// This module contains bindings to the native Haiku API. The Haiku API // originates from BeOS, and it was the original way to perform low level // system and IO operations. The POSIX API was in that era was like a // compatibility layer. In current Haiku development, both the POSIX API and // the Haiku API are considered to be co-equal status. However, they are not // integrated like they are on other UNIX platforms, which means that for many // low level concepts there are two versions, like processes (POSIX) and // teams (Haiku), or pthreads and native threads. // // Both the POSIX API and the Haiku API live in libroot.so, the library that is // linked to any binary by default. // // This file follows the Haiku API for Haiku R1 beta 2. It is organized by the // C/C++ header files in which the concepts can be found, while adhering to the // style guide for this crate. // Helper macro to generate u32 constants. The Haiku API uses (non-standard) // multi-character constants (like 'UPDA' or 'MSGM') to represent 32 bit // integer constants. macro_rules! haiku_constant { ($a:tt, $b:tt, $c:tt, $d:tt) => { (($a as u32) << 24) + (($b as u32) << 16) + (($c as u32) << 8) + ($d as u32) }; } // support/SupportDefs.h pub type status_t = i32; pub type bigtime_t = i64; pub type nanotime_t = i64; pub type type_code = u32; pub type perform_code = u32; // kernel/OS.h pub type area_id = i32; pub type port_id = i32; pub type sem_id = i32; pub type team_id = i32; pub type thread_id = i32; pub type thread_func = extern "C" fn(*mut ::c_void) -> status_t; // kernel/image.h pub type image_id = i32; e! { // kernel/OS.h pub enum thread_state { B_THREAD_RUNNING = 1, B_THREAD_READY, B_THREAD_RECEIVING, B_THREAD_ASLEEP, B_THREAD_SUSPENDED, B_THREAD_WAITING } // kernel/image.h pub enum image_type { B_APP_IMAGE = 1, B_LIBRARY_IMAGE, B_ADD_ON_IMAGE, B_SYSTEM_IMAGE } // kernel/scheduler.h pub enum be_task_flags { B_DEFAULT_MEDIA_PRIORITY = 0x000, B_OFFLINE_PROCESSING = 0x001, B_STATUS_RENDERING = 0x002, B_USER_INPUT_HANDLING = 0x004, B_LIVE_VIDEO_MANIPULATION = 0x008, B_VIDEO_PLAYBACK = 0x010, B_VIDEO_RECORDING = 0x020, B_LIVE_AUDIO_MANIPULATION = 0x040, B_AUDIO_PLAYBACK = 0x080, B_AUDIO_RECORDING = 0x100, B_LIVE_3D_RENDERING = 0x200, B_NUMBER_CRUNCHING = 0x400, B_MIDI_PROCESSING = 0x800, } pub enum schduler_mode { SCHEDULER_MODE_LOW_LATENCY, SCHEDULER_MODE_POWER_SAVING, } // FindDirectory.h pub enum path_base_directory { B_FIND_PATH_INSTALLATION_LOCATION_DIRECTORY, B_FIND_PATH_ADD_ONS_DIRECTORY, B_FIND_PATH_APPS_DIRECTORY, B_FIND_PATH_BIN_DIRECTORY, B_FIND_PATH_BOOT_DIRECTORY, B_FIND_PATH_CACHE_DIRECTORY, B_FIND_PATH_DATA_DIRECTORY, B_FIND_PATH_DEVELOP_DIRECTORY, B_FIND_PATH_DEVELOP_LIB_DIRECTORY, B_FIND_PATH_DOCUMENTATION_DIRECTORY, B_FIND_PATH_ETC_DIRECTORY, B_FIND_PATH_FONTS_DIRECTORY, B_FIND_PATH_HEADERS_DIRECTORY, B_FIND_PATH_LIB_DIRECTORY, B_FIND_PATH_LOG_DIRECTORY, B_FIND_PATH_MEDIA_NODES_DIRECTORY, B_FIND_PATH_PACKAGES_DIRECTORY, B_FIND_PATH_PREFERENCES_DIRECTORY, B_FIND_PATH_SERVERS_DIRECTORY, B_FIND_PATH_SETTINGS_DIRECTORY, B_FIND_PATH_SOUNDS_DIRECTORY, B_FIND_PATH_SPOOL_DIRECTORY, B_FIND_PATH_TRANSLATORS_DIRECTORY, B_FIND_PATH_VAR_DIRECTORY, B_FIND_PATH_IMAGE_PATH = 1000, B_FIND_PATH_PACKAGE_PATH, } pub enum directory_which { B_DESKTOP_DIRECTORY = 0, B_TRASH_DIRECTORY, B_SYSTEM_DIRECTORY = 1000, B_SYSTEM_ADDONS_DIRECTORY = 1002, B_SYSTEM_BOOT_DIRECTORY, B_SYSTEM_FONTS_DIRECTORY, B_SYSTEM_LIB_DIRECTORY, B_SYSTEM_SERVERS_DIRECTORY, B_SYSTEM_APPS_DIRECTORY, B_SYSTEM_BIN_DIRECTORY, B_SYSTEM_DOCUMENTATION_DIRECTORY = 1010, B_SYSTEM_PREFERENCES_DIRECTORY, B_SYSTEM_TRANSLATORS_DIRECTORY, B_SYSTEM_MEDIA_NODES_DIRECTORY, B_SYSTEM_SOUNDS_DIRECTORY, B_SYSTEM_DATA_DIRECTORY, B_SYSTEM_DEVELOP_DIRECTORY, B_SYSTEM_PACKAGES_DIRECTORY, B_SYSTEM_HEADERS_DIRECTORY, B_SYSTEM_ETC_DIRECTORY = 2008, B_SYSTEM_SETTINGS_DIRECTORY = 2010, B_SYSTEM_LOG_DIRECTORY = 2012, B_SYSTEM_SPOOL_DIRECTORY, B_SYSTEM_TEMP_DIRECTORY, B_SYSTEM_VAR_DIRECTORY, B_SYSTEM_CACHE_DIRECTORY = 2020, B_SYSTEM_NONPACKAGED_DIRECTORY = 2023, B_SYSTEM_NONPACKAGED_ADDONS_DIRECTORY, B_SYSTEM_NONPACKAGED_TRANSLATORS_DIRECTORY, B_SYSTEM_NONPACKAGED_MEDIA_NODES_DIRECTORY, B_SYSTEM_NONPACKAGED_BIN_DIRECTORY, B_SYSTEM_NONPACKAGED_DATA_DIRECTORY, B_SYSTEM_NONPACKAGED_FONTS_DIRECTORY, B_SYSTEM_NONPACKAGED_SOUNDS_DIRECTORY, B_SYSTEM_NONPACKAGED_DOCUMENTATION_DIRECTORY, B_SYSTEM_NONPACKAGED_LIB_DIRECTORY, B_SYSTEM_NONPACKAGED_HEADERS_DIRECTORY, B_SYSTEM_NONPACKAGED_DEVELOP_DIRECTORY, B_USER_DIRECTORY = 3000, B_USER_CONFIG_DIRECTORY, B_USER_ADDONS_DIRECTORY, B_USER_BOOT_DIRECTORY, B_USER_FONTS_DIRECTORY, B_USER_LIB_DIRECTORY, B_USER_SETTINGS_DIRECTORY, B_USER_DESKBAR_DIRECTORY, B_USER_PRINTERS_DIRECTORY, B_USER_TRANSLATORS_DIRECTORY, B_USER_MEDIA_NODES_DIRECTORY, B_USER_SOUNDS_DIRECTORY, B_USER_DATA_DIRECTORY, B_USER_CACHE_DIRECTORY, B_USER_PACKAGES_DIRECTORY, B_USER_HEADERS_DIRECTORY, B_USER_NONPACKAGED_DIRECTORY, B_USER_NONPACKAGED_ADDONS_DIRECTORY, B_USER_NONPACKAGED_TRANSLATORS_DIRECTORY, B_USER_NONPACKAGED_MEDIA_NODES_DIRECTORY, B_USER_NONPACKAGED_BIN_DIRECTORY, B_USER_NONPACKAGED_DATA_DIRECTORY, B_USER_NONPACKAGED_FONTS_DIRECTORY, B_USER_NONPACKAGED_SOUNDS_DIRECTORY, B_USER_NONPACKAGED_DOCUMENTATION_DIRECTORY, B_USER_NONPACKAGED_LIB_DIRECTORY, B_USER_NONPACKAGED_HEADERS_DIRECTORY, B_USER_NONPACKAGED_DEVELOP_DIRECTORY, B_USER_DEVELOP_DIRECTORY, B_USER_DOCUMENTATION_DIRECTORY, B_USER_SERVERS_DIRECTORY, B_USER_APPS_DIRECTORY, B_USER_BIN_DIRECTORY, B_USER_PREFERENCES_DIRECTORY, B_USER_ETC_DIRECTORY, B_USER_LOG_DIRECTORY, B_USER_SPOOL_DIRECTORY, B_USER_VAR_DIRECTORY, B_APPS_DIRECTORY = 4000, B_PREFERENCES_DIRECTORY, B_UTILITIES_DIRECTORY, B_PACKAGE_LINKS_DIRECTORY, } // kernel/OS.h pub enum topology_level_type { B_TOPOLOGY_UNKNOWN, B_TOPOLOGY_ROOT, B_TOPOLOGY_SMT, B_TOPOLOGY_CORE, B_TOPOLOGY_PACKAGE, } pub enum cpu_platform { B_CPU_UNKNOWN, B_CPU_x86, B_CPU_x86_64, B_CPU_PPC, B_CPU_PPC_64, B_CPU_M68K, B_CPU_ARM, B_CPU_ARM_64, B_CPU_ALPHA, B_CPU_MIPS, B_CPU_SH, B_CPU_SPARC, B_CPU_RISC_V } pub enum cpu_vendor { B_CPU_VENDOR_UNKNOWN, B_CPU_VENDOR_AMD, B_CPU_VENDOR_CYRIX, B_CPU_VENDOR_IDT, B_CPU_VENDOR_INTEL, B_CPU_VENDOR_NATIONAL_SEMICONDUCTOR, B_CPU_VENDOR_RISE, B_CPU_VENDOR_TRANSMETA, B_CPU_VENDOR_VIA, B_CPU_VENDOR_IBM, B_CPU_VENDOR_MOTOROLA, B_CPU_VENDOR_NEC, B_CPU_VENDOR_HYGON, B_CPU_VENDOR_SUN, B_CPU_VENDOR_FUJITSU } } s! { // kernel/OS.h pub struct area_info { pub area: area_id, pub name: [::c_char; B_OS_NAME_LENGTH], pub size: usize, pub lock: u32, pub protection: u32, pub team: team_id, pub ram_size: u32, pub copy_count: u32, pub in_count: u32, pub out_count: u32, pub address: *mut ::c_void } pub struct port_info { pub port: port_id, pub team: team_id, pub name: [::c_char; B_OS_NAME_LENGTH], pub capacity: i32, pub queue_count: i32, pub total_count: i32, } pub struct port_message_info { pub size: ::size_t, pub sender: ::uid_t, pub sender_group: ::gid_t, pub sender_team: ::team_id } pub struct team_info { pub team: team_id, pub thread_count: i32, pub image_count: i32, pub area_count: i32, pub debugger_nub_thread: thread_id, pub debugger_nub_port: port_id, pub argc: i32, pub args: [::c_char; 64], pub uid: ::uid_t, pub gid: ::gid_t } pub struct sem_info { pub sem: sem_id, pub team: team_id, pub name: [::c_char; B_OS_NAME_LENGTH], pub count: i32, pub latest_holder: thread_id } pub struct team_usage_info { pub user_time: bigtime_t, pub kernel_time: bigtime_t } pub struct thread_info { pub thread: thread_id, pub team: team_id, pub name: [::c_char; B_OS_NAME_LENGTH], pub state: thread_state, pub priority: i32, pub sem: sem_id, pub user_time: bigtime_t, pub kernel_time: bigtime_t, pub stack_base: *mut ::c_void, pub stack_end: *mut ::c_void } pub struct cpu_info { pub active_time: bigtime_t, pub enabled: bool, pub current_frequency: u64 } pub struct system_info { pub boot_time: bigtime_t, pub cpu_count: u32, pub max_pages: u64, pub used_pages: u64, pub cached_pages: u64, pub block_cache_pages: u64, pub ignored_pages: u64, pub needed_memory: u64, pub free_memory: u64, pub max_swap_pages: u64, pub free_swap_pages: u64, pub page_faults: u32, pub max_sems: u32, pub used_sems: u32, pub max_ports: u32, pub used_ports: u32, pub max_threads: u32, pub used_threads: u32, pub max_teams: u32, pub used_teams: u32, pub kernel_name: [::c_char; B_FILE_NAME_LENGTH], pub kernel_build_date: [::c_char; B_OS_NAME_LENGTH], pub kernel_build_time: [::c_char; B_OS_NAME_LENGTH], pub kernel_version: i64, pub abi: u32 } pub struct object_wait_info { pub object: i32, pub type_: u16, pub events: u16 } pub struct cpu_topology_root_info { pub platform: cpu_platform, } pub struct cpu_topology_package_info { pub vendor: cpu_vendor, pub cache_line_size: u32, } pub struct cpu_topology_core_info { pub model: u32, pub default_frequency: u64, } // kernel/fs_attr.h pub struct attr_info { pub type_: u32, pub size: ::off_t } // kernel/fs_index.h pub struct index_info { pub type_: u32, pub size: ::off_t, pub modification_time: ::time_t, pub creation_time: ::time_t, pub uid: ::uid_t, pub gid: ::gid_t } //kernel/fs_info.h pub struct fs_info { pub dev: ::dev_t, pub root: ::ino_t, pub flags: u32, pub block_size: ::off_t, pub io_size: ::off_t, pub total_blocks: ::off_t, pub free_blocks: ::off_t, pub total_nodes: ::off_t, pub free_nodes: ::off_t, pub device_name: [::c_char; 128], pub volume_name: [::c_char; B_FILE_NAME_LENGTH], pub fsh_name: [::c_char; B_OS_NAME_LENGTH] } // kernel/image.h pub struct image_info { pub id: image_id, pub image_type: ::c_int, pub sequence: i32, pub init_order: i32, pub init_routine: extern "C" fn(), pub term_routine: extern "C" fn(), pub device: ::dev_t, pub node: ::ino_t, pub name: [::c_char; ::PATH_MAX as usize], pub text: *mut ::c_void, pub data: *mut ::c_void, pub text_size: i32, pub data_size: i32, pub api_version: i32, pub abi: i32 } pub struct __c_anonymous_eax_0 { pub max_eax: u32, pub vendor_id: [::c_char; 12], } pub struct __c_anonymous_eax_1 { pub stepping: u32, pub model: u32, pub family: u32, pub tpe: u32, __reserved_0: u32, pub extended_model: u32, pub extended_family: u32, __reserved_1: u32, pub brand_index: u32, pub clflush: u32, pub logical_cpus: u32, pub apic_id: u32, pub features: u32, pub extended_features: u32, } pub struct __c_anonymous_eax_2 { pub call_num: u8, pub cache_descriptors: [u8; 15], } pub struct __c_anonymous_eax_3 { __reserved: [u32; 2], pub serial_number_high: u32, pub serial_number_low: u32, } pub struct __c_anonymous_regs { pub eax: u32, pub ebx: u32, pub edx: u32, pub ecx: u32, } } s_no_extra_traits! { #[cfg(libc_union)] pub union cpuid_info { pub eax_0: __c_anonymous_eax_0, pub eax_1: __c_anonymous_eax_1, pub eax_2: __c_anonymous_eax_2, pub eax_3: __c_anonymous_eax_3, pub as_chars: [::c_char; 16], pub regs: __c_anonymous_regs, } #[cfg(libc_union)] pub union __c_anonymous_cpu_topology_info_data { pub root: cpu_topology_root_info, pub package: cpu_topology_package_info, pub core: cpu_topology_core_info, } pub struct cpu_topology_node_info { pub id: u32, pub type_: topology_level_type, pub level: u32, #[cfg(libc_union)] pub data: __c_anonymous_cpu_topology_info_data, #[cfg(not(libc_union))] pub data: cpu_topology_core_info, } } cfg_if! { if #[cfg(feature = "extra_traits")] { #[cfg(libc_union)] impl PartialEq for cpuid_info { fn eq(&self, other: &cpuid_info) -> bool { unsafe { self.eax_0 == other.eax_0 || self.eax_1 == other.eax_1 || self.eax_2 == other.eax_2 || self.eax_3 == other.eax_3 || self.as_chars == other.as_chars || self.regs == other.regs } } } #[cfg(libc_union)] impl Eq for cpuid_info {} #[cfg(libc_union)] impl ::fmt::Debug for cpuid_info { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { unsafe { f.debug_struct("cpuid_info") .field("eax_0", &self.eax_0) .field("eax_1", &self.eax_1) .field("eax_2", &self.eax_2) .field("eax_3", &self.eax_3) .field("as_chars", &self.as_chars) .field("regs", &self.regs) .finish() } } } #[cfg(libc_union)] impl PartialEq for __c_anonymous_cpu_topology_info_data { fn eq(&self, other: &__c_anonymous_cpu_topology_info_data) -> bool { unsafe { self.root == other.root || self.package == other.package || self.core == other.core } } } #[cfg(libc_union)] impl Eq for __c_anonymous_cpu_topology_info_data {} #[cfg(libc_union)] impl ::fmt::Debug for __c_anonymous_cpu_topology_info_data { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { unsafe { f.debug_struct("__c_anonymous_cpu_topology_info_data") .field("root", &self.root) .field("package", &self.package) .field("core", &self.core) .finish() } } } impl PartialEq for cpu_topology_node_info { fn eq(&self, other: &cpu_topology_node_info) -> bool { self.id == other.id && self.type_ == other.type_ && self.level == other.level } } impl Eq for cpu_topology_node_info {} impl ::fmt::Debug for cpu_topology_node_info { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("cpu_topology_node_info") .field("id", &self.id) .field("type", &self.type_) .field("level", &self.level) .finish() } } } } // kernel/OS.h pub const B_OS_NAME_LENGTH: usize = 32; pub const B_PAGE_SIZE: usize = 4096; pub const B_INFINITE_TIMEOUT: usize = 9223372036854775807; pub const B_RELATIVE_TIMEOUT: u32 = 0x8; pub const B_ABSOLUTE_TIMEOUT: u32 = 0x10; pub const B_TIMEOUT_REAL_TIME_BASE: u32 = 0x40; pub const B_ABSOLUTE_REAL_TIME_TIMEOUT: u32 = B_ABSOLUTE_TIMEOUT | B_TIMEOUT_REAL_TIME_BASE; pub const B_NO_LOCK: u32 = 0; pub const B_LAZY_LOCK: u32 = 1; pub const B_FULL_LOCK: u32 = 2; pub const B_CONTIGUOUS: u32 = 3; pub const B_LOMEM: u32 = 4; pub const B_32_BIT_FULL_LOCK: u32 = 5; pub const B_32_BIT_CONTIGUOUS: u32 = 6; pub const B_ANY_ADDRESS: u32 = 0; pub const B_EXACT_ADDRESS: u32 = 1; pub const B_BASE_ADDRESS: u32 = 2; pub const B_CLONE_ADDRESS: u32 = 3; pub const B_ANY_KERNEL_ADDRESS: u32 = 4; pub const B_RANDOMIZED_ANY_ADDRESS: u32 = 6; pub const B_RANDOMIZED_BASE_ADDRESS: u32 = 7; pub const B_READ_AREA: u32 = 1 << 0; pub const B_WRITE_AREA: u32 = 1 << 1; pub const B_EXECUTE_AREA: u32 = 1 << 2; pub const B_STACK_AREA: u32 = 1 << 3; pub const B_CLONEABLE_AREA: u32 = 1 << 8; pub const B_CAN_INTERRUPT: u32 = 0x01; pub const B_CHECK_PERMISSION: u32 = 0x04; pub const B_KILL_CAN_INTERRUPT: u32 = 0x20; pub const B_DO_NOT_RESCHEDULE: u32 = 0x02; pub const B_RELEASE_ALL: u32 = 0x08; pub const B_RELEASE_IF_WAITING_ONLY: u32 = 0x10; pub const B_CURRENT_TEAM: team_id = 0; pub const B_SYSTEM_TEAM: team_id = 1; pub const B_TEAM_USAGE_SELF: i32 = 0; pub const B_TEAM_USAGE_CHILDREN: i32 = -1; pub const B_IDLE_PRIORITY: i32 = 0; pub const B_LOWEST_ACTIVE_PRIORITY: i32 = 1; pub const B_LOW_PRIORITY: i32 = 5; pub const B_NORMAL_PRIORITY: i32 = 10; pub const B_DISPLAY_PRIORITY: i32 = 15; pub const B_URGENT_DISPLAY_PRIORITY: i32 = 20; pub const B_REAL_TIME_DISPLAY_PRIORITY: i32 = 100; pub const B_URGENT_PRIORITY: i32 = 110; pub const B_REAL_TIME_PRIORITY: i32 = 120; pub const B_SYSTEM_TIMEBASE: i32 = 0; pub const B_FIRST_REAL_TIME_PRIORITY: i32 = B_REAL_TIME_DISPLAY_PRIORITY; pub const B_ONE_SHOT_ABSOLUTE_ALARM: u32 = 1; pub const B_ONE_SHOT_RELATIVE_ALARM: u32 = 2; pub const B_PERIODIC_ALARM: u32 = 3; pub const B_OBJECT_TYPE_FD: u16 = 0; pub const B_OBJECT_TYPE_SEMAPHORE: u16 = 1; pub const B_OBJECT_TYPE_PORT: u16 = 2; pub const B_OBJECT_TYPE_THREAD: u16 = 3; pub const B_EVENT_READ: u16 = 0x0001; pub const B_EVENT_WRITE: u16 = 0x0002; pub const B_EVENT_ERROR: u16 = 0x0004; pub const B_EVENT_PRIORITY_READ: u16 = 0x0008; pub const B_EVENT_PRIORITY_WRITE: u16 = 0x0010; pub const B_EVENT_HIGH_PRIORITY_READ: u16 = 0x0020; pub const B_EVENT_HIGH_PRIORITY_WRITE: u16 = 0x0040; pub const B_EVENT_DISCONNECTED: u16 = 0x0080; pub const B_EVENT_ACQUIRE_SEMAPHORE: u16 = 0x0001; pub const B_EVENT_INVALID: u16 = 0x1000; // kernel/fs_info.h pub const B_FS_IS_READONLY: u32 = 0x00000001; pub const B_FS_IS_REMOVABLE: u32 = 0x00000002; pub const B_FS_IS_PERSISTENT: u32 = 0x00000004; pub const B_FS_IS_SHARED: u32 = 0x00000008; pub const B_FS_HAS_MIME: u32 = 0x00010000; pub const B_FS_HAS_ATTR: u32 = 0x00020000; pub const B_FS_HAS_QUERY: u32 = 0x00040000; pub const B_FS_HAS_SELF_HEALING_LINKS: u32 = 0x00080000; pub const B_FS_HAS_ALIASES: u32 = 0x00100000; pub const B_FS_SUPPORTS_NODE_MONITORING: u32 = 0x00200000; pub const B_FS_SUPPORTS_MONITOR_CHILDREN: u32 = 0x00400000; // kernel/fs_query.h pub const B_LIVE_QUERY: u32 = 0x00000001; pub const B_QUERY_NON_INDEXED: u32 = 0x00000002; // kernel/fs_volume.h pub const B_MOUNT_READ_ONLY: u32 = 1; pub const B_MOUNT_VIRTUAL_DEVICE: u32 = 2; pub const B_FORCE_UNMOUNT: u32 = 1; // kernel/image.h pub const B_FLUSH_DCACHE: u32 = 0x0001; pub const B_FLUSH_ICACHE: u32 = 0x0004; pub const B_INVALIDATE_DCACHE: u32 = 0x0002; pub const B_INVALIDATE_ICACHE: u32 = 0x0008; pub const B_SYMBOL_TYPE_DATA: i32 = 0x1; pub const B_SYMBOL_TYPE_TEXT: i32 = 0x2; pub const B_SYMBOL_TYPE_ANY: i32 = 0x5; // storage/StorageDefs.h pub const B_DEV_NAME_LENGTH: usize = 128; pub const B_FILE_NAME_LENGTH: usize = ::FILENAME_MAX as usize; pub const B_PATH_NAME_LENGTH: usize = ::PATH_MAX as usize; pub const B_ATTR_NAME_LENGTH: usize = B_FILE_NAME_LENGTH - 1; pub const B_MIME_TYPE_LENGTH: usize = B_ATTR_NAME_LENGTH - 15; pub const B_MAX_SYMLINKS: usize = 16; // Haiku open modes in BFile are passed as u32 pub const B_READ_ONLY: u32 = ::O_RDONLY as u32; pub const B_WRITE_ONLY: u32 = ::O_WRONLY as u32; pub const B_READ_WRITE: u32 = ::O_RDWR as u32; pub const B_FAIL_IF_EXISTS: u32 = ::O_EXCL as u32; pub const B_CREATE_FILE: u32 = ::O_CREAT as u32; pub const B_ERASE_FILE: u32 = ::O_TRUNC as u32; pub const B_OPEN_AT_END: u32 = ::O_APPEND as u32; pub const B_FILE_NODE: u32 = 0x01; pub const B_SYMLINK_NODE: u32 = 0x02; pub const B_DIRECTORY_NODE: u32 = 0x04; pub const B_ANY_NODE: u32 = 0x07; // support/Errors.h pub const B_GENERAL_ERROR_BASE: status_t = core::i32::MIN; pub const B_OS_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x1000; pub const B_APP_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x2000; pub const B_INTERFACE_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x3000; pub const B_MEDIA_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x4000; pub const B_TRANSLATION_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x4800; pub const B_MIDI_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x5000; pub const B_STORAGE_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x6000; pub const B_POSIX_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x7000; pub const B_MAIL_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x8000; pub const B_PRINT_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0x9000; pub const B_DEVICE_ERROR_BASE: status_t = B_GENERAL_ERROR_BASE + 0xa000; pub const B_ERRORS_END: status_t = B_GENERAL_ERROR_BASE + 0xffff; // General errors pub const B_NO_MEMORY: status_t = B_GENERAL_ERROR_BASE + 0; pub const B_IO_ERROR: status_t = B_GENERAL_ERROR_BASE + 1; pub const B_PERMISSION_DENIED: status_t = B_GENERAL_ERROR_BASE + 2; pub const B_BAD_INDEX: status_t = B_GENERAL_ERROR_BASE + 3; pub const B_BAD_TYPE: status_t = B_GENERAL_ERROR_BASE + 4; pub const B_BAD_VALUE: status_t = B_GENERAL_ERROR_BASE + 5; pub const B_MISMATCHED_VALUES: status_t = B_GENERAL_ERROR_BASE + 6; pub const B_NAME_NOT_FOUND: status_t = B_GENERAL_ERROR_BASE + 7; pub const B_NAME_IN_USE: status_t = B_GENERAL_ERROR_BASE + 8; pub const B_TIMED_OUT: status_t = B_GENERAL_ERROR_BASE + 9; pub const B_INTERRUPTED: status_t = B_GENERAL_ERROR_BASE + 10; pub const B_WOULD_BLOCK: status_t = B_GENERAL_ERROR_BASE + 11; pub const B_CANCELED: status_t = B_GENERAL_ERROR_BASE + 12; pub const B_NO_INIT: status_t = B_GENERAL_ERROR_BASE + 13; pub const B_NOT_INITIALIZED: status_t = B_GENERAL_ERROR_BASE + 13; pub const B_BUSY: status_t = B_GENERAL_ERROR_BASE + 14; pub const B_NOT_ALLOWED: status_t = B_GENERAL_ERROR_BASE + 15; pub const B_BAD_DATA: status_t = B_GENERAL_ERROR_BASE + 16; pub const B_DONT_DO_THAT: status_t = B_GENERAL_ERROR_BASE + 17; pub const B_ERROR: status_t = -1; pub const B_OK: status_t = 0; pub const B_NO_ERROR: status_t = 0; // Kernel kit errors pub const B_BAD_SEM_ID: status_t = B_OS_ERROR_BASE + 0; pub const B_NO_MORE_SEMS: status_t = B_OS_ERROR_BASE + 1; pub const B_BAD_THREAD_ID: status_t = B_OS_ERROR_BASE + 0x100; pub const B_NO_MORE_THREADS: status_t = B_OS_ERROR_BASE + 0x101; pub const B_BAD_THREAD_STATE: status_t = B_OS_ERROR_BASE + 0x102; pub const B_BAD_TEAM_ID: status_t = B_OS_ERROR_BASE + 0x103; pub const B_NO_MORE_TEAMS: status_t = B_OS_ERROR_BASE + 0x104; pub const B_BAD_PORT_ID: status_t = B_OS_ERROR_BASE + 0x200; pub const B_NO_MORE_PORTS: status_t = B_OS_ERROR_BASE + 0x201; pub const B_BAD_IMAGE_ID: status_t = B_OS_ERROR_BASE + 0x300; pub const B_BAD_ADDRESS: status_t = B_OS_ERROR_BASE + 0x301; pub const B_NOT_AN_EXECUTABLE: status_t = B_OS_ERROR_BASE + 0x302; pub const B_MISSING_LIBRARY: status_t = B_OS_ERROR_BASE + 0x303; pub const B_MISSING_SYMBOL: status_t = B_OS_ERROR_BASE + 0x304; pub const B_UNKNOWN_EXECUTABLE: status_t = B_OS_ERROR_BASE + 0x305; pub const B_LEGACY_EXECUTABLE: status_t = B_OS_ERROR_BASE + 0x306; pub const B_DEBUGGER_ALREADY_INSTALLED: status_t = B_OS_ERROR_BASE + 0x400; // Application kit errors pub const B_BAD_REPLY: status_t = B_APP_ERROR_BASE + 0; pub const B_DUPLICATE_REPLY: status_t = B_APP_ERROR_BASE + 1; pub const B_MESSAGE_TO_SELF: status_t = B_APP_ERROR_BASE + 2; pub const B_BAD_HANDLER: status_t = B_APP_ERROR_BASE + 3; pub const B_ALREADY_RUNNING: status_t = B_APP_ERROR_BASE + 4; pub const B_LAUNCH_FAILED: status_t = B_APP_ERROR_BASE + 5; pub const B_AMBIGUOUS_APP_LAUNCH: status_t = B_APP_ERROR_BASE + 6; pub const B_UNKNOWN_MIME_TYPE: status_t = B_APP_ERROR_BASE + 7; pub const B_BAD_SCRIPT_SYNTAX: status_t = B_APP_ERROR_BASE + 8; pub const B_LAUNCH_FAILED_NO_RESOLVE_LINK: status_t = B_APP_ERROR_BASE + 9; pub const B_LAUNCH_FAILED_EXECUTABLE: status_t = B_APP_ERROR_BASE + 10; pub const B_LAUNCH_FAILED_APP_NOT_FOUND: status_t = B_APP_ERROR_BASE + 11; pub const B_LAUNCH_FAILED_APP_IN_TRASH: status_t = B_APP_ERROR_BASE + 12; pub const B_LAUNCH_FAILED_NO_PREFERRED_APP: status_t = B_APP_ERROR_BASE + 13; pub const B_LAUNCH_FAILED_FILES_APP_NOT_FOUND: status_t = B_APP_ERROR_BASE + 14; pub const B_BAD_MIME_SNIFFER_RULE: status_t = B_APP_ERROR_BASE + 15; pub const B_NOT_A_MESSAGE: status_t = B_APP_ERROR_BASE + 16; pub const B_SHUTDOWN_CANCELLED: status_t = B_APP_ERROR_BASE + 17; pub const B_SHUTTING_DOWN: status_t = B_APP_ERROR_BASE + 18; // Storage kit errors pub const B_FILE_ERROR: status_t = B_STORAGE_ERROR_BASE + 0; pub const B_FILE_EXISTS: status_t = B_STORAGE_ERROR_BASE + 2; pub const B_ENTRY_NOT_FOUND: status_t = B_STORAGE_ERROR_BASE + 3; pub const B_NAME_TOO_LONG: status_t = B_STORAGE_ERROR_BASE + 4; pub const B_NOT_A_DIRECTORY: status_t = B_STORAGE_ERROR_BASE + 5; pub const B_DIRECTORY_NOT_EMPTY: status_t = B_STORAGE_ERROR_BASE + 6; pub const B_DEVICE_FULL: status_t = B_STORAGE_ERROR_BASE + 7; pub const B_READ_ONLY_DEVICE: status_t = B_STORAGE_ERROR_BASE + 8; pub const B_IS_A_DIRECTORY: status_t = B_STORAGE_ERROR_BASE + 9; pub const B_NO_MORE_FDS: status_t = B_STORAGE_ERROR_BASE + 10; pub const B_CROSS_DEVICE_LINK: status_t = B_STORAGE_ERROR_BASE + 11; pub const B_LINK_LIMIT: status_t = B_STORAGE_ERROR_BASE + 12; pub const B_BUSTED_PIPE: status_t = B_STORAGE_ERROR_BASE + 13; pub const B_UNSUPPORTED: status_t = B_STORAGE_ERROR_BASE + 14; pub const B_PARTITION_TOO_SMALL: status_t = B_STORAGE_ERROR_BASE + 15; pub const B_PARTIAL_READ: status_t = B_STORAGE_ERROR_BASE + 16; pub const B_PARTIAL_WRITE: status_t = B_STORAGE_ERROR_BASE + 17; // Mapped posix errors pub const B_BUFFER_OVERFLOW: status_t = ::EOVERFLOW; pub const B_TOO_MANY_ARGS: status_t = ::E2BIG; pub const B_FILE_TOO_LARGE: status_t = ::EFBIG; pub const B_RESULT_NOT_REPRESENTABLE: status_t = ::ERANGE; pub const B_DEVICE_NOT_FOUND: status_t = ::ENODEV; pub const B_NOT_SUPPORTED: status_t = ::EOPNOTSUPP; // Media kit errors pub const B_STREAM_NOT_FOUND: status_t = B_MEDIA_ERROR_BASE + 0; pub const B_SERVER_NOT_FOUND: status_t = B_MEDIA_ERROR_BASE + 1; pub const B_RESOURCE_NOT_FOUND: status_t = B_MEDIA_ERROR_BASE + 2; pub const B_RESOURCE_UNAVAILABLE: status_t = B_MEDIA_ERROR_BASE + 3; pub const B_BAD_SUBSCRIBER: status_t = B_MEDIA_ERROR_BASE + 4; pub const B_SUBSCRIBER_NOT_ENTERED: status_t = B_MEDIA_ERROR_BASE + 5; pub const B_BUFFER_NOT_AVAILABLE: status_t = B_MEDIA_ERROR_BASE + 6; pub const B_LAST_BUFFER_ERROR: status_t = B_MEDIA_ERROR_BASE + 7; pub const B_MEDIA_SYSTEM_FAILURE: status_t = B_MEDIA_ERROR_BASE + 100; pub const B_MEDIA_BAD_NODE: status_t = B_MEDIA_ERROR_BASE + 101; pub const B_MEDIA_NODE_BUSY: status_t = B_MEDIA_ERROR_BASE + 102; pub const B_MEDIA_BAD_FORMAT: status_t = B_MEDIA_ERROR_BASE + 103; pub const B_MEDIA_BAD_BUFFER: status_t = B_MEDIA_ERROR_BASE + 104; pub const B_MEDIA_TOO_MANY_NODES: status_t = B_MEDIA_ERROR_BASE + 105; pub const B_MEDIA_TOO_MANY_BUFFERS: status_t = B_MEDIA_ERROR_BASE + 106; pub const B_MEDIA_NODE_ALREADY_EXISTS: status_t = B_MEDIA_ERROR_BASE + 107; pub const B_MEDIA_BUFFER_ALREADY_EXISTS: status_t = B_MEDIA_ERROR_BASE + 108; pub const B_MEDIA_CANNOT_SEEK: status_t = B_MEDIA_ERROR_BASE + 109; pub const B_MEDIA_CANNOT_CHANGE_RUN_MODE: status_t = B_MEDIA_ERROR_BASE + 110; pub const B_MEDIA_APP_ALREADY_REGISTERED: status_t = B_MEDIA_ERROR_BASE + 111; pub const B_MEDIA_APP_NOT_REGISTERED: status_t = B_MEDIA_ERROR_BASE + 112; pub const B_MEDIA_CANNOT_RECLAIM_BUFFERS: status_t = B_MEDIA_ERROR_BASE + 113; pub const B_MEDIA_BUFFERS_NOT_RECLAIMED: status_t = B_MEDIA_ERROR_BASE + 114; pub const B_MEDIA_TIME_SOURCE_STOPPED: status_t = B_MEDIA_ERROR_BASE + 115; pub const B_MEDIA_TIME_SOURCE_BUSY: status_t = B_MEDIA_ERROR_BASE + 116; pub const B_MEDIA_BAD_SOURCE: status_t = B_MEDIA_ERROR_BASE + 117; pub const B_MEDIA_BAD_DESTINATION: status_t = B_MEDIA_ERROR_BASE + 118; pub const B_MEDIA_ALREADY_CONNECTED: status_t = B_MEDIA_ERROR_BASE + 119; pub const B_MEDIA_NOT_CONNECTED: status_t = B_MEDIA_ERROR_BASE + 120; pub const B_MEDIA_BAD_CLIP_FORMAT: status_t = B_MEDIA_ERROR_BASE + 121; pub const B_MEDIA_ADDON_FAILED: status_t = B_MEDIA_ERROR_BASE + 122; pub const B_MEDIA_ADDON_DISABLED: status_t = B_MEDIA_ERROR_BASE + 123; pub const B_MEDIA_CHANGE_IN_PROGRESS: status_t = B_MEDIA_ERROR_BASE + 124; pub const B_MEDIA_STALE_CHANGE_COUNT: status_t = B_MEDIA_ERROR_BASE + 125; pub const B_MEDIA_ADDON_RESTRICTED: status_t = B_MEDIA_ERROR_BASE + 126; pub const B_MEDIA_NO_HANDLER: status_t = B_MEDIA_ERROR_BASE + 127; pub const B_MEDIA_DUPLICATE_FORMAT: status_t = B_MEDIA_ERROR_BASE + 128; pub const B_MEDIA_REALTIME_DISABLED: status_t = B_MEDIA_ERROR_BASE + 129; pub const B_MEDIA_REALTIME_UNAVAILABLE: status_t = B_MEDIA_ERROR_BASE + 130; // Mail kit errors pub const B_MAIL_NO_DAEMON: status_t = B_MAIL_ERROR_BASE + 0; pub const B_MAIL_UNKNOWN_USER: status_t = B_MAIL_ERROR_BASE + 1; pub const B_MAIL_WRONG_PASSWORD: status_t = B_MAIL_ERROR_BASE + 2; pub const B_MAIL_UNKNOWN_HOST: status_t = B_MAIL_ERROR_BASE + 3; pub const B_MAIL_ACCESS_ERROR: status_t = B_MAIL_ERROR_BASE + 4; pub const B_MAIL_UNKNOWN_FIELD: status_t = B_MAIL_ERROR_BASE + 5; pub const B_MAIL_NO_RECIPIENT: status_t = B_MAIL_ERROR_BASE + 6; pub const B_MAIL_INVALID_MAIL: status_t = B_MAIL_ERROR_BASE + 7; // Print kit errors pub const B_NO_PRINT_SERVER: status_t = B_PRINT_ERROR_BASE + 0; // Device kit errors pub const B_DEV_INVALID_IOCTL: status_t = B_DEVICE_ERROR_BASE + 0; pub const B_DEV_NO_MEMORY: status_t = B_DEVICE_ERROR_BASE + 1; pub const B_DEV_BAD_DRIVE_NUM: status_t = B_DEVICE_ERROR_BASE + 2; pub const B_DEV_NO_MEDIA: status_t = B_DEVICE_ERROR_BASE + 3; pub const B_DEV_UNREADABLE: status_t = B_DEVICE_ERROR_BASE + 4; pub const B_DEV_FORMAT_ERROR: status_t = B_DEVICE_ERROR_BASE + 5; pub const B_DEV_TIMEOUT: status_t = B_DEVICE_ERROR_BASE + 6; pub const B_DEV_RECALIBRATE_ERROR: status_t = B_DEVICE_ERROR_BASE + 7; pub const B_DEV_SEEK_ERROR: status_t = B_DEVICE_ERROR_BASE + 8; pub const B_DEV_ID_ERROR: status_t = B_DEVICE_ERROR_BASE + 9; pub const B_DEV_READ_ERROR: status_t = B_DEVICE_ERROR_BASE + 10; pub const B_DEV_WRITE_ERROR: status_t = B_DEVICE_ERROR_BASE + 11; pub const B_DEV_NOT_READY: status_t = B_DEVICE_ERROR_BASE + 12; pub const B_DEV_MEDIA_CHANGED: status_t = B_DEVICE_ERROR_BASE + 13; pub const B_DEV_MEDIA_CHANGE_REQUESTED: status_t = B_DEVICE_ERROR_BASE + 14; pub const B_DEV_RESOURCE_CONFLICT: status_t = B_DEVICE_ERROR_BASE + 15; pub const B_DEV_CONFIGURATION_ERROR: status_t = B_DEVICE_ERROR_BASE + 16; pub const B_DEV_DISABLED_BY_USER: status_t = B_DEVICE_ERROR_BASE + 17; pub const B_DEV_DOOR_OPEN: status_t = B_DEVICE_ERROR_BASE + 18; pub const B_DEV_INVALID_PIPE: status_t = B_DEVICE_ERROR_BASE + 19; pub const B_DEV_CRC_ERROR: status_t = B_DEVICE_ERROR_BASE + 20; pub const B_DEV_STALLED: status_t = B_DEVICE_ERROR_BASE + 21; pub const B_DEV_BAD_PID: status_t = B_DEVICE_ERROR_BASE + 22; pub const B_DEV_UNEXPECTED_PID: status_t = B_DEVICE_ERROR_BASE + 23; pub const B_DEV_DATA_OVERRUN: status_t = B_DEVICE_ERROR_BASE + 24; pub const B_DEV_DATA_UNDERRUN: status_t = B_DEVICE_ERROR_BASE + 25; pub const B_DEV_FIFO_OVERRUN: status_t = B_DEVICE_ERROR_BASE + 26; pub const B_DEV_FIFO_UNDERRUN: status_t = B_DEVICE_ERROR_BASE + 27; pub const B_DEV_PENDING: status_t = B_DEVICE_ERROR_BASE + 28; pub const B_DEV_MULTIPLE_ERRORS: status_t = B_DEVICE_ERROR_BASE + 29; pub const B_DEV_TOO_LATE: status_t = B_DEVICE_ERROR_BASE + 30; // translation kit errors pub const B_TRANSLATION_BASE_ERROR: status_t = B_TRANSLATION_ERROR_BASE + 0; pub const B_NO_TRANSLATOR: status_t = B_TRANSLATION_ERROR_BASE + 1; pub const B_ILLEGAL_DATA: status_t = B_TRANSLATION_ERROR_BASE + 2; // support/TypeConstants.h pub const B_AFFINE_TRANSFORM_TYPE: u32 = haiku_constant!('A', 'M', 'T', 'X'); pub const B_ALIGNMENT_TYPE: u32 = haiku_constant!('A', 'L', 'G', 'N'); pub const B_ANY_TYPE: u32 = haiku_constant!('A', 'N', 'Y', 'T'); pub const B_ATOM_TYPE: u32 = haiku_constant!('A', 'T', 'O', 'M'); pub const B_ATOMREF_TYPE: u32 = haiku_constant!('A', 'T', 'M', 'R'); pub const B_BOOL_TYPE: u32 = haiku_constant!('B', 'O', 'O', 'L'); pub const B_CHAR_TYPE: u32 = haiku_constant!('C', 'H', 'A', 'R'); pub const B_COLOR_8_BIT_TYPE: u32 = haiku_constant!('C', 'L', 'R', 'B'); pub const B_DOUBLE_TYPE: u32 = haiku_constant!('D', 'B', 'L', 'E'); pub const B_FLOAT_TYPE: u32 = haiku_constant!('F', 'L', 'O', 'T'); pub const B_GRAYSCALE_8_BIT_TYPE: u32 = haiku_constant!('G', 'R', 'Y', 'B'); pub const B_INT16_TYPE: u32 = haiku_constant!('S', 'H', 'R', 'T'); pub const B_INT32_TYPE: u32 = haiku_constant!('L', 'O', 'N', 'G'); pub const B_INT64_TYPE: u32 = haiku_constant!('L', 'L', 'N', 'G'); pub const B_INT8_TYPE: u32 = haiku_constant!('B', 'Y', 'T', 'E'); pub const B_LARGE_ICON_TYPE: u32 = haiku_constant!('I', 'C', 'O', 'N'); pub const B_MEDIA_PARAMETER_GROUP_TYPE: u32 = haiku_constant!('B', 'M', 'C', 'G'); pub const B_MEDIA_PARAMETER_TYPE: u32 = haiku_constant!('B', 'M', 'C', 'T'); pub const B_MEDIA_PARAMETER_WEB_TYPE: u32 = haiku_constant!('B', 'M', 'C', 'W'); pub const B_MESSAGE_TYPE: u32 = haiku_constant!('M', 'S', 'G', 'G'); pub const B_MESSENGER_TYPE: u32 = haiku_constant!('M', 'S', 'N', 'G'); pub const B_MIME_TYPE: u32 = haiku_constant!('M', 'I', 'M', 'E'); pub const B_MINI_ICON_TYPE: u32 = haiku_constant!('M', 'I', 'C', 'N'); pub const B_MONOCHROME_1_BIT_TYPE: u32 = haiku_constant!('M', 'N', 'O', 'B'); pub const B_OBJECT_TYPE: u32 = haiku_constant!('O', 'P', 'T', 'R'); pub const B_OFF_T_TYPE: u32 = haiku_constant!('O', 'F', 'F', 'T'); pub const B_PATTERN_TYPE: u32 = haiku_constant!('P', 'A', 'T', 'N'); pub const B_POINTER_TYPE: u32 = haiku_constant!('P', 'N', 'T', 'R'); pub const B_POINT_TYPE: u32 = haiku_constant!('B', 'P', 'N', 'T'); pub const B_PROPERTY_INFO_TYPE: u32 = haiku_constant!('S', 'C', 'T', 'D'); pub const B_RAW_TYPE: u32 = haiku_constant!('R', 'A', 'W', 'T'); pub const B_RECT_TYPE: u32 = haiku_constant!('R', 'E', 'C', 'T'); pub const B_REF_TYPE: u32 = haiku_constant!('R', 'R', 'E', 'F'); pub const B_RGB_32_BIT_TYPE: u32 = haiku_constant!('R', 'G', 'B', 'B'); pub const B_RGB_COLOR_TYPE: u32 = haiku_constant!('R', 'G', 'B', 'C'); pub const B_SIZE_TYPE: u32 = haiku_constant!('S', 'I', 'Z', 'E'); pub const B_SIZE_T_TYPE: u32 = haiku_constant!('S', 'I', 'Z', 'T'); pub const B_SSIZE_T_TYPE: u32 = haiku_constant!('S', 'S', 'Z', 'T'); pub const B_STRING_TYPE: u32 = haiku_constant!('C', 'S', 'T', 'R'); pub const B_STRING_LIST_TYPE: u32 = haiku_constant!('S', 'T', 'R', 'L'); pub const B_TIME_TYPE: u32 = haiku_constant!('T', 'I', 'M', 'E'); pub const B_UINT16_TYPE: u32 = haiku_constant!('U', 'S', 'H', 'T'); pub const B_UINT32_TYPE: u32 = haiku_constant!('U', 'L', 'N', 'G'); pub const B_UINT64_TYPE: u32 = haiku_constant!('U', 'L', 'L', 'G'); pub const B_UINT8_TYPE: u32 = haiku_constant!('U', 'B', 'Y', 'T'); pub const B_VECTOR_ICON_TYPE: u32 = haiku_constant!('V', 'I', 'C', 'N'); pub const B_XATTR_TYPE: u32 = haiku_constant!('X', 'A', 'T', 'R'); pub const B_NETWORK_ADDRESS_TYPE: u32 = haiku_constant!('N', 'W', 'A', 'D'); pub const B_MIME_STRING_TYPE: u32 = haiku_constant!('M', 'I', 'M', 'S'); pub const B_ASCII_TYPE: u32 = haiku_constant!('T', 'E', 'X', 'T'); extern "C" { // kernel/OS.h pub fn create_area( name: *const ::c_char, startAddress: *mut *mut ::c_void, addressSpec: u32, size: usize, lock: u32, protection: u32, ) -> area_id; pub fn clone_area( name: *const ::c_char, destAddress: *mut *mut ::c_void, addressSpec: u32, protection: u32, source: area_id, ) -> area_id; pub fn find_area(name: *const ::c_char) -> area_id; pub fn area_for(address: *mut ::c_void) -> area_id; pub fn delete_area(id: area_id) -> status_t; pub fn resize_area(id: area_id, newSize: usize) -> status_t; pub fn set_area_protection(id: area_id, newProtection: u32) -> status_t; pub fn _get_area_info(id: area_id, areaInfo: *mut area_info, size: usize) -> status_t; pub fn _get_next_area_info( team: team_id, cookie: *mut isize, areaInfo: *mut area_info, size: usize, ) -> status_t; pub fn create_port(capacity: i32, name: *const ::c_char) -> port_id; pub fn find_port(name: *const ::c_char) -> port_id; pub fn read_port( port: port_id, code: *mut i32, buffer: *mut ::c_void, bufferSize: ::size_t, ) -> ::ssize_t; pub fn read_port_etc( port: port_id, code: *mut i32, buffer: *mut ::c_void, bufferSize: ::size_t, flags: u32, timeout: bigtime_t, ) -> ::ssize_t; pub fn write_port( port: port_id, code: i32, buffer: *const ::c_void, bufferSize: ::size_t, ) -> status_t; pub fn write_port_etc( port: port_id, code: i32, buffer: *const ::c_void, bufferSize: ::size_t, flags: u32, timeout: bigtime_t, ) -> status_t; pub fn close_port(port: port_id) -> status_t; pub fn delete_port(port: port_id) -> status_t; pub fn port_buffer_size(port: port_id) -> ::ssize_t; pub fn port_buffer_size_etc(port: port_id, flags: u32, timeout: bigtime_t) -> ::ssize_t; pub fn port_count(port: port_id) -> ::ssize_t; pub fn set_port_owner(port: port_id, team: team_id) -> status_t; pub fn _get_port_info(port: port_id, buf: *mut port_info, portInfoSize: ::size_t) -> status_t; pub fn _get_next_port_info( port: port_id, cookie: *mut i32, portInfo: *mut port_info, portInfoSize: ::size_t, ) -> status_t; pub fn _get_port_message_info_etc( port: port_id, info: *mut port_message_info, infoSize: ::size_t, flags: u32, timeout: bigtime_t, ) -> status_t; pub fn create_sem(count: i32, name: *const ::c_char) -> sem_id; pub fn delete_sem(id: sem_id) -> status_t; pub fn acquire_sem(id: sem_id) -> status_t; pub fn acquire_sem_etc(id: sem_id, count: i32, flags: u32, timeout: bigtime_t) -> status_t; pub fn release_sem(id: sem_id) -> status_t; pub fn release_sem_etc(id: sem_id, count: i32, flags: u32) -> status_t; pub fn switch_sem(semToBeReleased: sem_id, id: sem_id) -> status_t; pub fn switch_sem_etc( semToBeReleased: sem_id, id: sem_id, count: i32, flags: u32, timeout: bigtime_t, ) -> status_t; pub fn get_sem_count(id: sem_id, threadCount: *mut i32) -> status_t; pub fn set_sem_owner(id: sem_id, team: team_id) -> status_t; pub fn _get_sem_info(id: sem_id, info: *mut sem_info, infoSize: ::size_t) -> status_t; pub fn _get_next_sem_info( team: team_id, cookie: *mut i32, info: *mut sem_info, infoSize: ::size_t, ) -> status_t; pub fn kill_team(team: team_id) -> status_t; pub fn _get_team_info(team: team_id, info: *mut team_info, size: ::size_t) -> status_t; pub fn _get_next_team_info(cookie: *mut i32, info: *mut team_info, size: ::size_t) -> status_t; pub fn spawn_thread( func: thread_func, name: *const ::c_char, priority: i32, data: *mut ::c_void, ) -> thread_id; pub fn kill_thread(thread: thread_id) -> status_t; pub fn resume_thread(thread: thread_id) -> status_t; pub fn suspend_thread(thread: thread_id) -> status_t; pub fn rename_thread(thread: thread_id, newName: *const ::c_char) -> status_t; pub fn set_thread_priority(thread: thread_id, newPriority: i32) -> status_t; pub fn suggest_thread_priority( what: u32, period: i32, jitter: ::bigtime_t, length: ::bigtime_t, ) -> i32; pub fn estimate_max_scheduling_latency(th: ::thread_id) -> ::bigtime_t; pub fn exit_thread(status: status_t); pub fn wait_for_thread(thread: thread_id, returnValue: *mut status_t) -> status_t; pub fn on_exit_thread(callback: extern "C" fn(*mut ::c_void), data: *mut ::c_void) -> status_t; pub fn find_thread(name: *const ::c_char) -> thread_id; pub fn get_scheduler_mode() -> i32; pub fn set_scheduler_mode(mode: i32) -> status_t; pub fn send_data( thread: thread_id, code: i32, buffer: *const ::c_void, bufferSize: ::size_t, ) -> status_t; pub fn receive_data(sender: *mut thread_id, buffer: *mut ::c_void, bufferSize: ::size_t) -> i32; pub fn has_data(thread: thread_id) -> bool; pub fn snooze(amount: bigtime_t) -> status_t; pub fn snooze_etc(amount: bigtime_t, timeBase: ::c_int, flags: u32) -> status_t; pub fn snooze_until(time: bigtime_t, timeBase: ::c_int) -> status_t; pub fn _get_thread_info(id: thread_id, info: *mut thread_info, size: ::size_t) -> status_t; pub fn _get_next_thread_info( team: team_id, cookie: *mut i32, info: *mut thread_info, size: ::size_t, ) -> status_t; pub fn get_pthread_thread_id(thread: ::pthread_t) -> thread_id; pub fn _get_team_usage_info( team: team_id, who: i32, info: *mut team_usage_info, size: ::size_t, ) -> status_t; pub fn real_time_clock() -> ::c_ulong; pub fn set_real_time_clock(secsSinceJan1st1970: ::c_ulong); pub fn real_time_clock_usecs() -> bigtime_t; pub fn system_time() -> bigtime_t; pub fn system_time_nsecs() -> nanotime_t; // set_timezone() is deprecated and a no-op pub fn set_alarm(when: bigtime_t, flags: u32) -> bigtime_t; pub fn debugger(message: *const ::c_char); pub fn disable_debugger(state: ::c_int) -> ::c_int; pub fn get_system_info(info: *mut system_info) -> status_t; pub fn _get_cpu_info_etc( firstCPU: u32, cpuCount: u32, info: *mut cpu_info, size: ::size_t, ) -> status_t; pub fn get_cpu_topology_info( topologyInfos: *mut cpu_topology_node_info, topologyInfoCount: *mut u32, ) -> status_t; pub fn is_computer_on() -> i32; pub fn is_computer_on_fire() -> ::c_double; pub fn send_signal(threadID: thread_id, signal: ::c_uint) -> ::c_int; pub fn set_signal_stack(base: *mut ::c_void, size: ::size_t); pub fn wait_for_objects(infos: *mut object_wait_info, numInfos: ::c_int) -> ::ssize_t; pub fn wait_for_objects_etc( infos: *mut object_wait_info, numInfos: ::c_int, flags: u32, timeout: bigtime_t, ) -> ::ssize_t; // kernel/fs_attr.h pub fn fs_read_attr( fd: ::c_int, attribute: *const ::c_char, type_: u32, pos: ::off_t, buffer: *mut ::c_void, readBytes: ::size_t, ) -> ::ssize_t; pub fn fs_write_attr( fd: ::c_int, attribute: *const ::c_char, type_: u32, pos: ::off_t, buffer: *const ::c_void, writeBytes: ::size_t, ) -> ::ssize_t; pub fn fs_remove_attr(fd: ::c_int, attribute: *const ::c_char) -> ::c_int; pub fn fs_stat_attr( fd: ::c_int, attribute: *const ::c_char, attrInfo: *mut attr_info, ) -> ::c_int; pub fn fs_open_attr( path: *const ::c_char, attribute: *const ::c_char, type_: u32, openMode: ::c_int, ) -> ::c_int; pub fn fs_fopen_attr( fd: ::c_int, attribute: *const ::c_char, type_: u32, openMode: ::c_int, ) -> ::c_int; pub fn fs_close_attr(fd: ::c_int) -> ::c_int; pub fn fs_open_attr_dir(path: *const ::c_char) -> *mut ::DIR; pub fn fs_lopen_attr_dir(path: *const ::c_char) -> *mut ::DIR; pub fn fs_fopen_attr_dir(fd: ::c_int) -> *mut ::DIR; pub fn fs_close_attr_dir(dir: *mut ::DIR) -> ::c_int; pub fn fs_read_attr_dir(dir: *mut ::DIR) -> *mut ::dirent; pub fn fs_rewind_attr_dir(dir: *mut ::DIR); // kernel/fs_image.h pub fn fs_create_index( device: ::dev_t, name: *const ::c_char, type_: u32, flags: u32, ) -> ::c_int; pub fn fs_remove_index(device: ::dev_t, name: *const ::c_char) -> ::c_int; pub fn fs_stat_index( device: ::dev_t, name: *const ::c_char, indexInfo: *mut index_info, ) -> ::c_int; pub fn fs_open_index_dir(device: ::dev_t) -> *mut ::DIR; pub fn fs_close_index_dir(indexDirectory: *mut ::DIR) -> ::c_int; pub fn fs_read_index_dir(indexDirectory: *mut ::DIR) -> *mut ::dirent; pub fn fs_rewind_index_dir(indexDirectory: *mut ::DIR); // kernel/fs_info.h pub fn dev_for_path(path: *const ::c_char) -> ::dev_t; pub fn next_dev(pos: *mut i32) -> ::dev_t; pub fn fs_stat_dev(dev: ::dev_t, info: *mut fs_info) -> ::c_int; // kernel/fs_query.h pub fn fs_open_query(device: ::dev_t, query: *const ::c_char, flags: u32) -> *mut ::DIR; pub fn fs_open_live_query( device: ::dev_t, query: *const ::c_char, flags: u32, port: port_id, token: i32, ) -> *mut ::DIR; pub fn fs_close_query(d: *mut ::DIR) -> ::c_int; pub fn fs_read_query(d: *mut ::DIR) -> *mut ::dirent; pub fn get_path_for_dirent(dent: *mut ::dirent, buf: *mut ::c_char, len: ::size_t) -> status_t; // kernel/fs_volume.h pub fn fs_mount_volume( where_: *const ::c_char, device: *const ::c_char, filesystem: *const ::c_char, flags: u32, parameters: *const ::c_char, ) -> ::dev_t; pub fn fs_unmount_volume(path: *const ::c_char, flags: u32) -> status_t; // kernel/image.h pub fn load_image( argc: i32, argv: *mut *const ::c_char, environ: *mut *const ::c_char, ) -> thread_id; pub fn load_add_on(path: *const ::c_char) -> image_id; pub fn unload_add_on(image: image_id) -> status_t; pub fn get_image_symbol( image: image_id, name: *const ::c_char, symbolType: i32, symbolLocation: *mut *mut ::c_void, ) -> status_t; pub fn get_nth_image_symbol( image: image_id, n: i32, nameBuffer: *mut ::c_char, nameLength: *mut i32, symbolType: *mut i32, symbolLocation: *mut *mut ::c_void, ) -> status_t; pub fn clear_caches(address: *mut ::c_void, length: ::size_t, flags: u32); pub fn _get_image_info(image: image_id, info: *mut image_info, size: ::size_t) -> status_t; pub fn _get_next_image_info( team: team_id, cookie: *mut i32, info: *mut image_info, size: ::size_t, ) -> status_t; pub fn find_path( codePointer: *const ::c_void, baseDirectory: path_base_directory, subPath: *const ::c_char, pathBuffer: *mut ::c_char, bufferSize: usize, ) -> status_t; pub fn find_path_etc( codePointer: *const ::c_void, dependency: *const ::c_char, architecture: *const ::c_char, baseDirectory: path_base_directory, subPath: *const ::c_char, flags: u32, pathBuffer: *mut ::c_char, bufferSize: ::size_t, ) -> status_t; pub fn find_path_for_path( path: *const ::c_char, baseDirectory: path_base_directory, subPath: *const ::c_char, pathBuffer: *mut ::c_char, bufferSize: ::size_t, ) -> status_t; pub fn find_path_for_path_etc( path: *const ::c_char, dependency: *const ::c_char, architectur: *const ::c_char, baseDirectory: path_base_directory, subPath: *const ::c_char, flags: u32, pathBuffer: *mut ::c_char, bufferSize: ::size_t, ) -> status_t; pub fn find_paths( baseDirectory: path_base_directory, subPath: *const ::c_char, _paths: *mut *mut *mut ::c_char, pathCount: *mut ::size_t, ) -> status_t; pub fn find_paths_etc( architecture: *const ::c_char, baseDirectory: path_base_directory, subPath: *const ::c_char, flags: u32, _paths: *mut *mut *mut ::c_char, pathCount: *mut ::size_t, ) -> status_t; pub fn find_directory( which: directory_which, volume: ::dev_t, createIt: bool, pathString: *mut ::c_char, length: i32, ) -> status_t; } cfg_if! { if #[cfg(libc_union)] { extern "C" { pub fn get_cpuid(info: *mut cpuid_info, eaxRegister: u32, cpuNum: u32) -> status_t; } } } // The following functions are defined as macros in C/C++ #[inline] pub unsafe fn get_cpu_info(firstCPU: u32, cpuCount: u32, info: *mut cpu_info) -> status_t { _get_cpu_info_etc( firstCPU, cpuCount, info, core::mem::size_of::() as ::size_t, ) } #[inline] pub unsafe fn get_area_info(id: area_id, info: *mut area_info) -> status_t { _get_area_info(id, info, core::mem::size_of::() as usize) } #[inline] pub unsafe fn get_next_area_info( team: team_id, cookie: *mut isize, info: *mut area_info, ) -> status_t { _get_next_area_info( team, cookie, info, core::mem::size_of::() as usize, ) } #[inline] pub unsafe fn get_port_info(port: port_id, buf: *mut port_info) -> status_t { _get_port_info(port, buf, core::mem::size_of::() as ::size_t) } #[inline] pub unsafe fn get_next_port_info( port: port_id, cookie: *mut i32, portInfo: *mut port_info, ) -> status_t { _get_next_port_info( port, cookie, portInfo, core::mem::size_of::() as ::size_t, ) } #[inline] pub unsafe fn get_port_message_info_etc( port: port_id, info: *mut port_message_info, flags: u32, timeout: bigtime_t, ) -> status_t { _get_port_message_info_etc( port, info, core::mem::size_of::() as ::size_t, flags, timeout, ) } #[inline] pub unsafe fn get_sem_info(id: sem_id, info: *mut sem_info) -> status_t { _get_sem_info(id, info, core::mem::size_of::() as ::size_t) } #[inline] pub unsafe fn get_next_sem_info(team: team_id, cookie: *mut i32, info: *mut sem_info) -> status_t { _get_next_sem_info( team, cookie, info, core::mem::size_of::() as ::size_t, ) } #[inline] pub unsafe fn get_team_info(team: team_id, info: *mut team_info) -> status_t { _get_team_info(team, info, core::mem::size_of::() as ::size_t) } #[inline] pub unsafe fn get_next_team_info(cookie: *mut i32, info: *mut team_info) -> status_t { _get_next_team_info(cookie, info, core::mem::size_of::() as ::size_t) } #[inline] pub unsafe fn get_team_usage_info(team: team_id, who: i32, info: *mut team_usage_info) -> status_t { _get_team_usage_info( team, who, info, core::mem::size_of::() as ::size_t, ) } #[inline] pub unsafe fn get_thread_info(id: thread_id, info: *mut thread_info) -> status_t { _get_thread_info(id, info, core::mem::size_of::() as ::size_t) } #[inline] pub unsafe fn get_next_thread_info( team: team_id, cookie: *mut i32, info: *mut thread_info, ) -> status_t { _get_next_thread_info( team, cookie, info, core::mem::size_of::() as ::size_t, ) } // kernel/image.h #[inline] pub unsafe fn get_image_info(image: image_id, info: *mut image_info) -> status_t { _get_image_info(image, info, core::mem::size_of::() as ::size_t) } #[inline] pub unsafe fn get_next_image_info( team: team_id, cookie: *mut i32, info: *mut image_info, ) -> status_t { _get_next_image_info( team, cookie, info, core::mem::size_of::() as ::size_t, ) }