Searched refs:how (Results 1 – 25 of 62) sorted by relevance
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78 int pthread_sigmask(int how, const sigset_t *newmask, sigset_t *oldmask) in pthread_sigmask() argument92 if ((how != SIG_BLOCK) && (how != SIG_SETMASK) & (how != SIG_UNBLOCK)) in pthread_sigmask()134 if (how == SIG_BLOCK) in pthread_sigmask()147 if (how == SIG_UNBLOCK) in pthread_sigmask()
112 int pthread_sigmask(int how, const sigset_t *newmask, sigset_t *oldmask);
26 and suggestions on how to work-around any limitations.177 INT pthread_sigmask(int how, const sigset_t *newmask, sigset_t *oldmask)351 calls. This demo application should be used as an example of how to integrate the POSIX
109 performance. Please refer to the toolchain documentation for additional details on how to141 Refer to the EPK documentation how to interpret the results.164 … readme_threadx.txt Updated instructions on how to use execution profile.
112 performance. Please refer to the toolchain documentation for additional details on how to144 Refer to the EPK documentation how to interpret the results.171 … readme_threadx.txt Updated instructions on how to use execution profile.
112 performance. Please refer to the toolchain documentation for additional details on how to144 Refer to the EPK documentation how to interpret the results.167 … readme_threadx.txt Updated instructions on how to use execution profile.
90 Here is an example of how to define the Linux data structures and prototypes98 Here is an example of how to create a simulated interrupt thread in Linux.
87 Here is an example of how to define the Win32 data structures and prototypes97 Here is an example of how to create a simulated interrupt thread in Win32.
25 * Impact of the issue, including how an attacker might exploit the issue
109 performance. Please refer to the toolchain documentation for additional details on how to141 Refer to the EPK documentation how to interpret the results.
106 performance. Please refer to the toolchain documentation for additional details on how to138 Refer to the EPK documentation how to interpret the results.
166 performance. Please refer to the toolchain documentation for additional details on how to198 Refer to the EPK documentation how to interpret the results.
168 performance. Please refer to the toolchain documentation for additional details on how to200 Refer to the EPK documentation how to interpret the results.
165 A macro invoking a user-defined function to determine how much time has elapsed while in low power …194 how long the processor actually slept. */291 …**TX_LOW_POWER_USER_TIMER_ADJUST** is called in this function to determine how long the processor …
63 // The IS field determines how may set there are99 // The DS field determines how may set there are
65 // Determine how many shadow sets are implemented (in addition to the base register set.)
24 how to get the ThreadX evaluation running under the MULTI Cortex-M3 simulation
24 how to get the ThreadX evaluation running under the MULTI Cortex-M7 simulation
24 how to get the ThreadX evaluation running under the MULTI Cortex-M4 simulation
23 simulation. The instructions that follow describe how to get the ThreadX SMP
22 simulation. The instructions that follow describe how to get the ThreadX
