hush/include/libbb.h
Stephen Heumann bff0844d44 Add code to get the path of the current executable, which we need to re-execute the shell.
On the GS, this uses GS/OS calls. Versions for OS X and Linux are also included.
2014-11-07 23:06:34 -06:00

1782 lines
66 KiB
C

/* vi: set sw=4 ts=4: */
/*
* Busybox main internal header file
*
* Based in part on code from sash, Copyright (c) 1999 by David I. Bell
* Permission has been granted to redistribute this code under GPL.
*
* Licensed under GPLv2, see file LICENSE in this source tree.
*/
#ifndef LIBBB_H
#define LIBBB_H 1
#include "platform.h"
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <setjmp.h>
#include <signal.h>
#if defined __UCLIBC__ /* TODO: and glibc? */
/* use inlined versions of these: */
# define sigfillset(s) __sigfillset(s)
# define sigemptyset(s) __sigemptyset(s)
# define sigisemptyset(s) __sigisemptyset(s)
#endif
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <stddef.h>
#include <string.h>
/* There are two incompatible basename's, let's not use them! */
/* See the dirname/basename man page for details */
#undef basename
#define basename dont_use_basename
#include "poll.h"
/* Don't include termios.h in GNO because termios isn't actually implemented,
* but the header has a define for ECHO that conflicts with the one needed for
* the ioctls that we use instead. Do define USE_OLD_TTY before including
* <sys/ioctl.h>, which is needed to get defines for those ioctls.
*/
#ifndef __GNO__
# include <termios.h>
#else
# define USE_OLD_TTY
#endif
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/types.h>
#ifndef major
# include <sys/sysmacros.h>
#endif
#include <sys/wait.h>
#include <time.h>
#include <sys/param.h>
#include <pwd.h>
#include <grp.h>
/* Include <gno/gno.h> for GNO job control calls. Define __KERN_STATUS to
* avoid a couple definitions using ORCA/C's nonstandard inline directive.
*/
#ifdef __GNO__
# define __KERN_STATUS
# include <gno/gno.h>
#endif
#if ENABLE_FEATURE_SHADOWPASSWDS
# if !ENABLE_USE_BB_SHADOW
/* If using busybox's shadow implementation, do not include the shadow.h
* header as the toolchain may not provide it at all.
*/
# include <shadow.h>
# endif
#endif
#if defined(ANDROID) || defined(__ANDROID__)
# define endpwent() ((void)0)
# define endgrent() ((void)0)
#endif
/* Don't do this here:
* #include <sys/sysinfo.h>
* Some linux/ includes pull in conflicting definition
* of struct sysinfo (only in some toolchanins), which breaks build.
* Include sys/sysinfo.h only in those files which need it.
*/
#if ENABLE_SELINUX
# include <selinux/selinux.h>
# include <selinux/context.h>
# include <selinux/flask.h>
# include <selinux/av_permissions.h>
#endif
#if ENABLE_FEATURE_UTMP
# include <utmp.h>
#endif
#if ENABLE_LOCALE_SUPPORT
# include <locale.h>
#else
# define setlocale(x,y) ((void)0)
#endif
#ifdef DMALLOC
# include <dmalloc.h>
#endif
/* Just in case libc doesn't define some of these... */
#ifndef _PATH_PASSWD
#define _PATH_PASSWD "/etc/passwd"
#endif
#ifndef _PATH_GROUP
#define _PATH_GROUP "/etc/group"
#endif
#ifndef _PATH_SHADOW
#define _PATH_SHADOW "/etc/shadow"
#endif
#ifndef _PATH_GSHADOW
#define _PATH_GSHADOW "/etc/gshadow"
#endif
#if defined __FreeBSD__ || defined __OpenBSD__
# include <netinet/in.h>
# include <arpa/inet.h>
#elif defined __APPLE__
# include <netinet/in.h>
#else
# include <arpa/inet.h>
# if !defined(__socklen_t_defined) && !defined(_SOCKLEN_T_DECLARED)
/* We #define socklen_t *after* includes, otherwise we get
* typedef redefinition errors from system headers
* (in case "is it defined already" detection above failed)
*/
# define socklen_t bb_socklen_t
typedef unsigned socklen_t;
# endif
#endif
#ifndef HAVE_CLEARENV
# define clearenv() do { if (environ) environ[0] = NULL; } while (0)
#endif
#ifndef HAVE_FDATASYNC
# define fdatasync fsync
#endif
/* Some libc's forget to declare these, do it ourself */
extern char **environ;
#if defined(__GLIBC__) && __GLIBC__ < 2
int vdprintf(int d, const char *format, va_list ap);
#endif
/* klogctl is in libc's klog.h, but we cheat and not #include that */
int klogctl(int type, char *b, int len);
#ifndef PATH_MAX
# define PATH_MAX 256
#endif
#ifndef BUFSIZ
# define BUFSIZ 4096
#endif
/* Busybox does not use threads, we can speed up stdio. */
#ifdef HAVE_UNLOCKED_STDIO
# undef getc
# define getc(stream) getc_unlocked(stream)
# undef getchar
# define getchar() getchar_unlocked()
# undef putc
# define putc(c, stream) putc_unlocked(c, stream)
# undef putchar
# define putchar(c) putchar_unlocked(c)
# undef fgetc
# define fgetc(stream) getc_unlocked(stream)
# undef fputc
# define fputc(c, stream) putc_unlocked(c, stream)
#endif
/* Above functions are required by POSIX.1-2008, below ones are extensions */
#ifdef HAVE_UNLOCKED_LINE_OPS
# undef fgets
# define fgets(s, n, stream) fgets_unlocked(s, n, stream)
# undef fputs
# define fputs(s, stream) fputs_unlocked(s, stream)
#endif
/* Make all declarations hidden (-fvisibility flag only affects definitions) */
/* (don't include system headers after this until corresponding pop!) */
PUSH_AND_SET_FUNCTION_VISIBILITY_TO_HIDDEN
#if ENABLE_USE_BB_PWD_GRP
# include "pwd_.h"
# include "grp_.h"
#endif
#if ENABLE_FEATURE_SHADOWPASSWDS
# if ENABLE_USE_BB_SHADOW
# include "shadow_.h"
# endif
#endif
/* Tested to work correctly with all int types (IIRC :]) */
#define MAXINT(T) (T)( \
((T)-1) > 0 \
? (T)-1 \
: (T)~((T)1 << (sizeof(T)*8-1)) \
)
#define MININT(T) (T)( \
((T)-1) > 0 \
? (T)0 \
: ((T)1 << (sizeof(T)*8-1)) \
)
/* Large file support */
/* Note that CONFIG_LFS=y forces bbox to be built with all common ops
* (stat, lseek etc) mapped to "largefile" variants by libc.
* Practically it means that open() automatically has O_LARGEFILE added
* and all filesize/file_offset parameters and struct members are "large"
* (in today's world - signed 64bit). For full support of large files,
* we need a few helper #defines (below) and careful use of off_t
* instead of int/ssize_t. No lseek64(), O_LARGEFILE etc necessary */
#if ENABLE_LFS
/* CONFIG_LFS is on */
# if ULONG_MAX > 0xffffffff
/* "long" is long enough on this system */
typedef unsigned long uoff_t;
# define XATOOFF(a) xatoul_range((a), 0, LONG_MAX)
/* usage: sz = BB_STRTOOFF(s, NULL, 10); if (errno || sz < 0) die(); */
# define BB_STRTOOFF bb_strtoul
# define STRTOOFF strtoul
/* usage: printf("size: %"OFF_FMT"d (%"OFF_FMT"x)\n", sz, sz); */
# define OFF_FMT "l"
# else
/* "long" is too short, need "long long" */
typedef unsigned long long uoff_t;
# define XATOOFF(a) xatoull_range((a), 0, LLONG_MAX)
# define BB_STRTOOFF bb_strtoull
# define STRTOOFF strtoull
# define OFF_FMT "ll"
# endif
#else
/* CONFIG_LFS is off */
# if UINT_MAX == 0xffffffff
/* While sizeof(off_t) == sizeof(int), off_t is typedef'ed to long anyway.
* gcc will throw warnings on printf("%d", off_t). Crap... */
typedef unsigned long uoff_t;
# define XATOOFF(a) xatoi_positive(a)
# define BB_STRTOOFF bb_strtou
# define STRTOOFF strtol
# define OFF_FMT "l"
# else
typedef unsigned long uoff_t;
# define XATOOFF(a) xatoul_range((a), 0, LONG_MAX)
# define BB_STRTOOFF bb_strtoul
# define STRTOOFF strtol
# define OFF_FMT "l"
# endif
#endif
/* scary. better ideas? (but do *test* them first!) */
#define OFF_T_MAX ((off_t)~((off_t)1 << (sizeof(off_t)*8-1)))
/* Users report bionic to use 32-bit off_t even if LARGEFILE support is requested.
* We misdetected that. Don't let it build:
*/
struct BUG_off_t_size_is_misdetected {
char BUG_off_t_size_is_misdetected[sizeof(off_t) == sizeof(uoff_t) ? 1 : -1];
};
/* Some useful definitions */
#undef FALSE
#define FALSE ((int) 0)
#undef TRUE
#define TRUE ((int) 1)
#undef SKIP
#define SKIP ((int) 2)
/* Macros for min/max. */
#ifndef MIN
#define MIN(a,b) (((a)<(b))?(a):(b))
#endif
#ifndef MAX
#define MAX(a,b) (((a)>(b))?(a):(b))
#endif
/* buffer allocation schemes */
#if ENABLE_FEATURE_BUFFERS_GO_ON_STACK
#define RESERVE_CONFIG_BUFFER(buffer,len) char buffer[len]
#define RESERVE_CONFIG_UBUFFER(buffer,len) unsigned char buffer[len]
#define RELEASE_CONFIG_BUFFER(buffer) ((void)0)
#else
#if ENABLE_FEATURE_BUFFERS_GO_IN_BSS
#define RESERVE_CONFIG_BUFFER(buffer,len) static char buffer[len]
#define RESERVE_CONFIG_UBUFFER(buffer,len) static unsigned char buffer[len]
#define RELEASE_CONFIG_BUFFER(buffer) ((void)0)
#else
#define RESERVE_CONFIG_BUFFER(buffer,len) char *buffer = xmalloc(len)
#define RESERVE_CONFIG_UBUFFER(buffer,len) unsigned char *buffer = xmalloc(len)
#define RELEASE_CONFIG_BUFFER(buffer) free(buffer)
#endif
#endif
#if defined(__GLIBC__)
/* glibc uses __errno_location() to get a ptr to errno */
/* We can just memorize it once - no multithreading in busybox :) */
extern int *const bb_errno;
#undef errno
#define errno (*bb_errno)
#endif
unsigned long monotonic_sec(void) FAST_FUNC;
extern void chomp(char *s) FAST_FUNC;
extern void trim(char *s) FAST_FUNC;
extern char *skip_whitespace(const char *) FAST_FUNC;
extern char *skip_non_whitespace(const char *) FAST_FUNC;
extern char *skip_dev_pfx(const char *tty_name) FAST_FUNC;
extern char *strrstr(const char *haystack, const char *needle) FAST_FUNC;
//TODO: supply a pointer to char[11] buffer (avoid statics)?
extern const char *bb_mode_string(mode_t mode) FAST_FUNC;
extern int is_directory(const char *name, int followLinks) FAST_FUNC;
enum { /* DO NOT CHANGE THESE VALUES! cp.c, mv.c, install.c depend on them. */
FILEUTILS_PRESERVE_STATUS = 1 << 0, /* -p */
FILEUTILS_DEREFERENCE = 1 << 1, /* !-d */
FILEUTILS_RECUR = 1 << 2, /* -R */
FILEUTILS_FORCE = 1 << 3, /* -f */
FILEUTILS_INTERACTIVE = 1 << 4, /* -i */
FILEUTILS_MAKE_HARDLINK = 1 << 5, /* -l */
FILEUTILS_MAKE_SOFTLINK = 1 << 6, /* -s */
FILEUTILS_DEREF_SOFTLINK = 1 << 7, /* -L */
FILEUTILS_DEREFERENCE_L0 = 1 << 8, /* -H */
#if ENABLE_SELINUX
FILEUTILS_PRESERVE_SECURITY_CONTEXT = 1 << 9, /* -c */
FILEUTILS_SET_SECURITY_CONTEXT = 1 << 10,
#endif
FILEUTILS_IGNORE_CHMOD_ERR = 1 << 11
};
#define FILEUTILS_CP_OPTSTR "pdRfilsLH" IF_SELINUX("c")
extern int remove_file(const char *path, int flags) FAST_FUNC;
/* NB: without FILEUTILS_RECUR in flags, it will basically "cat"
* the source, not copy (unless "source" is a directory).
* This makes "cp /dev/null file" and "install /dev/null file" (!!!)
* work coreutils-compatibly. */
extern int copy_file(const char *source, const char *dest, int flags) FAST_FUNC;
enum {
ACTION_RECURSE = (1 << 0),
ACTION_FOLLOWLINKS = (1 << 1),
ACTION_FOLLOWLINKS_L0 = (1 << 2),
ACTION_DEPTHFIRST = (1 << 3),
/*ACTION_REVERSE = (1 << 4), - unused */
ACTION_QUIET = (1 << 5),
ACTION_DANGLING_OK = (1 << 6)
};
typedef uint8_t recurse_flags_t;
extern int recursive_action(const char *fileName, unsigned flags,
int FAST_FUNC (*fileAction)(const char *fileName, struct stat* statbuf, void* userData, int depth),
int FAST_FUNC (*dirAction)(const char *fileName, struct stat* statbuf, void* userData, int depth),
void* userData, unsigned depth) FAST_FUNC;
extern int device_open(const char *device, int mode) FAST_FUNC;
enum { GETPTY_BUFSIZE = 16 }; /* more than enough for "/dev/ttyXXX" */
extern int xgetpty(char *line) FAST_FUNC;
extern int get_console_fd_or_die(void) FAST_FUNC;
extern void console_make_active(int fd, const int vt_num) FAST_FUNC;
extern char *find_block_device(const char *path) FAST_FUNC;
/* bb_copyfd_XX print read/write errors and return -1 if they occur */
extern off_t bb_copyfd_eof(int fd1, int fd2) FAST_FUNC;
extern off_t bb_copyfd_size(int fd1, int fd2, off_t size) FAST_FUNC;
extern void bb_copyfd_exact_size(int fd1, int fd2, off_t size) FAST_FUNC;
/* "short" copy can be detected by return value < size */
/* this helper yells "short read!" if param is not -1 */
extern void complain_copyfd_and_die(off_t sz) NORETURN FAST_FUNC;
extern char bb_process_escape_sequence(const char **ptr) FAST_FUNC;
char* strcpy_and_process_escape_sequences(char *dst, const char *src) FAST_FUNC;
/* xxxx_strip version can modify its parameter:
* "/" -> "/"
* "abc" -> "abc"
* "abc/def" -> "def"
* "abc/def/" -> "def" !!
*/
char *bb_get_last_path_component_strip(char *path) FAST_FUNC;
/* "abc/def/" -> "" and it never modifies 'path' */
char *bb_get_last_path_component_nostrip(const char *path) FAST_FUNC;
/* Simpler version: does not special case "/" string */
const char *bb_basename(const char *name) FAST_FUNC;
/* NB: can violate const-ness (similarly to strchr) */
char *last_char_is(const char *s, int c) FAST_FUNC;
const char* endofname(const char *name) FAST_FUNC;
int ndelay_on(int fd) FAST_FUNC;
int ndelay_off(int fd) FAST_FUNC;
void close_on_exec_on(int fd) FAST_FUNC;
void xdup2(int, int) FAST_FUNC;
void xmove_fd(int, int) FAST_FUNC;
DIR *xopendir(const char *path) FAST_FUNC;
DIR *warn_opendir(const char *path) FAST_FUNC;
char *xmalloc_realpath(const char *path) FAST_FUNC RETURNS_MALLOC;
char *xmalloc_readlink(const char *path) FAST_FUNC RETURNS_MALLOC;
char *xmalloc_readlink_or_warn(const char *path) FAST_FUNC RETURNS_MALLOC;
/* !RETURNS_MALLOC: it's a realloc-like function */
char *xrealloc_getcwd_or_warn(char *cwd) FAST_FUNC;
char *xmalloc_follow_symlinks(const char *path) FAST_FUNC RETURNS_MALLOC;
void *mempcpy(void *dst, const void *src, size_t len);
enum {
/* bb_signals(BB_FATAL_SIGS, handler) catches all signals which
* otherwise would kill us, except for those resulting from bugs:
* SIGSEGV, SIGILL, SIGFPE.
* Other fatal signals not included (TODO?):
* SIGBUS Bus error (bad memory access)
* SIGPOLL Pollable event. Synonym of SIGIO
* SIGPROF Profiling timer expired
* SIGSYS Bad argument to routine
* SIGTRAP Trace/breakpoint trap
*
* The only known arch with some of these sigs not fitting
* into 32 bits is parisc (SIGXCPU=33, SIGXFSZ=34, SIGSTKFLT=36).
* Dance around with long long to guard against that...
*/
BB_FATAL_SIGS = (int)(0
+ (1LL << SIGHUP)
+ (1LL << SIGINT)
+ (1LL << SIGTERM)
+ (1LL << SIGPIPE) // Write to pipe with no readers
+ (1LL << SIGQUIT) // Quit from keyboard
+ (1LL << SIGABRT) // Abort signal from abort(3)
+ (1LL << SIGALRM) // Timer signal from alarm(2)
+ (1LL << SIGVTALRM) // Virtual alarm clock
+ (1LL << SIGXCPU) // CPU time limit exceeded
+ (1LL << SIGXFSZ) // File size limit exceeded
+ (1LL << SIGUSR1) // Yes kids, these are also fatal!
+ (1LL << SIGUSR2)
+ 0)
};
void bb_signals(int sigs, void (*f)(int)) FAST_FUNC;
/* Unlike signal() and bb_signals, sets handler with sigaction()
* and in a way that while signal handler is run, no other signals
* will be blocked; syscalls will not be restarted: */
void bb_signals_recursive_norestart(int sigs, void (*f)(int)) FAST_FUNC;
/* syscalls like read() will be interrupted with EINTR: */
void signal_no_SA_RESTART_empty_mask(int sig, void (*handler)(int)) FAST_FUNC;
/* syscalls like read() won't be interrupted (though select/poll will be): */
void signal_SA_RESTART_empty_mask(int sig, void (*handler)(int)) FAST_FUNC;
void wait_for_any_sig(void) FAST_FUNC;
void kill_myself_with_sig(int sig) NORETURN FAST_FUNC;
void sig_block(int sig) FAST_FUNC;
void sig_unblock(int sig) FAST_FUNC;
/* Will do sigaction(signum, act, NULL): */
int sigaction_set(int sig, const struct sigaction *act) FAST_FUNC;
/* SIG_BLOCK/SIG_UNBLOCK all signals: */
int sigprocmask_allsigs(int how) FAST_FUNC;
/* Standard handler which just records signo */
extern smallint bb_got_signal;
void record_signo(int signo); /* not FAST_FUNC! */
void xsetgid(gid_t gid) FAST_FUNC;
void xsetuid(uid_t uid) FAST_FUNC;
void xsetegid(gid_t egid) FAST_FUNC;
void xseteuid(uid_t euid) FAST_FUNC;
void xchdir(const char *path) FAST_FUNC;
void xchroot(const char *path) FAST_FUNC;
void xsetenv(const char *key, const char *value) FAST_FUNC;
void bb_unsetenv(const char *key) FAST_FUNC;
void bb_unsetenv_and_free(char *key) FAST_FUNC;
void xunlink(const char *pathname) FAST_FUNC;
void xstat(const char *pathname, struct stat *buf) FAST_FUNC;
void xfstat(int fd, struct stat *buf, const char *errmsg) FAST_FUNC;
int open3_or_warn(const char *pathname, int flags, int mode) FAST_FUNC;
int open_or_warn(const char *pathname, int flags) FAST_FUNC;
int xopen3(const char *pathname, int flags, int mode) FAST_FUNC;
int xopen(const char *pathname, int flags) FAST_FUNC;
int xopen_nonblocking(const char *pathname) FAST_FUNC;
int xopen_as_uid_gid(const char *pathname, int flags, uid_t u, gid_t g) FAST_FUNC;
int open_or_warn_stdin(const char *pathname) FAST_FUNC;
int xopen_stdin(const char *pathname) FAST_FUNC;
void xrename(const char *oldpath, const char *newpath) FAST_FUNC;
int rename_or_warn(const char *oldpath, const char *newpath) FAST_FUNC;
off_t xlseek(int fd, off_t offset, int whence) FAST_FUNC;
int xmkstemp(char *template) FAST_FUNC;
off_t fdlength(int fd) FAST_FUNC;
uoff_t FAST_FUNC get_volume_size_in_bytes(int fd,
const char *override,
unsigned override_units,
int extend);
void xpipe(int filedes[2]) FAST_FUNC;
/* In this form code with pipes is much more readable */
struct fd_pair { int rd; int wr; };
#define piped_pair(pair) pipe(&((pair).rd))
#define xpiped_pair(pair) xpipe(&((pair).rd))
void parse_datestr(const char *date_str, struct tm *ptm) FAST_FUNC;
time_t validate_tm_time(const char *date_str, struct tm *ptm) FAST_FUNC;
char *strftime_HHMMSS(char *buf, unsigned len, time_t *tp) FAST_FUNC;
char *strftime_YYYYMMDDHHMMSS(char *buf, unsigned len, time_t *tp) FAST_FUNC;
int xsocket(int domain, int type, int protocol) FAST_FUNC;
void xbind(int sockfd, struct sockaddr *my_addr, socklen_t addrlen) FAST_FUNC;
void xlisten(int s, int backlog) FAST_FUNC;
void xconnect(int s, const struct sockaddr *s_addr, socklen_t addrlen) FAST_FUNC;
ssize_t xsendto(int s, const void *buf, size_t len, const struct sockaddr *to,
socklen_t tolen) FAST_FUNC;
/* SO_REUSEADDR allows a server to rebind to an address that is already
* "in use" by old connections to e.g. previous server instance which is
* killed or crashed. Without it bind will fail until all such connections
* time out. Linux does not allow multiple live binds on same ip:port
* regardless of SO_REUSEADDR (unlike some other flavors of Unix).
* Turn it on before you call bind(). */
void setsockopt_reuseaddr(int fd) FAST_FUNC; /* On Linux this never fails. */
int setsockopt_broadcast(int fd) FAST_FUNC;
int setsockopt_bindtodevice(int fd, const char *iface) FAST_FUNC;
/* NB: returns port in host byte order */
unsigned bb_lookup_port(const char *port, const char *protocol, unsigned default_port) FAST_FUNC;
typedef struct len_and_sockaddr {
socklen_t len;
union {
struct sockaddr sa;
struct sockaddr_in sin;
#if ENABLE_FEATURE_IPV6
struct sockaddr_in6 sin6;
#endif
} u;
} len_and_sockaddr;
/* Create stream socket, and allocate suitable lsa.
* (lsa of correct size and lsa->sa.sa_family (AF_INET/AF_INET6))
* af == AF_UNSPEC will result in trying to create IPv6 socket,
* and if kernel doesn't support it, fall back to IPv4.
* This is useful if you plan to bind to resulting local lsa.
*/
int xsocket_type(len_and_sockaddr **lsap, int af, int sock_type) FAST_FUNC;
int xsocket_stream(len_and_sockaddr **lsap) FAST_FUNC;
/* Create server socket bound to bindaddr:port. bindaddr can be NULL,
* numeric IP ("N.N.N.N") or numeric IPv6 address,
* and can have ":PORT" suffix (for IPv6 use "[X:X:...:X]:PORT").
* Only if there is no suffix, port argument is used */
/* NB: these set SO_REUSEADDR before bind */
int create_and_bind_stream_or_die(const char *bindaddr, int port) FAST_FUNC;
int create_and_bind_dgram_or_die(const char *bindaddr, int port) FAST_FUNC;
/* Create client TCP socket connected to peer:port. Peer cannot be NULL.
* Peer can be numeric IP ("N.N.N.N"), numeric IPv6 address or hostname,
* and can have ":PORT" suffix (for IPv6 use "[X:X:...:X]:PORT").
* If there is no suffix, port argument is used */
int create_and_connect_stream_or_die(const char *peer, int port) FAST_FUNC;
/* Connect to peer identified by lsa */
int xconnect_stream(const len_and_sockaddr *lsa) FAST_FUNC;
/* Get local address of bound or accepted socket */
len_and_sockaddr *get_sock_lsa(int fd) FAST_FUNC RETURNS_MALLOC;
/* Get remote address of connected or accepted socket */
len_and_sockaddr *get_peer_lsa(int fd) FAST_FUNC RETURNS_MALLOC;
/* Return malloc'ed len_and_sockaddr with socket address of host:port
* Currently will return IPv4 or IPv6 sockaddrs only
* (depending on host), but in theory nothing prevents e.g.
* UNIX socket address being returned, IPX sockaddr etc...
* On error does bb_error_msg and returns NULL */
len_and_sockaddr* host2sockaddr(const char *host, int port) FAST_FUNC RETURNS_MALLOC;
/* Version which dies on error */
len_and_sockaddr* xhost2sockaddr(const char *host, int port) FAST_FUNC RETURNS_MALLOC;
len_and_sockaddr* xdotted2sockaddr(const char *host, int port) FAST_FUNC RETURNS_MALLOC;
/* Same, useful if you want to force family (e.g. IPv6) */
#if !ENABLE_FEATURE_IPV6
#define host_and_af2sockaddr(host, port, af) host2sockaddr((host), (port))
#define xhost_and_af2sockaddr(host, port, af) xhost2sockaddr((host), (port))
#else
len_and_sockaddr* host_and_af2sockaddr(const char *host, int port, sa_family_t af) FAST_FUNC RETURNS_MALLOC;
len_and_sockaddr* xhost_and_af2sockaddr(const char *host, int port, sa_family_t af) FAST_FUNC RETURNS_MALLOC;
#endif
/* Assign sin[6]_port member if the socket is an AF_INET[6] one,
* otherwise no-op. Useful for ftp.
* NB: does NOT do htons() internally, just direct assignment. */
void set_nport(struct sockaddr *sa, unsigned port) FAST_FUNC;
/* Retrieve sin[6]_port or return -1 for non-INET[6] lsa's */
int get_nport(const struct sockaddr *sa) FAST_FUNC;
/* Reverse DNS. Returns NULL on failure. */
char* xmalloc_sockaddr2host(const struct sockaddr *sa) FAST_FUNC RETURNS_MALLOC;
/* This one doesn't append :PORTNUM */
char* xmalloc_sockaddr2host_noport(const struct sockaddr *sa) FAST_FUNC RETURNS_MALLOC;
/* This one also doesn't fall back to dotted IP (returns NULL) */
char* xmalloc_sockaddr2hostonly_noport(const struct sockaddr *sa) FAST_FUNC RETURNS_MALLOC;
/* inet_[ap]ton on steroids */
char* xmalloc_sockaddr2dotted(const struct sockaddr *sa) FAST_FUNC RETURNS_MALLOC;
char* xmalloc_sockaddr2dotted_noport(const struct sockaddr *sa) FAST_FUNC RETURNS_MALLOC;
// "old" (ipv4 only) API
// users: traceroute.c hostname.c - use _list_ of all IPs
struct hostent *xgethostbyname(const char *name) FAST_FUNC;
// Also mount.c and inetd.c are using gethostbyname(),
// + inet_common.c has additional IPv4-only stuff
void socket_want_pktinfo(int fd) FAST_FUNC;
ssize_t send_to_from(int fd, void *buf, size_t len, int flags,
const struct sockaddr *to,
const struct sockaddr *from,
socklen_t tolen) FAST_FUNC;
ssize_t recv_from_to(int fd, void *buf, size_t len, int flags,
struct sockaddr *from,
struct sockaddr *to,
socklen_t sa_size) FAST_FUNC;
uint16_t inet_cksum(uint16_t *addr, int len) FAST_FUNC;
char *xstrdup(const char *s) FAST_FUNC RETURNS_MALLOC;
char *xstrndup(const char *s, int n) FAST_FUNC RETURNS_MALLOC;
void overlapping_strcpy(char *dst, const char *src) FAST_FUNC;
char *safe_strncpy(char *dst, const char *src, size_t size) FAST_FUNC;
char *strncpy_IFNAMSIZ(char *dst, const char *src) FAST_FUNC;
unsigned count_strstr(const char *str, const char *sub) FAST_FUNC;
char *xmalloc_substitute_string(const char *src, int count, const char *sub, const char *repl) FAST_FUNC;
/* Guaranteed to NOT be a macro (smallest code). Saves nearly 2k on uclibc.
* But potentially slow, don't use in one-billion-times loops */
int bb_putchar(int ch) FAST_FUNC;
/* Note: does not use stdio, writes to fd 2 directly */
int bb_putchar_stderr(char ch) FAST_FUNC;
char *xasprintf(const char *format, ...) __attribute__ ((format(printf, 1, 2))) FAST_FUNC RETURNS_MALLOC;
// gcc-4.1.1 still isn't good enough at optimizing it
// (+200 bytes compared to macro)
//static ALWAYS_INLINE
//int LONE_DASH(const char *s) { return s[0] == '-' && !s[1]; }
//static ALWAYS_INLINE
//int NOT_LONE_DASH(const char *s) { return s[0] != '-' || s[1]; }
#define LONE_DASH(s) ((s)[0] == '-' && !(s)[1])
#define NOT_LONE_DASH(s) ((s)[0] != '-' || (s)[1])
#define LONE_CHAR(s,c) ((s)[0] == (c) && !(s)[1])
#define NOT_LONE_CHAR(s,c) ((s)[0] != (c) || (s)[1])
#define DOT_OR_DOTDOT(s) ((s)[0] == '.' && (!(s)[1] || ((s)[1] == '.' && !(s)[2])))
typedef struct uni_stat_t {
unsigned byte_count;
unsigned unicode_count;
unsigned unicode_width;
} uni_stat_t;
/* Returns a string with unprintable chars replaced by '?' or
* SUBST_WCHAR. This function is unicode-aware. */
const char* FAST_FUNC printable_string(uni_stat_t *stats, const char *str);
/* Prints unprintable char ch as ^C or M-c to file
* (M-c is used only if ch is ORed with PRINTABLE_META),
* else it is printed as-is (except for ch = 0x9b) */
enum { PRINTABLE_META = 0x100 };
void fputc_printable(int ch, FILE *file) FAST_FUNC;
/* Return a string that is the printable representation of character ch.
* Buffer must hold at least four characters. */
enum {
VISIBLE_ENDLINE = 1 << 0,
VISIBLE_SHOW_TABS = 1 << 1
};
void visible(unsigned ch, char *buf, int flags) FAST_FUNC;
/* dmalloc will redefine these to it's own implementation. It is safe
* to have the prototypes here unconditionally. */
void *malloc_or_warn(size_t size) FAST_FUNC RETURNS_MALLOC;
void *xmalloc(size_t size) FAST_FUNC RETURNS_MALLOC;
void *xzalloc(size_t size) FAST_FUNC RETURNS_MALLOC;
void *xrealloc(void *old, size_t size) FAST_FUNC;
/* After v = xrealloc_vector(v, SHIFT, idx) it's ok to use
* at least v[idx] and v[idx+1], for all idx values.
* SHIFT specifies how many new elements are added (1:2, 2:4, ..., 8:256...)
* when all elements are used up. New elements are zeroed out.
* xrealloc_vector(v, SHIFT, idx) *MUST* be called with consecutive IDXs -
* skipping an index is a bad bug - it may miss a realloc!
*/
#define xrealloc_vector(vector, shift, idx) \
xrealloc_vector_helper((vector), (sizeof((vector)[0]) << 8) + (shift), (idx))
void* xrealloc_vector_helper(void *vector, unsigned sizeof_and_shift, int idx) FAST_FUNC;
extern ssize_t safe_read(int fd, void *buf, size_t count) FAST_FUNC;
extern ssize_t nonblock_immune_read(int fd, void *buf, size_t count, int loop_on_EINTR) FAST_FUNC;
// NB: will return short read on error, not -1,
// if some data was read before error occurred
extern ssize_t full_read(int fd, void *buf, size_t count) FAST_FUNC;
extern void xread(int fd, void *buf, size_t count) FAST_FUNC;
extern unsigned char xread_char(int fd) FAST_FUNC;
extern ssize_t read_close(int fd, void *buf, size_t maxsz) FAST_FUNC;
extern ssize_t open_read_close(const char *filename, void *buf, size_t maxsz) FAST_FUNC;
// Reads one line a-la fgets (but doesn't save terminating '\n').
// Reads byte-by-byte. Useful when it is important to not read ahead.
// Bytes are appended to pfx (which must be malloced, or NULL).
extern char *xmalloc_reads(int fd, size_t *maxsz_p) FAST_FUNC;
/* Reads block up to *maxsz_p (default: INT_MAX - 4095) */
extern void *xmalloc_read(int fd, size_t *maxsz_p) FAST_FUNC RETURNS_MALLOC;
/* Returns NULL if file can't be opened (default max size: INT_MAX - 4095) */
extern void *xmalloc_open_read_close(const char *filename, size_t *maxsz_p) FAST_FUNC RETURNS_MALLOC;
/* Never returns NULL */
extern void *xmalloc_xopen_read_close(const char *filename, size_t *maxsz_p) FAST_FUNC RETURNS_MALLOC;
#if defined ARG_MAX
# define bb_arg_max() ((unsigned)ARG_MAX)
#elif defined _SC_ARG_MAX
unsigned bb_arg_max(void) FAST_FUNC;
#else
# define bb_arg_max() ((unsigned)(32 * 1024))
#endif
unsigned bb_clk_tck(void) FAST_FUNC;
#define SEAMLESS_COMPRESSION (0 \
|| ENABLE_FEATURE_SEAMLESS_XZ \
|| ENABLE_FEATURE_SEAMLESS_LZMA \
|| ENABLE_FEATURE_SEAMLESS_BZ2 \
|| ENABLE_FEATURE_SEAMLESS_GZ \
|| ENABLE_FEATURE_SEAMLESS_Z)
extern ssize_t safe_write(int fd, const void *buf, size_t count) FAST_FUNC;
// NB: will return short write on error, not -1,
// if some data was written before error occurred
extern ssize_t full_write(int fd, const void *buf, size_t count) FAST_FUNC;
extern void xwrite(int fd, const void *buf, size_t count) FAST_FUNC;
extern void xwrite_str(int fd, const char *str) FAST_FUNC;
extern ssize_t full_write1_str(const char *str) FAST_FUNC;
extern ssize_t full_write2_str(const char *str) FAST_FUNC;
extern void xopen_xwrite_close(const char* file, const char *str) FAST_FUNC;
/* Close fd, but check for failures (some types of write errors) */
extern void xclose(int fd) FAST_FUNC;
/* Reads and prints to stdout till eof, then closes FILE. Exits on error: */
extern void xprint_and_close_file(FILE *file) FAST_FUNC;
/* Reads a line from a text file, up to a newline or NUL byte, inclusive.
* Returns malloc'ed char*. If end is NULL '\n' isn't considered
* end of line. If end isn't NULL, length of the chunk is stored in it.
* Returns NULL if EOF/error.
*/
extern char *bb_get_chunk_from_file(FILE *file, int *end) FAST_FUNC;
/* Reads up to (and including) TERMINATING_STRING: */
extern char *xmalloc_fgets_str(FILE *file, const char *terminating_string) FAST_FUNC RETURNS_MALLOC;
/* Same, with limited max size, and returns the length (excluding NUL): */
extern char *xmalloc_fgets_str_len(FILE *file, const char *terminating_string, size_t *maxsz_p) FAST_FUNC RETURNS_MALLOC;
/* Chops off TERMINATING_STRING from the end: */
extern char *xmalloc_fgetline_str(FILE *file, const char *terminating_string) FAST_FUNC RETURNS_MALLOC;
/* Reads up to (and including) "\n" or NUL byte: */
extern char *xmalloc_fgets(FILE *file) FAST_FUNC RETURNS_MALLOC;
/* Chops off '\n' from the end, unlike fgets: */
extern char *xmalloc_fgetline(FILE *file) FAST_FUNC RETURNS_MALLOC;
/* Same, but doesn't try to conserve space (may have some slack after the end) */
/* extern char *xmalloc_fgetline_fast(FILE *file) FAST_FUNC RETURNS_MALLOC; */
void die_if_ferror(FILE *file, const char *msg) FAST_FUNC;
void die_if_ferror_stdout(void) FAST_FUNC;
int fflush_all(void) FAST_FUNC;
void fflush_stdout_and_exit(int retval) NORETURN FAST_FUNC;
int fclose_if_not_stdin(FILE *file) FAST_FUNC;
FILE* xfopen(const char *filename, const char *mode) FAST_FUNC;
/* Prints warning to stderr and returns NULL on failure: */
FILE* fopen_or_warn(const char *filename, const char *mode) FAST_FUNC;
/* "Opens" stdin if filename is special, else just opens file: */
FILE* xfopen_stdin(const char *filename) FAST_FUNC;
FILE* fopen_or_warn_stdin(const char *filename) FAST_FUNC;
FILE* fopen_for_read(const char *path) FAST_FUNC;
FILE* xfopen_for_read(const char *path) FAST_FUNC;
FILE* fopen_for_write(const char *path) FAST_FUNC;
FILE* xfopen_for_write(const char *path) FAST_FUNC;
FILE* xfdopen_for_read(int fd) FAST_FUNC;
FILE* xfdopen_for_write(int fd) FAST_FUNC;
int bb_pstrcmp(const void *a, const void *b) /* not FAST_FUNC! */;
void qsort_string_vector(char **sv, unsigned count) FAST_FUNC;
/* Wrapper which restarts poll on EINTR or ENOMEM.
* On other errors complains [perror("poll")] and returns.
* Warning! May take (much) longer than timeout_ms to return!
* If this is a problem, use bare poll and open-code EINTR/ENOMEM handling */
int safe_poll(struct pollfd *ufds, nfds_t nfds, int timeout_ms) FAST_FUNC;
char *safe_gethostname(void) FAST_FUNC;
/* Convert each alpha char in str to lower-case */
char* str_tolower(char *str) FAST_FUNC;
char *utoa(unsigned n) FAST_FUNC;
char *itoa(int n) FAST_FUNC;
/* Returns a pointer past the formatted number, does NOT null-terminate */
char *utoa_to_buf(unsigned n, char *buf, unsigned buflen) FAST_FUNC;
char *itoa_to_buf(int n, char *buf, unsigned buflen) FAST_FUNC;
/* If block_size == 0, display size without fractional part,
* else display (size * block_size) with one decimal digit.
* If display_unit == 0, show value no bigger than 1024 with suffix (K,M,G...),
* else divide by display_unit and do not use suffix. */
#define HUMAN_READABLE_MAX_WIDTH 7 /* "1024.0G" */
#define HUMAN_READABLE_MAX_WIDTH_STR "7"
/* Put a string of hex bytes ("1b2e66fe"...), return advanced pointer */
char *bin2hex(char *dst, const char *src, int count) FAST_FUNC;
/* Reverse */
char* hex2bin(char *dst, const char *src, int count) FAST_FUNC;
/* Generate a UUID */
void generate_uuid(uint8_t *buf) FAST_FUNC;
/* Last element is marked by mult == 0 */
struct suffix_mult {
char suffix[4];
unsigned mult;
};
extern const struct suffix_mult bkm_suffixes[];
#define km_suffixes (bkm_suffixes + 1)
#include "xatonum.h"
/* Specialized: */
/* Using xatoi() instead of naive atoi() is not always convenient -
* in many places people want *non-negative* values, but store them
* in signed int. Therefore we need this one:
* dies if input is not in [0, INT_MAX] range. Also will reject '-0' etc.
* It should really be named xatoi_nonnegative (since it allows 0),
* but that would be too long.
*/
int xatoi_positive(const char *numstr) FAST_FUNC;
/* Useful for reading port numbers */
uint16_t xatou16(const char *numstr) FAST_FUNC;
/* These parse entries in /etc/passwd and /etc/group. This is desirable
* for BusyBox since we want to avoid using the glibc NSS stuff, which
* increases target size and is often not needed on embedded systems. */
long xuname2uid(const char *name) FAST_FUNC;
long xgroup2gid(const char *name) FAST_FUNC;
/* wrapper: allows string to contain numeric uid or gid */
unsigned long get_ug_id(const char *s, long FAST_FUNC (*xname2id)(const char *)) FAST_FUNC;
/* from chpst. Does not die, returns 0 on failure */
struct bb_uidgid_t {
uid_t uid;
gid_t gid;
};
/* always sets uid and gid */
int get_uidgid(struct bb_uidgid_t*, const char*, int numeric_ok) FAST_FUNC;
/* always sets uid and gid, allows numeric; exits on failure */
void xget_uidgid(struct bb_uidgid_t*, const char*) FAST_FUNC;
/* chown-like handling of "user[:[group]" */
void parse_chown_usergroup_or_die(struct bb_uidgid_t *u, char *user_group) FAST_FUNC;
struct passwd* xgetpwnam(const char *name) FAST_FUNC;
struct group* xgetgrnam(const char *name) FAST_FUNC;
struct passwd* xgetpwuid(uid_t uid) FAST_FUNC;
struct group* xgetgrgid(gid_t gid) FAST_FUNC;
char* xuid2uname(uid_t uid) FAST_FUNC;
char* xgid2group(gid_t gid) FAST_FUNC;
char* uid2uname(uid_t uid) FAST_FUNC;
char* gid2group(gid_t gid) FAST_FUNC;
char* uid2uname_utoa(uid_t uid) FAST_FUNC;
char* gid2group_utoa(gid_t gid) FAST_FUNC;
/* versions which cache results (useful for ps, ls etc) */
const char* get_cached_username(uid_t uid) FAST_FUNC;
const char* get_cached_groupname(gid_t gid) FAST_FUNC;
void clear_username_cache(void) FAST_FUNC;
/* internally usernames are saved in fixed-sized char[] buffers */
enum { USERNAME_MAX_SIZE = 32 - sizeof(uid_t) };
#if ENABLE_FEATURE_CHECK_NAMES
void die_if_bad_username(const char* name) FAST_FUNC;
#else
#define die_if_bad_username(name) ((void)(name))
#endif
int ingroup(uid_t u, gid_t g);
#if ENABLE_FEATURE_UTMP
void FAST_FUNC write_new_utmp(pid_t pid, int new_type, const char *tty_name, const char *username, const char *hostname);
void FAST_FUNC update_utmp(pid_t pid, int new_type, const char *tty_name, const char *username, const char *hostname);
#else
# define write_new_utmp(pid, new_type, tty_name, username, hostname) ((void)0)
# define update_utmp(pid, new_type, tty_name, username, hostname) ((void)0)
#endif
int file_is_executable(const char *name) FAST_FUNC;
char *find_executable(const char *filename, char **PATHp) FAST_FUNC;
int executable_exists(const char *filename) FAST_FUNC;
/* xvfork() can't be a _function_, return after vfork mangles stack
* in the parent. It must be a macro. */
#define xvfork() \
({ \
pid_t bb__xvfork_pid = vfork(); \
if (bb__xvfork_pid < 0) \
bb_perror_msg_and_die("vfork"); \
bb__xvfork_pid; \
})
#if BB_MMU
pid_t xfork(void) FAST_FUNC;
#endif
/* NOMMU friendy fork+exec: */
pid_t spawn(char **argv) FAST_FUNC;
pid_t xspawn(char **argv) FAST_FUNC;
pid_t safe_waitpid(pid_t pid, int *wstat, int options) FAST_FUNC;
/* wait4pid: unlike waitpid, waits ONLY for one process.
* Returns sig + 0x180 if child is killed by signal.
* It's safe to pass negative 'pids' from failed [v]fork -
* wait4pid will return -1 (and will not clobber [v]fork's errno).
* IOW: rc = wait4pid(spawn(argv));
* if (rc < 0) bb_perror_msg("%s", argv[0]);
* if (rc > 0) bb_error_msg("exit code: %d", rc & 0xff);
*/
int wait4pid(pid_t pid) FAST_FUNC;
/* Same as wait4pid(spawn(argv)), but with NOFORK/NOEXEC if configured: */
int spawn_and_wait(char **argv) FAST_FUNC;
/* Does NOT check that applet is NOFORK, just blindly runs it */
int run_nofork_applet(int applet_no, char **argv) FAST_FUNC;
/* Helpers for daemonization.
*
* bb_daemonize(flags) = daemonize, does not compile on NOMMU
*
* bb_daemonize_or_rexec(flags, argv) = daemonizes on MMU (and ignores argv),
* rexec's itself on NOMMU with argv passed as command line.
* Thus bb_daemonize_or_rexec may cause your <applet>_main() to be re-executed
* from the start. (It will detect it and not reexec again second time).
* You have to audit carefully that you don't do something twice as a result
* (opening files/sockets, parsing config files etc...)!
*
* Both of the above will redirect fd 0,1,2 to /dev/null and drop ctty
* (will do setsid()).
*
* fork_or_rexec(argv) = bare-bones fork on MMU,
* "vfork + re-exec ourself" on NOMMU. No fd redirection, no setsid().
* On MMU ignores argv.
*
* Helper for network daemons in foreground mode:
*
* bb_sanitize_stdio() = make sure that fd 0,1,2 are opened by opening them
* to /dev/null if they are not.
*/
enum {
DAEMON_CHDIR_ROOT = 1,
DAEMON_DEVNULL_STDIO = 2,
DAEMON_CLOSE_EXTRA_FDS = 4,
DAEMON_ONLY_SANITIZE = 8, /* internal use */
DAEMON_DOUBLE_FORK = 16 /* double fork to avoid controlling tty */
};
#if BB_MMU
# define fork_or_rexec(argv) xfork()
# define bb_daemonize_or_rexec(flags, argv) bb_daemonize_or_rexec(flags)
# define bb_daemonize(flags) bb_daemonize_or_rexec(flags, bogus)
#else
/* Note: re_exec() and fork_or_rexec() do argv[0][0] |= 0x80 on NOMMU!
* _Parent_ needs to undo it if it doesn't want to have argv[0] mangled.
*/
pid_t fork_or_rexec(char **argv) FAST_FUNC;
int BUG_fork_is_unavailable_on_nommu(void) FAST_FUNC;
int BUG_daemon_is_unavailable_on_nommu(void) FAST_FUNC;
void BUG_bb_daemonize_is_unavailable_on_nommu(void) FAST_FUNC;
# define fork() BUG_fork_is_unavailable_on_nommu()
# define xfork() BUG_fork_is_unavailable_on_nommu()
# define daemon(a,b) BUG_daemon_is_unavailable_on_nommu()
# define bb_daemonize(a) BUG_bb_daemonize_is_unavailable_on_nommu()
#endif
void bb_daemonize_or_rexec(int flags, char **argv) FAST_FUNC;
void bb_sanitize_stdio(void) FAST_FUNC;
/* Clear dangerous stuff, set PATH. Return 1 if was run by different user. */
int sanitize_env_if_suid(void) FAST_FUNC;
pid_t vfork_and_run(void (*fn)(void*) NORETURN, void *arg);
pid_t xvfork_and_run(void (*fn)(void*) NORETURN, void *arg);
char* single_argv(char **argv) FAST_FUNC;
extern const char *const bb_argv_dash[]; /* "-", NULL */
extern const char *opt_complementary;
#if ENABLE_LONG_OPTS || ENABLE_FEATURE_GETOPT_LONG
#define No_argument "\0"
#define Required_argument "\001"
#define Optional_argument "\002"
extern const char *applet_long_options;
#endif
extern uint32_t option_mask32;
extern uint32_t getopt32(char **argv, const char *applet_opts, ...) FAST_FUNC;
/* Having next pointer as a first member allows easy creation
* of "llist-compatible" structs, and using llist_FOO functions
* on them.
*/
typedef struct llist_t {
struct llist_t *link;
char *data;
} llist_t;
void llist_add_to(llist_t **old_head, void *data) FAST_FUNC;
void llist_add_to_end(llist_t **list_head, void *data) FAST_FUNC;
void *llist_pop(llist_t **elm) FAST_FUNC;
void llist_unlink(llist_t **head, llist_t *elm) FAST_FUNC;
void llist_free(llist_t *elm, void (*freeit)(void *data)) FAST_FUNC;
llist_t *llist_rev(llist_t *list) FAST_FUNC;
llist_t *llist_find_str(llist_t *first, const char *str) FAST_FUNC;
/* BTW, surprisingly, changing API to
* llist_t *llist_add_to(llist_t *old_head, void *data)
* etc does not result in smaller code... */
enum {
LOGMODE_NONE = 0,
LOGMODE_STDIO = (1 << 0)
};
extern const char *msg_eol;
extern smallint logmode;
extern int die_sleep;
extern uint8_t xfunc_error_retval;
extern jmp_buf die_jmp;
extern void xfunc_die(void) NORETURN FAST_FUNC;
extern void bb_show_usage(void) NORETURN FAST_FUNC;
extern void bb_error_msg(const char *s, ...) __attribute__ ((format (printf, 1, 2))) FAST_FUNC;
extern void bb_error_msg_and_die(const char *s, ...) __attribute__ ((noreturn, format (printf, 1, 2))) FAST_FUNC;
extern void bb_perror_msg(const char *s, ...) __attribute__ ((format (printf, 1, 2))) FAST_FUNC;
extern void bb_simple_perror_msg(const char *s) FAST_FUNC;
extern void bb_perror_msg_and_die(const char *s, ...) __attribute__ ((noreturn, format (printf, 1, 2))) FAST_FUNC;
extern void bb_simple_perror_msg_and_die(const char *s) NORETURN FAST_FUNC;
extern void bb_herror_msg(const char *s, ...) __attribute__ ((format (printf, 1, 2))) FAST_FUNC;
extern void bb_herror_msg_and_die(const char *s, ...) __attribute__ ((noreturn, format (printf, 1, 2))) FAST_FUNC;
extern void bb_perror_nomsg_and_die(void) NORETURN FAST_FUNC;
extern void bb_perror_nomsg(void) FAST_FUNC;
extern void bb_info_msg(const char *s, ...) __attribute__ ((format (printf, 1, 2))) FAST_FUNC;
extern void bb_verror_msg(const char *s, va_list p, const char *strerr) FAST_FUNC;
/* We need to export XXX_main from libbusybox
* only if we build "individual" binaries
*/
#if ENABLE_FEATURE_INDIVIDUAL
#define MAIN_EXTERNALLY_VISIBLE EXTERNALLY_VISIBLE
#else
#define MAIN_EXTERNALLY_VISIBLE
#endif
/* Applets which are useful from another applets */
int bb_cat(char** argv);
/* If shell needs them, they exist even if not enabled as applets */
int echo_main(int argc, char** argv);
int printf_main(int argc, char **argv);
int test_main(int argc, char **argv);
int kill_main(int argc, char **argv);
/* Similar, but used by chgrp, not shell */
int chown_main(int argc, char **argv);
/* Used by ftpd */
int ls_main(int argc, char **argv);
/* Don't need IF_xxx() guard for these */
int gunzip_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE;
int bunzip2_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE;
#if ENABLE_ROUTE
void bb_displayroutes(int noresolve, int netstatfmt) FAST_FUNC;
#endif
/* Networking */
/* This structure defines protocol families and their handlers. */
struct aftype {
const char *name;
const char *title;
int af;
int alen;
char* FAST_FUNC (*print)(unsigned char *);
const char* FAST_FUNC (*sprint)(struct sockaddr *, int numeric);
int FAST_FUNC (*input)(/*int type,*/ const char *bufp, struct sockaddr *);
void FAST_FUNC (*herror)(char *text);
int FAST_FUNC (*rprint)(int options);
int FAST_FUNC (*rinput)(int typ, int ext, char **argv);
/* may modify src */
int FAST_FUNC (*getmask)(char *src, struct sockaddr *mask, char *name);
};
/* This structure defines hardware protocols and their handlers. */
struct hwtype {
const char *name;
const char *title;
int type;
int alen;
char* FAST_FUNC (*print)(unsigned char *);
int FAST_FUNC (*input)(const char *, struct sockaddr *);
int FAST_FUNC (*activate)(int fd);
int suppress_null_addr;
};
int display_interfaces(char *ifname) FAST_FUNC;
int in_ether(const char *bufp, struct sockaddr *sap) FAST_FUNC;
#if ENABLE_FEATURE_HWIB
int in_ib(const char *bufp, struct sockaddr *sap) FAST_FUNC;
#else
#define in_ib(a, b) 1 /* fail */
#endif
const struct aftype *get_aftype(const char *name) FAST_FUNC;
const struct hwtype *get_hwtype(const char *name) FAST_FUNC;
const struct hwtype *get_hwntype(int type) FAST_FUNC;
#ifndef BUILD_INDIVIDUAL
extern int find_applet_by_name(const char *name) FAST_FUNC;
/* Returns only if applet is not found. */
extern void run_applet_and_exit(const char *name, char **argv) FAST_FUNC;
extern void run_applet_no_and_exit(int a, char **argv) NORETURN FAST_FUNC;
#endif
#ifdef HAVE_MNTENT_H
extern int match_fstype(const struct mntent *mt, const char *fstypes) FAST_FUNC;
extern struct mntent *find_mount_point(const char *name, int subdir_too) FAST_FUNC;
#endif
extern void erase_mtab(const char * name) FAST_FUNC;
#if ENABLE_DESKTOP
extern void bb_warn_ignoring_args(char *arg) FAST_FUNC;
#else
# define bb_warn_ignoring_args(arg) ((void)0)
#endif
extern int get_linux_version_code(void) FAST_FUNC;
extern char *query_loop(const char *device) FAST_FUNC;
extern int del_loop(const char *device) FAST_FUNC;
/* Like bb_ask below, but asks on stdin with no timeout. */
char *bb_ask_stdin(const char * prompt) FAST_FUNC;
//TODO: pass buf pointer or return allocated buf (avoid statics)?
char *bb_ask(const int fd, int timeout, const char * prompt) FAST_FUNC;
int bb_ask_confirmation(void) FAST_FUNC;
int bb_parse_mode(const char* s, mode_t* theMode) FAST_FUNC;
/*
* Config file parser
*/
typedef struct parser_t {
FILE *fp;
char *data;
char *line, *nline;
size_t line_alloc, nline_alloc;
int lineno;
} parser_t;
parser_t* config_open(const char *filename) FAST_FUNC;
parser_t* config_open2(const char *filename, FILE* FAST_FUNC (*fopen_func)(const char *path)) FAST_FUNC;
/* delims[0] is a comment char (use '\0' to disable), the rest are token delimiters */
int config_read(parser_t *parser, char **tokens, unsigned flags, const char *delims) FAST_FUNC;
#define config_read(parser, tokens, max, min, str, flags) \
config_read(parser, tokens, ((flags) | (((min) & 0xFF) << 8) | ((max) & 0xFF)), str)
void config_close(parser_t *parser) FAST_FUNC;
/* Concatenate path and filename to new allocated buffer.
* Add "/" only as needed (no duplicate "//" are produced).
* If path is NULL, it is assumed to be "/".
* filename should not be NULL. */
char *concat_path_file(const char *path, const char *filename) FAST_FUNC;
/* Returns NULL on . and .. */
char *concat_subpath_file(const char *path, const char *filename) FAST_FUNC;
int bb_make_directory(char *path, long mode, int flags) FAST_FUNC;
int get_signum(const char *name) FAST_FUNC;
const char *get_signame(int number) FAST_FUNC;
void print_signames(void) FAST_FUNC;
char *bb_simplify_path(const char *path) FAST_FUNC;
/* Returns ptr to NUL */
char *bb_simplify_abs_path_inplace(char *path) FAST_FUNC;
#define LOGIN_FAIL_DELAY 3
extern void bb_do_delay(int seconds) FAST_FUNC;
extern void change_identity(const struct passwd *pw) FAST_FUNC;
extern void run_shell(const char *shell, int loginshell, const char *command, const char **additional_args) NORETURN FAST_FUNC;
/* Returns $SHELL, getpwuid(getuid())->pw_shell, or DEFAULT_SHELL.
* Note that getpwuid result might need xstrdup'ing
* if there is a possibility of intervening getpwxxx() calls.
*/
const char *get_shell_name(void) FAST_FUNC;
#if ENABLE_SELINUX
extern void renew_current_security_context(void) FAST_FUNC;
extern void set_current_security_context(security_context_t sid) FAST_FUNC;
extern context_t set_security_context_component(security_context_t cur_context,
char *user, char *role, char *type, char *range) FAST_FUNC;
extern void setfscreatecon_or_die(security_context_t scontext) FAST_FUNC;
extern void selinux_preserve_fcontext(int fdesc) FAST_FUNC;
#else
#define selinux_preserve_fcontext(fdesc) ((void)0)
#endif
extern void selinux_or_die(void) FAST_FUNC;
/* systemd support */
#define SD_LISTEN_FDS_START 3
int sd_listen_fds(void);
/* setup_environment:
* if chdir pw->pw_dir: ok: else if to_tmp == 1: goto /tmp else: goto / or die
* if clear_env = 1: cd(pw->pw_dir), clear environment, then set
* TERM=(old value)
* USER=pw->pw_name, LOGNAME=pw->pw_name
* PATH=bb_default_[root_]path
* HOME=pw->pw_dir
* SHELL=shell
* else if change_env = 1:
* if not root (if pw->pw_uid != 0):
* USER=pw->pw_name, LOGNAME=pw->pw_name
* HOME=pw->pw_dir
* SHELL=shell
* else does nothing
*/
#define SETUP_ENV_CHANGEENV (1 << 0)
#define SETUP_ENV_CLEARENV (1 << 1)
#define SETUP_ENV_TO_TMP (1 << 2)
#define SETUP_ENV_NO_CHDIR (1 << 4)
void setup_environment(const char *shell, int flags, const struct passwd *pw) FAST_FUNC;
void nuke_str(char *str) FAST_FUNC;
int check_password(const struct passwd *pw, const char *plaintext) FAST_FUNC;
int ask_and_check_password_extended(const struct passwd *pw, int timeout, const char *prompt) FAST_FUNC;
int ask_and_check_password(const struct passwd *pw) FAST_FUNC;
/* Returns a malloced string */
#if !ENABLE_USE_BB_CRYPT
#define pw_encrypt(clear, salt, cleanup) pw_encrypt(clear, salt)
#endif
extern char *pw_encrypt(const char *clear, const char *salt, int cleanup) FAST_FUNC;
extern int obscure(const char *old, const char *newval, const struct passwd *pwdp) FAST_FUNC;
/*
* rnd is additional random input. New one is returned.
* Useful if you call crypt_make_salt many times in a row:
* rnd = crypt_make_salt(buf1, 4, 0);
* rnd = crypt_make_salt(buf2, 4, rnd);
* rnd = crypt_make_salt(buf3, 4, rnd);
* (otherwise we risk having same salt generated)
*/
extern int crypt_make_salt(char *p, int cnt /*, int rnd*/) FAST_FUNC;
/* "$N$" + sha_salt_16_bytes + NUL */
#define MAX_PW_SALT_LEN (3 + 16 + 1)
extern char* crypt_make_pw_salt(char p[MAX_PW_SALT_LEN], const char *algo) FAST_FUNC;
/* Returns number of lines changed, or -1 on error */
#if !(ENABLE_FEATURE_ADDUSER_TO_GROUP || ENABLE_FEATURE_DEL_USER_FROM_GROUP)
#define update_passwd(filename, username, data, member) \
update_passwd(filename, username, data)
#endif
extern int update_passwd(const char *filename,
const char *username,
const char *data,
const char *member) FAST_FUNC;
int index_in_str_array(const char *const string_array[], const char *key) FAST_FUNC;
int index_in_strings(const char *strings, const char *key) FAST_FUNC;
int index_in_substr_array(const char *const string_array[], const char *key) FAST_FUNC;
int index_in_substrings(const char *strings, const char *key) FAST_FUNC;
const char *nth_string(const char *strings, int n) FAST_FUNC;
extern void print_login_issue(const char *issue_file, const char *tty) FAST_FUNC;
extern void print_login_prompt(void) FAST_FUNC;
char *xmalloc_ttyname(int fd) FAST_FUNC RETURNS_MALLOC;
/* NB: typically you want to pass fd 0, not 1. Think 'applet | grep something' */
int get_terminal_width_height(int fd, unsigned *width, unsigned *height) FAST_FUNC;
#ifndef __GNO__
int tcsetattr_stdin_TCSANOW(const struct termios *tp) FAST_FUNC;
#endif
/* NB: "unsigned request" is crucial! "int request" will break some arches! */
int ioctl_or_perror(int fd, unsigned request, void *argp, const char *fmt,...) __attribute__ ((format (printf, 4, 5))) FAST_FUNC;
int ioctl_or_perror_and_die(int fd, unsigned request, void *argp, const char *fmt,...) __attribute__ ((format (printf, 4, 5))) FAST_FUNC;
#if ENABLE_IOCTL_HEX2STR_ERROR
int bb_ioctl_or_warn(int fd, unsigned request, void *argp, const char *ioctl_name) FAST_FUNC;
int bb_xioctl(int fd, unsigned request, void *argp, const char *ioctl_name) FAST_FUNC;
#define ioctl_or_warn(fd,request,argp) bb_ioctl_or_warn(fd,request,argp,#request)
#define xioctl(fd,request,argp) bb_xioctl(fd,request,argp,#request)
#else
int bb_ioctl_or_warn(int fd, unsigned request, void *argp) FAST_FUNC;
int bb_xioctl(int fd, unsigned request, void *argp) FAST_FUNC;
#define ioctl_or_warn(fd,request,argp) bb_ioctl_or_warn(fd,request,argp)
#define xioctl(fd,request,argp) bb_xioctl(fd,request,argp)
#endif
char *is_in_ino_dev_hashtable(const struct stat *statbuf) FAST_FUNC;
void add_to_ino_dev_hashtable(const struct stat *statbuf, const char *name) FAST_FUNC;
void reset_ino_dev_hashtable(void) FAST_FUNC;
#ifdef __GLIBC__
/* At least glibc has horrendously large inline for this, so wrap it */
unsigned long long bb_makedev(unsigned major, unsigned minor) FAST_FUNC;
#undef makedev
#define makedev(a,b) bb_makedev(a,b)
#endif
/* "Keycodes" that report an escape sequence.
* We use something which fits into signed char,
* yet doesn't represent any valid Unicode character.
* Also, -1 is reserved for error indication and we don't use it. */
enum {
KEYCODE_UP = -2,
KEYCODE_DOWN = -3,
KEYCODE_RIGHT = -4,
KEYCODE_LEFT = -5,
KEYCODE_HOME = -6,
KEYCODE_END = -7,
KEYCODE_INSERT = -8,
KEYCODE_DELETE = -9,
KEYCODE_PAGEUP = -10,
KEYCODE_PAGEDOWN = -11,
// -12 is reserved for Alt/Ctrl/Shift-TAB
#if 0
KEYCODE_FUN1 = -13,
KEYCODE_FUN2 = -14,
KEYCODE_FUN3 = -15,
KEYCODE_FUN4 = -16,
KEYCODE_FUN5 = -17,
KEYCODE_FUN6 = -18,
KEYCODE_FUN7 = -19,
KEYCODE_FUN8 = -20,
KEYCODE_FUN9 = -21,
KEYCODE_FUN10 = -22,
KEYCODE_FUN11 = -23,
KEYCODE_FUN12 = -24,
#endif
/* Be sure that last defined value is small enough
* to not interfere with Alt/Ctrl/Shift bits.
* So far we do not exceed -31 (0xfff..fffe1),
* which gives us three upper bits in LSB to play with.
*/
//KEYCODE_SHIFT_TAB = (-12) & ~0x80,
//KEYCODE_SHIFT_... = KEYCODE_... & ~0x80,
//KEYCODE_CTRL_UP = KEYCODE_UP & ~0x40,
//KEYCODE_CTRL_DOWN = KEYCODE_DOWN & ~0x40,
KEYCODE_CTRL_RIGHT = KEYCODE_RIGHT & ~0x40,
KEYCODE_CTRL_LEFT = KEYCODE_LEFT & ~0x40,
//KEYCODE_ALT_UP = KEYCODE_UP & ~0x20,
//KEYCODE_ALT_DOWN = KEYCODE_DOWN & ~0x20,
KEYCODE_ALT_RIGHT = KEYCODE_RIGHT & ~0x20,
KEYCODE_ALT_LEFT = KEYCODE_LEFT & ~0x20,
KEYCODE_CURSOR_POS = -0x100, /* 0xfff..fff00 */
/* How long is the longest ESC sequence we know?
* We want it big enough to be able to contain
* cursor position sequence "ESC [ 9999 ; 9999 R"
*/
KEYCODE_BUFFER_SIZE = 16
};
/* Note: fd may be in blocking or non-blocking mode, both make sense.
* For one, less uses non-blocking mode.
* Only the first read syscall inside read_key may block indefinitely
* (unless fd is in non-blocking mode),
* subsequent reads will time out after a few milliseconds.
* Return of -1 means EOF or error (errno == 0 on EOF).
* buffer[0] is used as a counter of buffered chars and must be 0
* on first call.
* timeout:
* -2: do not poll for input;
* -1: poll(-1) (i.e. block);
* >=0: poll for TIMEOUT milliseconds, return -1/EAGAIN on timeout
*/
int32_t read_key(int fd, char *buffer, int timeout) FAST_FUNC;
void read_key_ungets(char *buffer, const char *str, unsigned len) FAST_FUNC;
#if ENABLE_FEATURE_EDITING
/* It's NOT just ENABLEd or disabled. It's a number: */
# if defined CONFIG_FEATURE_EDITING_HISTORY && CONFIG_FEATURE_EDITING_HISTORY > 0
# define MAX_HISTORY (CONFIG_FEATURE_EDITING_HISTORY + 0)
unsigned size_from_HISTFILESIZE(const char *hp) FAST_FUNC;
# else
# define MAX_HISTORY 0
# endif
typedef struct line_input_t {
int flags;
const char *path_lookup;
# if MAX_HISTORY
int cnt_history;
int cur_history;
int max_history; /* must never be <= 0 */
# if ENABLE_FEATURE_EDITING_SAVEHISTORY
/* meaning of this field depends on FEATURE_EDITING_SAVE_ON_EXIT:
* if !FEATURE_EDITING_SAVE_ON_EXIT: "how many lines are
* in on-disk history"
* if FEATURE_EDITING_SAVE_ON_EXIT: "how many in-memory lines are
* also in on-disk history (and thus need to be skipped on save)"
*/
unsigned cnt_history_in_file;
const char *hist_file;
# endif
char *history[MAX_HISTORY + 1];
# endif
} line_input_t;
enum {
DO_HISTORY = 1 * (MAX_HISTORY > 0),
TAB_COMPLETION = 2 * ENABLE_FEATURE_TAB_COMPLETION,
USERNAME_COMPLETION = 4 * ENABLE_FEATURE_USERNAME_COMPLETION,
VI_MODE = 8 * ENABLE_FEATURE_EDITING_VI,
WITH_PATH_LOOKUP = 0x10,
FOR_SHELL = DO_HISTORY | TAB_COMPLETION | USERNAME_COMPLETION
};
line_input_t *new_line_input_t(int flags) FAST_FUNC;
/* So far static: void free_line_input_t(line_input_t *n) FAST_FUNC; */
/*
* maxsize must be >= 2.
* Returns:
* -1 on read errors or EOF, or on bare Ctrl-D,
* 0 on ctrl-C (the line entered is still returned in 'command'),
* >0 length of input string, including terminating '\n'
*/
int read_line_input(line_input_t *st, const char *prompt, char *command, int maxsize, int timeout) FAST_FUNC;
void show_history(const line_input_t *st) FAST_FUNC;
# if ENABLE_FEATURE_EDITING_SAVE_ON_EXIT
void save_history(line_input_t *st);
# endif
#else
#define MAX_HISTORY 0
int read_line_input(const char* prompt, char* command, int maxsize) FAST_FUNC;
#define read_line_input(state, prompt, command, maxsize, timeout) \
read_line_input(prompt, command, maxsize)
#endif
#ifndef COMM_LEN
# ifdef TASK_COMM_LEN
enum { COMM_LEN = TASK_COMM_LEN };
# else
/* synchronize with sizeof(task_struct.comm) in /usr/include/linux/sched.h */
enum { COMM_LEN = 16 };
# endif
#endif
struct smaprec {
unsigned long mapped_rw;
unsigned long mapped_ro;
unsigned long shared_clean;
unsigned long shared_dirty;
unsigned long private_clean;
unsigned long private_dirty;
unsigned long stack;
unsigned long smap_pss, smap_swap;
unsigned long smap_size;
unsigned long smap_start;
char smap_mode[5];
char *smap_name;
};
#if !ENABLE_PMAP
#define procps_read_smaps(pid, total, cb, data) \
procps_read_smaps(pid, total)
#endif
int FAST_FUNC procps_read_smaps(pid_t pid, struct smaprec *total,
void (*cb)(struct smaprec *, void *), void *data);
/* Format cmdline (up to col chars) into char buf[size] */
/* Puts [comm] if cmdline is empty (-> process is a kernel thread) */
void read_cmdline(char *buf, int size, unsigned pid, const char *comm) FAST_FUNC;
pid_t *find_pid_by_name(const char* procName) FAST_FUNC;
pid_t *pidlist_reverse(pid_t *pidList) FAST_FUNC;
int starts_with_cpu(const char *str) FAST_FUNC;
unsigned get_cpu_count(void) FAST_FUNC;
/* Use strict=1 if you process input from untrusted source:
* it will return NULL on invalid %xx (bad hex chars)
* and str + 1 if decoded char is / or NUL.
* In non-strict mode, it always succeeds (returns str),
* and also it additionally decoded '+' to space.
*/
char *percent_decode_in_place(char *str, int strict) FAST_FUNC;
uint32_t *crc32_filltable(uint32_t *tbl256, int endian) FAST_FUNC;
uint32_t crc32_block_endian1(uint32_t val, const void *buf, unsigned len, uint32_t *crc_table) FAST_FUNC;
uint32_t crc32_block_endian0(uint32_t val, const void *buf, unsigned len, uint32_t *crc_table) FAST_FUNC;
typedef struct masks_labels_t {
const char *labels;
const int masks[];
} masks_labels_t;
int print_flags_separated(const int *masks, const char *labels,
int flags, const char *separator) FAST_FUNC;
int print_flags(const masks_labels_t *ml, int flags) FAST_FUNC;
typedef struct bb_progress_t {
unsigned last_size;
unsigned last_update_sec;
unsigned last_change_sec;
unsigned start_sec;
const char *curfile;
} bb_progress_t;
#define is_bb_progress_inited(p) ((p)->curfile != NULL)
#define bb_progress_free(p) do { \
if (ENABLE_UNICODE_SUPPORT) free((char*)((p)->curfile)); \
(p)->curfile = NULL; \
} while (0)
void bb_progress_init(bb_progress_t *p, const char *curfile) FAST_FUNC;
void bb_progress_update(bb_progress_t *p,
uoff_t beg_range,
uoff_t transferred,
uoff_t totalsize) FAST_FUNC;
/* Some older linkers don't perform string merging, we used to have common strings
* as global arrays to do it by hand. But:
* (1) newer linkers do it themselves,
* (2) however, they DONT merge string constants with global arrays,
* even if the value is the same (!). Thus global arrays actually
* increased size a bit: for example, "/etc/passwd" string from libc
* wasn't merged with bb_path_passwd_file[] array!
* Therefore now we use #defines.
*/
/* "BusyBox vN.N.N (timestamp or extra_version)" */
extern const char bb_banner[] ALIGN1;
extern const char bb_msg_memory_exhausted[] ALIGN1;
extern const char bb_msg_invalid_date[] ALIGN1;
#define bb_msg_read_error "read error"
#define bb_msg_write_error "write error"
extern const char bb_msg_unknown[] ALIGN1;
extern const char bb_msg_can_not_create_raw_socket[] ALIGN1;
extern const char bb_msg_perm_denied_are_you_root[] ALIGN1;
extern const char bb_msg_you_must_be_root[] ALIGN1;
extern const char bb_msg_requires_arg[] ALIGN1;
extern const char bb_msg_invalid_arg[] ALIGN1;
extern const char bb_msg_standard_input[] ALIGN1;
extern const char bb_msg_standard_output[] ALIGN1;
/* NB: (bb_hexdigits_upcase[i] | 0x20) -> lowercase hex digit */
extern const char bb_hexdigits_upcase[] ALIGN1;
extern const char bb_path_wtmp_file[] ALIGN1;
#ifndef __GNO__
# define bb_dev_null "/dev/null"
#else
# define bb_dev_null ".null"
#endif
extern const int const_int_0;
extern const int const_int_1;
/* Providing hard guarantee on minimum size (think of BUFSIZ == 128) */
enum { COMMON_BUFSIZE = (BUFSIZ >= 256*sizeof(void*) ? BUFSIZ+1 : 256*sizeof(void*)) };
extern char bb_common_bufsiz1[COMMON_BUFSIZE];
/* At least gcc 3.4.6 on mipsel system needs optimization barrier */
#ifndef __ORCAC__
# define barrier() __asm__ __volatile__("":::"memory")
#else
# define barrier()
#endif
/* You can change LIBBB_DEFAULT_LOGIN_SHELL, but don't use it,
* use bb_default_login_shell and following defines.
* If you change LIBBB_DEFAULT_LOGIN_SHELL,
* don't forget to change increment constant. */
#define LIBBB_DEFAULT_LOGIN_SHELL "-/bin/sh"
#define ARRAY_SIZE(x) ((size_t)(sizeof(x) / sizeof((x)[0])))
/* ORCA/C will sometimes barf on the expression in ARRAY_SIZE, depending on the element type
* (e.g. for arrays of structs). When it does, use ARRAY_SIZE2 instead. */
#define ARRAY_SIZE2(x, elttype) ((size_t)(sizeof(x) / sizeof(elttype)))
/* We redefine ctype macros. Unicode-correct handling of char types
* can't be done with such byte-oriented operations anyway,
* we don't lose anything.
*/
#ifndef __ORCAC__
// ORCA/C barfs on (at least) isspace, so we'll just use the standard versions of these.
#undef isalnum
#undef isalpha
#undef isascii
#undef isblank
#undef iscntrl
#undef isdigit
#undef isgraph
#undef islower
#undef isprint
#undef ispunct
#undef isspace
#undef isupper
#undef isxdigit
#undef toupper
#undef tolower
/* We save ~500 bytes on isdigit alone.
* BTW, x86 likes (unsigned char) cast more than (unsigned). */
/* These work the same for ASCII and Unicode,
* assuming no one asks "is this a *Unicode* letter?" using isalpha(letter) */
#define isascii(a) ((unsigned char)(a) <= 0x7f)
#define isdigit(a) ((unsigned char)((a) - '0') <= 9)
#define isupper(a) ((unsigned char)((a) - 'A') <= ('Z' - 'A'))
#define islower(a) ((unsigned char)((a) - 'a') <= ('z' - 'a'))
#define isalpha(a) ((unsigned char)(((a)|0x20) - 'a') <= ('z' - 'a'))
#define isblank(a) ({ unsigned char bb__isblank = (a); bb__isblank == ' ' || bb__isblank == '\t'; })
#define iscntrl(a) ({ unsigned char bb__iscntrl = (a); bb__iscntrl < ' ' || bb__iscntrl == 0x7f; })
/* In POSIX/C locale isspace is only these chars: "\t\n\v\f\r" and space.
* "\t\n\v\f\r" happen to have ASCII codes 9,10,11,12,13.
*/
#define isspace(a) ({ unsigned char bb__isspace = (a) - 9; bb__isspace == (' ' - 9) || bb__isspace <= (13 - 9); })
// Unsafe wrt NUL: #define ispunct(a) (strchr("!\"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~", (a)) != NULL)
#define ispunct(a) (strchrnul("!\"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~", (a))[0])
// Bigger code: #define isalnum(a) ({ unsigned char bb__isalnum = (a) - '0'; bb__isalnum <= 9 || ((bb__isalnum - ('A' - '0')) & 0xdf) <= 25; })
#define isalnum(a) bb_ascii_isalnum(a)
static ALWAYS_INLINE int bb_ascii_isalnum(unsigned char a)
{
unsigned char b = a - '0';
if (b <= 9)
return (b <= 9);
b = (a|0x20) - 'a';
return b <= 'z' - 'a';
}
#define isxdigit(a) bb_ascii_isxdigit(a)
static ALWAYS_INLINE int bb_ascii_isxdigit(unsigned char a)
{
unsigned char b = a - '0';
if (b <= 9)
return (b <= 9);
b = (a|0x20) - 'a';
return b <= 'f' - 'a';
}
#define toupper(a) bb_ascii_toupper(a)
static ALWAYS_INLINE unsigned char bb_ascii_toupper(unsigned char a)
{
unsigned char b = a - 'a';
if (b <= ('z' - 'a'))
a -= 'a' - 'A';
return a;
}
#define tolower(a) bb_ascii_tolower(a)
static ALWAYS_INLINE unsigned char bb_ascii_tolower(unsigned char a)
{
unsigned char b = a - 'A';
if (b <= ('Z' - 'A'))
a += 'a' - 'A';
return a;
}
/* In ASCII and Unicode, these are likely to be very different.
* Let's prevent ambiguous usage from the start */
#define isgraph(a) isgraph_is_ambiguous_dont_use(a)
#define isprint(a) isprint_is_ambiguous_dont_use(a)
/* NB: must not treat EOF as isgraph or isprint */
#define isgraph_asciionly(a) ((unsigned)((a) - 0x21) <= 0x7e - 0x21)
#define isprint_asciionly(a) ((unsigned)((a) - 0x20) <= 0x7e - 0x20)
#endif /* !defined(__ORCAC__) */
/* Signal to the parent that it can resume executing after a fork,
* because the child is about to exec or terminate.
*/
int signal_parent_to_resume(void);
/* Get path of current executable */
char *get_exec_path(void);
/* Simple unit-testing framework */
typedef void (*bbunit_testfunc)(void);
struct bbunit_listelem {
struct bbunit_listelem* next;
const char* name;
bbunit_testfunc testfunc;
};
void bbunit_registertest(struct bbunit_listelem* test);
void bbunit_settestfailed(void);
#define BBUNIT_DEFINE_TEST(NAME) \
static void bbunit_##NAME##_test(void); \
static struct bbunit_listelem bbunit_##NAME##_elem = { \
.name = #NAME, \
.testfunc = bbunit_##NAME##_test, \
}; \
static void INIT_FUNC bbunit_##NAME##_register(void) \
{ \
bbunit_registertest(&bbunit_##NAME##_elem); \
} \
static void bbunit_##NAME##_test(void)
/*
* Both 'goto bbunit_end' and 'break' are here only to get rid
* of compiler warnings.
*/
#define BBUNIT_ENDTEST \
do { \
goto bbunit_end; \
bbunit_end: \
break; \
} while (0)
#define BBUNIT_PRINTASSERTFAIL \
do { \
bb_error_msg( \
"[ERROR] Assertion failed in file %s, line %d", \
__FILE__, __LINE__); \
} while (0)
#define BBUNIT_ASSERTION_FAILED \
do { \
bbunit_settestfailed(); \
goto bbunit_end; \
} while (0)
/*
* Assertions.
* For now we only offer assertions which cause tests to fail
* immediately. In the future 'expects' might be added too -
* similar to those offered by the gtest framework.
*/
#define BBUNIT_ASSERT_EQ(EXPECTED, ACTUAL) \
do { \
if ((EXPECTED) != (ACTUAL)) { \
BBUNIT_PRINTASSERTFAIL; \
bb_error_msg("[ERROR] '%s' isn't equal to '%s'", \
#EXPECTED, #ACTUAL); \
BBUNIT_ASSERTION_FAILED; \
} \
} while (0)
#define BBUNIT_ASSERT_NOTEQ(EXPECTED, ACTUAL) \
do { \
if ((EXPECTED) == (ACTUAL)) { \
BBUNIT_PRINTASSERTFAIL; \
bb_error_msg("[ERROR] '%s' is equal to '%s'", \
#EXPECTED, #ACTUAL); \
BBUNIT_ASSERTION_FAILED; \
} \
} while (0)
#define BBUNIT_ASSERT_NOTNULL(PTR) \
do { \
if ((PTR) == NULL) { \
BBUNIT_PRINTASSERTFAIL; \
bb_error_msg("[ERROR] '%s' is NULL!", #PTR); \
BBUNIT_ASSERTION_FAILED; \
} \
} while (0)
#define BBUNIT_ASSERT_NULL(PTR) \
do { \
if ((PTR) != NULL) { \
BBUNIT_PRINTASSERTFAIL; \
bb_error_msg("[ERROR] '%s' is not NULL!", #PTR); \
BBUNIT_ASSERTION_FAILED; \
} \
} while (0)
#define BBUNIT_ASSERT_FALSE(STATEMENT) \
do { \
if ((STATEMENT)) { \
BBUNIT_PRINTASSERTFAIL; \
bb_error_msg("[ERROR] Statement '%s' evaluated to true!", \
#STATEMENT); \
BBUNIT_ASSERTION_FAILED; \
} \
} while (0)
#define BBUNIT_ASSERT_TRUE(STATEMENT) \
do { \
if (!(STATEMENT)) { \
BBUNIT_PRINTASSERTFAIL; \
bb_error_msg("[ERROR] Statement '%s' evaluated to false!", \
#STATEMENT); \
BBUNIT_ASSERTION_FAILED; \
} \
} while (0)
#define BBUNIT_ASSERT_STREQ(STR1, STR2) \
do { \
if (strcmp(STR1, STR2) != 0) { \
BBUNIT_PRINTASSERTFAIL; \
bb_error_msg("[ERROR] Strings '%s' and '%s' " \
"are not the same", STR1, STR2); \
BBUNIT_ASSERTION_FAILED; \
} \
} while (0)
#define BBUNIT_ASSERT_STRNOTEQ(STR1, STR2) \
do { \
if (strcmp(STR1, STR2) == 0) { \
BBUNIT_PRINTASSERTFAIL; \
bb_error_msg("[ERROR] Strings '%s' and '%s' " \
"are the same, but were " \
"expected to differ", STR1, STR2); \
BBUNIT_ASSERTION_FAILED; \
} \
} while (0)
POP_SAVED_FUNCTION_VISIBILITY
#endif