| /* |
| * QuickThreads -- Threads-building toolkit. |
| * Copyright (c) 1993 by David Keppel |
| * |
| * Permission to use, copy, modify and distribute this software and |
| * its documentation for any purpose and without fee is hereby |
| * granted, provided that the above copyright notice and this notice |
| * appear in all copies. This software is provided as a |
| * proof-of-concept and for demonstration purposes; there is no |
| * representation about the suitability of this software for any |
| * purpose. |
| */ |
| |
| #include <stdarg.h> |
| #include "qt.h" |
| |
| /* Varargs is harder on the m88k. Parameters are saved on the stack as |
| something like (stack grows down to low memory; low at bottom of |
| picture): |
| |
| | : |
| | arg8 <-- va_list.__va_stk |
| +--- |
| | : |
| +--- |
| | arg7 |
| | : |
| | iarg0 <-- va_list.__va_reg |
| +--- |
| | : |
| | va_list { __va_arg, __va_stk, __va_reg } |
| | : |
| +--- |
| |
| Here, `va_list.__va_arg' is the number of word-size arguments |
| that have already been skipped. Doubles must be double-arligned. |
| |
| What this means for us is that the user's routine needs to be |
| called with an arg list where some of the words in the `__va_stk' |
| part of the parameter list have to be promoted to registers. |
| |
| BUG: doubleword register arguments must be double-aligned. If |
| something is passed as an even # arg and used as an odd # arg or |
| vice-versa, the code in the called routine (in the new thread) that |
| decides how to adjust the index will get it wrong, because it will |
| be expect it to be, say, doubleword aligned and it will really be |
| singleword aligned. |
| |
| I'm not sure you can solve this without knowing the types of all |
| the arguments. All in all, we never promised varargs would work |
| reliably. */ |
| |
| |
| |
| #define QUICKTHREADS_VADJ(sp) (((char *)sp) - QUICKTHREADS_VSTKBASE) |
| |
| /* Always allocate at least enough space for 8 args; waste some space |
| at the base of the stack to ensure the startup routine doesn't read |
| off the end of the stack. */ |
| |
| #define QUICKTHREADS_VARGS_MD0(sp, vabytes) \ |
| ((qt_t *)(((char *)(sp)) - 8*4 - QUICKTHREADS_STKROUNDUP(vabytes))) |
| |
| extern void qt_vstart(void); |
| #define QUICKTHREADS_VARGS_MD1(sp) (QUICKTHREADS_SPUT (sp, QUICKTHREADS_1, qt_vstart)) |
| |
| |
| struct qt_t * |
| qt_vargs (struct qt_t *qsp, int nbytes, void *vargs, |
| void *pt, qt_function_t *startup, |
| qt_function_t *vuserf, qt_function_t *cleanup) |
| { |
| va_list ap; |
| int i; |
| int n; /* Number of words into original arg list. */ |
| qt_word_t *sp; |
| int *reg; /* Where to read passed-in-reg args. */ |
| int *stk; /* Where to read passed-on-stk args. */ |
| |
| ap = *(va_list *)vargs; |
| qsp = QUICKTHREADS_VARGS_MD0 (qsp, nbytes); |
| sp = (qt_word_t *)qsp; |
| |
| reg = (ap.__va_arg < 8) |
| ? &ap.__va_reg[ap.__va_arg] |
| : 0; |
| stk = &ap.__va_stk[8]; |
| n = ap.__va_arg; |
| for (i=0; i<nbytes/sizeof(qt_word_t) && n<8; ++i,++n) { |
| sp[i] = *reg++; |
| } |
| for (; i<nbytes/sizeof(qt_word_t); ++i) { |
| sp[i] = *stk++; |
| } |
| |
| #ifdef QUICKTHREADS_NDEF |
| for (i=0; i<nbytes/sizeof(qt_word_t); ++i) { |
| sp[i] = (n < 8) |
| ? *reg++ |
| : *stk++; |
| ++n; |
| } |
| #endif |
| |
| QUICKTHREADS_VARGS_MD1 (QUICKTHREADS_VADJ(sp)); |
| QUICKTHREADS_SPUT (QUICKTHREADS_VADJ(sp), QUICKTHREADS_VARGT_INDEX, pt); |
| QUICKTHREADS_SPUT (QUICKTHREADS_VADJ(sp), QUICKTHREADS_VSTARTUP_INDEX, startup); |
| QUICKTHREADS_SPUT (QUICKTHREADS_VADJ(sp), QUICKTHREADS_VUSERF_INDEX, vuserf); |
| QUICKTHREADS_SPUT (QUICKTHREADS_VADJ(sp), QUICKTHREADS_VCLEANUP_INDEX, cleanup); |
| return ((qt_t *)QUICKTHREADS_VADJ(sp)); |
| } |
