Introcuce a driver for External Interrupt/Event Controller (EXTI) found
on STM32 MCUs.
Change-Id: Ib206521fcc51b5dfaaf5dea9d436f8304f3a36be
Origin: Original
Signed-off-by: Maciej Borzecki <maciek.borzecki@gmail.com>
Add a list of symbolic constants for IRQ lines available on
STM32F1 line of MCUs.
Change-Id: Iebf1847719c0db31cf852529fe5876e3cabbfe52
Origin: Original
Signed-off-by: Maciej Borzecki <maciek.borzecki@gmail.com>
Add necessary integration code enabling use of common STM32 pinmux
driver.
The alternate function listing currently consists of USART1 pins
only. The listing should be updated when support for more devices is
added.
Change-Id: Ic65aeea9df9aaea7636ecdd6996f56e6ef59dc2f
Origin: Original
Signed-off-by: Maciej Borzecki <maciek.borzecki@gmail.com>
Add functions required for integration with common STM32 GPIO driver.
Change-Id: Ic6637e991f5c0cf659f3b927ed47ef482b13b64f
Origin: Original
Signed-off-by: Maciej Borzecki <maciek.borzecki@gmail.com>
() Moves the Quark SE clock control into its submenu.
() Fixes the dependencies in the SoC default Kconfig
so the options are not displayed out of place in
menuconfig.
Change-Id: Ifdf06242be8ceed03c2c657c942875a5a7f2750e
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Make kconfig look the same for all architectures.
JIRA: ZEP-107
Change-Id: Ia8100194ec333fc07a1dff4f6f90364ce8bef4d3
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
The patch adds a driver for STM32F10x series RCC (Reset and Clock
Control) subsystem.
The module is primarily responsible for setting up of MCU's clock
tree. In particular the driver sets up SYSCLK, PLL (with source
configuration), AHB prescaler, and APB1/APB2 prescalers. As part of this
functionality, the subsystem can enable/disable clock signal for
particular peripherals, thus reducing the power consumption of the MCU.
The driver implements clock control driver API. However, subsystem IDs
being HW specific are exposed in driver public header that must be
included by callers. The driver registers a single device using a common
name STM32_CLOCK_CONTROL_NAME. The device is initialized at
the PRIMARY level with priority 1. This allows the initialization to
take place right after SoC initialization routine.
The driver depends on selection of SOC_STM32F1X config option and is MCU
specific.
Change-Id: I8bea5db20726a24bce7b7ffe0b95de543240429a
Origin: Original
Signed-off-by: Maciej Borzecki <maciek.borzecki@gmail.com>
The patch introduces a new family of SoCs based on STMicroelectronics'
STM32 MCU line. The patch introduces a basic arch/arm/soc layout along
with configuration of 2 MCUs from STM32F1 series: STM32F103VE and
STM32F103RB.
The patch assumes that other MCUs from STM32 family will be included
under arch/arm/soc/st_stm32 tree, to achieve the following layout:
arch/
arm/
soc/
st_stm32/
stm32f0/
stm32f1/
stm32f2/
...
stm32l0/
Most of the configuration within a single MCU family (ex. STM32F1) is
shared, however individual MCUs differ with respect to SRAM size, flash
size or the number of available peripherals. The patch assumes that per
MCU line Kconfig.soc.family file should introduce basic setup for given
series. This can be further tuned by per MCU files, with
Kconfig.soc.stm32f103rb and Kconfig.soc.stm32f103ve as examples.
Each family defines a configuration option, ex. CONFIG_STM32F10X, while
individual MCUs define a corresponding per MCU config options,
ex. CONFIG_STM32F103VE.
From the menuconfig perspective, the user is presented with a family
selection under General Platform Configuration/SoC Selection. A
specific MCU model can be selected by accessing General Platform
Configuration/STM32F1x MCU Selection, with the default entry being
selected by the board configuration.
Change-Id: I22e4defd4a08ed1b2e2cad0e214b34f565e08831
Origin: Original
Signed-off-by: Maciej Borzecki <maciek.borzecki@gmail.com>
This makes sure the CONFIG_GPIO_K64F_* kconfig options have correct
dependencies. Or else CONFIG_GPIO_K64F can be disabled, but all
the CONFIG_GPIO_K64F_{A,B,C,D,E} are enabled.
Same goes for SPI, FTM and pinmux.
Change-Id: I8d225dea714081b14b19006d61b8f3f6afafa5ee
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
The SoC selections for each architecture are moved to the top level
in menuconfig and xconfig. This makes it more intuitive to select
architecture -> SoC -> then board, avoiding an additional trip to
go into the architecture menu to select SoC.
Change-Id: I57a78a09adfc4bb12423915b6ad14ceb74381a2b
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
It makes no sense to allow enabling support for floating point
registers when the CPU has no FPU.
Change-Id: If51187033fc84957721d87fa6e79ef31124f4b14
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
These options should be selected by individual SoC automatically,
and should not be visible options. Or else it would be possible to
select Quark SoCs and telling Kconfig it is from Atom family (which
is incorrect).
Change-Id: I17a6cf713378333e0e7942aa49b381b5eb9526b5
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
When building with IAMCU, make sure we set the soft-float, otherwise
build would fail with unsupported instruction errors.
JIRA: ZEP-103
Change-Id: I7a5f107a2df50799a7f6dd4aba36c1a977c1461d
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
The nmi_on_reset.S functions are used by all ARM platforms. It
makes no sense to repeat the same code for all platforms. Moving
the code from each SOC implementation to arch/arm/core.
The same treatment for the NMI_INIT() macro. Moving it from a per
SOC implementation to the include/arch/arm/cortex_m/nmi.h.
Change-Id: I574d8880a44046cc7b9e1b635e80d6e83657b8c1
Signed-off-by: Dan Kalowsky <daniel.kalowsky@intel.com>
This creates the QMSI comparator driver which is simply a shim driver
based on the comparator driver provided by QMSI BSP.
In order to enable this driver, the following options should be set:
CONFIG_QMSI_DRIVERS=y
CONFIG_QMSI_INSTALL_PATH="/path/to/libqmsi/directory"
CONFIG_AIO_COMPARATOR=y
CONFIG_AIO_QMSI_COMPARATOR=y
Origin of the file: Original
Change-Id: Iad01cb80f7bb1eff1710cd76cd0afeb70c311e04
Signed-off-by: Sergio Rodriguez <sergio.sf.rodriguez@intel.com>
This patch extends the UART QMSI driver so it supports the IRQ APIs from
include/uart.h. The IRQ APIs are enabled by the 'CONFIG_UART_INTERRUPT_
DRIVEN' option.
Differently from others APIs such as I2C and SPI, the UART API is very
low level. For that reason, the IRQ facilities (e.g. irq based transfers)
from the QMSI driver are not useful to the shim driver at the moment. In
order to implement the IRQ APIs we rely on UART registers defined by QMSI.
QMSI UART header is missing some macro definitions from IRR register so
we define them in the shim driver.
Since the IRQ trigger condition is not configurable in the QMSI shim
driver, this patch also changes drivers/serial/Kconfig so the "UART
IRQ Trigger Condition" choice doesn't appear on the menu if the QMSI
driver is selected.
Change-Id: Idf9a0f6a47af2a550a31f474d721068dca989713
Signed-off-by: Andre Guedes <andre.guedes@intel.com>
This patch introduces the QMSI UART driver which is simply a shim driver
based on UART driver provided by QMSI BSP.
This initial version implements only the mandatory APIs 'poll_in',
'poll_out' and 'err_check' which are required by trivial sample apps and
by output functionality from the console driver. The remaining APIs will
be implemented by up coming patches. The driver supports only 115200 baud
rate at the moment.
In order to enable this driver, the following options should be set:
CONFIG_QMSI_DRIVERS=y
CONFIG_QMSI_INSTALL_PATH="/path/to/libqmsi/directory"
CONFIG_SERIAL=y
CONFIG_UART_QMSI=y
This driver has been tested with Quark SE Devboard so this patch also
adds its platform-specific default configuration options to 'arch/x86/
soc/quark_se/Kconfig'.
Change-Id: Ibde1825d4b0349a376a8e7d91cc9de306946b62f
Signed-off-by: Andre Guedes <andre.guedes@intel.com>
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>
This patch removes the macro UART_IOAPIC_FLAGS from Quark SE and D2000
soc.h since it is not used anywhere in the code.
Change-Id: I0fd42fac2f02e8617bd92c73c1a0354ef2d7a71a
Signed-off-by: Andre Guedes <andre.guedes@intel.com>
One of the tricks that GCC's stack protector does is to stick a
sentinel value on the stack at the beginning of the function, and
check if it is still there when the function is about to return.
However, since this function switches stacks that fails and we get
a stack protector exception before main() even starts.
Change-Id: I2acba8b8c822d7447d8e371bb72603f36e87f54b
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This reverts commit 3f6884902b.
This commit does not work as intended: the part in arch/arm/Makefile
gets ignored and -mcpu=cortex-m3/4 does not get passed to gcc. It seems
that the zephyr toolchain does not care, but the vxworks assembler
chokes if it is missing, and thinks the CPU does not support thumb ISA
Change-Id: I14d11d3e22dac4952bdab3eb9e2d1c36b1a686c2
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
Support for Freescale/NXP K64 SPI modules, limited to:
- Master mode
- A single active set of clock and transfer attributes (CTAR0), which
includes non-adjustable delay parameters
- Tx FIFO fill and Rx FIFO drain interrupt handling
- Standard, continuous select and continuous SCK SPI transfer formats
Also, divide-by-zero code generation in this driver is prevented.
The 'volatile' attribute is added to some of the variables in the baud
rate and delay calculation functions of the K64 SPI driver in order to
prevent bad code generation by gcc toolchains for ARM seen when an
optimization setting above -O0 is used.
Specifically, a register is loaded with the constant 0 and is used as
the divisor in a following divide instruction, resulting in a
divide-by-zero exception.
This issue has been seen with gcc versions 4.8.1 (the VxWorks toolchain)
and 5.2.0 (the Zephyr SDK toolchain).
Change-Id: Ib5b2b748aad8fdfd5e8d40544e6e1abef3713abe
Signed-off-by: Jeff Blais <jeff.blais@windriver.com>
Internal K64 SoC clock dividers were hard-coded. They've been replaced
with config options.
Change-Id: I583307f2e3341525f4445e9ceb89d36634b12802
Signed-off-by: Jeff Blais <jeff.blais@windriver.com>
PWM support using the Freescale K64 FlexTimer Module (FTM)
Change-Id: Iaad429c01bd877babba04e84d6a4679bd7e38120
Work-by: Mike Hirst <michael.hirst@windriver.com>
Signed-off-by: Jeff Blais <jeff.blais@windriver.com>
K64 pinmux support is created as a normal driver.
As opposed to the Galileo board, the pin configuration options are
defined by the MCU and are not board-specific. Separate
platform/board-specific configuration code uses the pinmux driver for
the default pin settings. For FRDM-K64F, only the Arduino pins (22 of a
possible 160) are set up.
Some of the I/O pins routed to the Arduino header are also configured as
JTAG/SWD signals by default and are used by the OpenSDAv2 debug
interface. Therefore, a PRESERVE_JTAG_IO_PINS config option was created
for the FRDM-K64 platform to prevent the default pin settings from
re-configuring these pins.
The K64 MCU separates pin configuration and control, implemented in the
pinmux driver, from GPIO. This results in some cross referencing
between the K64 GPIO driver and the K64 pinmux driver due to the
dependencies of one on the other.
This pinmux driver also uses the expanded pinmux function/mode parameter
size to describe pin configuration options with bit fields for the K64,
including up to 8 pin functions, plus interrupt, pullup/down, drive
strength, open-drain and slew rate.
The following GCC warnings in the K64 pinmux driver are prevented when not
compiling with 'no-optimization' (-O0):
warning: 'gpio_dev' may be used uninitialized in this function
[-Wmaybe-uninitialized]
Change-Id: Ie5031d18750143bf895883058b3cd55fd9989fd3
Signed-off-by: Jeff Blais <jeff.blais@windriver.com>
Basic driver support for the Freescale K64 GPIO module.
Note that only pin direction, read and write are supported.
Change-Id: I6587bb260197a00497be9ac991002e3dde54718d
Signed-off-by: Jeff Blais <jeff.blais@windriver.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>
This table was still being added to ROM even if
CONFIG_SW_ISR_TABLE=n.
Change-Id: Ia0de1349960af1c62e88344b3d5b6655b638219b
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This config option is no longer implemented and doesn't actually
do anything.
Change-Id: I57ab7ba688f57da21f8a58f62ea37dc6b8daaf18
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
We don't support hard-coding vectors in this table anymore.
If someone really wants to do this, they can set
IRQ_VECTOR_TABLE_CUSTOM and define their own.
Change-Id: I45f49782ba5fefb0a02eab02ec96efd0019bc6d5
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Remove CPU_MIGHT_SUPPORT_CLFLUSH as excessive.
Removal the flag requires adding per-SoC cnfiguration,
as some Quark models support clflush instruction, but
some do not, even on compiler level.
Change-Id: I655cba00c629db55d1813c199a2fe08b2d60ef4f
Signed-off-by: Dmitriy Korovkin <dmitriy.korovkin@windriver.com>
Rearrange the source code in order to place functions
depending on clflush support detection into the proper
section.
Removed dependency between CACHE_LINE_SIZE_DETECT and
CLFLUSH_INSTRUCTION_SUPPORTED or CONFIG_CLFLUSH_DETECT.
Change-Id: I62ba5199763ed16c71f1d2fa372f6cc99b303e6a
Signed-off-by: Dmitriy Korovkin <dmitriy.korovkin@windriver.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>
Currently the build system has hardcoded values for the -march/-mcpu
which identify what architecture should be used when compiling ARM code.
For processors such as the STM32 this will need to be defined by a per
SOC process.
Change-Id: Ia8158cd687d8d0432ea420e204bb2bc67d33a054
Signed-off-by: Dan Kalowsky <daniel.kalowsky@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>
Clockgating was disabled for RTC and disabling RTC had no
effect on Quark SE boards.
Change-Id: I67448d5582a206fc7a68d763d504e9f743043b53
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
ia32/soc.h is only used by QEMU, but QEMU's INTx routing does not follow
the "standard design consideration".
Instead, the pins are swizzled based on the PCI slot. They are then
routed to IRQs based on the PIIX PIRQ configuration.
For simplicity use hard-coded values for the PIIX PIRQ configuration,
though it may be desirable in the future to determine these dynamically.
Also change the number of PCI buses to 1 and remove irrelevant comments.
Change-Id: I1592009a43dd8a9c5a7c54788fba52f14687ba35
Signed-off-by: Ido Yariv <ido@wizery.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>
That implementation is not galileo-specific, but rather a generic way of
rebooting an x86 target. Needs SoC support.
Change-Id: I9c3374a8ab57a624d9d9b7090260c5b11fe4e773
Signed-off-by: Benjamin Walsh <benjamin.walsh@windriver.com>
This patch removes the default value from some platform/SoC specific
options which are declared in drivers/i2c/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: If3c260b9a2fa095de47a99eb7fa5b947efefe9b1
Signed-off-by: Andre Guedes <andre.guedes@intel.com>
This patch removes the default value from some platform/SoC specific
options which are declared in drivers/spi/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: Ic992749b3210ed8a2e454edece41ceca5edbaf2e
Signed-off-by: Andre Guedes <andre.guedes@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>
This patch fixes the QMSI SPI shim driver so we are able to use it in
Quark D2000 based platforms. The only change required to enable this
driver is an #if guard in spi_qmsi_init() because the macro QM_SPI_MST_1
and the function qm_spi_master_1_isr are not defined in QMSI headers
from Quark D2000.
Since this drivers is now properly working on Quark D2000, this patch
also sets the QMSI driver default options in arch/x86/soc/quark_d2000/
Kconfig.
Change-Id: Ic6e2f7f5a2c3f350ddf360b23ffab6b812948572
Signed-off-by: Andre Guedes <andre.guedes@intel.com>
