1*a9fa9459Szrj /* Extended support for using errno values.
2*a9fa9459Szrj Written by Fred Fish. fnf@cygnus.com
3*a9fa9459Szrj This file is in the public domain. --Per Bothner. */
4*a9fa9459Szrj
5*a9fa9459Szrj #include "config.h"
6*a9fa9459Szrj
7*a9fa9459Szrj #ifdef HAVE_SYS_ERRLIST
8*a9fa9459Szrj /* Note that errno.h (not sure what OS) or stdio.h (BSD 4.4, at least)
9*a9fa9459Szrj might declare sys_errlist in a way that the compiler might consider
10*a9fa9459Szrj incompatible with our later declaration, perhaps by using const
11*a9fa9459Szrj attributes. So we hide the declaration in errno.h (if any) using a
12*a9fa9459Szrj macro. */
13*a9fa9459Szrj #define sys_nerr sys_nerr__
14*a9fa9459Szrj #define sys_errlist sys_errlist__
15*a9fa9459Szrj #endif
16*a9fa9459Szrj
17*a9fa9459Szrj #include "ansidecl.h"
18*a9fa9459Szrj #include "libiberty.h"
19*a9fa9459Szrj
20*a9fa9459Szrj #include <stdio.h>
21*a9fa9459Szrj #include <errno.h>
22*a9fa9459Szrj
23*a9fa9459Szrj #ifdef HAVE_SYS_ERRLIST
24*a9fa9459Szrj #undef sys_nerr
25*a9fa9459Szrj #undef sys_errlist
26*a9fa9459Szrj #endif
27*a9fa9459Szrj
28*a9fa9459Szrj /* Routines imported from standard C runtime libraries. */
29*a9fa9459Szrj
30*a9fa9459Szrj #ifdef HAVE_STDLIB_H
31*a9fa9459Szrj #include <stdlib.h>
32*a9fa9459Szrj #else
33*a9fa9459Szrj extern PTR malloc ();
34*a9fa9459Szrj #endif
35*a9fa9459Szrj
36*a9fa9459Szrj #ifdef HAVE_STRING_H
37*a9fa9459Szrj #include <string.h>
38*a9fa9459Szrj #else
39*a9fa9459Szrj extern PTR memset ();
40*a9fa9459Szrj #endif
41*a9fa9459Szrj
42*a9fa9459Szrj #ifndef MAX
43*a9fa9459Szrj # define MAX(a,b) ((a) > (b) ? (a) : (b))
44*a9fa9459Szrj #endif
45*a9fa9459Szrj
46*a9fa9459Szrj static void init_error_tables (void);
47*a9fa9459Szrj
48*a9fa9459Szrj /* Translation table for errno values. See intro(2) in most UNIX systems
49*a9fa9459Szrj Programmers Reference Manuals.
50*a9fa9459Szrj
51*a9fa9459Szrj Note that this table is generally only accessed when it is used at runtime
52*a9fa9459Szrj to initialize errno name and message tables that are indexed by errno
53*a9fa9459Szrj value.
54*a9fa9459Szrj
55*a9fa9459Szrj Not all of these errnos will exist on all systems. This table is the only
56*a9fa9459Szrj thing that should have to be updated as new error numbers are introduced.
57*a9fa9459Szrj It's sort of ugly, but at least its portable. */
58*a9fa9459Szrj
59*a9fa9459Szrj struct error_info
60*a9fa9459Szrj {
61*a9fa9459Szrj const int value; /* The numeric value from <errno.h> */
62*a9fa9459Szrj const char *const name; /* The equivalent symbolic value */
63*a9fa9459Szrj #ifndef HAVE_SYS_ERRLIST
64*a9fa9459Szrj const char *const msg; /* Short message about this value */
65*a9fa9459Szrj #endif
66*a9fa9459Szrj };
67*a9fa9459Szrj
68*a9fa9459Szrj #ifndef HAVE_SYS_ERRLIST
69*a9fa9459Szrj # define ENTRY(value, name, msg) {value, name, msg}
70*a9fa9459Szrj #else
71*a9fa9459Szrj # define ENTRY(value, name, msg) {value, name}
72*a9fa9459Szrj #endif
73*a9fa9459Szrj
74*a9fa9459Szrj static const struct error_info error_table[] =
75*a9fa9459Szrj {
76*a9fa9459Szrj #if defined (EPERM)
77*a9fa9459Szrj ENTRY(EPERM, "EPERM", "Not owner"),
78*a9fa9459Szrj #endif
79*a9fa9459Szrj #if defined (ENOENT)
80*a9fa9459Szrj ENTRY(ENOENT, "ENOENT", "No such file or directory"),
81*a9fa9459Szrj #endif
82*a9fa9459Szrj #if defined (ESRCH)
83*a9fa9459Szrj ENTRY(ESRCH, "ESRCH", "No such process"),
84*a9fa9459Szrj #endif
85*a9fa9459Szrj #if defined (EINTR)
86*a9fa9459Szrj ENTRY(EINTR, "EINTR", "Interrupted system call"),
87*a9fa9459Szrj #endif
88*a9fa9459Szrj #if defined (EIO)
89*a9fa9459Szrj ENTRY(EIO, "EIO", "I/O error"),
90*a9fa9459Szrj #endif
91*a9fa9459Szrj #if defined (ENXIO)
92*a9fa9459Szrj ENTRY(ENXIO, "ENXIO", "No such device or address"),
93*a9fa9459Szrj #endif
94*a9fa9459Szrj #if defined (E2BIG)
95*a9fa9459Szrj ENTRY(E2BIG, "E2BIG", "Arg list too long"),
96*a9fa9459Szrj #endif
97*a9fa9459Szrj #if defined (ENOEXEC)
98*a9fa9459Szrj ENTRY(ENOEXEC, "ENOEXEC", "Exec format error"),
99*a9fa9459Szrj #endif
100*a9fa9459Szrj #if defined (EBADF)
101*a9fa9459Szrj ENTRY(EBADF, "EBADF", "Bad file number"),
102*a9fa9459Szrj #endif
103*a9fa9459Szrj #if defined (ECHILD)
104*a9fa9459Szrj ENTRY(ECHILD, "ECHILD", "No child processes"),
105*a9fa9459Szrj #endif
106*a9fa9459Szrj #if defined (EWOULDBLOCK) /* Put before EAGAIN, sometimes aliased */
107*a9fa9459Szrj ENTRY(EWOULDBLOCK, "EWOULDBLOCK", "Operation would block"),
108*a9fa9459Szrj #endif
109*a9fa9459Szrj #if defined (EAGAIN)
110*a9fa9459Szrj ENTRY(EAGAIN, "EAGAIN", "No more processes"),
111*a9fa9459Szrj #endif
112*a9fa9459Szrj #if defined (ENOMEM)
113*a9fa9459Szrj ENTRY(ENOMEM, "ENOMEM", "Not enough space"),
114*a9fa9459Szrj #endif
115*a9fa9459Szrj #if defined (EACCES)
116*a9fa9459Szrj ENTRY(EACCES, "EACCES", "Permission denied"),
117*a9fa9459Szrj #endif
118*a9fa9459Szrj #if defined (EFAULT)
119*a9fa9459Szrj ENTRY(EFAULT, "EFAULT", "Bad address"),
120*a9fa9459Szrj #endif
121*a9fa9459Szrj #if defined (ENOTBLK)
122*a9fa9459Szrj ENTRY(ENOTBLK, "ENOTBLK", "Block device required"),
123*a9fa9459Szrj #endif
124*a9fa9459Szrj #if defined (EBUSY)
125*a9fa9459Szrj ENTRY(EBUSY, "EBUSY", "Device busy"),
126*a9fa9459Szrj #endif
127*a9fa9459Szrj #if defined (EEXIST)
128*a9fa9459Szrj ENTRY(EEXIST, "EEXIST", "File exists"),
129*a9fa9459Szrj #endif
130*a9fa9459Szrj #if defined (EXDEV)
131*a9fa9459Szrj ENTRY(EXDEV, "EXDEV", "Cross-device link"),
132*a9fa9459Szrj #endif
133*a9fa9459Szrj #if defined (ENODEV)
134*a9fa9459Szrj ENTRY(ENODEV, "ENODEV", "No such device"),
135*a9fa9459Szrj #endif
136*a9fa9459Szrj #if defined (ENOTDIR)
137*a9fa9459Szrj ENTRY(ENOTDIR, "ENOTDIR", "Not a directory"),
138*a9fa9459Szrj #endif
139*a9fa9459Szrj #if defined (EISDIR)
140*a9fa9459Szrj ENTRY(EISDIR, "EISDIR", "Is a directory"),
141*a9fa9459Szrj #endif
142*a9fa9459Szrj #if defined (EINVAL)
143*a9fa9459Szrj ENTRY(EINVAL, "EINVAL", "Invalid argument"),
144*a9fa9459Szrj #endif
145*a9fa9459Szrj #if defined (ENFILE)
146*a9fa9459Szrj ENTRY(ENFILE, "ENFILE", "File table overflow"),
147*a9fa9459Szrj #endif
148*a9fa9459Szrj #if defined (EMFILE)
149*a9fa9459Szrj ENTRY(EMFILE, "EMFILE", "Too many open files"),
150*a9fa9459Szrj #endif
151*a9fa9459Szrj #if defined (ENOTTY)
152*a9fa9459Szrj ENTRY(ENOTTY, "ENOTTY", "Not a typewriter"),
153*a9fa9459Szrj #endif
154*a9fa9459Szrj #if defined (ETXTBSY)
155*a9fa9459Szrj ENTRY(ETXTBSY, "ETXTBSY", "Text file busy"),
156*a9fa9459Szrj #endif
157*a9fa9459Szrj #if defined (EFBIG)
158*a9fa9459Szrj ENTRY(EFBIG, "EFBIG", "File too large"),
159*a9fa9459Szrj #endif
160*a9fa9459Szrj #if defined (ENOSPC)
161*a9fa9459Szrj ENTRY(ENOSPC, "ENOSPC", "No space left on device"),
162*a9fa9459Szrj #endif
163*a9fa9459Szrj #if defined (ESPIPE)
164*a9fa9459Szrj ENTRY(ESPIPE, "ESPIPE", "Illegal seek"),
165*a9fa9459Szrj #endif
166*a9fa9459Szrj #if defined (EROFS)
167*a9fa9459Szrj ENTRY(EROFS, "EROFS", "Read-only file system"),
168*a9fa9459Szrj #endif
169*a9fa9459Szrj #if defined (EMLINK)
170*a9fa9459Szrj ENTRY(EMLINK, "EMLINK", "Too many links"),
171*a9fa9459Szrj #endif
172*a9fa9459Szrj #if defined (EPIPE)
173*a9fa9459Szrj ENTRY(EPIPE, "EPIPE", "Broken pipe"),
174*a9fa9459Szrj #endif
175*a9fa9459Szrj #if defined (EDOM)
176*a9fa9459Szrj ENTRY(EDOM, "EDOM", "Math argument out of domain of func"),
177*a9fa9459Szrj #endif
178*a9fa9459Szrj #if defined (ERANGE)
179*a9fa9459Szrj ENTRY(ERANGE, "ERANGE", "Math result not representable"),
180*a9fa9459Szrj #endif
181*a9fa9459Szrj #if defined (ENOMSG)
182*a9fa9459Szrj ENTRY(ENOMSG, "ENOMSG", "No message of desired type"),
183*a9fa9459Szrj #endif
184*a9fa9459Szrj #if defined (EIDRM)
185*a9fa9459Szrj ENTRY(EIDRM, "EIDRM", "Identifier removed"),
186*a9fa9459Szrj #endif
187*a9fa9459Szrj #if defined (ECHRNG)
188*a9fa9459Szrj ENTRY(ECHRNG, "ECHRNG", "Channel number out of range"),
189*a9fa9459Szrj #endif
190*a9fa9459Szrj #if defined (EL2NSYNC)
191*a9fa9459Szrj ENTRY(EL2NSYNC, "EL2NSYNC", "Level 2 not synchronized"),
192*a9fa9459Szrj #endif
193*a9fa9459Szrj #if defined (EL3HLT)
194*a9fa9459Szrj ENTRY(EL3HLT, "EL3HLT", "Level 3 halted"),
195*a9fa9459Szrj #endif
196*a9fa9459Szrj #if defined (EL3RST)
197*a9fa9459Szrj ENTRY(EL3RST, "EL3RST", "Level 3 reset"),
198*a9fa9459Szrj #endif
199*a9fa9459Szrj #if defined (ELNRNG)
200*a9fa9459Szrj ENTRY(ELNRNG, "ELNRNG", "Link number out of range"),
201*a9fa9459Szrj #endif
202*a9fa9459Szrj #if defined (EUNATCH)
203*a9fa9459Szrj ENTRY(EUNATCH, "EUNATCH", "Protocol driver not attached"),
204*a9fa9459Szrj #endif
205*a9fa9459Szrj #if defined (ENOCSI)
206*a9fa9459Szrj ENTRY(ENOCSI, "ENOCSI", "No CSI structure available"),
207*a9fa9459Szrj #endif
208*a9fa9459Szrj #if defined (EL2HLT)
209*a9fa9459Szrj ENTRY(EL2HLT, "EL2HLT", "Level 2 halted"),
210*a9fa9459Szrj #endif
211*a9fa9459Szrj #if defined (EDEADLK)
212*a9fa9459Szrj ENTRY(EDEADLK, "EDEADLK", "Deadlock condition"),
213*a9fa9459Szrj #endif
214*a9fa9459Szrj #if defined (ENOLCK)
215*a9fa9459Szrj ENTRY(ENOLCK, "ENOLCK", "No record locks available"),
216*a9fa9459Szrj #endif
217*a9fa9459Szrj #if defined (EBADE)
218*a9fa9459Szrj ENTRY(EBADE, "EBADE", "Invalid exchange"),
219*a9fa9459Szrj #endif
220*a9fa9459Szrj #if defined (EBADR)
221*a9fa9459Szrj ENTRY(EBADR, "EBADR", "Invalid request descriptor"),
222*a9fa9459Szrj #endif
223*a9fa9459Szrj #if defined (EXFULL)
224*a9fa9459Szrj ENTRY(EXFULL, "EXFULL", "Exchange full"),
225*a9fa9459Szrj #endif
226*a9fa9459Szrj #if defined (ENOANO)
227*a9fa9459Szrj ENTRY(ENOANO, "ENOANO", "No anode"),
228*a9fa9459Szrj #endif
229*a9fa9459Szrj #if defined (EBADRQC)
230*a9fa9459Szrj ENTRY(EBADRQC, "EBADRQC", "Invalid request code"),
231*a9fa9459Szrj #endif
232*a9fa9459Szrj #if defined (EBADSLT)
233*a9fa9459Szrj ENTRY(EBADSLT, "EBADSLT", "Invalid slot"),
234*a9fa9459Szrj #endif
235*a9fa9459Szrj #if defined (EDEADLOCK)
236*a9fa9459Szrj ENTRY(EDEADLOCK, "EDEADLOCK", "File locking deadlock error"),
237*a9fa9459Szrj #endif
238*a9fa9459Szrj #if defined (EBFONT)
239*a9fa9459Szrj ENTRY(EBFONT, "EBFONT", "Bad font file format"),
240*a9fa9459Szrj #endif
241*a9fa9459Szrj #if defined (ENOSTR)
242*a9fa9459Szrj ENTRY(ENOSTR, "ENOSTR", "Device not a stream"),
243*a9fa9459Szrj #endif
244*a9fa9459Szrj #if defined (ENODATA)
245*a9fa9459Szrj ENTRY(ENODATA, "ENODATA", "No data available"),
246*a9fa9459Szrj #endif
247*a9fa9459Szrj #if defined (ETIME)
248*a9fa9459Szrj ENTRY(ETIME, "ETIME", "Timer expired"),
249*a9fa9459Szrj #endif
250*a9fa9459Szrj #if defined (ENOSR)
251*a9fa9459Szrj ENTRY(ENOSR, "ENOSR", "Out of streams resources"),
252*a9fa9459Szrj #endif
253*a9fa9459Szrj #if defined (ENONET)
254*a9fa9459Szrj ENTRY(ENONET, "ENONET", "Machine is not on the network"),
255*a9fa9459Szrj #endif
256*a9fa9459Szrj #if defined (ENOPKG)
257*a9fa9459Szrj ENTRY(ENOPKG, "ENOPKG", "Package not installed"),
258*a9fa9459Szrj #endif
259*a9fa9459Szrj #if defined (EREMOTE)
260*a9fa9459Szrj ENTRY(EREMOTE, "EREMOTE", "Object is remote"),
261*a9fa9459Szrj #endif
262*a9fa9459Szrj #if defined (ENOLINK)
263*a9fa9459Szrj ENTRY(ENOLINK, "ENOLINK", "Link has been severed"),
264*a9fa9459Szrj #endif
265*a9fa9459Szrj #if defined (EADV)
266*a9fa9459Szrj ENTRY(EADV, "EADV", "Advertise error"),
267*a9fa9459Szrj #endif
268*a9fa9459Szrj #if defined (ESRMNT)
269*a9fa9459Szrj ENTRY(ESRMNT, "ESRMNT", "Srmount error"),
270*a9fa9459Szrj #endif
271*a9fa9459Szrj #if defined (ECOMM)
272*a9fa9459Szrj ENTRY(ECOMM, "ECOMM", "Communication error on send"),
273*a9fa9459Szrj #endif
274*a9fa9459Szrj #if defined (EPROTO)
275*a9fa9459Szrj ENTRY(EPROTO, "EPROTO", "Protocol error"),
276*a9fa9459Szrj #endif
277*a9fa9459Szrj #if defined (EMULTIHOP)
278*a9fa9459Szrj ENTRY(EMULTIHOP, "EMULTIHOP", "Multihop attempted"),
279*a9fa9459Szrj #endif
280*a9fa9459Szrj #if defined (EDOTDOT)
281*a9fa9459Szrj ENTRY(EDOTDOT, "EDOTDOT", "RFS specific error"),
282*a9fa9459Szrj #endif
283*a9fa9459Szrj #if defined (EBADMSG)
284*a9fa9459Szrj ENTRY(EBADMSG, "EBADMSG", "Not a data message"),
285*a9fa9459Szrj #endif
286*a9fa9459Szrj #if defined (ENAMETOOLONG)
287*a9fa9459Szrj ENTRY(ENAMETOOLONG, "ENAMETOOLONG", "File name too long"),
288*a9fa9459Szrj #endif
289*a9fa9459Szrj #if defined (EOVERFLOW)
290*a9fa9459Szrj ENTRY(EOVERFLOW, "EOVERFLOW", "Value too large for defined data type"),
291*a9fa9459Szrj #endif
292*a9fa9459Szrj #if defined (ENOTUNIQ)
293*a9fa9459Szrj ENTRY(ENOTUNIQ, "ENOTUNIQ", "Name not unique on network"),
294*a9fa9459Szrj #endif
295*a9fa9459Szrj #if defined (EBADFD)
296*a9fa9459Szrj ENTRY(EBADFD, "EBADFD", "File descriptor in bad state"),
297*a9fa9459Szrj #endif
298*a9fa9459Szrj #if defined (EREMCHG)
299*a9fa9459Szrj ENTRY(EREMCHG, "EREMCHG", "Remote address changed"),
300*a9fa9459Szrj #endif
301*a9fa9459Szrj #if defined (ELIBACC)
302*a9fa9459Szrj ENTRY(ELIBACC, "ELIBACC", "Can not access a needed shared library"),
303*a9fa9459Szrj #endif
304*a9fa9459Szrj #if defined (ELIBBAD)
305*a9fa9459Szrj ENTRY(ELIBBAD, "ELIBBAD", "Accessing a corrupted shared library"),
306*a9fa9459Szrj #endif
307*a9fa9459Szrj #if defined (ELIBSCN)
308*a9fa9459Szrj ENTRY(ELIBSCN, "ELIBSCN", ".lib section in a.out corrupted"),
309*a9fa9459Szrj #endif
310*a9fa9459Szrj #if defined (ELIBMAX)
311*a9fa9459Szrj ENTRY(ELIBMAX, "ELIBMAX", "Attempting to link in too many shared libraries"),
312*a9fa9459Szrj #endif
313*a9fa9459Szrj #if defined (ELIBEXEC)
314*a9fa9459Szrj ENTRY(ELIBEXEC, "ELIBEXEC", "Cannot exec a shared library directly"),
315*a9fa9459Szrj #endif
316*a9fa9459Szrj #if defined (EILSEQ)
317*a9fa9459Szrj ENTRY(EILSEQ, "EILSEQ", "Illegal byte sequence"),
318*a9fa9459Szrj #endif
319*a9fa9459Szrj #if defined (ENOSYS)
320*a9fa9459Szrj ENTRY(ENOSYS, "ENOSYS", "Operation not applicable"),
321*a9fa9459Szrj #endif
322*a9fa9459Szrj #if defined (ELOOP)
323*a9fa9459Szrj ENTRY(ELOOP, "ELOOP", "Too many symbolic links encountered"),
324*a9fa9459Szrj #endif
325*a9fa9459Szrj #if defined (ERESTART)
326*a9fa9459Szrj ENTRY(ERESTART, "ERESTART", "Interrupted system call should be restarted"),
327*a9fa9459Szrj #endif
328*a9fa9459Szrj #if defined (ESTRPIPE)
329*a9fa9459Szrj ENTRY(ESTRPIPE, "ESTRPIPE", "Streams pipe error"),
330*a9fa9459Szrj #endif
331*a9fa9459Szrj #if defined (ENOTEMPTY)
332*a9fa9459Szrj ENTRY(ENOTEMPTY, "ENOTEMPTY", "Directory not empty"),
333*a9fa9459Szrj #endif
334*a9fa9459Szrj #if defined (EUSERS)
335*a9fa9459Szrj ENTRY(EUSERS, "EUSERS", "Too many users"),
336*a9fa9459Szrj #endif
337*a9fa9459Szrj #if defined (ENOTSOCK)
338*a9fa9459Szrj ENTRY(ENOTSOCK, "ENOTSOCK", "Socket operation on non-socket"),
339*a9fa9459Szrj #endif
340*a9fa9459Szrj #if defined (EDESTADDRREQ)
341*a9fa9459Szrj ENTRY(EDESTADDRREQ, "EDESTADDRREQ", "Destination address required"),
342*a9fa9459Szrj #endif
343*a9fa9459Szrj #if defined (EMSGSIZE)
344*a9fa9459Szrj ENTRY(EMSGSIZE, "EMSGSIZE", "Message too long"),
345*a9fa9459Szrj #endif
346*a9fa9459Szrj #if defined (EPROTOTYPE)
347*a9fa9459Szrj ENTRY(EPROTOTYPE, "EPROTOTYPE", "Protocol wrong type for socket"),
348*a9fa9459Szrj #endif
349*a9fa9459Szrj #if defined (ENOPROTOOPT)
350*a9fa9459Szrj ENTRY(ENOPROTOOPT, "ENOPROTOOPT", "Protocol not available"),
351*a9fa9459Szrj #endif
352*a9fa9459Szrj #if defined (EPROTONOSUPPORT)
353*a9fa9459Szrj ENTRY(EPROTONOSUPPORT, "EPROTONOSUPPORT", "Protocol not supported"),
354*a9fa9459Szrj #endif
355*a9fa9459Szrj #if defined (ESOCKTNOSUPPORT)
356*a9fa9459Szrj ENTRY(ESOCKTNOSUPPORT, "ESOCKTNOSUPPORT", "Socket type not supported"),
357*a9fa9459Szrj #endif
358*a9fa9459Szrj #if defined (EOPNOTSUPP)
359*a9fa9459Szrj ENTRY(EOPNOTSUPP, "EOPNOTSUPP", "Operation not supported on transport endpoint"),
360*a9fa9459Szrj #endif
361*a9fa9459Szrj #if defined (EPFNOSUPPORT)
362*a9fa9459Szrj ENTRY(EPFNOSUPPORT, "EPFNOSUPPORT", "Protocol family not supported"),
363*a9fa9459Szrj #endif
364*a9fa9459Szrj #if defined (EAFNOSUPPORT)
365*a9fa9459Szrj ENTRY(EAFNOSUPPORT, "EAFNOSUPPORT", "Address family not supported by protocol"),
366*a9fa9459Szrj #endif
367*a9fa9459Szrj #if defined (EADDRINUSE)
368*a9fa9459Szrj ENTRY(EADDRINUSE, "EADDRINUSE", "Address already in use"),
369*a9fa9459Szrj #endif
370*a9fa9459Szrj #if defined (EADDRNOTAVAIL)
371*a9fa9459Szrj ENTRY(EADDRNOTAVAIL, "EADDRNOTAVAIL","Cannot assign requested address"),
372*a9fa9459Szrj #endif
373*a9fa9459Szrj #if defined (ENETDOWN)
374*a9fa9459Szrj ENTRY(ENETDOWN, "ENETDOWN", "Network is down"),
375*a9fa9459Szrj #endif
376*a9fa9459Szrj #if defined (ENETUNREACH)
377*a9fa9459Szrj ENTRY(ENETUNREACH, "ENETUNREACH", "Network is unreachable"),
378*a9fa9459Szrj #endif
379*a9fa9459Szrj #if defined (ENETRESET)
380*a9fa9459Szrj ENTRY(ENETRESET, "ENETRESET", "Network dropped connection because of reset"),
381*a9fa9459Szrj #endif
382*a9fa9459Szrj #if defined (ECONNABORTED)
383*a9fa9459Szrj ENTRY(ECONNABORTED, "ECONNABORTED", "Software caused connection abort"),
384*a9fa9459Szrj #endif
385*a9fa9459Szrj #if defined (ECONNRESET)
386*a9fa9459Szrj ENTRY(ECONNRESET, "ECONNRESET", "Connection reset by peer"),
387*a9fa9459Szrj #endif
388*a9fa9459Szrj #if defined (ENOBUFS)
389*a9fa9459Szrj ENTRY(ENOBUFS, "ENOBUFS", "No buffer space available"),
390*a9fa9459Szrj #endif
391*a9fa9459Szrj #if defined (EISCONN)
392*a9fa9459Szrj ENTRY(EISCONN, "EISCONN", "Transport endpoint is already connected"),
393*a9fa9459Szrj #endif
394*a9fa9459Szrj #if defined (ENOTCONN)
395*a9fa9459Szrj ENTRY(ENOTCONN, "ENOTCONN", "Transport endpoint is not connected"),
396*a9fa9459Szrj #endif
397*a9fa9459Szrj #if defined (ESHUTDOWN)
398*a9fa9459Szrj ENTRY(ESHUTDOWN, "ESHUTDOWN", "Cannot send after transport endpoint shutdown"),
399*a9fa9459Szrj #endif
400*a9fa9459Szrj #if defined (ETOOMANYREFS)
401*a9fa9459Szrj ENTRY(ETOOMANYREFS, "ETOOMANYREFS", "Too many references: cannot splice"),
402*a9fa9459Szrj #endif
403*a9fa9459Szrj #if defined (ETIMEDOUT)
404*a9fa9459Szrj ENTRY(ETIMEDOUT, "ETIMEDOUT", "Connection timed out"),
405*a9fa9459Szrj #endif
406*a9fa9459Szrj #if defined (ECONNREFUSED)
407*a9fa9459Szrj ENTRY(ECONNREFUSED, "ECONNREFUSED", "Connection refused"),
408*a9fa9459Szrj #endif
409*a9fa9459Szrj #if defined (EHOSTDOWN)
410*a9fa9459Szrj ENTRY(EHOSTDOWN, "EHOSTDOWN", "Host is down"),
411*a9fa9459Szrj #endif
412*a9fa9459Szrj #if defined (EHOSTUNREACH)
413*a9fa9459Szrj ENTRY(EHOSTUNREACH, "EHOSTUNREACH", "No route to host"),
414*a9fa9459Szrj #endif
415*a9fa9459Szrj #if defined (EALREADY)
416*a9fa9459Szrj ENTRY(EALREADY, "EALREADY", "Operation already in progress"),
417*a9fa9459Szrj #endif
418*a9fa9459Szrj #if defined (EINPROGRESS)
419*a9fa9459Szrj ENTRY(EINPROGRESS, "EINPROGRESS", "Operation now in progress"),
420*a9fa9459Szrj #endif
421*a9fa9459Szrj #if defined (ESTALE)
422*a9fa9459Szrj ENTRY(ESTALE, "ESTALE", "Stale NFS file handle"),
423*a9fa9459Szrj #endif
424*a9fa9459Szrj #if defined (EUCLEAN)
425*a9fa9459Szrj ENTRY(EUCLEAN, "EUCLEAN", "Structure needs cleaning"),
426*a9fa9459Szrj #endif
427*a9fa9459Szrj #if defined (ENOTNAM)
428*a9fa9459Szrj ENTRY(ENOTNAM, "ENOTNAM", "Not a XENIX named type file"),
429*a9fa9459Szrj #endif
430*a9fa9459Szrj #if defined (ENAVAIL)
431*a9fa9459Szrj ENTRY(ENAVAIL, "ENAVAIL", "No XENIX semaphores available"),
432*a9fa9459Szrj #endif
433*a9fa9459Szrj #if defined (EISNAM)
434*a9fa9459Szrj ENTRY(EISNAM, "EISNAM", "Is a named type file"),
435*a9fa9459Szrj #endif
436*a9fa9459Szrj #if defined (EREMOTEIO)
437*a9fa9459Szrj ENTRY(EREMOTEIO, "EREMOTEIO", "Remote I/O error"),
438*a9fa9459Szrj #endif
439*a9fa9459Szrj ENTRY(0, NULL, NULL)
440*a9fa9459Szrj };
441*a9fa9459Szrj
442*a9fa9459Szrj #ifdef EVMSERR
443*a9fa9459Szrj /* This is not in the table, because the numeric value of EVMSERR (32767)
444*a9fa9459Szrj lies outside the range of sys_errlist[]. */
445*a9fa9459Szrj static struct { int value; const char *name, *msg; }
446*a9fa9459Szrj evmserr = { EVMSERR, "EVMSERR", "VMS-specific error" };
447*a9fa9459Szrj #endif
448*a9fa9459Szrj
449*a9fa9459Szrj /* Translation table allocated and initialized at runtime. Indexed by the
450*a9fa9459Szrj errno value to find the equivalent symbolic value. */
451*a9fa9459Szrj
452*a9fa9459Szrj static const char **error_names;
453*a9fa9459Szrj static int num_error_names = 0;
454*a9fa9459Szrj
455*a9fa9459Szrj /* Translation table allocated and initialized at runtime, if it does not
456*a9fa9459Szrj already exist in the host environment. Indexed by the errno value to find
457*a9fa9459Szrj the descriptive string.
458*a9fa9459Szrj
459*a9fa9459Szrj We don't export it for use in other modules because even though it has the
460*a9fa9459Szrj same name, it differs from other implementations in that it is dynamically
461*a9fa9459Szrj initialized rather than statically initialized. */
462*a9fa9459Szrj
463*a9fa9459Szrj #ifndef HAVE_SYS_ERRLIST
464*a9fa9459Szrj
465*a9fa9459Szrj #define sys_nerr sys_nerr__
466*a9fa9459Szrj #define sys_errlist sys_errlist__
467*a9fa9459Szrj static int sys_nerr;
468*a9fa9459Szrj static const char **sys_errlist;
469*a9fa9459Szrj
470*a9fa9459Szrj #else
471*a9fa9459Szrj
472*a9fa9459Szrj
473*a9fa9459Szrj #ifndef sys_nerr
474*a9fa9459Szrj extern int sys_nerr;
475*a9fa9459Szrj #endif
476*a9fa9459Szrj #ifndef sys_errlist
477*a9fa9459Szrj extern char *sys_errlist[];
478*a9fa9459Szrj #endif
479*a9fa9459Szrj
480*a9fa9459Szrj #endif
481*a9fa9459Szrj
482*a9fa9459Szrj /*
483*a9fa9459Szrj
484*a9fa9459Szrj NAME
485*a9fa9459Szrj
486*a9fa9459Szrj init_error_tables -- initialize the name and message tables
487*a9fa9459Szrj
488*a9fa9459Szrj SYNOPSIS
489*a9fa9459Szrj
490*a9fa9459Szrj static void init_error_tables ();
491*a9fa9459Szrj
492*a9fa9459Szrj DESCRIPTION
493*a9fa9459Szrj
494*a9fa9459Szrj Using the error_table, which is initialized at compile time, generate
495*a9fa9459Szrj the error_names and the sys_errlist (if needed) tables, which are
496*a9fa9459Szrj indexed at runtime by a specific errno value.
497*a9fa9459Szrj
498*a9fa9459Szrj BUGS
499*a9fa9459Szrj
500*a9fa9459Szrj The initialization of the tables may fail under low memory conditions,
501*a9fa9459Szrj in which case we don't do anything particularly useful, but we don't
502*a9fa9459Szrj bomb either. Who knows, it might succeed at a later point if we free
503*a9fa9459Szrj some memory in the meantime. In any case, the other routines know
504*a9fa9459Szrj how to deal with lack of a table after trying to initialize it. This
505*a9fa9459Szrj may or may not be considered to be a bug, that we don't specifically
506*a9fa9459Szrj warn about this particular failure mode.
507*a9fa9459Szrj
508*a9fa9459Szrj */
509*a9fa9459Szrj
510*a9fa9459Szrj static void
init_error_tables(void)511*a9fa9459Szrj init_error_tables (void)
512*a9fa9459Szrj {
513*a9fa9459Szrj const struct error_info *eip;
514*a9fa9459Szrj int nbytes;
515*a9fa9459Szrj
516*a9fa9459Szrj /* If we haven't already scanned the error_table once to find the maximum
517*a9fa9459Szrj errno value, then go find it now. */
518*a9fa9459Szrj
519*a9fa9459Szrj if (num_error_names == 0)
520*a9fa9459Szrj {
521*a9fa9459Szrj for (eip = error_table; eip -> name != NULL; eip++)
522*a9fa9459Szrj {
523*a9fa9459Szrj if (eip -> value >= num_error_names)
524*a9fa9459Szrj {
525*a9fa9459Szrj num_error_names = eip -> value + 1;
526*a9fa9459Szrj }
527*a9fa9459Szrj }
528*a9fa9459Szrj }
529*a9fa9459Szrj
530*a9fa9459Szrj /* Now attempt to allocate the error_names table, zero it out, and then
531*a9fa9459Szrj initialize it from the statically initialized error_table. */
532*a9fa9459Szrj
533*a9fa9459Szrj if (error_names == NULL)
534*a9fa9459Szrj {
535*a9fa9459Szrj nbytes = num_error_names * sizeof (char *);
536*a9fa9459Szrj if ((error_names = (const char **) malloc (nbytes)) != NULL)
537*a9fa9459Szrj {
538*a9fa9459Szrj memset (error_names, 0, nbytes);
539*a9fa9459Szrj for (eip = error_table; eip -> name != NULL; eip++)
540*a9fa9459Szrj {
541*a9fa9459Szrj error_names[eip -> value] = eip -> name;
542*a9fa9459Szrj }
543*a9fa9459Szrj }
544*a9fa9459Szrj }
545*a9fa9459Szrj
546*a9fa9459Szrj #ifndef HAVE_SYS_ERRLIST
547*a9fa9459Szrj
548*a9fa9459Szrj /* Now attempt to allocate the sys_errlist table, zero it out, and then
549*a9fa9459Szrj initialize it from the statically initialized error_table. */
550*a9fa9459Szrj
551*a9fa9459Szrj if (sys_errlist == NULL)
552*a9fa9459Szrj {
553*a9fa9459Szrj nbytes = num_error_names * sizeof (char *);
554*a9fa9459Szrj if ((sys_errlist = (const char **) malloc (nbytes)) != NULL)
555*a9fa9459Szrj {
556*a9fa9459Szrj memset (sys_errlist, 0, nbytes);
557*a9fa9459Szrj sys_nerr = num_error_names;
558*a9fa9459Szrj for (eip = error_table; eip -> name != NULL; eip++)
559*a9fa9459Szrj {
560*a9fa9459Szrj sys_errlist[eip -> value] = eip -> msg;
561*a9fa9459Szrj }
562*a9fa9459Szrj }
563*a9fa9459Szrj }
564*a9fa9459Szrj
565*a9fa9459Szrj #endif
566*a9fa9459Szrj
567*a9fa9459Szrj }
568*a9fa9459Szrj
569*a9fa9459Szrj /*
570*a9fa9459Szrj
571*a9fa9459Szrj
572*a9fa9459Szrj @deftypefn Extension int errno_max (void)
573*a9fa9459Szrj
574*a9fa9459Szrj Returns the maximum @code{errno} value for which a corresponding
575*a9fa9459Szrj symbolic name or message is available. Note that in the case where we
576*a9fa9459Szrj use the @code{sys_errlist} supplied by the system, it is possible for
577*a9fa9459Szrj there to be more symbolic names than messages, or vice versa. In
578*a9fa9459Szrj fact, the manual page for @code{perror(3C)} explicitly warns that one
579*a9fa9459Szrj should check the size of the table (@code{sys_nerr}) before indexing
580*a9fa9459Szrj it, since new error codes may be added to the system before they are
581*a9fa9459Szrj added to the table. Thus @code{sys_nerr} might be smaller than value
582*a9fa9459Szrj implied by the largest @code{errno} value defined in @code{<errno.h>}.
583*a9fa9459Szrj
584*a9fa9459Szrj We return the maximum value that can be used to obtain a meaningful
585*a9fa9459Szrj symbolic name or message.
586*a9fa9459Szrj
587*a9fa9459Szrj @end deftypefn
588*a9fa9459Szrj
589*a9fa9459Szrj */
590*a9fa9459Szrj
591*a9fa9459Szrj int
errno_max(void)592*a9fa9459Szrj errno_max (void)
593*a9fa9459Szrj {
594*a9fa9459Szrj int maxsize;
595*a9fa9459Szrj
596*a9fa9459Szrj if (error_names == NULL)
597*a9fa9459Szrj {
598*a9fa9459Szrj init_error_tables ();
599*a9fa9459Szrj }
600*a9fa9459Szrj maxsize = MAX (sys_nerr, num_error_names);
601*a9fa9459Szrj return (maxsize - 1);
602*a9fa9459Szrj }
603*a9fa9459Szrj
604*a9fa9459Szrj #ifndef HAVE_STRERROR
605*a9fa9459Szrj
606*a9fa9459Szrj /*
607*a9fa9459Szrj
608*a9fa9459Szrj @deftypefn Supplemental char* strerror (int @var{errnoval})
609*a9fa9459Szrj
610*a9fa9459Szrj Maps an @code{errno} number to an error message string, the contents
611*a9fa9459Szrj of which are implementation defined. On systems which have the
612*a9fa9459Szrj external variables @code{sys_nerr} and @code{sys_errlist}, these
613*a9fa9459Szrj strings will be the same as the ones used by @code{perror}.
614*a9fa9459Szrj
615*a9fa9459Szrj If the supplied error number is within the valid range of indices for
616*a9fa9459Szrj the @code{sys_errlist}, but no message is available for the particular
617*a9fa9459Szrj error number, then returns the string @samp{Error @var{num}}, where
618*a9fa9459Szrj @var{num} is the error number.
619*a9fa9459Szrj
620*a9fa9459Szrj If the supplied error number is not a valid index into
621*a9fa9459Szrj @code{sys_errlist}, returns @code{NULL}.
622*a9fa9459Szrj
623*a9fa9459Szrj The returned string is only guaranteed to be valid only until the
624*a9fa9459Szrj next call to @code{strerror}.
625*a9fa9459Szrj
626*a9fa9459Szrj @end deftypefn
627*a9fa9459Szrj
628*a9fa9459Szrj */
629*a9fa9459Szrj
630*a9fa9459Szrj char *
strerror(int errnoval)631*a9fa9459Szrj strerror (int errnoval)
632*a9fa9459Szrj {
633*a9fa9459Szrj const char *msg;
634*a9fa9459Szrj static char buf[32];
635*a9fa9459Szrj
636*a9fa9459Szrj #ifndef HAVE_SYS_ERRLIST
637*a9fa9459Szrj
638*a9fa9459Szrj if (error_names == NULL)
639*a9fa9459Szrj {
640*a9fa9459Szrj init_error_tables ();
641*a9fa9459Szrj }
642*a9fa9459Szrj
643*a9fa9459Szrj #endif
644*a9fa9459Szrj
645*a9fa9459Szrj if ((errnoval < 0) || (errnoval >= sys_nerr))
646*a9fa9459Szrj {
647*a9fa9459Szrj #ifdef EVMSERR
648*a9fa9459Szrj if (errnoval == evmserr.value)
649*a9fa9459Szrj msg = evmserr.msg;
650*a9fa9459Szrj else
651*a9fa9459Szrj #endif
652*a9fa9459Szrj /* Out of range, just return NULL */
653*a9fa9459Szrj msg = NULL;
654*a9fa9459Szrj }
655*a9fa9459Szrj else if ((sys_errlist == NULL) || (sys_errlist[errnoval] == NULL))
656*a9fa9459Szrj {
657*a9fa9459Szrj /* In range, but no sys_errlist or no entry at this index. */
658*a9fa9459Szrj sprintf (buf, "Error %d", errnoval);
659*a9fa9459Szrj msg = buf;
660*a9fa9459Szrj }
661*a9fa9459Szrj else
662*a9fa9459Szrj {
663*a9fa9459Szrj /* In range, and a valid message. Just return the message. */
664*a9fa9459Szrj msg = (char *) sys_errlist[errnoval];
665*a9fa9459Szrj }
666*a9fa9459Szrj
667*a9fa9459Szrj return (msg);
668*a9fa9459Szrj }
669*a9fa9459Szrj
670*a9fa9459Szrj #endif /* ! HAVE_STRERROR */
671*a9fa9459Szrj
672*a9fa9459Szrj
673*a9fa9459Szrj /*
674*a9fa9459Szrj
675*a9fa9459Szrj @deftypefn Replacement {const char*} strerrno (int @var{errnum})
676*a9fa9459Szrj
677*a9fa9459Szrj Given an error number returned from a system call (typically returned
678*a9fa9459Szrj in @code{errno}), returns a pointer to a string containing the
679*a9fa9459Szrj symbolic name of that error number, as found in @code{<errno.h>}.
680*a9fa9459Szrj
681*a9fa9459Szrj If the supplied error number is within the valid range of indices for
682*a9fa9459Szrj symbolic names, but no name is available for the particular error
683*a9fa9459Szrj number, then returns the string @samp{Error @var{num}}, where @var{num}
684*a9fa9459Szrj is the error number.
685*a9fa9459Szrj
686*a9fa9459Szrj If the supplied error number is not within the range of valid
687*a9fa9459Szrj indices, then returns @code{NULL}.
688*a9fa9459Szrj
689*a9fa9459Szrj The contents of the location pointed to are only guaranteed to be
690*a9fa9459Szrj valid until the next call to @code{strerrno}.
691*a9fa9459Szrj
692*a9fa9459Szrj @end deftypefn
693*a9fa9459Szrj
694*a9fa9459Szrj */
695*a9fa9459Szrj
696*a9fa9459Szrj const char *
strerrno(int errnoval)697*a9fa9459Szrj strerrno (int errnoval)
698*a9fa9459Szrj {
699*a9fa9459Szrj const char *name;
700*a9fa9459Szrj static char buf[32];
701*a9fa9459Szrj
702*a9fa9459Szrj if (error_names == NULL)
703*a9fa9459Szrj {
704*a9fa9459Szrj init_error_tables ();
705*a9fa9459Szrj }
706*a9fa9459Szrj
707*a9fa9459Szrj if ((errnoval < 0) || (errnoval >= num_error_names))
708*a9fa9459Szrj {
709*a9fa9459Szrj #ifdef EVMSERR
710*a9fa9459Szrj if (errnoval == evmserr.value)
711*a9fa9459Szrj name = evmserr.name;
712*a9fa9459Szrj else
713*a9fa9459Szrj #endif
714*a9fa9459Szrj /* Out of range, just return NULL */
715*a9fa9459Szrj name = NULL;
716*a9fa9459Szrj }
717*a9fa9459Szrj else if ((error_names == NULL) || (error_names[errnoval] == NULL))
718*a9fa9459Szrj {
719*a9fa9459Szrj /* In range, but no error_names or no entry at this index. */
720*a9fa9459Szrj sprintf (buf, "Error %d", errnoval);
721*a9fa9459Szrj name = (const char *) buf;
722*a9fa9459Szrj }
723*a9fa9459Szrj else
724*a9fa9459Szrj {
725*a9fa9459Szrj /* In range, and a valid name. Just return the name. */
726*a9fa9459Szrj name = error_names[errnoval];
727*a9fa9459Szrj }
728*a9fa9459Szrj
729*a9fa9459Szrj return (name);
730*a9fa9459Szrj }
731*a9fa9459Szrj
732*a9fa9459Szrj /*
733*a9fa9459Szrj
734*a9fa9459Szrj @deftypefn Extension int strtoerrno (const char *@var{name})
735*a9fa9459Szrj
736*a9fa9459Szrj Given the symbolic name of a error number (e.g., @code{EACCES}), map it
737*a9fa9459Szrj to an errno value. If no translation is found, returns 0.
738*a9fa9459Szrj
739*a9fa9459Szrj @end deftypefn
740*a9fa9459Szrj
741*a9fa9459Szrj */
742*a9fa9459Szrj
743*a9fa9459Szrj int
strtoerrno(const char * name)744*a9fa9459Szrj strtoerrno (const char *name)
745*a9fa9459Szrj {
746*a9fa9459Szrj int errnoval = 0;
747*a9fa9459Szrj
748*a9fa9459Szrj if (name != NULL)
749*a9fa9459Szrj {
750*a9fa9459Szrj if (error_names == NULL)
751*a9fa9459Szrj {
752*a9fa9459Szrj init_error_tables ();
753*a9fa9459Szrj }
754*a9fa9459Szrj for (errnoval = 0; errnoval < num_error_names; errnoval++)
755*a9fa9459Szrj {
756*a9fa9459Szrj if ((error_names[errnoval] != NULL) &&
757*a9fa9459Szrj (strcmp (name, error_names[errnoval]) == 0))
758*a9fa9459Szrj {
759*a9fa9459Szrj break;
760*a9fa9459Szrj }
761*a9fa9459Szrj }
762*a9fa9459Szrj if (errnoval == num_error_names)
763*a9fa9459Szrj {
764*a9fa9459Szrj #ifdef EVMSERR
765*a9fa9459Szrj if (strcmp (name, evmserr.name) == 0)
766*a9fa9459Szrj errnoval = evmserr.value;
767*a9fa9459Szrj else
768*a9fa9459Szrj #endif
769*a9fa9459Szrj errnoval = 0;
770*a9fa9459Szrj }
771*a9fa9459Szrj }
772*a9fa9459Szrj return (errnoval);
773*a9fa9459Szrj }
774*a9fa9459Szrj
775*a9fa9459Szrj
776*a9fa9459Szrj /* A simple little main that does nothing but print all the errno translations
777*a9fa9459Szrj if MAIN is defined and this file is compiled and linked. */
778*a9fa9459Szrj
779*a9fa9459Szrj #ifdef MAIN
780*a9fa9459Szrj
781*a9fa9459Szrj #include <stdio.h>
782*a9fa9459Szrj
783*a9fa9459Szrj int
main(void)784*a9fa9459Szrj main (void)
785*a9fa9459Szrj {
786*a9fa9459Szrj int errn;
787*a9fa9459Szrj int errnmax;
788*a9fa9459Szrj const char *name;
789*a9fa9459Szrj const char *msg;
790*a9fa9459Szrj char *strerror ();
791*a9fa9459Szrj
792*a9fa9459Szrj errnmax = errno_max ();
793*a9fa9459Szrj printf ("%d entries in names table.\n", num_error_names);
794*a9fa9459Szrj printf ("%d entries in messages table.\n", sys_nerr);
795*a9fa9459Szrj printf ("%d is max useful index.\n", errnmax);
796*a9fa9459Szrj
797*a9fa9459Szrj /* Keep printing values until we get to the end of *both* tables, not
798*a9fa9459Szrj *either* table. Note that knowing the maximum useful index does *not*
799*a9fa9459Szrj relieve us of the responsibility of testing the return pointer for
800*a9fa9459Szrj NULL. */
801*a9fa9459Szrj
802*a9fa9459Szrj for (errn = 0; errn <= errnmax; errn++)
803*a9fa9459Szrj {
804*a9fa9459Szrj name = strerrno (errn);
805*a9fa9459Szrj name = (name == NULL) ? "<NULL>" : name;
806*a9fa9459Szrj msg = strerror (errn);
807*a9fa9459Szrj msg = (msg == NULL) ? "<NULL>" : msg;
808*a9fa9459Szrj printf ("%-4d%-18s%s\n", errn, name, msg);
809*a9fa9459Szrj }
810*a9fa9459Szrj
811*a9fa9459Szrj return 0;
812*a9fa9459Szrj }
813*a9fa9459Szrj
814*a9fa9459Szrj #endif
815