/* * chr - Andrew Chronister & * inso - Alex Baines * * 02.02.2020 * * Updated linux layer for 4coder * */ internal String_Const_u8 system_get_path(Arena* arena, System_Path_Code path_code){ String_Const_u8 result = {}; switch (path_code){ case SystemPath_CurrentDirectory: { // glibc extension: getcwd allocates its own memory if passed NULL char *working_dir = getcwd(NULL, 0); LINUX_FN_DEBUG("cwd = [%s]", working_dir); u64 working_dir_len = cstring_length(working_dir); u8 *out = push_array(arena, u8, working_dir_len + 1); block_copy(out, working_dir, working_dir_len); // NOTE: 4ed appears to expect a slash on the end. out[working_dir_len] = '/'; free(working_dir); result = SCu8(out, working_dir_len + 1); } break; case SystemPath_Binary: { // linux-specific: binary path symlinked at /proc/self/exe // PATH_MAX is probably good enough... // read the 'readlink' manpage for some comedy about it being 'broken by design'. char* buf = push_array(arena, char, PATH_MAX); ssize_t n = readlink("/proc/self/exe", buf, PATH_MAX); if(n == -1) { perror("readlink"); *buf = n = 0; } result = string_remove_last_folder(SCu8(buf, n)); LINUX_FN_DEBUG("bin dir = [%.*s]", (int)result.size, result.str); } break; } return(result); } internal String_Const_u8 system_get_canonical(Arena* arena, String_Const_u8 name){ // TODO(andrew): Resolve symlinks ? // TODO(andrew): Resolve . and .. in paths // TODO(andrew): Use realpath(3) return name; } internal File_List system_get_file_list(Arena* arena, String_Const_u8 directory){ File_List result = {}; String_Const_u8 search_pattern = {}; if (character_is_slash(string_get_character(directory, directory.size - 1))){ search_pattern = push_u8_stringf(arena, "%.*s*", string_expand(directory)); } else{ search_pattern = push_u8_stringf(arena, "%.*s/*", string_expand(directory)); } struct dirent** dir_ents = NULL; int num_ents = scandir( (const char*)search_pattern.str, &dir_ents, linux_system_get_file_list_filter, alphasort); File_Info *first = 0; File_Info *last = 0; for (int i = 0; i < num_ents; ++i) { struct dirent* dirent = dir_ents[i]; File_Info *info = push_array(arena, File_Info, 1); sll_queue_push(first, last, info); info->file_name = SCu8((u8*)dirent->d_name); struct stat file_stat; stat((const char*)dirent->d_name, &file_stat); info->attributes = linux_file_attributes_from_struct_stat(file_stat); } result.infos = push_array(arena, File_Info*, num_ents); result.count = num_ents; i32 info_index = 0; for (File_Info* node = first; node != NULL; node = node->next) { result.infos[info_index] = node; info_index += 1; } return result; } internal File_Attributes system_quick_file_attributes(Arena* scratch, String_Const_u8 file_name){ struct stat file_stat; stat((const char*)file_name.str, &file_stat); return linux_file_attributes_from_struct_stat(file_stat); } internal b32 system_load_handle(Arena* scratch, char* file_name, Plat_Handle* out){ int fd = open(file_name, O_RDONLY); if (fd != -1) { *(int*)out = fd; return true; } return false; } internal File_Attributes system_load_attributes(Plat_Handle handle){ struct stat file_stat; fstat(*(int*)&handle, &file_stat); return linux_file_attributes_from_struct_stat(file_stat); } internal b32 system_load_file(Plat_Handle handle, char* buffer, u32 size){ int fd = *(int*)&handle; int bytes_read = read(fd, buffer, size); if (bytes_read == size) { return true; } return false; } internal b32 system_load_close(Plat_Handle handle){ int fd = *(int*)&handle; return close(fd) == 0; } internal File_Attributes system_save_file(Arena* scratch, char* file_name, String_Const_u8 data){ File_Attributes result = {}; int fd = open(file_name, O_WRONLY, O_CREAT); if (fd != -1) { int bytes_written = write(fd, data.str, data.size); if (bytes_written != -1) { struct stat file_stat; fstat(fd, &file_stat); return linux_file_attributes_from_struct_stat(file_stat); } } return result; } internal b32 system_load_library(Arena* scratch, String_Const_u8 file_name, System_Library* out){ void* library = dlopen((const char*)file_name.str, RTLD_LAZY); if (library != NULL) { *(void**)out = library; return true; } return false; } internal b32 system_release_library(System_Library handle){ return dlclose(*(void**)&handle) == 0; } internal Void_Func* system_get_proc(System_Library handle, char* proc_name){ return (Void_Func*)dlsym(*(void**)&handle, proc_name); } internal u64 system_now_time(void){ struct timespec time; clock_gettime(CLOCK_MONOTONIC_RAW, &time); return linux_u64_from_timespec(time); } internal Plat_Handle system_wake_up_timer_create(void){ Linux_Object* object = linux_alloc_object(LinuxObjectKind_Timer); dll_insert(&linuxvars.timer_objects, &object->node); // NOTE(inso): timers created on-demand to avoid file-descriptor exhaustion. object->timer.fd = -1; } internal void system_wake_up_timer_release(Plat_Handle handle){ Linux_Object* object = handle_to_object(handle); if (object->kind == LinuxObjectKind_Timer){ if(object->timer.fd != -1) { epoll_ctl(linuxvars.epoll, EPOLL_CTL_DEL, object->timer.fd, NULL); close(object->timer.fd); object->timer.fd = -1; } linux_free_object(object); } } internal void system_wake_up_timer_set(Plat_Handle handle, u32 time_milliseconds){ Linux_Object* object = handle_to_object(handle); if (object->kind == LinuxObjectKind_Timer){ if(object->timer.fd == -1) { object->timer.fd = timerfd_create(CLOCK_MONOTONIC, TFD_NONBLOCK | TFD_CLOEXEC); } struct itimerspec it = {}; it.it_value.tv_sec = time_milliseconds / 1000; it.it_value.tv_nsec = (time_milliseconds % 1000) * 1000000UL; struct epoll_event ev; ev.events = EPOLLIN | EPOLLET | EPOLLONESHOT; ev.data.ptr = &object->timer.epoll_tag; epoll_ctl(linuxvars.epoll, EPOLL_CTL_ADD, object->timer.fd, &ev); } } internal void system_signal_step(u32 code){ linux_schedule_step(); } internal void system_sleep(u64 microseconds){ struct timespec requested; struct timespec remaining; u64 seconds = microseconds / Million(1); requested.tv_sec = seconds; requested.tv_nsec = (microseconds - seconds * Million(1)) * Thousand(1); nanosleep(&requested, &remaining); } internal void system_post_clipboard(String_Const_u8 str){ linalloc_clear(&linuxvars.clipboard_out_arena); char* p = push_array(&linuxvars.clipboard_out_arena, char, str.size + 1); block_copy(p, str.data, str.size); p[str.size] = '\0'; XSetSelectionOwner(linuxvars.dpy, linuxvars.atom_CLIPBOARD, linuxvars.win, CurrentTime); } internal b32 system_cli_call(Arena* scratch, char* path, char* script, CLI_Handles* cli_out){ int pipe_fds[2]; if (pipe(pipe_fds) == -1){ perror("system_cli_call: pipe"); return 0; } pid_t child_pid = vfork(); if (child_pid == -1){ perror("system_cli_call: fork"); return 0; } enum { PIPE_FD_READ, PIPE_FD_WRITE }; // child if (child_pid == 0){ close(pipe_fds[PIPE_FD_READ]); dup2(pipe_fds[PIPE_FD_WRITE], STDOUT_FILENO); dup2(pipe_fds[PIPE_FD_WRITE], STDERR_FILENO); if (chdir(path) == -1){ perror("system_cli_call: chdir"); exit(1); } char* argv[] = { "sh", "-c", script, NULL }; if (execv("/bin/sh", argv) == -1){ perror("system_cli_call: execv"); } exit(1); } else{ close(pipe_fds[PIPE_FD_WRITE]); *(pid_t*)&cli_out->proc = child_pid; *(int*)&cli_out->out_read = pipe_fds[PIPE_FD_READ]; *(int*)&cli_out->out_write = pipe_fds[PIPE_FD_WRITE]; struct epoll_event e = {}; e.events = EPOLLIN | EPOLLET; e.data.ptr = &epoll_tag_cli_pipe; epoll_ctl(linuxvars.epoll, EPOLL_CTL_ADD, pipe_fds[PIPE_FD_READ], &e); } return(true); } internal void system_cli_begin_update(CLI_Handles* cli){ // NOTE(inso): I don't think anything needs to be done here. } internal b32 system_cli_update_step(CLI_Handles* cli, char* dest, u32 max, u32* amount){ int pipe_read_fd = *(int*)&cli->out_read; fd_set fds; FD_ZERO(&fds); FD_SET(pipe_read_fd, &fds); struct timeval tv = {}; size_t space_left = max; char* ptr = dest; while (space_left > 0 && select(pipe_read_fd + 1, &fds, NULL, NULL, &tv) == 1){ ssize_t num = read(pipe_read_fd, ptr, space_left); if (num == -1){ perror("system_cli_update_step: read"); } else if (num == 0){ // NOTE(inso): EOF break; } else { ptr += num; space_left -= num; } } *amount = (ptr - dest); return((ptr - dest) > 0); } internal b32 system_cli_end_update(CLI_Handles* cli){ pid_t pid = *(pid_t*)&cli->proc; b32 close_me = false; int status; if (pid && waitpid(pid, &status, WNOHANG) > 0){ cli->exit = WEXITSTATUS(status); close_me = true; close(*(int*)&cli->out_read); close(*(int*)&cli->out_write); struct epoll_event e = {}; epoll_ctl(linuxvars.epoll, EPOLL_CTL_DEL, *(int*)&cli->out_read, &e); } return(close_me); } internal void system_open_color_picker(Color_Picker* picker){ // TODO? } internal f32 system_get_screen_scale_factor(void){ // TODO: correct screen number somehow int dpi = linux_get_xsettings_dpi(linuxvars.dpy, 0); if(dpi == -1){ int scr = DefaultScreen(linuxvars.dpy); int dw = DisplayWidth(linuxvars.dpy, scr); int dh = DisplayHeight(linuxvars.dpy, scr); int dw_mm = DisplayWidthMM(linuxvars.dpy, scr); int dh_mm = DisplayHeightMM(linuxvars.dpy, scr); int dpi_x = dw_mm ? dw / (dw_mm / 25.4) : 96; int dpi_y = dh_mm ? dh / (dh_mm / 25.4) : 96; dpi = dpi_x > dpi_y ? dpi_x : dpi_y; } return dpi / 96.0f; } internal System_Thread system_thread_launch(Thread_Function* proc, void* ptr){ System_Thread result = {}; Linux_Object* thread_info = linux_alloc_object(LinuxObjectKind_Thread); thread_info->thread.proc = proc; thread_info->thread.ptr = ptr; pthread_attr_t thread_attr; pthread_attr_init(&thread_attr); int create_result = pthread_create( &thread_info->thread.pthread, &thread_attr, linux_thread_proc_start, thread_info); pthread_attr_destroy(&thread_attr); // TODO(andrew): Need to wait for thread to confirm it launched? if (create_result == 0) { static_assert(sizeof(Linux_Object*) <= sizeof(System_Thread)); *(Linux_Object**)&result = thread_info; return result; } return result; } internal void system_thread_join(System_Thread thread){ Linux_Object* object = *(Linux_Object**)&thread; void* retval_ignored; int result = pthread_join(object->thread.pthread, &retval_ignored); } internal void system_thread_free(System_Thread thread){ Linux_Object* object = *(Linux_Object**)&thread; Assert(object->kind == LinuxObjectKind_Thread); linux_free_object(object); } internal i32 system_thread_get_id(void){ pthread_t tid = pthread_self(); Assert(tid <= (u64)max_i32); return (i32)tid; } internal void system_acquire_global_frame_mutex(Thread_Context* tctx){ if (tctx->kind == ThreadKind_AsyncTasks){ system_mutex_acquire(linuxvars.global_frame_mutex); } } internal void system_release_global_frame_mutex(Thread_Context* tctx){ if (tctx->kind == ThreadKind_AsyncTasks){ system_mutex_release(linuxvars.global_frame_mutex); } } internal System_Mutex system_mutex_make(void){ System_Mutex result = {}; Linux_Object* object = linux_alloc_object(LinuxObjectKind_Mutex); pthread_mutex_init(&object->mutex, NULL); *(Linux_Object**)&result = object; return result; } internal void system_mutex_acquire(System_Mutex mutex){ Linux_Object* object = *(Linux_Object**)&mutex; Assert(object->kind == LinuxObjectKind_Mutex); pthread_mutex_lock(&object->mutex); } internal void system_mutex_release(System_Mutex mutex){ Linux_Object* object = *(Linux_Object**)&mutex; Assert(object->kind == LinuxObjectKind_Mutex); pthread_mutex_unlock(&object->mutex); } internal void system_mutex_free(System_Mutex mutex){ Linux_Object* object = *(Linux_Object**)&mutex; Assert(object->kind == LinuxObjectKind_Mutex); pthread_mutex_destroy(&object->mutex); linux_free_object(object); } internal System_Condition_Variable system_condition_variable_make(void){ System_Condition_Variable result = {}; Linux_Object* object = linux_alloc_object(LinuxObjectKind_ConditionVariable); pthread_cond_init(&object->condition_variable, NULL); *(Linux_Object**)&result = object; return result; } internal void system_condition_variable_wait(System_Condition_Variable cv, System_Mutex mutex){ Linux_Object* cv_object = *(Linux_Object**)&cv; Linux_Object* mutex_object = *(Linux_Object**)&mutex; Assert(cv_object->kind == LinuxObjectKind_ConditionVariable); Assert(mutex_object->kind == LinuxObjectKind_Mutex); pthread_cond_wait(&cv_object->condition_variable, &mutex_object->mutex); } internal void system_condition_variable_signal(System_Condition_Variable cv){ Linux_Object* object = *(Linux_Object**)&cv; Assert(object->kind == LinuxObjectKind_ConditionVariable); pthread_cond_signal(&object->condition_variable); } internal void system_condition_variable_free(System_Condition_Variable cv){ Linux_Object* object = *(Linux_Object**)&cv; Assert(object->kind == LinuxObjectKind_ConditionVariable); pthread_cond_destroy(&object->condition_variable); linux_free_object(object); } internal void* system_memory_allocate(u64 size, String_Const_u8 location){ void* result = mmap( NULL, size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); // TODO(andrew): Allocation tracking? return result; } internal b32 system_memory_set_protection(void* ptr, u64 size, u32 flags){ int protect = 0; MovFlag(flags, MemProtect_Read, protect, PROT_READ); MovFlag(flags, MemProtect_Write, protect, PROT_WRITE); MovFlag(flags, MemProtect_Execute, protect, PROT_EXEC); int result = mprotect(ptr, size, protect); return result == 0; } internal void system_memory_free(void* ptr, u64 size){ munmap(ptr, size); } internal Memory_Annotation system_memory_annotation(Arena* arena){ // TODO; } internal void system_show_mouse_cursor(i32 show){ linuxvars.cursor_show = show; XDefineCursor( linuxvars.dpy, linuxvars.win, show ? None : linuxvars.hidden_cursor); } internal b32 system_set_fullscreen(b32 full_screen){ linuxvars.should_be_full_screen = full_screen; return true; } internal b32 system_is_fullscreen(void){ return linuxvars.is_full_screen; } internal Input_Modifier_Set system_get_keyboard_modifiers(Arena* arena){ // TODO: //return(copy_modifier_set(arena, &linuxvars.input_chunk.pers.modifiers)); }