + * { + * + * os_register_interrupt("widget", WIDGET_IRQ, OS_DEV_ISR_REF(widget_isr)); + * + * os_dev_init_return(OS_RETURN_NO_ERROR_S); + * } + * + * OS_DEV_ISR(widget_isr) + * { + * os_dev_isr_return(TRUE); + * } + * @endcode + */ + +/*! @addtogroup drsigs */ +/*! @{ */ + +/*! + * Define a function which will handle device initialization + * + * This is tne driver initialization routine. This is normally where the + * part would be initialized; queues, locks, interrupts handlers defined; + * long-term dynamic memory allocated for driver use; etc. + * + * @param function_name The name of the portable initialization function. + * + * @return A call to #os_dev_init_return() + * + */ +#define OS_DEV_INIT(function_name) + +/*! + * Define a function which will handle device shutdown + * + * This is the reverse of the #OS_DEV_INIT() routine. + * + * @param function_name The name of the portable driver shutdown routine. + * + * @return A call to #os_dev_shutdown_return() + */ +#define OS_DEV_SHUTDOWN(function_name) + +/*! + * Define a function which will open the device for a user. + * + * @param function_name The name of the driver open() function + * + * @return A call to #os_dev_open_return() + */ +#define OS_DEV_OPEN(function_name) + +/*! + * Define a function which will handle a user's ioctl() request + * + * @param function_name The name of the driver ioctl() function + * + * @return A call to #os_dev_ioctl_return() + */ +#define OS_DEV_IOCTL(function_name) + +/*! + * Define a function which will handle a user's read() request + * + * @param function_name The name of the driver read() function + * + * @return A call to #os_dev_read_return() + */ +#define OS_DEV_READ(function_name) + +/*! + * Define a function which will handle a user's write() request + * + * @param function_name The name of the driver write() function + * + * @return A call to #os_dev_write_return() + */ +#define OS_DEV_WRITE(function_name) + +/*! + * Define a function which will handle a user's mmap() request + * + * The mmap() function requests the driver to map some memory into user space. + * + * @todo Determine what support functions are needed for mmap() handling. + * + * @param function_name The name of the driver mmap() function + * + * @return A call to #os_dev_mmap_return() + */ +#define OS_DEV_MMAP(function_name) + +/*! + * Define a function which will close the device - opposite of OS_DEV_OPEN() + * + * @param function_name The name of the driver close() function + * + * @return A call to #os_dev_close_return() + */ +#define OS_DEV_CLOSE(function_name) + +/*! + * Define a function which will handle an interrupt + * + * No arguments are available to the generic function. It must not invoke any + * OS functions which are illegal in a ISR. It gets no parameters, and must + * have a call to #os_dev_isr_return() instead of any/all return statements. + * + * Example: + * @code + * OS_DEV_ISR(widget, widget_isr, WIDGET_IRQ_NUMBER) + * { + * os_dev_isr_return(1); + * } + * @endcode + * + * @param function_name The name of the driver ISR function + * + * @return A call to #os_dev_isr_return() + */ +#define OS_DEV_ISR(function_name) + +/*! + * Define a function which will operate as a background task / bottom half. + * + * The function implementation must be structured in the following manner: + * @code + * OS_DEV_TASK(widget_task) + * { + * OS_DEV_TASK_SETUP(widget_task); + * + * while OS_DEV_TASK_CONDITION(widget_task) } + * + * }; + * } + * @endcode + * + * @todo In some systems the OS_DEV_TASK_CONDITION() will be an action which + * will cause the task to sleep on some event triggered by os_run_task(). In + * others, the macro will reference a variable laid down by + * OS_DEV_TASK_SETUP() to make sure that the loop is only performed once. + * + * @param function_name The name of this background task function + */ +#define OS_DEV_TASK(function_name) + + /*! @} *//* drsigs */ + +/*! @defgroup dclsigs Routines to declare Driver Signature routines + * + * These macros drop prototypes suitable for forward-declaration of + * @ref drsigs "function signatures". + */ + +/*! @addtogroup dclsigs */ +/*! @{ */ + +/*! + * Declare prototype for the device initialization function + * + * @param function_name The name of the portable initialization function. + */ +#define OS_DEV_INIT_DCL(function_name) + +/*! + * Declare prototype for the device shutdown function + * + * @param function_name The name of the portable driver shutdown routine. + * + * @return A call to #os_dev_shutdown_return() + */ +#define OS_DEV_SHUTDOWN_DCL(function_name) + +/*! + * Declare prototype for the open() function. + * + * @param function_name The name of the driver open() function + * + * @return A call to #os_dev_open_return() + */ +#define OS_DEV_OPEN_DCL(function_name) + +/*! + * Declare prototype for the user's ioctl() request function + * + * @param function_name The name of the driver ioctl() function + * + * @return A call to #os_dev_ioctl_return() + */ +#define OS_DEV_IOCTL_DCL(function_name) + +/*! + * Declare prototype for the function a user's read() request + * + * @param function_name The name of the driver read() function + */ +#define OS_DEV_READ_DCL(function_name) + +/*! + * Declare prototype for the user's write() request function + * + * @param function_name The name of the driver write() function + */ +#define OS_DEV_WRITE_DCL(function_name) + +/*! + * Declare prototype for the user's mmap() request function + * + * @param function_name The name of the driver mmap() function + */ +#define OS_DEV_MMAP_DCL(function_name) + +/*! + * Declare prototype for the close function + * + * @param function_name The name of the driver close() function + * + * @return A call to #os_dev_close_return() + */ +#define OS_DEV_CLOSE_DCL(function_name) + +/*! + * Declare prototype for the interrupt handling function + * + * @param function_name The name of the driver ISR function + */ +#define OS_DEV_ISR_DCL(function_name) + +/*! + * Declare prototype for a background task / bottom half function + * + * @param function_name The name of this background task function + */ +#define OS_DEV_TASK_DCL(function_name) + + /*! @} *//* dclsigs */ + +/***************************************************************************** + * Functions for Returning Values from Driver Signature routines + *****************************************************************************/ + +/*! + * @defgroup retfns Functions to Return Values from Driver Signature routines + */ + +/*! @addtogroup retfns */ +/*! @{ */ + +/*! + * Return from the #OS_DEV_INIT() function + * + * @param code An error code to report success or failure. + * + */ +void os_dev_init_return(os_error_code code); + +/*! + * Return from the #OS_DEV_SHUTDOWN() function + * + * @param code An error code to report success or failure. + * + */ +void os_dev_shutdown_return(os_error_code code); + +/*! + * Return from the #OS_DEV_ISR() function + * + * The function should verify that it really was supposed to be called, + * and that its device needed attention, in order to properly set the + * return code. + * + * @param code non-zero if interrupt handled, zero otherwise. + * + */ +void os_dev_isr_return(int code); + +/*! + * Return from the #OS_DEV_OPEN() function + * + * @param code An error code to report success or failure. + * + */ +void os_dev_open_return(os_error_code code); + +/*! + * Return from the #OS_DEV_IOCTL() function + * + * @param code An error code to report success or failure. + * + */ +void os_dev_ioctl_return(os_error_code code); + +/*! + * Return from the #OS_DEV_READ() function + * + * @param code Number of bytes read, or an error code to report failure. + * + */ +void os_dev_read_return(os_error_code code); + +/*! + * Return from the #OS_DEV_WRITE() function + * + * @param code Number of bytes written, or an error code to report failure. + * + */ +void os_dev_write_return(os_error_code code); + +/*! + * Return from the #OS_DEV_MMAP() function + * + * @param code Number of bytes written, or an error code to report failure. + * + */ +void os_dev_mmap_return(os_error_code code); + +/*! + * Return from the #OS_DEV_CLOSE() function + * + * @param code An error code to report success or failure. + * + */ +void os_dev_close_return(os_error_code code); + +/*! + * Start the #OS_DEV_TASK() function + * + * In some implementations, this could be turned into a label for + * the os_dev_task_return() call. + * + * For a more portable interface, should this take the sleep object as an + * argument??? + * + * @return none + */ +void os_dev_task_begin(void); + +/*! + * Return from the #OS_DEV_TASK() function + * + * In some implementations, this could be turned into a sleep followed + * by a jump back to the os_dev_task_begin() call. + * + * @param code An error code to report success or failure. + * + */ +void os_dev_task_return(os_error_code code); + + /*! @} *//* retfns */ + +/***************************************************************************** + * Functions/Macros for accessing arguments from Driver Signature routines + *****************************************************************************/ + +/*! @defgroup drsigargs Functions for Getting Arguments in Signature functions + * + */ +/* @addtogroup @drsigargs */ +/*! @{ */ + +/*! + * Check whether user is requesting read (permission) on the file/device. + * Usable in #OS_DEV_OPEN(), #OS_DEV_CLOSE(), #OS_DEV_IOCTL(), #OS_DEV_READ() + * and #OS_DEV_WRITE() routines. + */ +int os_dev_is_flag_read(void); + +/*! + * Check whether user is requesting write (permission) on the file/device. + * Usable in #OS_DEV_OPEN(), #OS_DEV_CLOSE(), #OS_DEV_IOCTL(), #OS_DEV_READ() + * and #OS_DEV_WRITE() routines. + */ +int os_dev_is_flag_write(void); + +/*! + * Check whether user is requesting non-blocking I/O. Usable in + * #OS_DEV_OPEN(), #OS_DEV_CLOSE(), #OS_DEV_IOCTL(), #OS_DEV_READ() and + * #OS_DEV_WRITE() routines. + * + * @todo Specify required behavior when nonblock is requested and (sufficient?) + * data are not available to fulfill the request. + * + */ +int os_dev_is_flag_nonblock(void); + +/*! + * Determine which major device is being accessed. Usable in #OS_DEV_OPEN() + * and #OS_DEV_CLOSE(). + */ +int os_dev_get_major(void); + +/*! + * Determine which minor device is being accessed. Usable in #OS_DEV_OPEN() + * and #OS_DEV_CLOSE(). + */ +int os_dev_get_minor(void); + +/*! + * Determine which operation the user wants performed. Usable in + * #OS_DEV_IOCTL(). + * + * @return Value of the operation. + * + * @todo Define some generic way to define the individual operations. + */ +unsigned os_dev_get_ioctl_op(void); + +/*! + * Retrieve the associated argument for the desired operation. Usable in + * #OS_DEV_IOCTL(). + * + * @return A value which can be cast to a struct pointer or used as + * int/long. + */ +os_dev_ioctl_arg_t os_dev_get_ioctl_arg(void); + +/*! + * Determine the requested byte count. This should be the size of buffer at + * #os_dev_get_user_buffer(). Usable in OS_DEV_READ() and OS_DEV_WRITE() + * routines. + * + * @return A count of bytes + */ +unsigned os_dev_get_count(void); + +/*! + * Get the pointer to the user's data buffer. Usable in OS_DEV_READ(), + * OS_DEV_WRITE(), and OS_DEV_MMAP() routines. + * + * @return Pointer to user buffer (in user space). See #os_copy_to_user() + * and #os_copy_from_user(). + */ +void *os_dev_get_user_buffer(void); + +/*! + * Get the POSIX flags field for the associated open file. Usable in + * OS_DEV_READ(), OS_DEV_WRITE(), and OS_DEV_IOCTL() routines. + * + * @return The flags associated with the file. + */ +unsigned os_dev_get_file_flags(void); + +/*! + * Set the driver's private structure associated with this file/open. + * + * Generally used during #OS_DEV_OPEN(). May also be used during + * #OS_DEV_READ(), #OS_DEV_WRITE(), #OS_DEV_IOCTL(), #OS_DEV_MMAP(), and + * #OS_DEV_CLOSE(). See also #os_dev_get_user_private(). + * + * @param struct_p The driver data structure to associate with this user. + */ +void os_dev_set_user_private(void *struct_p); + +/*! + * Get the driver's private structure associated with this file. + * + * May be used during #OS_DEV_OPEN(), #OS_DEV_READ(), #OS_DEV_WRITE(), + * #OS_DEV_IOCTL(), #OS_DEV_MMAP(), and #OS_DEV_CLOSE(). See + * also #os_dev_set_user_private(). + * + * @return The driver data structure to associate with this user. + */ +void *os_dev_get_user_private(void); + +/*! + * Get the IRQ associated with this call to the #OS_DEV_ISR() function. + * + * @return The IRQ (integer) interrupt number. + */ +int os_dev_get_irq(void); + + /*! @} *//* drsigargs */ + +/***************************************************************************** + * Functions for Generating References to Driver Routines + *****************************************************************************/ + +/*! + * @defgroup drref Functions for Generating References to Driver Routines + * + * These functions will most likely be implemented as macros. They are a + * necessary part of the portable API to guarantee portability. The @c symbol + * type in here is the same symbol passed to the associated + * signature-generating macro. + * + * These macros must be used whenever referring to a + * @ref drsigs "driver signature function", for instance when storing or + * passing a pointer to the function. + */ + +/*! @addtogroup drref */ +/*! @{ */ + +/*! + * Generate a reference to an #OS_DEV_INIT() function + * + * @param function_name The name of the init function being referenced. + * + * @return A reference to the function + */ +os_init_function_t OS_DEV_INIT_REF(symbol function_name); + +/*! + * Generate a reference to an #OS_DEV_SHUTDOWN() function + * + * @param function_name The name of the shutdown function being referenced. + * + * @return A reference to the function + */ +os_shutdown_function_t OS_DEV_SHUTDOWN_REF(symbol function_name); + +/*! + * Generate a reference to an #OS_DEV_OPEN() function + * + * @param function_name The name of the open function being referenced. + * + * @return A reference to the function + */ +os_user_function_t OS_DEV_OPEN_REF(symbol function_name); + +/*! + * Generate a reference to an #OS_DEV_CLOSE() function + * + * @param function_name The name of the close function being referenced. + * + * @return A reference to the function + */ +os_user_function_t OS_DEV_CLOSE_REF(symbol function_name); + +/*! + * Generate a reference to an #OS_DEV_READ() function + * + * @param function_name The name of the read function being referenced. + * + * @return A reference to the function + */ +os_user_function_t OS_DEV_READ_REF(symbol function_name); + +/*! + * Generate a reference to an #OS_DEV_WRITE() function + * + * @param function_name The name of the write function being referenced. + * + * @return A reference to the function + */ +os_user_function_t OS_DEV_WRITE_REF(symbol function_name); + +/*! + * Generate a reference to an #OS_DEV_IOCTL() function + * + * @param function_name The name of the ioctl function being referenced. + * + * @return A reference to the function + */ +os_user_function_t OS_DEV_IOCTL_REF(symbol function_name); + +/*! + * Generate a reference to an #OS_DEV_MMAP() function + * + * @param function_name The name of the mmap function being referenced. + * + * @return A reference to the function + */ +os_user_function_t OS_DEV_MMAP_REF(symbol function_name); + +/*! + * Generate a reference to an #OS_DEV_ISR() function + * + * @param function_name The name of the isr being referenced. + * + * @return a reference to the function + */ +os_interrupt_handler_t OS_DEV_ISR_REF(symbol function_name); + + /*! @} *//* drref */ + +/*! + * Flush and invalidate all cache lines. + */ +void os_flush_cache_all(void); + +/*! + * Flush a range of addresses from the cache + * + * @param start Starting virtual address + * @param len Number of bytes to flush + */ +void os_cache_flush_range(void *start, uint32_t len); + +/*! + * Invalidate a range of addresses in the cache + * + * @param start Starting virtual address + * @param len Number of bytes to flush + */ +void os_cache_inv_range(void *start, uint32_t len); + +/*! + * Clean a range of addresses from the cache + * + * @param start Starting virtual address + * @param len Number of bytes to flush + */ +void os_cache_clean_range(void *start, uint32_t len); + +/*! + * @example widget.h + */ + +/*! + * @example widget.c + */ + +/*! + * @example rng_driver.h + */ + +/*! + * @example rng_driver.c + */ + +/*! + * @example shw_driver.h + */ + +/*! + * @example shw_driver.c + */ + +#endif /* DOXYGEN_PORTABLE_OS_DOC */ + +#endif /* PORTABLE_OS_H */ |