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/Zephyr-Core-3.7.0/subsys/fs/ |
D | Kconfig | 8 bool "File system support" 10 Enables support for file system. 27 int "Maximum number of distinct file system types allowed" 30 Zephyr provides several file system types including FatFS and 39 system types. Zero or a negative value selects the maximum 42 file system. Selecting a value less than the actual length 43 supported by a file system may result in memory access 47 int "File system initialization priority" 55 bool "File system shell" 60 file system. [all …]
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/Zephyr-Core-3.7.0/doc/services/file_system/ |
D | index.rst | 9 to instantiate, mount, and operate on a file system. The File system Switch 10 decouples the applications from directly accessing an individual file system's 11 specific API or internal functions by introducing file system registration 14 In Zephyr, any file system implementation or library can be plugged into or 15 pulled out through a file system registration API. Each file system 25 Zephyr RTOS supports multiple instances of a file system by making use of 26 the mount point as the disk volume name, which is used by the file system library 29 A file system is declared as: 41 - ``FS_FATFS`` is the file system type like FATFS or LittleFS. 42 - ``FATFS_MNTP`` is the mount point where the file system will be mounted. [all …]
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/Zephyr-Core-3.7.0/include/zephyr/ |
D | syscall.h | 24 * System Call Declaration macros 26 * These macros are used in public header files to declare system calls. 37 * All system calls require a verifier function and an implementation 38 * function. These must follow a naming convention. For a system call 46 * z_impl_k_foo(). This is the actual implementation of the system 52 * @brief System call handler function type 54 * These are kernel-side skeleton functions for system calls. They are 55 * necessary to sanitize the arguments passed into the system call: 63 * - If the system call has more than 6 arguments, then arg6 will be a pointer 69 * Even if the system call implementation has no return value, these always [all …]
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/Zephyr-Core-3.7.0/dts/bindings/fs/ |
D | zephyr,fstab-common.yaml | 13 The absolute path used as the file system mount point. 19 A reference to the file system's partition. 24 Mount file system on boot if present. 26 During initialization the file system driver will attempt to mount 32 Mount file system read-only if present. 35 mount descriptor generated for the file system. 40 Do not format file system if mount fails. 43 mount descriptor generated for the file system. 51 the mount descriptor generated for the file system.
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/Zephyr-Core-3.7.0/drivers/timer/ |
D | Kconfig.nrf_xrtc | 14 System clock source is initiated but does not wait for clock readiness. 15 When this option is picked, system clock may not be ready when code relying 22 System clock source initialization waits until clock is available. In some 25 it is ready. When this option is picked, system clock is available after 26 system clock driver initialization but it may be less accurate. Option is 33 System clock source initialization waits until clock is stable. When this 34 option is picked, system clock is available and stable after system clock
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/Zephyr-Core-3.7.0/boards/arduino/nano_33_ble/support/ |
D | startup.cmm | 32 ; process system-wide settings 34 IF OS.FILE("~~/system-settings.cmm") 35 DO "~~/system-settings.cmm" 40 SYStem.Down 41 IF PRACTICE.CoMmanD.AVAILable(SYStem.CPU.NANO33BLE) 42 SYStem.CPU NANO33BLE 44 SYStem.CPU NRF52840QI 77 IF !SYStem.Up() 79 SYStem.PORT &gdbRemote 81 SYStem.Option MMUSPACES ON [all …]
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/Zephyr-Core-3.7.0/modules/trusted-firmware-m/ |
D | Kconfig.tfm.partitions | 16 to be passed to the TF-M build system. Look at 'config_default.cmake' 19 options are handled by the build system in the trusted-firmware-m 27 to be passed to the TF-M build system. Look at 'config_default.cmake' 30 options are handled by the build system in the trusted-firmware-m 38 to be passed to the TF-M build system. Look at 'config_default.cmake' 41 options are handled by the build system in the trusted-firmware-m 50 to be passed to the TF-M build system. Look at 'config_default.cmake' 53 options are handled by the build system in the trusted-firmware-m 61 to be passed to the TF-M build system. Look at 'config_default.cmake' 64 options are handled by the build system in the trusted-firmware-m [all …]
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/Zephyr-Core-3.7.0/include/zephyr/fs/ |
D | fs.h | 21 * @brief File System APIs 22 * @defgroup file_system_api File System APIs 40 /** @brief Enumeration to uniquely identify file system types. 43 * requires a unique identifier used to register the file system 44 * implementation and to associate a mount point with the file system 51 * identifiers are unique if multiple file system implementations are 55 /** Identifier for in-tree FatFS file system. */ 58 /** Identifier for in-tree LittleFS file system. */ 61 /** Identifier for in-tree Ext2 file system. */ 68 /** Flag prevents formatting device if requested file system not found */ [all …]
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D | nvs.h | 37 * @brief Non-volatile Storage File system structure 40 /** File system offset in flash **/ 50 /** File system is split into sectors, each sector must be multiple of erase-block-size */ 52 /** Number of sectors in the file system */ 54 /** Flag indicating if the file system is initialized */ 79 * @brief Mount an NVS file system onto the flash device specified in @p fs. 81 * @param fs Pointer to file system 88 * @brief Clear the NVS file system from flash. 90 * @param fs Pointer to file system 97 * @brief Write an entry to the file system. [all …]
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/Zephyr-Core-3.7.0/doc/services/portability/posix/aep/ |
D | index.rst | 7 subprofiling options of `IEEE 1003.1-2017`_. The single-purpose realtime system profiles 11 System Interfaces 14 The required POSIX :ref:`System Interfaces<posix_system_interfaces_required>` are supported for 20 :alt: Required System Interfaces 22 System Interfaces 26 Minimal Realtime System Profile (PSE51) 29 The *Minimal Realtime System Profile* (PSE51) includes all of the 30 :ref:`System Interfaces<posix_system_interfaces_required>` along with several additional features. 35 :alt: Minimal Realtime System Profile (PSE51) 37 Minimal Realtime System Profile (PSE51) [all …]
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/Zephyr-Core-3.7.0/include/zephyr/arch/common/ |
D | pm_s2ram.h | 25 * @brief System off function 28 * to power the system off after the CPU context has been saved. 30 * This function never returns if the system is powered off. If the operation 32 * of restoring the system in a fully operational state before returning. 34 * @retval none The system is powered off. 35 * @retval -EBUSY The system is busy and cannot be powered off at this time. 44 * (retained) RAM before powering the system off using the provided function. 51 * @param system_off Function to power off the system. 54 * @retval -EBUSY The system is busy and cannot be suspended at this time. 62 * Function is called when system state is stored to RAM, just before going to system
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/Zephyr-Core-3.7.0/doc/ |
D | glossary.rst | 16 The set of user-supplied files that the Zephyr build system uses 20 The application's kernel configuration settings direct the build system 34 of the system, initializes it, and runs as the system's sole application. 42 A target system with a defined set of devices and capabilities, 44 hardware system or a simulated system running under QEMU. A board can 51 The Zephyr build system defines one or more board configurations 53 specified by the build system can be over-ridden by the application, 58 identifies a particular system, but does not include additional 71 hardware system. This is useful to avoid duplication of board files 72 whenever small changes are introduced to a hardware system. [all …]
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/Zephyr-Core-3.7.0/subsys/logging/backends/ |
D | Kconfig.fs | 5 bool "File system backend" 10 When enabled, backend is using the configured file system to output logs. 11 As the file system must be mounted for the logging to work, it must be 13 Log messages are discarded as long as the file system is not mounted. 25 When enabled automatically start the file system backend on 39 User defined name of log files saved in the file system. 60 size of file system partition.
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/Zephyr-Core-3.7.0/doc/kernel/services/threads/ |
D | system_threads.rst | 3 System Threads 10 A :dfn:`system thread` is a thread that the kernel spawns automatically 11 during system initialization. 13 The kernel spawns the following system threads: 26 this means a fatal system error is raised if the thread aborts. If 31 This thread executes when there is no other work for the system to do. 34 loop. The idle thread remains in existence as long as the system is running 42 The idle thread is an essential thread, which means a fatal system error 45 Additional system threads may also be spawned, depending on the kernel 47 enabling the system workqueue spawns a system thread
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/Zephyr-Core-3.7.0/drivers/syscon/ |
D | Kconfig | 10 bool "System Controller (SYSCON) drivers" 12 SYSCON (System Controller) drivers. System controller node represents 26 bool "Generic SYSCON (System Controller) driver" 30 Enable generic SYSCON (System Controller) driver 33 int "SYSCON (System Controller) driver init priority"
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/Zephyr-Core-3.7.0/subsys/pm/ |
D | Kconfig | 14 bool "System Power Management" 25 module-str = System Power Management 29 bool "System Power Management Stats" 32 Enable System Power Management Stats. 48 bool "System Low Power Mode Needs All Devices Idle" 52 entering into system low power mode. 79 that when the system transition to them, cause power loss in the device. 129 usage even while the CPU or system is running. 133 bool "[DEPRECATED] Use only on Runtime Power Management on system suspend / resume" 136 On system suspend / resume do not trigger the Device PM hooks but [all …]
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/Zephyr-Core-3.7.0/samples/subsys/fs/littlefs/ |
D | README.rst | 5 Use file system API over LittleFS. 10 This sample app demonstrates use of Zephyr's :ref:`file system API 11 <file_system_api>` over `littlefs`_, using file system with files that: 12 * count the number of times the system has booted 15 Other information about the file system is also displayed. 26 The partition labeled "storage" will be used for the file system; see 28 compatible littlefs file system its contents will be replaced by an 29 empty file system. You will see diagnostics like this:: 35 The error and warning are normal for a new file system. 37 After the file system is mounted you'll also see:: [all …]
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/Zephyr-Core-3.7.0/samples/subsys/usb/mass/ |
D | Kconfig | 9 Use this to force an existing file system to be created. 12 prompt "Storage and file system type used by the application" 15 Specify the type of storage and file system. 21 bool "Use RAM disk and FAT file system" 26 bool "Use FLASH disk and FAT file system" 38 bool "Use SDHC and FAT file system"
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/Zephyr-Core-3.7.0/include/zephyr/sys/ |
D | poweroff.h | 17 * @defgroup sys_poweroff System power off 25 * @brief System power off hook. 28 * perform an immediate power off of the system. 37 * @brief Perform a system power off. 39 * This function will perform an immediate power off of the system. It is the 40 * responsibility of the caller to ensure that the system is in a safe state to
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/Zephyr-Core-3.7.0/samples/boards/nrf/system_off/ |
D | README.rst | 1 .. _nrf-system-off-sample: 3 nRF5x System Off demo 17 system off was entered, and total uptime since initial power-on are retained 19 the containing RAM section powered while in system-off mode. 36 nrf52dk system off demo 37 Entering system off; press sw0 to restart
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/Zephyr-Core-3.7.0/subsys/fs/ext2/ |
D | Kconfig | 4 # Ext2 file system 7 bool "Ext2 file system support" 10 Enable Ext2 file system support. 18 menu "Ext2 file system Settings" 45 of the file system must be specified by this option.
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/Zephyr-Core-3.7.0/scripts/west_commands/tests/ |
D | test_stm32cubeprogrammer.py | 19 """Home path (used for Linux system CLI path).""" 22 """Program files x86 path (used for Windows system CLI path).""" 27 """Environment (used for Windows system CLI path).""" 73 "system": "", 96 "system": "", 119 "system": "", 142 "system": "", 165 "system": "", 188 "system": "", 211 "system": "", [all …]
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/Zephyr-Core-3.7.0/dts/bindings/timer/ |
D | nuclei,systimer.yaml | 5 Nuclei System Timer 7 The Nuclei system timer provides RISC-V privileged mtime and mtimecmp 25 clock used by the system timer. 26 This property supports the case that the system timer and CPU use 30 For example, the CPU clock frequency is 108MHz, and the system timer 44 Setting clk-divider to 2 specifies the system timer uses the clock
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/Zephyr-Core-3.7.0/boards/intel/niosv_g/doc/ |
D | index.rst | 9 …Intel FPGA Design Store Nios® V/g Hello World Example Design system and this complete system is co… 17 Nios® V/g hello world example design system 20 Prebuilt Nios® V/g hello world example design system is available in Intel FPGA Design store. 23 For example, Arria10 Nios® V/g processor example design system prebuilt files can be downloaded fro… 26 ready_to_test/top.sof file is the prebuilt SRAM Object File for hello world example design system a… 28 Create Nios® V/g processor example design system in FPGA 31 Please use Intel Quartus Programmer tool to program Nios® V/g processor based system into the FPGA … 44 top.sof is referring to Nios® V/m processor based system SRAM Object File. 55 Use the JTAG UART terminal to print the stdout and stderr of the Nios® V/g processor system.
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/Zephyr-Core-3.7.0/boards/intel/niosv_m/doc/ |
D | index.rst | 9 …Intel FPGA Design Store Nios® V/m Hello World Example Design system and this complete system is co… 17 Nios® V/m hello world example design system 20 Prebuilt Nios® V/m hello world example design system is available in Intel FPGA Design store. 23 For example, Arria10 Nios® V/m processor example design system prebuilt files can be downloaded fro… 26 ready_to_test/top.sof file is the prebuilt SRAM Object File for hello world example design system a… 28 Create Nios® V/m processor example design system in FPGA 31 Please use Intel Quartus Programmer tool to program Nios® V/m processor based system into the FPGA … 44 top.sof is referring to Nios® V/m processor based system SRAM Object File. 55 Use the JTAG UART terminal to print the stdout and stderr of the Nios® V/m processor system.
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