ref: 19cc46bc5ee1dd43537c4094d19d8da778b72bce
dir: /sys/src/9/bcm/bootargs.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #define BOOTARGS ((char*)CONFADDR) #define BOOTARGSLEN ((KZERO+REBOOTADDR)-CONFADDR) #define MAXCONF 64 static char *confname[MAXCONF]; static char *confval[MAXCONF]; static int nconf; static char maxmem[256]; static int findconf(char *k) { int i; for(i = 0; i < nconf; i++) if(cistrcmp(confname[i], k) == 0) return i; return -1; } static void addconf(char *k, char *v) { int i; i = findconf(k); if(i < 0){ if(nconf >= MAXCONF) return; i = nconf++; confname[i] = k; } confval[i] = v; } static void plan9iniinit(char *s, int cmdline) { char *toks[MAXCONF]; int i, c, n; char *v; if((c = *s) < ' ' || c >= 0x80) return; if(cmdline) n = tokenize(s, toks, MAXCONF); else n = getfields(s, toks, MAXCONF, 1, "\n"); for(i = 0; i < n; i++){ if(toks[i][0] == '#') continue; v = strchr(toks[i], '='); if(v == nil) continue; *v++ = '\0'; addconf(toks[i], v); } } typedef struct Devtree Devtree; struct Devtree { uchar *base; uchar *end; char *stab; char path[1024]; }; enum { DtHeader = 0xd00dfeed, DtBeginNode = 1, DtEndNode = 2, DtProp = 3, DtEnd = 9, }; static u32int beget4(uchar *p) { return (u32int)p[0]<<24 | (u32int)p[1]<<16 | (u32int)p[2]<<8 | (u32int)p[3]; } static void devtreeprop(char *path, char *key, void *val, int len) { if((strcmp(path, "/memory") == 0 || strcmp(path, "/memory@0") == 0) && strcmp(key, "reg") == 0){ if(findconf("*maxmem") < 0 && len > 0 && (len % (3*4)) == 0){ uvlong top; uchar *p = val; char *s; top = (uvlong)beget4(p)<<32 | beget4(p+4); top += beget4(p+8); s = seprint(maxmem, &maxmem[sizeof(maxmem)], "%#llux", top); p += 3*4; len -= 3*4; while(len > 0){ top = (uvlong)beget4(p)<<32 | beget4(p+4); s = seprint(s, &maxmem[sizeof(maxmem)], " %#llux", top); top += beget4(p+8); s = seprint(s, &maxmem[sizeof(maxmem)], " %#llux", top); p += 3*4; len -= 3*4; } addconf("*maxmem", maxmem); } return; } if(strcmp(path, "/chosen") == 0 && strcmp(key, "bootargs") == 0){ if(len > BOOTARGSLEN) len = BOOTARGSLEN; memmove(BOOTARGS, val, len); plan9iniinit(BOOTARGS, 1); return; } } static uchar* devtreenode(Devtree *t, uchar *p, char *cp) { uchar *e = (uchar*)t->stab; char *s; int n; if(p+4 > e || beget4(p) != DtBeginNode) return nil; p += 4; if((s = memchr((char*)p, 0, e - p)) == nil) return nil; n = s - (char*)p; cp += n; if(cp >= &t->path[sizeof(t->path)]) return nil; memmove(cp - n, (char*)p, n); *cp = 0; p += (n + 4) & ~3; while(p+12 <= e && beget4(p) == DtProp){ n = beget4(p+4); if(p + 12 + n > e) return nil; s = t->stab + beget4(p+8); if(s < t->stab || s >= (char*)t->end || memchr(s, 0, (char*)t->end - s) == nil) return nil; devtreeprop(t->path, s, p+12, n); p += 12 + ((n + 3) & ~3); } while(p+4 <= e && beget4(p) == DtBeginNode){ *cp = '/'; p = devtreenode(t, p, cp+1); if(p == nil) return nil; } if(p+4 > e || beget4(p) != DtEndNode) return nil; return p+4; } static int parsedevtree(uchar *base, uintptr len) { Devtree t[1]; u32int total; if(len < 28 || beget4(base) != DtHeader) return -1; total = beget4(base+4); if(total < 28 || total > len) return -1; t->base = base; t->end = t->base + total; t->stab = (char*)base + beget4(base+12); if(t->stab >= (char*)t->end) return -1; devtreenode(t, base + beget4(base+8), t->path); return 0; } typedef struct Atag Atag; struct Atag { u32int size; /* size of atag in words, including this header */ u32int tag; /* atag type */ union { u32int data[1]; /* actually [size-2] */ /* AtagMem */ struct { u32int size; u32int base; } mem; /* AtagCmdLine */ char cmdline[1]; /* actually [4*(size-2)] */ }; }; enum { AtagNone = 0x00000000, AtagCore = 0x54410001, AtagMem = 0x54410002, AtagCmdline = 0x54410009, }; static int parseatags(char *base, uintptr len) { char x, *e = base; Atag *a; if(e+8 > base+len) return -1; a = (Atag*)e; if(a->tag != AtagCore) return -1; while(a->tag != AtagNone){ e += a->size * sizeof(u32int); if(a->size < 2 || e < (char*)a || e > base+len) break; switch(a->tag){ case AtagMem: if(findconf("*maxmem") < 0){ snprint(maxmem, sizeof(maxmem), "%ud", a->mem.base+a->mem.size); addconf("*maxmem", maxmem); } break; case AtagCmdline: x = *e; *e = 0; plan9iniinit(a->cmdline, 1); *e = x; break; } if(e+8 > base+len) break; a = (Atag*)e; } return 0; } void bootargsinit(uintptr pa) { uintptr len; /* * kernel gets DTB/ATAGS pointer in R0 on entry */ if(pa != 0 && (len = cankaddr(pa)) != 0){ void *va = KADDR(pa); if(parseatags(va, len) == 0 || parsedevtree(va, len) == 0) return; } /* * /dev/reboot case, check CONFADDR */ if(parseatags(BOOTARGS, BOOTARGSLEN) != 0) plan9iniinit(BOOTARGS, 0); } char* getconf(char *name) { int i; if((i = findconf(name)) < 0) return nil; return confval[i]; } void setconfenv(void) { int i; for(i = 0; i < nconf; i++){ if(confname[i][0] != '*') ksetenv(confname[i], confval[i], 0); ksetenv(confname[i], confval[i], 1); } } void writeconf(void) { char *p, *q; int n; p = getconfenv(); if(waserror()) { free(p); nexterror(); } /* convert to name=value\n format */ for(q=p; *q; q++) { q += strlen(q); *q = '='; q += strlen(q); *q = '\n'; } n = q - p + 1; if(n >= BOOTARGSLEN) error("kernel configuration too large"); memmove(BOOTARGS, p, n); memset(BOOTARGS+n, 0, BOOTARGSLEN-n); poperror(); free(p); }