OS Abstractions such as Mutexes, Semaphores and Threads. More...
Classes | |
class | AtomicInt |
class | basic_iostreams |
class | basic_istreams |
class | basic_ostreams |
class | basic_streams |
struct | CleanupFunction |
class | Condition |
An object oriented wrapper around a condition variable. More... | |
struct | InitFunction |
class | local_allocator |
class | local_allocator< void > |
class | MainThread |
class | Mutex |
An object oriented wrapper around a non recursive mutex. More... | |
class | MutexInterface |
An interface to a Mutex. More... | |
class | MutexLock |
MutexLock is a scope based Monitor, protecting critical sections with a Mutex object through locking and unlocking it. More... | |
class | MutexRecursive |
An object oriented wrapper around a recursive mutex. More... | |
class | MutexTimedLock |
A MutexTimedLock locks a Mutex object on construction and if successful, unlocks it on destruction of the MutexTimedLock. If the lock can not be acquired within the user provided time limit, the attempt is aborted. Use isSuccessful() to check whether the attempt succeeded. More... | |
class | MutexTryLock |
A MutexTryLock tries to lock an Mutex object on construction and if successful, unlocks it on destruction of the MutexTryLock. Use isSuccessful() to check whether the attempt succeeded. More... | |
struct | PosixCookie |
struct | print_helper |
class | printbufs |
class | printstream |
class | rt_allocator |
class | rt_allocator< void > |
struct | rt_list |
struct | RTAI_Thread |
class | Semaphore |
class | StartStopManager |
This manager starts and stops all globally registered start/stop functions, without a particular order. More... | |
class | streambufs |
struct | string_helper |
class | stringbufs |
class | stringstreams |
class | Thread |
class | ThreadInterface |
struct | ThreadWrapperData |
class | Timer |
class | TimeService |
struct | XenoCookie |
Functions | |
template<class T , class V , class W > | |
bool | CAS (volatile T *addr, const V &expected, const W &value) |
bool | CheckPriority (int &sched_type, int &priority) |
bool | CheckScheduler (int &sched_type) |
basic_ostreams & | endl (basic_ostreams &s) |
void | ErrorHandler (LPTSTR lpszFunction) |
template<class T , class A , class A2 > | |
bool | operator!= (const local_allocator< T, A > &, const local_allocator< T, A2 > &) |
template<class T , class A > | |
bool | operator!= (const local_allocator< T, A > &, const local_allocator< T, A > &) |
template<class T > | |
bool | operator!= (const rt_allocator< T > &, const rt_allocator< T > &) |
template<class T , class A , class A2 > | |
bool | operator== (const local_allocator< T, A > &, const local_allocator< T, A2 > &) |
template<class T , class A > | |
bool | operator== (const local_allocator< T, A > &, const local_allocator< T, A > &) |
template<class T > | |
bool | operator== (const rt_allocator< T > &, const rt_allocator< T > &) |
INTERNAL_QUAL void * | rtai_thread_wrapper (void *arg) |
INTERNAL_QUAL void * | rtos_posix_thread_wrapper (void *cookie) |
INTERNAL_QUAL int | rtos_task_check_priority (int *scheduler, int *priority) |
int | rtos_task_check_scheduler (int *sched_type) |
INTERNAL_QUAL int | rtos_task_create (RTOS_TASK *task, int priority, unsigned cpu_affinity, const char *name, int sched_type, size_t stack_size, void *(*start_routine)(void *), ThreadInterface *obj) |
INTERNAL_QUAL int | rtos_task_create_main (RTOS_TASK *main_task) |
void | rtos_task_delete (RTOS_TASK *mytask) |
INTERNAL_QUAL int | rtos_task_delete_main (RTOS_TASK *main_task) |
unsigned | rtos_task_get_cpu_affinity (const RTOS_TASK *task) |
const char * | rtos_task_get_name (const RTOS_TASK *task) |
INTERNAL_QUAL NANO_TIME | rtos_task_get_period (const RTOS_TASK *t) |
unsigned int | rtos_task_get_pid (const RTOS_TASK *task) |
int | rtos_task_get_priority (const RTOS_TASK *task) |
int | rtos_task_get_scheduler (const RTOS_TASK *t) |
int | rtos_task_is_self (const RTOS_TASK *task) |
INTERNAL_QUAL void | rtos_task_make_periodic (RTOS_TASK *mytask, NANO_TIME nanosecs) |
int | rtos_task_set_cpu_affinity (RTOS_TASK *task, unsigned cpu_affinity) |
void | rtos_task_set_period (RTOS_TASK *mytask, NANO_TIME nanosecs) |
int | rtos_task_set_priority (RTOS_TASK *task, int priority) |
int | rtos_task_set_scheduler (RTOS_TASK *t, int sched_type) |
void | rtos_task_set_wait_period_policy (RTOS_TASK *task, int policy) |
int | rtos_task_wait_period (RTOS_TASK *task) |
INTERNAL_QUAL void | rtos_task_yield (RTOS_TASK *) |
INTERNAL_QUAL void | rtos_xeno_thread_wrapper (void *cookie) |
void * | thread_function (void *t) |
DWORD WINAPI | ThreadWrapper (void *threadData) |
INTERNAL_QUAL void | wakeup_handler (cyg_handle_t alarm_handle, cyg_addrword_t data) |
Variables | |
printstream | cout |
const int | HighestPriority = ORONUM_OS_RTOS_HIGHEST_PRIORITY |
const int | IncreasePriority = -1 |
const int | LowestPriority = ORONUM_OS_RTOS_LOWEST_PRIORITY |
AtomicInt | threads (0) |
OS Abstractions such as Mutexes, Semaphores and Threads.
It is meant to group all packages which provide OS abstraction classes and functions in a realtime system. Examples are Threads, Mutexes and standard libraries.
OS abstractions.
bool RTT::os::CAS | ( | volatile T * | addr, |
const V & | expected, | ||
const W & | value | ||
) |
bool RTT_API RTT::os::CheckPriority | ( | int & | sched_type, |
int & | priority | ||
) |
Check if the scheduler type and priority match and adapt to a valid value. If sched_type is unknown a default is choosen. If priority is invalid within sched_type, a default is choosen.
Definition at line 51 of file threads.cpp.
bool RTT_API RTT::os::CheckScheduler | ( | int & | sched_type | ) |
Check if the scheduler is a valid type in the current process and adapt to a valid value.
Definition at line 46 of file threads.cpp.
basic_ostreams & RTT::os::endl | ( | basic_ostreams & | ) |
Flush and newline.
Definition at line 110 of file rtstreams.cpp.
void RTT::os::ErrorHandler | ( | LPTSTR | lpszFunction | ) |
Definition at line 56 of file win32/fosi_internal.cpp.
bool RTT::os::operator!= | ( | const local_allocator< T, A > & | , |
const local_allocator< T, A2 > & | |||
) | [inline] |
Definition at line 217 of file oro_allocator.hpp.
bool RTT::os::operator!= | ( | const local_allocator< T, A > & | , |
const local_allocator< T, A > & | |||
) | [inline] |
Definition at line 229 of file oro_allocator.hpp.
bool RTT::os::operator!= | ( | const rt_allocator< T > & | , |
const rt_allocator< T > & | |||
) | [inline] |
Definition at line 312 of file oro_allocator.hpp.
bool RTT::os::operator== | ( | const local_allocator< T, A > & | , |
const local_allocator< T, A2 > & | |||
) | [inline] |
Definition at line 211 of file oro_allocator.hpp.
bool RTT::os::operator== | ( | const local_allocator< T, A > & | , |
const local_allocator< T, A > & | |||
) | [inline] |
Definition at line 223 of file oro_allocator.hpp.
bool RTT::os::operator== | ( | const rt_allocator< T > & | , |
const rt_allocator< T > & | |||
) | [inline] |
Definition at line 306 of file oro_allocator.hpp.
INTERNAL_QUAL void* RTT::os::rtai_thread_wrapper | ( | void * | arg | ) |
Definition at line 153 of file lxrt/fosi_internal.cpp.
INTERNAL_QUAL void* RTT::os::rtos_posix_thread_wrapper | ( | void * | cookie | ) |
Definition at line 90 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_check_priority | ( | int * | sched_type, |
int * | priority | ||
) |
This function checks (and corrects) a given priority within a given scheduler type. Incorrect arguments are re-set to a sensible default.
sched_type | An integer denoting a scheduler type, which will be updated if it's not a valid value. |
priority | An integer denoting the priority, which will be updated if it's not a valid value (within that scheduler). |
Definition at line 244 of file ecos/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_check_scheduler | ( | int * | sched_type | ) |
This function checks (and corrects) if the given sched_type is valid for this RTOS. If it's not, a sensible default is returned in the argument
sched_type | An integer denoting a scheduler type, which will be updated if it's not a valid value. |
Definition at line 313 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_create | ( | RTOS_TASK * | task, |
int | priority, | ||
unsigned | cpu_affinity, | ||
const char * | name, | ||
int | sched_type, | ||
size_t | stack_size, | ||
void *(*)(void *) | start_routine, | ||
ThreadInterface * | obj | ||
) |
Create a thread. Spawn a new thread with the given arguments. When rtos_task_create returns successfully, the task structure must be initialised fully and be valid.
task | An uninitialised, by the user allocated struct which will be used to store the task data in. |
priority | The priority of the thread, to be interpreted by the underlying RTOS. |
cpu_affinity | The cpu affinity of the thread ( |
name | The name for the thread, or null if none is given. |
sched_type | The scheduler type, one of ORO_SCHED_OTHER, ORO_SCHED_RT or a value defined by your RTOS. |
stack_size | The stack size of this thread, or zero when the default stack size may be used. |
start_routine | The entry function that the thread will execute. |
obj | The argument to pass to that thread. |
Definition at line 57 of file ecos/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_create_main | ( | RTOS_TASK * | main_task | ) |
Initialise the main thread. Anything necessary to setup the real-time environment on the current RTOS may be done here. This is the first function that the RTT will call in the FOSI layer, when the MainThread object is constructed. Typically, the main thread is assigned a priority, put in a scheduler and memory is locked into RAM.
Definition at line 43 of file ecos/fosi_internal.cpp.
INTERNAL_QUAL void RTT::os::rtos_task_delete | ( | RTOS_TASK * | mytask | ) |
This function must join the thread created with rtos_task_create and then clean up the RTOS_TASK struct. This function may not be called from the thread itself.
mytask | The thread to join and cleanup. |
Definition at line 307 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_delete_main | ( | RTOS_TASK * | main_task | ) |
Cleanup the main thread. This undoes the actions taken by rtos_task_create_main(). This is the last function that the RTT will call in the FOSI layer, when the MainThread object is destructed.
Definition at line 50 of file ecos/fosi_internal.cpp.
INTERNAL_QUAL unsigned RTT::os::rtos_task_get_cpu_affinity | ( | const RTOS_TASK * | task | ) |
Return the cpu affinity of a thread.
task | The thread to get the cpu affinity |
Definition at line 447 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL const char * RTT::os::rtos_task_get_name | ( | const RTOS_TASK * | task | ) |
Returns the name by which a task is known in the RTOS.
task | The task to query. |
Definition at line 462 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL NANO_TIME RTT::os::rtos_task_get_period | ( | const RTOS_TASK * | t | ) |
Definition at line 229 of file win32/fosi_internal.cpp.
INTERNAL_QUAL unsigned int RTT::os::rtos_task_get_pid | ( | const RTOS_TASK * | task | ) |
Returns the process ID the OS gave to the task task.
task | The task handle of the thread to query |
Definition at line 206 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_get_priority | ( | const RTOS_TASK * | task | ) |
Return the priority of a thread.
task | The thread to get the priority of |
Definition at line 418 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_get_scheduler | ( | const RTOS_TASK * | t | ) |
Returns the current scheduler set for task t.
t | The RTOS task to query. |
Definition at line 237 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_is_self | ( | const RTOS_TASK * | task | ) |
Returns 1 when task is the task struct of the thread calling this function, 0 otherwise.
task | the task struct to compare against. |
-1 | if task is not a valid task struct or this thread is not known to the rtos layer. |
Definition at line 213 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL void RTT::os::rtos_task_make_periodic | ( | RTOS_TASK * | mytask, |
NANO_TIME | nanosecs | ||
) |
This function is to inform the RTOS that a thread is switching between periodic or non-periodic execution. This may temporarily suspend the thread. For on-line periodic changes, use rtos_task_set_period, which is guaranteed to keep the thread running.
mytask | The RTOS task to change. |
nanosecs | Set to zero if you wish to switch to non periodic execution, set to a positive value (the period in nano seconds) if you wish to switch to periodic execution. |
Definition at line 105 of file ecos/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_set_cpu_affinity | ( | RTOS_TASK * | task, |
unsigned | cpu_affinity | ||
) |
Set the cpu affinity of a thread.
task | The thread to change the cpu affinity of |
cpu_affinity | is a bit mask with the cpu this thread should be bound. The bit 0 is the cpu 0, the bit 1, the cpu 1 and so on. For example ((1 << 0) | (1 << 1)) will bound to cpu 0 and 1. |
Definition at line 431 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL void RTT::os::rtos_task_set_period | ( | RTOS_TASK * | mytask, |
NANO_TIME | nanosecs | ||
) |
Change the period of a periodic RTOS task. You must first use rtos_task_make_periodic() before calling this function. This function may not suspend the thread.
mytask | The RTOS task to change the period. |
nanosecs | the new period. As a special exception, if this is equal to zero, it is to inform the RTOS that we'll block this periodic thread for an unspecified amount of time and that this should not trigger a watchdog, or lead to 'catching up' or signalling overruns. |
Definition at line 254 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_set_priority | ( | RTOS_TASK * | task, |
int | priority | ||
) |
Set the priority of a thread.
task | The thread to change the priority of |
priority | The priority as interpreted by the underlying RTOS. |
Definition at line 402 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_set_scheduler | ( | RTOS_TASK * | t, |
int | sched_type | ||
) |
Set the scheduler of a given task t to a the type sched_type. In some RTOS's the scheduler can't be changed or the change can only be done for the calling thread.
t | The RTOS task to change. |
sched_type | A scheduler typed known by your RTOS. |
0 | when the scheduler of t was changed successfully |
-1 | if scheduler for t could not be changed or sched_type is invalid |
-2 | if sched_type is valid but can only be changed for the current thread which is not t. In this case, the calling code should find a way to let the thread associated with t make the call to rtos_task_set_scheduler(). |
Definition at line 220 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL void RTT::os::rtos_task_set_wait_period_policy | ( | RTOS_TASK * | task, |
int | policy | ||
) |
Set the wait policy of a thread.
task | The RTOS task to change. |
policy | The wait policy. |
Definition at line 259 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL int RTT::os::rtos_task_wait_period | ( | RTOS_TASK * | task | ) |
This function is called by a periodic thread which wants to go to sleep and wake up the next period.
task | This must be RTOS_TASK struct of the calling thread. |
Definition at line 264 of file gnulinux/fosi_internal.cpp.
INTERNAL_QUAL void RTT::os::rtos_task_yield | ( | RTOS_TASK * | task | ) |
Yields the current thread. This function may be left empty.
task | The task handle of the current thread. |
Definition at line 95 of file ecos/fosi_internal.cpp.
INTERNAL_QUAL void RTT::os::rtos_xeno_thread_wrapper | ( | void * | cookie | ) |
Definition at line 185 of file xenomai/fosi_internal.cpp.
void* RTT::os::thread_function | ( | void * | t | ) |
This is one time initialisation
The real task starts here.
Definition at line 74 of file Thread.cpp.
DWORD WINAPI RTT::os::ThreadWrapper | ( | void * | threadData | ) |
Definition at line 97 of file win32/fosi_internal.cpp.
INTERNAL_QUAL void RTT::os::wakeup_handler | ( | cyg_handle_t | alarm_handle, |
cyg_addrword_t | data | ||
) |
Definition at line 99 of file ecos/fosi_internal.cpp.
Console Output.
Definition at line 45 of file rtstreams.cpp.
An integer denoting the highest priority of the selected OS.
Definition at line 45 of file ecosthreads.cpp.
const int RTT::os::IncreasePriority = -1 |
An interval to be added 'n' times to LowestPriority to get an 'n' times higher priority.
Definition at line 46 of file ecosthreads.cpp.
An integer denoting the lowest priority of the selected OS.
Definition at line 44 of file ecosthreads.cpp.
AtomicInt RTT_API RTT::os::threads |
The number of threads in addition to the main() thread. The main thread is thread zero (0). threads is increased by one for each PeriodicThread or SingleThread object created and is never decreased.
Definition at line 54 of file threads.hpp.