The thread monitor allows to iterate over the thread context
structures for each existing thread (fiber/task) in the system.
Thread context structures do not expose thread entry information
directly. Although all the information can be scavenged from memory
stacks. Besides, accessing the information depends on the stack
implementation for each architecture.
By extending the tcs we allow a direct access to the thread
entry point and its parameters, only when thread monitor is
enabled.
It also allows a task to access its kernel task structure
through the first parameter of the thread.
This allows a debugger application to access the information directly
from the thread context structures list.
Change-Id: I0a435942b80eddffdf405016ac4056eb7aa1239c
Signed-off-by: Juan Manuel Cruz <juan.m.cruz.alcaraz@intel.com>
It is semantically identical to CONFIG_SW_ISR_TABLE.
Change-Id: Iff0c47166ee6fb1fd8a0991a67bc863d45c32559
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This scenario is no longer supported in code; the Kconfig
didn't actually do anything.
Change-Id: Ic48bffb5180c4f72bc9c5d85cf18b1072432b951
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
The peripherals utilizing UART were required to register their own
ISR rountines. This means that all those peripherals drivers need
to know which IRQ line is attached to a UART controller, and all
the other config values required to register a ISR. This causes
scalibility issue as every board and peripherals have to define
those values.
Another reason for this patch is to support virtual serial ports.
Virtual serial ports do not have physical interrupt lines to
attach, and thus would not work.
This patch adds a simple callback mechanism, which calls a function
when UART interrupts are triggered. The low level plumbing still needs
to be done by the peripheral drivers, as these drivers may need to
access low level capability of UART to function correctly. This simply
moves the interrupt setup into the UART drivers themselves. By doing
this, the peripheral drivers do not need to know all the config values
to properly setup the interrupts and attaching the ISR. One drawback
is that this adds to the interrupt latency.
Note that this patch breaks backward compatibility in terms of
setting up interrupt for UART controller. How to use UART is still
the same.
This also addresses the following issues:
() UART driver for Atmel SAM3 currently does not support interrupts.
So remove the code from vector table. This will be updated when
there is interrupt support for the driver.
() Corrected some config options for Stellaris UART driver.
This was tested with samples/shell on Arduino 101, and on QEMU
(Cortex-M3 and x86).
Origin: original code
Change-Id: Ib4593d8ccd711f4e97d388c7293205d213be1aec
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
This patch updates some help sections to remove the "ERROR:
Unexpected indentation" messages during hmtl documentation
generation.
Change-Id: Idcdc17727b921b6145f9eb28d85975ceca273ce2
Signed-off-by: Yannis Damigos <giannis.damigos@gmail.com>
The app-facing interface for configuring interrupts was never
formally defined, instead it was defined separately for each arch
in their respective arch-specific header files. Occasionally these
would go out of sync.
Now there is a single irq.h header which defines this interface.
To avoid runtime overhead, these map to _arch_* implementations of
each that must be defined in headers pulled in by arch/cpu.h.
Change-Id: I69afbeff31fd07f981b5b291f3c427296b00a4ef
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
The deleted defaults cannot be overriden by defaults defined
in SoC's Kconfig file. The number of IRQ priority level was
always one, and this caused some code to be dropped within
the fast IRQ handling code. When the electrons aligned in
certain way, undesired effects were observed (e.g. exception,
faults, etc.) when regular IRQs were mixed with fast IRQs.
Moreover, ARC cores are high configurable on hardware level.
So let the SoC config define these values instead.
Change-Id: I2a338d2efc814c46b0f68ab100fc0f66ae0fb60c
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
This patch removes the default value from some platform/SoC specific
options which are declared in drivers/gpio/Kconfig because 1) most of
the time they are not valid values and 2) the correct values are
already set in the SoC Kconfig.
It also moves the interrupt priority definition from the driver's
Kconfig to the platform's Kconfig since it is a platform-specific
configuration.
Change-Id: Id00f7907fa55025011dabce6e282a9623be23831
Signed-off-by: Andre Guedes <andre.guedes@intel.com>
Base address registers and IRQs are set in Kconfig.
Set proper SPI default to various quark_se_ss based boards.
Change-Id: Iadaae551f441457bef334f94f68cafa7c3e499d0
Signed-off-by: Tomasz Bursztyka <tomasz.bursztyka@linux.intel.com>
Though it's an ARC core, Quark SE SS does not follow the same registers
mapping as the official DesignWare document. Some parts are common, some
not.
Instead of bloating spi_dw.c with a lot of #ifdef or rewriting a whole
new driver though the logic is 99% the same, it's then better to:
- centralize common macros and definitions into spi_dw.h
- have a specific spi_dw_quark_se_ss_reg.h for register map, clock
gating and register helpers dedicated to Quark SE SS.
- have a spi_dw_regs.h for the common case, i.e. not Quark SE SS.
GPIO CS emulation and interrupt masking ends up then in spi_dw.h.
Clock gating is specific thus found in respective *_regs.h header.
Adding proper interrupt masks to quark_se_ss soc.h file as well.
One of the main difference is also the interrupt management: through one
line or multiple lines (one for each interrupt: rx, tx and error). On
Quark SE Sensor Sub-System it has been set to use multiple lines, thus
introducing relevant Kconfig options and managing those when configuring
the IRQs.
Quark SE SS SPI controller is also working on a lower level, i.e. it
requires a tiny bit more logic from the driver. Main example is the data
register which needs to be told what is happening from the driver.
Taking the opportunity to fix minor logic issues:
- ICR register should be cleared by reading, only on error in the ISR
handler, but it does not harm doing it anyway and because Quark SE SS
requires to clear up interrupt as soon as they have been handled,
introducing a clear_interrupts() function called at the and of the ISR
handler.
- TXFTLR should be set after each spi_transceive() since last pull_data
might set it to 0.
- Enable the clock (i.e. open the clock gate) at initialization.
- No need to mask interrupts at spi_configure() since these are already
masked at initialization and at the end of a transaction.
- Let's use BIT() macro when relevant.
Change-Id: I24344aaf8bff3390383a84436f516951c1a2d2a4
Signed-off-by: Tomasz Bursztyka <tomasz.bursztyka@linux.intel.com>
Decisions on compiler optimizations were done on the architecture level,
this does not scale and some SoCs will have different optimization levels
or compiler options needed. Moving this to the SoC makes it easy to optimize
differently when using the same CPU which we use to set the right optimization
now on the architecture level.
For IAMCU platforms, use the right architecture and tuning.
-march=lakemont -mtune=lakemont -miamcu -msoft-float
Change-Id: I458afca5feb9be5de8dcae559d6dcac3c6d6a2a7
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
It's not a function and requires all its arguments to be build-time
constants. Make this more obvious to the end user to ease confusion.
Change-Id: I64107cf4d9db9f0e853026ce78e477060570fe6f
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Mostly SoC initialization and some kernel subsystems, but also some
device drivers like the interrupt controllers.
Change-Id: I8dc1844c33acd877c075b6b03558fdca6f87500b
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
This is the last step before obsoleting DEVICE_DEFINE() and
DEVICE_INIT_CONFIG_DEFINE().
Change-Id: Ica4257662969048083ab9839872b4b437b8b351b
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
Rename it to DEVICE_DEFINE() so that it fits in the 'device' namespace.
Change-Id: I3af3a39cf9154359b31d22729d0db9f710cd202b
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
Rename it to DEVICE_INIT_CONFIG_DEFINE(), because (a) it was not fitting
in any namespace and (b) it is not used to declare, but rather define a
object.
Change-Id: I1da5822f06b85a9fb024b5b184afd0ccc01012ec
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
Static interrupts rely on a trick where the _sw_isr_table array
is declared with each element in a different .gnu.linkonce
section, initially pointing to the spurious IRQ handler.
When drivers or apps declare their own interrupts, they override
the element with their own containing the real ISR and parameter.
However, this only works if the initial declaration of the
_sw_isr_table array with the spurious handlers is linked last.
App-specific code was being linked later than the core code,
causing static interrupts declared in apps not to be installed
correctly.
If the _sw_isr_table is moved from SOC-specific code to core arch
code, interrupts configured under soc/ should still also work.
Change-Id: Iec7df47386dfbbf2956a807da27dc8aa6e01b268
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Fix an issue where, if a task is pending on a nano timeout, the duration
it wants to wait is not taken into account by the tickless idle code.
This could cause a system to wait forever, or to the limit of the timer
hardware (which is forever, for all intents and purposes).
This fix is to add one field in the nanokernel data structure for one
task to record the amount of ticks it will wait on a nano timeout. Only
one task has to be able to record this information, since, these waits
being looping busy waits, the task of highest priority is the only task
that can be actively waiting with a nano timeout. If a task of lower
priority was previously waiting, and a new task is now waiting, it means
that the wait of the original task has been interrupted, which will
cause said task to run the busy loop on the object again when it gets
scheduled, and the number of ticks it wants to wait has to be recomputed
and recorded again.
Change-Id: Ibcf0f288fc42d96897642cfee00ab7359716703f
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
Adds C++ support to the build system.
Change-Id: Ice1e57a13598e7a48b0bf3298fc318f4ce012ee6
Signed-off-by: Dmitriy Korovkin <dmitriy.korovkin@windriver.com>
Signed-off-by: Peter Mitsis <peter.mitsis@windriver.com>
Adds extern "C" { } blocks to header files so that they can be
safely used by C++ source files.
Change-Id: Ia4db0c36a5dac5d3de351184a297d2af0df64532
Signed-off-by: Peter Mitsis <peter.mitsis@windriver.com>
Enable both controllers by default if GPIO is enabled, providing all the
necessary information.
Change-Id: I5aab00324b10492eefb67e9595da491775cbd95d
Signed-off-by: Tomasz Bursztyka <tomasz.bursztyka@linux.intel.com>
There is no such thing as "IA" in Quark SE SS as it is an ARC core. Plus
for this very specific feature it does not require the ARC aux regs
instruction to read/write in the given mask address.
And fixing also the CONFIG_ option to check.
Change-Id: I1f63348ec85f6e006795f7641c912a30fc003709
Signed-off-by: Tomasz Bursztyka <tomasz.bursztyka@linux.intel.com>
This is valid only for Quark SE and Quark SE SS, where it requires to
unmask the interrupt for each specific controller. Thus making the
function generic, using the parameter as the specific mask base address.
Change-Id: Iea0a412b8d94a1ab5e1f3e339eaf632eacee5797
Signed-off-by: Tomasz Bursztyka <tomasz.bursztyka@linux.intel.com>
We can save a great deal of RAM this way, it only needs to be
in RAM if dynamic interrupts are in use.
At some point this config option broke, probably when static
interrupts were introduced into the system.
To induce build (instead of runtime) errors when irq_connect_dynamic()
is used without putting the table in RAM, the dynamic interrupt
functions are now conditionally compiled.
Change-Id: I4860508746fd375d189390163876c59b6c544c9a
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This reverts commit 778d5b11c5327be4b40c7745e9beaecfd6327e13.
This patch has been identified as breaking the build when trying
to manually build non-x86 applications.
Change-Id: I1857745049dfef7193de58737108314b7aae01c5
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This converts the i2c_quark_se_ss to use the static IRQ API.
Note that, even with separate config functions for each instance of
the driver, it is still saving both RAM and ROM space.
Change-Id: Ieb555ff281b384d87d8e69f6914878bbee0e2ee9
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Decisions on compiler optimizations were done on the architecture level,
this does not scale and some SoCs will have different optimization levels
or compiler options needed. Moving this to the SoC makes it easy to optimize
differently when using the same CPU which we use to set the right optimization
now on the architecture level.
For IAMCU platforms, use the right architecture and tuning.
-march=lakemont -mtune=lakemont -miamcu -msoft-float
Change-Id: I0f77cffe7a139f8b2620935094437d0dfd160dfe
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
The Kbuild system first looks for a Kbuild file, then it looks for
a make file.
Use the Kbuild for object building and leave the Makefile for definding
build options and compiler flags and other SoC related defines.
Change-Id: I0be59bb5ae02a29108a188efbd6f14dcdb7de4ee
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
The interrupt API has been redesigned:
- irq_connect() for dynamic interrupts renamed to irq_connect_dynamic().
It will be used in situations where the new static irq_connect()
won't work, i.e. the value of arguments can't be computed at build time
- a new API for static interrupts replaces irq_connect(). it is used
exactly the same way as its dynamic counterpart. The old static irq
macros will be removed
- Separate stub assembly files are no longer needed as the stubs are now
generated inline with irq_connect()
ReST documentation updated for the changed API. Some detail about the
IDT in ROM added, and an oblique reference to the internal-only
_irq_handler_set() API removed; we don't talk about internal APIs in
the official documentation.
Change-Id: I280519993da0e0fe671eb537a876f67de33d3cd4
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Instead of relying on the Kconfig variables use a common scheme for
naming i2c devices and use it directly in application.
Change-Id: I745af68d7c1767cc8a24f9655fa45fa33f6baf93
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
The ARC EM family processors do not support native atomic assembly
instructions (LLOCK and SCOND). Therefore, the assembly version
of atomic functions cannot be used. This adds pure C version of
these atomic functions.
Change-Id: Ic64dd31b0367b6dcf3a46f41c0c7ac2c2ce5eb8d
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
This patch moves the CONFIG_STACK_CANARIES check from architecture's
Makefile to the root Makefile since this option is kernel-related,
not architecture-related. This way we avoid replicating the same
CONFIG_STACK_CANARIES check in several Makefiles.
This patch also removes some blank lines from the Makefiles it touches.
Change-Id: I458f92fa6799526c608369d1e56579936bcb196e
Signed-off-by: Andre Guedes <andre.guedes@intel.com>
The semantics of this value is that it allows for the use of IRQ lines
0 through CONFIG_NUM_IRQS - 1.
Change-Id: I0287da931b06253065f4fba076e9a949dcb3cf53
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Too many entries were being created in this table. It needs to
create indexes starting from 16 to CONFIG_NUM_IRQS - 1, since IRQS 0-15
are reserved for CPU exceptions and are not handled through this
mechanism.
generic_arc was still using the old C-based table which is
incompatible with the static IRQ implementation. An attempt was made
to move the SW IRQ table to arch/arc/core, but linker issues were
encountered and this will be done in another patch.
With CONFIG_NUM_IRQS set to 68 on Quark SE, inspection of binary
with objdump -x reveals that we are generating table entries:
00000000 g O .isr_irq16 00000000 _sw_isr_table
00000000 w O .gnu.linkonce.isr_irq16 00000000 _isr_irq16
00000000 w O .gnu.linkonce.isr_irq17 00000000 _isr_irq17
00000000 w O .gnu.linkonce.isr_irq18 00000000 _isr_irq18
...
00000000 w O .gnu.linkonce.isr_irq67 00000000 _isr_irq67
Which is exactly what we need.
Change-Id: I8ca1682128ae67e2a24642791b7ce31ebca759bf
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
The ARC is an architecture that supports tickless idle in
nanokernel-only systems, and it thus must signal this to the build
system.
Change-Id: I96b0a4e8f78b2ea67d2f1b3384e94a32d8eb80e8
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
Signed-off-by: Peter Mitsis <peter.mitsis@windriver.com>
Modified interrupt handling and idle code to enter and exit tickless
idle mode.
Change-Id: I3461ab6dba30003a4317027fc50a3ba07e830015
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
Signed-off-by: Peter Mitsis <peter.mitsis@windriver.com>
CONFIG_NUM_IRQS expresses the total number of available interrupt
lines in the system, and is used to generate a vector table.
On ARC, the vector table is assembled from two parts, _VectorTable
for the first 16 entries (reserved for CPU exceptions), and
_IrqVectorTable for the remainder. The code that creates _IrqVectorTable
was not taking this into consideration and was 16 entries too big.
Change-Id: I676c8534274de8782178f3773bc53a817b89481f
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
On ARC the IRQ and exception vectors are just one big array of
function pointers placed at the very beginning of the binary in ROM.
Vectors 0-15 are for CPU exceptions, 16-255 for interrupts.
In Zephyr these have been logically split into an execption table
followed immediately by the IRQ table, specified in the ARC linker.cmd.
However, the exception vector table defined in Zephyr had only 14
entries so the IRQ table was misaligned by 8 bytes. This went undetected
for some time as in the default configuration every entry in the IRQ
table pointed to the common demux function _isr_enter().
This patch correctly ensures that the IRQ table begins at address
0x40000040 instead of 0x40000038 like it had been.
Change-Id: I3b548df0dcabeb9d986ecd6a41e593bd02e3bd73
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Causes problems for large values of CONFIG_NUM_IRQS.
Some inconsistencies have been noted in how CONFIG_NUM_IRQS is
used on these platforms, with bugs filed. This patch preserves
existing behavior and has been shown to generate the same number
of table entries for both arches using objdump.
Change-Id: I1d3ac5466978acb56e88a6dc3cbe7cc09431e94d
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Let the SoC decide the number of the IRQs. Fixes a bug where
Quark SE gets the default instead of the declared value in the SoC
Kconfig.
Change-Id: I978c923fbe2a0737ace27ec951bc3a46e8976584
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
_IrqVectorTable was renamed to _irq_vector_table
Change-Id: I1488bebc7d8174c08f3ce2dc8bcace6ef567aad6
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
The current gpio_dw_initialize implementation masks the interruptions in the line
dw_write(base_addr, INTMASK, ~(0)) to assign api functions and initialize
interrupt vectors and handlers safely. Immediately after this, the driver expects
that gpio_dw_unmask_int(port) unmasks the interrupts. Without this patch that
implementation is empty for the quark se ss board.
Change-Id: Iac84c8807fcadad8c256c3fcaa4ff624b6337bf3
Signed-off-by: Juan Manuel Cruz <juan.m.cruz.alcaraz@linux.intel.com>
Warning comes during compilation about missing prompt, this sets
the prompt for this SoC.
Change-Id: If8b422d6a870eb99c219ab872924875eb04fba0c
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
Juan Manuel Cruz