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1.1 ! root 1: #ifndef lint ! 2: static char sccsid[] = "@(#)access.c 4.7 8/11/83"; ! 3: #endif ! 4: /* ! 5: * Adb: access data in file/process address space. ! 6: * ! 7: * The routines in this file access referenced data using ! 8: * the maps to access files, ptrace to access subprocesses, ! 9: * or the system page tables when debugging the kernel, ! 10: * to translate virtual to physical addresses. ! 11: */ ! 12: ! 13: #include "defs.h" ! 14: ! 15: ! 16: MAP txtmap; ! 17: MAP datmap; ! 18: INT wtflag; ! 19: STRING errflg; ! 20: INT errno; ! 21: ! 22: INT pid; ! 23: ! 24: /* ! 25: * Primitives: put a value in a space, get a value from a space ! 26: * and get a word or byte not returning if an error occurred. ! 27: */ ! 28: put(addr, space, value) ! 29: off_t addr; { (void) access(WT, addr, space, value); } ! 30: ! 31: u_int ! 32: get(addr, space) ! 33: off_t addr; { return (access(RD, addr, space, 0)); }; ! 34: ! 35: u_int ! 36: chkget(addr, space) ! 37: off_t addr; { u_int w = get(addr, space); chkerr(); return(w); } ! 38: ! 39: u_int ! 40: bchkget(addr, space) ! 41: off_t addr; { return(chkget(addr, space) & LOBYTE); } ! 42: ! 43: /* ! 44: * Read/write according to mode at address addr in i/d space. ! 45: * Value is quantity to be written, if write. ! 46: * ! 47: * This routine decides whether to get the data from the subprocess ! 48: * address space with ptrace, or to get it from the files being ! 49: * debugged. ! 50: * ! 51: * When the kernel is being debugged with the -k flag we interpret ! 52: * the system page tables for data space, mapping p0 and p1 addresses ! 53: * relative to the ``current'' process (as specified by its p_addr in ! 54: * <p) and mapping system space addresses through the system page tables. ! 55: */ ! 56: access(mode, addr, space, value) ! 57: int mode, space, value; ! 58: off_t addr; ! 59: { ! 60: int rd = mode == RD; ! 61: int file, w; ! 62: ! 63: if (space == NSP) ! 64: return(0); ! 65: if (pid) { ! 66: int pmode = (space&DSP?(rd?RDUSER:WDUSER):(rd?RIUSER:WIUSER)); ! 67: ! 68: w = ptrace(pmode, pid, addr, value); ! 69: if (errno) ! 70: rwerr(space); ! 71: return (w); ! 72: } ! 73: w = 0; ! 74: if (mode==WT && wtflag==0) ! 75: error("not in write mode"); ! 76: if (!chkmap(&addr, space)) ! 77: return (0); ! 78: file = (space&DSP) ? datmap.ufd : txtmap.ufd; ! 79: if (kernel && space == DSP) { ! 80: addr = vtophys(addr); ! 81: if (addr < 0) ! 82: return (0); ! 83: } ! 84: if (physrw(file, addr, rd ? &w : &value, rd) < 0) ! 85: rwerr(space); ! 86: return (w); ! 87: } ! 88: ! 89: /* ! 90: * When looking at kernel data space through /dev/mem or ! 91: * with a core file, do virtual memory mapping. ! 92: */ ! 93: vtophys(addr) ! 94: off_t addr; ! 95: { ! 96: int oldaddr = addr; ! 97: int v; ! 98: struct pte pte; ! 99: ! 100: addr &= ~0xc0000000; ! 101: v = btop(addr); ! 102: switch (oldaddr&0xc0000000) { ! 103: ! 104: case 0xc0000000: ! 105: case 0x80000000: ! 106: /* ! 107: * In system space get system pte. If ! 108: * valid or reclaimable then physical address ! 109: * is combination of its page number and the page ! 110: * offset of the original address. ! 111: */ ! 112: if (v >= slr) ! 113: goto oor; ! 114: addr = ((long)(sbr+v)) &~ 0x80000000; ! 115: goto simple; ! 116: ! 117: case 0x40000000: ! 118: /* ! 119: * In p1 space must not be in shadow region. ! 120: */ ! 121: if (v < pcb.pcb_p1lr) ! 122: goto oor; ! 123: addr = pcb.pcb_p1br+v; ! 124: break; ! 125: ! 126: case 0x00000000: ! 127: /* ! 128: * In p0 space must not be off end of region. ! 129: */ ! 130: if (v >= pcb.pcb_p0lr) ! 131: goto oor; ! 132: addr = pcb.pcb_p0br+v; ! 133: break; ! 134: oor: ! 135: errflg = "address out of segment"; ! 136: return (-1); ! 137: } ! 138: /* ! 139: * For p0/p1 address, user-level page table should ! 140: * be in kernel vm. Do second-level indirect by recursing. ! 141: */ ! 142: if ((addr & 0x80000000) == 0) { ! 143: errflg = "bad p0br or p1br in pcb"; ! 144: return (-1); ! 145: } ! 146: addr = vtophys(addr); ! 147: simple: ! 148: /* ! 149: * Addr is now address of the pte of the page we ! 150: * are interested in; get the pte and paste up the ! 151: * physical address. ! 152: */ ! 153: if (physrw(fcor, addr, (int *)&pte, 1) < 0) { ! 154: errflg = "page table botch"; ! 155: return (-1); ! 156: } ! 157: /* SHOULD CHECK NOT I/O ADDRESS; NEED CPU TYPE! */ ! 158: if (pte.pg_v == 0 && (pte.pg_fod || pte.pg_pfnum == 0)) { ! 159: errflg = "page not valid/reclaimable"; ! 160: return (-1); ! 161: } ! 162: return (ptob(pte.pg_pfnum) + (oldaddr & PGOFSET)); ! 163: } ! 164: ! 165: rwerr(space) ! 166: int space; ! 167: { ! 168: ! 169: if (space & DSP) ! 170: errflg = "data address not found"; ! 171: else ! 172: errflg = "text address not found"; ! 173: } ! 174: ! 175: physrw(file, addr, aw, rd) ! 176: off_t addr; ! 177: int *aw, rd; ! 178: { ! 179: ! 180: if (longseek(file,addr)==0 || ! 181: (rd ? read(file,aw,sizeof(int)) : write(file,aw,sizeof(int))) < 1) ! 182: return (-1); ! 183: return (0); ! 184: } ! 185: ! 186: chkmap(addr,space) ! 187: REG L_INT *addr; ! 188: REG INT space; ! 189: { ! 190: REG MAPPTR amap; ! 191: amap=((space&DSP?&datmap:&txtmap)); ! 192: IF space&STAR ORF !within(*addr,amap->b1,amap->e1) ! 193: THEN IF within(*addr,amap->b2,amap->e2) ! 194: THEN *addr += (amap->f2)-(amap->b2); ! 195: ELSE rwerr(space); return(0); ! 196: FI ! 197: ELSE *addr += (amap->f1)-(amap->b1); ! 198: FI ! 199: return(1); ! 200: } ! 201: ! 202: within(addr,lbd,ubd) ! 203: u_int addr, lbd, ubd; { return(addr>=lbd && addr<ubd); } ! 204: ! 205: longseek(f, a) ! 206: off_t a; { return(lseek(f, a, 0) != -1); }
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