161 lines
5.7 KiB
C
161 lines
5.7 KiB
C
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/*
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* This file is only used for doxygen document generation.
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*/
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/**
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* @defgroup Kernel RT-Thread Kernel API
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*
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* The Kernel APIs are the core APIs of RT-Thread, which supports the following
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* features:
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* - Multi-thread management
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* - Synchronization mechanisms
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* - Inter-thread communication
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* - Memory management
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* - Asynchronous timer
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*/
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/**
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* @addtogroup Kernel
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*/
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/*@{*/
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/**
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* @defgroup Thread Thread Management
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* @brief the thread management
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*
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* RT-Thread operating system supports multitask systems, which are based on thread
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* scheduling.
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* - The scheduling is a full preemptive priority-based scheduling algorithm.
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* - 8/32/256 priority levels are supported, in which 0 is the highest and 7/31/255 the lowest.
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* The 7/31/255th priority is used for idle thread.
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* - Threads running at same priority level are supported. The shared time-slice
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* round-robin scheduling is used for this case.
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* - The time of scheduler to choose the next highest ready thread is determinant.
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* - There are four status in thread management
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* -# Initialization
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* -# Running/Ready
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* -# Blocked
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* -# Closed
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* - The number of threads in the system is unlimited, only related with RAM.
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*/
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/**
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* @defgroup Clock Clock and Timer Management
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* * @brief clock and system timer management
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*
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* RT-Thread uses clock tick to implement shared time-slice scheduling.
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*
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* The timing sensitivity of thread is implemented by timers. The timer can be set as
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* one-shot or periodic timeout.
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*/
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/**
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* @defgroup KernelObject Kernel Object Management
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* @brief kernel object management
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*
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* The Kernel object system can access and manage all of the kernel objects.
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*
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* Kernel objects include most of the facilities in the kernel:
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* - thread
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* - semaphore and mutex
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* - event/fast event, mailbox, messagequeue
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* - memory pool
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* - timer
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* @image html Kernel_Object.png "Figure 2: Kernel Object"
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* @image rtf Kernel_Object.png "Figure 2: Kernel Object"
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*
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* Kernel objects can be static objects, whose memory is allocated in compiling.
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* It can be dynamic objects as well, whose memory is allocated from system heaps
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* in runtime.
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*/
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/**
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* @defgroup IPC Inter-Thread Communication
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* @brief inter-thread communication
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*
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* RT-Thread operating system supports the traditional semaphore and mutex.
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* - Mutex objects use inherited priority to prevent priority reversion.
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* - The semaphore release action is safe for interrupt service routine.
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*
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* Moreover, the blocked queue for thread to obtain semaphore or mutex can be sorted
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* by priority or FIFO. There are two flags to indicate this mechanism.
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* - RT_IPC_FLAG_FIFO
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* when the resource is available, thread pended on this resource at first would get
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* the resource.
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* - RT_IPC_FLAG_PRIO
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* when the resource is available, thread pended on this resource who had the most high
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* priority would get the resource.
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*
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* RT-Thread operating systems supports event/fast event, mail box and message queue.
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* - The event mechanism is used to awake a thead by setting one or more corresponding
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* bit of a binary number when an event ocurs.
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* - The fast event supports event thread queue. Once a one bit event occurs, the corresponding
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* blocked thread can be found out timing accurately, then will be waked up.
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* - In mailbox, the mail length is fixed to 4 byte, which is more effective than message queue.
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* - The send action for communication facilities is also safe for interrupt service routine.
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*/
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/**
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* @defgroup MM Memory Management
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* @brief memory management for memory pool and heap memory
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*
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* RT-Thread operating system supports two types memory management:
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* - Static memory pool management
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* - Dynamic memory heap management.
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*
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* The time to allocate a memory block from the memory pool is determinant. When
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* the memory pool is empty, the allocated thread can be blocked (or immediately return,
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* or waiting for sometime to return, which are determined by a timeout parameter).
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* When other thread releases memory blocks to this memory pool, the blocked thread is
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* wake up.
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*
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* There are two methods in dynamic memory heap management, one is used for small memory,
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* such as less than 1MB. Another is a SLAB like memory management, which is suitable
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* for large memory system. All of them has no real-time character.
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*/
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/**
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* @defgroup Device Device System
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* @brief device I/O subsystem
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*
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* The Device System is designed as simple and minimum layer to help communication between
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* applications and drivers.
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*
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* The Device System provide five interfaces to driver:
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* - open, open a device
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* - close, close a device
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* - read, read some data from a device
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* - write, write some data to a device
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* - control, send some control command to a device
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*/
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/**
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* @defgroup Hook Runtime Trace and Record
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* @brief the hook function set in runtime
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*
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* In order to trace and record RT-Thread activity in runtime, a hook mechanism
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* is introduced.
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*
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* The hooks are a series of routines, which are invoked in some special checkpoints.
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* The hook routines include:
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* - object hook, invoked at object created, deleted, taken and put etc.
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* - scheduler hook, invoked at thread switch and idle thread loop.
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* - memory hook, invoked when allocate or free memory block.
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* - timer hook, invoked when timer is timeout.
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*/
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/**
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* @defgroup KernelService Other useful kernel service
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* @brief other useful service in the kernel
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*/
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/**
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* @defgroup Error Error Code
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* @brief error code
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*
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* The error code is defined to identify which kind of error occurs. When some
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* bad things happen, the current thread's errno will be set. see @ref _rt_errno
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*/
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/*@}*/
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