1*0f46bf65SKohei Tokunaga /* SPDX-License-Identifier: MIT */ 2*0f46bf65SKohei Tokunaga /* 3*0f46bf65SKohei Tokunaga * posix specific declarations forked from os-posix.h, removing functions not 4*0f46bf65SKohei Tokunaga * working on Emscripten 5*0f46bf65SKohei Tokunaga * 6*0f46bf65SKohei Tokunaga * Copyright (c) 2003-2008 Fabrice Bellard 7*0f46bf65SKohei Tokunaga * Copyright (c) 2010 Jes Sorensen <Jes.Sorensen@redhat.com> 8*0f46bf65SKohei Tokunaga * 9*0f46bf65SKohei Tokunaga * Permission is hereby granted, free of charge, to any person obtaining a copy 10*0f46bf65SKohei Tokunaga * of this software and associated documentation files (the "Software"), to deal 11*0f46bf65SKohei Tokunaga * in the Software without restriction, including without limitation the rights 12*0f46bf65SKohei Tokunaga * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell 13*0f46bf65SKohei Tokunaga * copies of the Software, and to permit persons to whom the Software is 14*0f46bf65SKohei Tokunaga * furnished to do so, subject to the following conditions: 15*0f46bf65SKohei Tokunaga * 16*0f46bf65SKohei Tokunaga * The above copyright notice and this permission notice shall be included in 17*0f46bf65SKohei Tokunaga * all copies or substantial portions of the Software. 18*0f46bf65SKohei Tokunaga * 19*0f46bf65SKohei Tokunaga * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 20*0f46bf65SKohei Tokunaga * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 21*0f46bf65SKohei Tokunaga * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 22*0f46bf65SKohei Tokunaga * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 23*0f46bf65SKohei Tokunaga * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 24*0f46bf65SKohei Tokunaga * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN 25*0f46bf65SKohei Tokunaga * THE SOFTWARE. 26*0f46bf65SKohei Tokunaga */ 27*0f46bf65SKohei Tokunaga 28*0f46bf65SKohei Tokunaga #ifndef QEMU_OS_WASM_H 29*0f46bf65SKohei Tokunaga #define QEMU_OS_WASM_H 30*0f46bf65SKohei Tokunaga 31*0f46bf65SKohei Tokunaga #include <sys/mman.h> 32*0f46bf65SKohei Tokunaga #include <sys/socket.h> 33*0f46bf65SKohei Tokunaga #include <netinet/in.h> 34*0f46bf65SKohei Tokunaga #include <netinet/tcp.h> 35*0f46bf65SKohei Tokunaga #include <arpa/inet.h> 36*0f46bf65SKohei Tokunaga #include <netdb.h> 37*0f46bf65SKohei Tokunaga #include <sys/un.h> 38*0f46bf65SKohei Tokunaga 39*0f46bf65SKohei Tokunaga #ifdef CONFIG_SYSMACROS 40*0f46bf65SKohei Tokunaga #include <sys/sysmacros.h> 41*0f46bf65SKohei Tokunaga #endif 42*0f46bf65SKohei Tokunaga 43*0f46bf65SKohei Tokunaga #ifdef __cplusplus 44*0f46bf65SKohei Tokunaga extern "C" { 45*0f46bf65SKohei Tokunaga #endif 46*0f46bf65SKohei Tokunaga 47*0f46bf65SKohei Tokunaga void os_set_line_buffering(void); 48*0f46bf65SKohei Tokunaga void os_setup_early_signal_handling(void); 49*0f46bf65SKohei Tokunaga void os_set_proc_name(const char *s); 50*0f46bf65SKohei Tokunaga void os_setup_signal_handling(void); 51*0f46bf65SKohei Tokunaga void os_setup_limits(void); 52*0f46bf65SKohei Tokunaga void os_setup_post(void); 53*0f46bf65SKohei Tokunaga int os_mlock(bool on_fault); 54*0f46bf65SKohei Tokunaga static inline int os_set_daemonize(bool d) 55*0f46bf65SKohei Tokunaga { 56*0f46bf65SKohei Tokunaga return -1; 57*0f46bf65SKohei Tokunaga }; 58*0f46bf65SKohei Tokunaga bool is_daemonized(void); 59*0f46bf65SKohei Tokunaga static inline void os_daemonize(void) {} 60*0f46bf65SKohei Tokunaga 61*0f46bf65SKohei Tokunaga /** 62*0f46bf65SKohei Tokunaga * qemu_alloc_stack: 63*0f46bf65SKohei Tokunaga * @sz: pointer to a size_t holding the requested usable stack size 64*0f46bf65SKohei Tokunaga * 65*0f46bf65SKohei Tokunaga * Allocate memory that can be used as a stack, for instance for 66*0f46bf65SKohei Tokunaga * coroutines. If the memory cannot be allocated, this function 67*0f46bf65SKohei Tokunaga * will abort (like g_malloc()). This function also inserts an 68*0f46bf65SKohei Tokunaga * additional guard page to catch a potential stack overflow. 69*0f46bf65SKohei Tokunaga * Note that the memory required for the guard page and alignment 70*0f46bf65SKohei Tokunaga * and minimal stack size restrictions will increase the value of sz. 71*0f46bf65SKohei Tokunaga * 72*0f46bf65SKohei Tokunaga * The allocated stack must be freed with qemu_free_stack(). 73*0f46bf65SKohei Tokunaga * 74*0f46bf65SKohei Tokunaga * Returns: pointer to (the lowest address of) the stack memory. 75*0f46bf65SKohei Tokunaga */ 76*0f46bf65SKohei Tokunaga void *qemu_alloc_stack(size_t *sz); 77*0f46bf65SKohei Tokunaga 78*0f46bf65SKohei Tokunaga /** 79*0f46bf65SKohei Tokunaga * qemu_free_stack: 80*0f46bf65SKohei Tokunaga * @stack: stack to free 81*0f46bf65SKohei Tokunaga * @sz: size of stack in bytes 82*0f46bf65SKohei Tokunaga * 83*0f46bf65SKohei Tokunaga * Free a stack allocated via qemu_alloc_stack(). Note that sz must 84*0f46bf65SKohei Tokunaga * be exactly the adjusted stack size returned by qemu_alloc_stack. 85*0f46bf65SKohei Tokunaga */ 86*0f46bf65SKohei Tokunaga void qemu_free_stack(void *stack, size_t sz); 87*0f46bf65SKohei Tokunaga 88*0f46bf65SKohei Tokunaga /* POSIX and Mingw32 differ in the name of the stdio lock functions. */ 89*0f46bf65SKohei Tokunaga 90*0f46bf65SKohei Tokunaga static inline void qemu_flockfile(FILE *f) 91*0f46bf65SKohei Tokunaga { 92*0f46bf65SKohei Tokunaga flockfile(f); 93*0f46bf65SKohei Tokunaga } 94*0f46bf65SKohei Tokunaga 95*0f46bf65SKohei Tokunaga static inline void qemu_funlockfile(FILE *f) 96*0f46bf65SKohei Tokunaga { 97*0f46bf65SKohei Tokunaga funlockfile(f); 98*0f46bf65SKohei Tokunaga } 99*0f46bf65SKohei Tokunaga 100*0f46bf65SKohei Tokunaga #ifdef __cplusplus 101*0f46bf65SKohei Tokunaga } 102*0f46bf65SKohei Tokunaga #endif 103*0f46bf65SKohei Tokunaga 104*0f46bf65SKohei Tokunaga #endif 105