The while loops waiting ACK_WAIT_TIME and AFTER_ACK_DETECTED_WAIT_TIME
cause infinite loop under the cooja-ip64 platform. This is because
RTIMER_NOW(), rtimer_arch_now(), has been changed not to call
cooja_mt_yield() in it since rtimer was reimplemented as a higher
resolution timer.
In order to avoid the infinite loop, cooja_mt_yield() needs to be
called inside the while loops under the platform as well as the cooja
platform.
this PR to update uip-ds.h comments, this small change is made to ease the track of Tables implementation places
remove definition of UIP_CONF_DS6_ROUTE_NBU
retire 2 old macros DS6_NBR_NBU, DS6_ROUTE_NBU
Update uip-ds6.h
Update contiki-conf.h
Update contiki-conf.h
Update contiki-conf.h
fix doxygen comment
Update uip-ds6.h
This patch adds a process that is started automatically to request DHCP
configuration. It also moves the IP configuration ahead of autostart processes
in case some autostart process depends on the IP configuration.
This patch replaces the pinmux APIs that require users to look up an arbitrary
function number for the desired function of each pin. The replacement API
functions have intuitive names and permit users to pass board-level IO port
numbers. The API functions internally convert those to CPU-level port numbers
when necessary. Furthermore, when configuring a pin to be a digital input or
output, those API functions also perform the corresponding configuration
operation on the CPU-level GPIO port. The revised APIs halt when users attempt
to configure a currently-unsupported GPIO, specifically those in the GPIO_SUS
port range and those implemented on the expander chip EXP2. This also means
that such ports are left unconfigured during initialization, whereas the
pinmuxing for them was setup by the old implementation.
This patch refactors the pinmux configuration code for Intel Galileo to simplify
it. This patch also corrects an off-by-one error in how the pin number is
checked in galileo_pinmux_set_pin.
This patch adds a general protection exception handler that prints a
message indicating the faulting instruction and the error code. This is
useful when debugging general protection exceptions.
