ref: f0b565742993646ac2c7939e3a89f44c2515fbe6
dir: /os/boot/rpcg/trap.c/
#include "boot.h" enum { Maxhandler= 32+16, /* max number of interrupt handlers */ }; typedef struct Handler Handler; struct Handler { void (*r)(Ureg*, void*); void *arg; Handler *next; int edge; }; struct { Handler *ivec[128]; Handler h[Maxhandler]; int free; } halloc; char *excname[] = { "reserved 0", "system reset", "machine check", "data access", "instruction access", "external interrupt", "alignment", "program exception", "floating-point unavailable", "decrementer", "reserved A", "reserved B", "system call", "trace trap", "floating point assist", "reserved F", "software emulation", "ITLB miss", "DTLB miss", "ITLB error", "DTLB error", }; char *regname[]={ "CAUSE", "SRR1", "PC", "GOK", "LR", "CR", "XER", "CTR", "R0", "R1", "R2", "R3", "R4", "R5", "R6", "R7", "R8", "R9", "R10", "R11", "R12", "R13", "R14", "R15", "R16", "R17", "R18", "R19", "R20", "R21", "R22", "R23", "R24", "R25", "R26", "R27", "R28", "R29", "R30", "R31", }; static void intr(Ureg*); void sethvec(int v, void (*r)(void)) { ulong *vp, pa, o; if((ulong)r & 3) panic("sethvec"); vp = (ulong*)KADDR(v); vp[0] = 0x7c1043a6; /* MOVW R0, SPR(SPRG0) */ vp[1] = 0x7c0802a6; /* MOVW LR, R0 */ vp[2] = 0x7c1243a6; /* MOVW R0, SPR(SPRG2) */ pa = PADDR(r); o = pa >> 25; if(o != 0 && o != 0x7F){ /* a branch too far: running from ROM */ vp[3] = (15<<26)|(pa>>16); /* MOVW $r&~0xFFFF, R0 */ vp[4] = (24<<26)|(pa&0xFFFF); /* OR $r&0xFFFF, R0 */ vp[5] = 0x7c0803a6; /* MOVW R0, LR */ vp[6] = 0x4e800021; /* BL (LR) */ }else vp[3] = (18<<26)|(pa&0x3FFFFFC)|3; /* bla */ } #define LEV(n) (((n)<<1)|1) #define IRQ(n) (((n)<<1)|0) void setvec(int v, void (*r)(Ureg*, void*), void *arg) { Handler *h; IMM *io; if(halloc.free >= Maxhandler) panic("out of interrupt handlers"); v -= VectorPIC; h = &halloc.h[halloc.free++]; h->next = halloc.ivec[v]; h->r = r; h->arg = arg; halloc.ivec[v] = h; /* * enable corresponding interrupt in SIU/CPM */ io = m->iomem; if(v >= VectorCPIC){ v -= VectorCPIC; io->cimr |= 1<<(v&0x1F); } else if(v >= VectorIRQ) io->simask |= 1<<(31-IRQ(v&7)); else io->simask |= 1<<(31-LEV(v)); } void trapinit(void) { int i; IMM *io; io = m->iomem; io->sypcr &= ~(3<<2); /* disable watchdog (821/823) */ io->simask = 0; /* mask all */ io->siel = ~0; /* edge sensitive, wake on all */ io->cicr = 0; /* disable CPM interrupts */ io->cipr = ~0; /* clear all interrupts */ io->cimr = 0; /* mask all events */ io->cicr = (0xE1<<16)|(CPIClevel<<13)|(0x1F<<8); io->cicr |= 1 << 7; /* enable */ io->tbscrk = KEEP_ALIVE_KEY; io->tbscr = 1; /* TBE */ io->simask |= 1<<(31-LEV(CPIClevel)); /* CPM's level */ io->tbk = KEEP_ALIVE_KEY; eieio(); putdec(~0); /* * set all exceptions to trap */ for(i = 0x0; i < 0x3000; i += 0x100) sethvec(i, exception); } void dumpregs(Ureg *ur) { int i; ulong *l; l = &ur->cause; for(i=0; i<sizeof regname/sizeof(char*); i+=2, l+=2) print("%s\t%.8lux\t%s\t%.8lux\n", regname[i], l[0], regname[i+1], l[1]); } void trap(Ureg *ur) { int c; c = ur->cause >> 8; switch(c){ default: {extern int predawn; predawn = 1;} if(c < 0 || c >= nelem(excname)) print("exception/interrupt #%x\n", c); else print("exception %s\n", excname[c]); dumpregs(ur); /* spllo(); */ print("^P to reset\n"); for(;;) ; case 0x09: /* decrementer */ clockintr(ur, 0); return; case 0x05: /* external interrupt */ intr(ur); break; } } static void intr(Ureg *ur) { int b, v; Handler *h; IMM *io; io = m->iomem; b = io->sivec>>2; v = b>>1; if(b & 1) { if(v == CPIClevel){ io->civr = 1; eieio(); v = VectorCPIC+(io->civr>>11); } }else v += VectorIRQ; h = halloc.ivec[v]; if(h == nil){ for(;;) ; //print("unknown interrupt %d pc=0x%lux\n", v, ur->pc); return; } if(h->edge) io->sipend |= 1<<(31-b); /* * call the interrupt handlers */ do { (*h->r)(ur, h->arg); h = h->next; } while(h != nil); if(v >= VectorCPIC) io->cisr |= 1<<(v-VectorCPIC); }