ref: 1dbb193077af7ba6ff7fb70a4dd465480764382e
dir: /man/10/error/
.TH ERROR 10.2 .SH NAME error, nexterror, poperror, waserror \- error handling functions .SH SYNOPSIS .ta \w'\fLchar* 'u .B void error(char*) .PP .B void nexterror(void) .PP .B void poperror(void) .PP .B int waserror(void) .SH DESCRIPTION The kernel handles error conditions using non-local gotos, similar to .IR setjmp / longjmp in ANSI C, but using a stack of error labels to implement nested exception handling. This simplifies many of the internal interfaces by eliminating the need for returning and checking error codes at every level of the call stack, at the cost of requiring kernel routines to adhere to a strict discipline. .PP Each kernel process (see .IR kproc (10.2)) has in its defining .B Proc structure a stack of labels, currently 32 elements deep. A kernel function that must perform a clean up or recovery action on an error makes a stylised call to .IR waserror , .IR nexterror and .IR poperror : .IP .EX .DT if(waserror()){ /* recovery action */ nexterror(); } /* normal action */ poperror(); .EE .PP When called in the normal course of events, .I waserror registers an error handling block by pushing its label onto the stack, and returns zero. The return value of .I waserror should be tested as shown above. If non-zero (true), the calling function should perform the needed error recovery, ended by a call to .I nexterror to transfer control to the next location on the error stack. Typical recovery actions include deallocating memory, unlocking resources, and resetting state variables. .PP Within the recovery block, after handling an error condition, there must normally be a call to .I nexterror to transfer control to any error recovery lower down in the stack. The main exception is in the outermost function in a process, which must not call .I nexterror (there being nothing further on the stack), but calls .I pexit (see .IR kproc (10.2)) instead, to terminate the process. .PP When the need to recover a particular resource has passed, a function that has called .I waserror must remove the corresponding label from the stack by calling .IR poperror . This must be done before returning from the function; otherwise, a subsequent call to .I error will return to an obsolete activation record, with unpredictable but unpleasant consequences. .PP .I Error copies the given error message, which is limited to .B ERRMAX bytes, into the .B Osenv.errstr of the current process, enables interrupts by calling .I spllo .RI ( native only), and finally calls .I nexterror to start invoking the recovery procedures currently stacked by .IR waserror . The files .B /os/port/error.h and .B /emu/port/error.h offer a wide selection of predefined error messages, suitable for almost any occasion. The message set by the most recent call to .I error can be obtained within the kernel by examining .B up->env->error and in an application, by using the .L %r directive of .IR sys-print (2). .PP A complex function can have nested error handlers. A .I waserror block will follow the acquisition of a resource, releasing it on error before calling .I nexterror, and a .I poperror will precede its release in the normal case. For example: .IP .EX .DT void outer(Thing *t) { qlock(t); if(waserror()){ /* A */ qunlock(t); nexterror(); } m = mallocz(READSTR, 0); if(m == nil) error(Enomem); if(waserror()){ /* B */ free(m); nexterror(); /* invokes A */ } inner(t); poperror(); /* pops B */ free(m); poperror(); /* pops A */ qunlock(t); } .sp 1v void inner(Thing *t) { if(t->bad) error(Egreg); /* error() call returns to B */ t->valid++; } .EE .SH SOURCE .B /os/port/proc.c .br .B /emu/port/main.c .SH CAVEATS The description above has many instances of .IR should , .IR will , .I must and .IR "must not" . .SH SEE ALSO .IR panic (10.2)