307 lines
8.1 KiB
C
307 lines
8.1 KiB
C
/* newlib_syscalls.c - newlib syscalls for ESP8266
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*
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* Part of esp-open-rtos
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* Copyright (C) 2105 Superhouse Automation Pty Ltd
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* BSD Licensed as described in the file LICENSE
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*/
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#include <sys/reent.h>
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#include <sys/types.h>
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#include <sys/errno.h>
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#include <espressif/sdk_private.h>
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#include <common_macros.h>
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#include <xtensa_ops.h>
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#include <esp/uart.h>
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#include <stdlib.h>
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#include <stdout_redirect.h>
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#include <sys/time.h>
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#include <lwip/sockets.h>
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#include <sys/lock.h>
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#include <FreeRTOS.h>
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#include <semphr.h>
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#include <esp/hwrand.h>
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/*
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* The file descriptor index space is allocated in blocks. The first block of 3
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* is for newlib I/O the stdin stdout and stderr. The next block of
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* MEMP_NUM_NETCONN is allocated for lwip sockets, and the remainer to file
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* system descriptors. The newlib default FD_SETSIZE is 64.
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*/
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#if LWIP_SOCKET_OFFSET < 3
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#error Expecting a LWIP_SOCKET_OFFSET >= 3, to allow room for the standard I/O descriptors.
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#endif
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#define FILE_DESCRIPTOR_OFFSET (LWIP_SOCKET_OFFSET + MEMP_NUM_NETCONN)
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#if FILE_DESCRIPTOR_OFFSET > FD_SETSIZE
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#error Too many lwip sockets for the FD_SETSIZE.
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#endif
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extern void *xPortSupervisorStackPointer;
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IRAM void *_sbrk_r (struct _reent *r, ptrdiff_t incr)
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{
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extern char _heap_start; /* linker script defined */
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static char * heap_end;
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char * prev_heap_end;
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if (heap_end == NULL)
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heap_end = &_heap_start;
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prev_heap_end = heap_end;
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intptr_t sp = (intptr_t)xPortSupervisorStackPointer;
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if(sp == 0) /* scheduler not started */
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SP(sp);
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if ((intptr_t)heap_end + incr >= sp)
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{
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r->_errno = ENOMEM;
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return (caddr_t)-1;
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}
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heap_end += incr;
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return (caddr_t) prev_heap_end;
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}
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/* Insert a disjoint region into the nano malloc pool. Create a malloc chunk,
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* filling the size as newlib nano malloc expects, and then free it. */
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void nano_malloc_insert_chunk(void *start, size_t size) {
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*(uint32_t *)start = size;
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free(start + sizeof(size_t));
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}
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/* syscall implementation for stdio write to UART */
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__attribute__((weak)) ssize_t _write_stdout_r(struct _reent *r, int fd, const void *ptr, size_t len )
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{
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for(int i = 0; i < len; i++) {
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/* Auto convert CR to CRLF, ignore other LFs (compatible with Espressif SDK behaviour) */
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if(((char *)ptr)[i] == '\r')
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continue;
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if(((char *)ptr)[i] == '\n')
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uart_putc(0, '\r');
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uart_putc(0, ((char *)ptr)[i]);
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}
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return len;
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}
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static _WriteFunction *current_stdout_write_r = &_write_stdout_r;
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void set_write_stdout(_WriteFunction *f)
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{
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if (f != NULL) {
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current_stdout_write_r = f;
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} else {
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current_stdout_write_r = &_write_stdout_r;
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}
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}
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_WriteFunction *get_write_stdout()
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{
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return current_stdout_write_r;
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}
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/* default implementation, replace in a filesystem */
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__attribute__((weak)) ssize_t _write_filesystem_r(struct _reent *r, int fd, const void *ptr, size_t len)
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{
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r->_errno = EBADF;
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return -1;
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}
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__attribute__((weak)) ssize_t _write_r(struct _reent *r, int fd, const void *ptr, size_t len)
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{
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if (fd >= FILE_DESCRIPTOR_OFFSET) {
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return _write_filesystem_r(r, fd, ptr, len);
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}
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if (fd >= LWIP_SOCKET_OFFSET) {
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return lwip_write(fd, ptr, len);
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}
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if (fd == r->_stdout->_file) {
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return current_stdout_write_r(r, fd, ptr, len);
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}
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r->_errno = EBADF;
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return -1;
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}
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/* syscall implementation for stdio read from UART */
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__attribute__((weak)) ssize_t _read_stdin_r(struct _reent *r, int fd, void *ptr, size_t len)
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{
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int ch, i;
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uart_rxfifo_wait(0, 1);
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for(i = 0; i < len; i++) {
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ch = uart_getc_nowait(0);
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if (ch < 0) break;
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((char *)ptr)[i] = ch;
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}
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return i;
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}
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/* default implementation, replace in a filesystem */
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__attribute__((weak)) ssize_t _read_filesystem_r( struct _reent *r, int fd, void *ptr, size_t len )
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{
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r->_errno = EBADF;
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return -1;
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}
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__attribute__((weak)) ssize_t _read_r( struct _reent *r, int fd, void *ptr, size_t len )
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{
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if (fd >= FILE_DESCRIPTOR_OFFSET) {
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return _read_filesystem_r(r, fd, ptr, len);
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}
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if (fd >= LWIP_SOCKET_OFFSET) {
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return lwip_read(fd, ptr, len);
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}
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if (fd == r->_stdin->_file) {
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return _read_stdin_r(r, fd, ptr, len);
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}
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r->_errno = EBADF;
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return -1;
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}
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/* default implementation, replace in a filesystem */
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__attribute__((weak)) int _close_filesystem_r(struct _reent *r, int fd)
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{
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r->_errno = EBADF;
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return -1;
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}
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__attribute__((weak)) int _close_r(struct _reent *r, int fd)
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{
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if (fd >= FILE_DESCRIPTOR_OFFSET) {
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return _close_filesystem_r(r, fd);
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}
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if (fd >= LWIP_SOCKET_OFFSET) {
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return lwip_close(fd);
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}
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r->_errno = EBADF;
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return -1;
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}
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/* Stub syscall implementations follow, to allow compiling newlib functions that
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pull these in via various codepaths
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*/
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__attribute__((weak, alias("syscall_returns_enosys")))
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int _open_r(struct _reent *r, const char *pathname, int flags, int mode);
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__attribute__((weak, alias("syscall_returns_enosys")))
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int _unlink_r(struct _reent *r, const char *path);
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__attribute__((weak, alias("syscall_returns_enosys")))
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int _fstat_r(struct _reent *r, int fd, struct stat *buf);
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__attribute__((weak, alias("syscall_returns_enosys")))
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int _stat_r(struct _reent *r, const char *pathname, struct stat *buf);
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__attribute__((weak, alias("syscall_returns_enosys")))
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off_t _lseek_r(struct _reent *r, int fd, off_t offset, int whence);
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__attribute__((weak, alias("_gettimeofday_r")))
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int _gettimeofday_r _PARAMS ((struct _reent *r, struct timeval *now, void *p)) {
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now->tv_sec = 0;
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now->tv_usec = 0;
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errno = ENOSYS;
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return -1;
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}
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/* Generic stub for any newlib syscall that fails with errno ENOSYS
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("Function not implemented") and a return value equivalent to
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(int)-1. */
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static int syscall_returns_enosys(struct _reent *r)
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{
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r->_errno=ENOSYS;
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return -1;
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}
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int getentropy(void *ptr, size_t n)
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{
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hwrand_fill(ptr, n);
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return 0;
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}
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void _arc4random_getentropy_fail(void)
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{
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}
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void _exit(int status)
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{
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while(1);
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}
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/*
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* Newlib lock implementation. Some newlib locks are statically allocated, but
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* can not be statically initialized so are set to NULL and initialized at
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* startup. The malloc lock is used before it can be initialized so there are
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* runtime checks on the functions that use it early.
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*/
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static int locks_initialized = 0;
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extern _lock_t __arc4random_mutex;
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extern _lock_t __at_quick_exit_mutex;
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//extern _lock_t __dd_hash_mutex;
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extern _lock_t __tz_mutex;
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extern _lock_t __atexit_recursive_mutex;
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extern _lock_t __env_recursive_mutex;
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extern _lock_t __malloc_recursive_mutex;
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extern _lock_t __sfp_recursive_mutex;
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extern _lock_t __sinit_recursive_mutex;
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void init_newlib_locks()
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{
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_lock_init(&__arc4random_mutex);
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_lock_init(&__at_quick_exit_mutex);
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//_lock_init(&__dd_hash_mutex);
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_lock_init(&__tz_mutex);
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_lock_init_recursive(&__atexit_recursive_mutex);
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_lock_init_recursive(&__env_recursive_mutex);
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_lock_init_recursive(&__malloc_recursive_mutex);
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_lock_init_recursive(&__sfp_recursive_mutex);
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_lock_init_recursive(&__sinit_recursive_mutex);
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locks_initialized = 1;
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}
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void _lock_init(_lock_t *lock) {
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*lock = (_lock_t)xSemaphoreCreateMutex();
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}
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void _lock_init_recursive(_lock_t *lock) {
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*lock = (_lock_t)xSemaphoreCreateRecursiveMutex();
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}
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void _lock_close(_lock_t *lock) {
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vSemaphoreDelete((QueueHandle_t)*lock);
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*lock = 0;
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}
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void _lock_close_recursive(_lock_t *lock) {
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vSemaphoreDelete((QueueHandle_t)*lock);
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*lock = 0;
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}
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void _lock_acquire(_lock_t *lock) {
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xSemaphoreTake((QueueHandle_t)*lock, portMAX_DELAY);
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}
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void _lock_acquire_recursive(_lock_t *lock) {
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if (locks_initialized) {
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xSemaphoreTakeRecursive((QueueHandle_t)*lock, portMAX_DELAY);
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}
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}
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int _lock_try_acquire(_lock_t *lock) {
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return xSemaphoreTake((QueueHandle_t)*lock, 0);
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}
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int _lock_try_acquire_recursive(_lock_t *lock) {
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return xSemaphoreTakeRecursive((QueueHandle_t)*lock, 0);
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}
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void _lock_release(_lock_t *lock) {
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xSemaphoreGive((QueueHandle_t)*lock);
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}
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void _lock_release_recursive(_lock_t *lock) {
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if (locks_initialized) {
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xSemaphoreGiveRecursive((QueueHandle_t)*lock);
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}
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}
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