/* * fs2dt: creates a flattened device-tree * * Copyright (C) 2004,2005 Milton D Miller II, IBM Corporation * Copyright (C) 2005 R Sharada (sharada@in.ibm.com), IBM Corporation * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation (version 2 of the License). * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include "../../kexec.h" #include "kexec-ppc.h" #include "types.h" #define MAXPATH 1024 /* max path name length */ #define NAMESPACE 16384 /* max bytes for property names */ #define TREEWORDS 65536 /* max 32 bit words for properties */ #define MEMRESERVE 256 /* max number of reserved memory blks */ #define MAX_MEMORY_RANGES 1024 static char pathname[MAXPATH]; static char propnames[NAMESPACE] = { 0 }; static unsigned dtstruct[TREEWORDS], *dt; static unsigned long long mem_rsrv[2*MEMRESERVE] = { 0, 0 }; static int crash_param; static char local_cmdline[COMMAND_LINE_SIZE] = { "" }; static unsigned *dt_len; /* changed len of modified cmdline in flat device-tree */ static struct bootblock bb[1]; void reserve(unsigned long long where, unsigned long long length) { size_t offset; for (offset = 0; mem_rsrv[offset + 1]; offset += 2) ; if (offset + 4 >= 2 * MEMRESERVE) die("unrecoverable error: exhasuted reservation meta data\n"); mem_rsrv[offset] = where; mem_rsrv[offset + 1] = length; mem_rsrv[offset + 3] = 0; /* N.B: don't care about offset + 2 */ } /* look for properties we need to reserve memory space for */ static void checkprop(char *name, unsigned *data, int len) { static unsigned long long base, size, end; if ((data == NULL) && (base || size || end)) die("unrecoverable error: no property data"); else if (!strcmp(name, "linux,rtas-base")) base = *data; else if (!strcmp(name, "linux,tce-base")) base = *(unsigned long long *) data; else if (!strcmp(name, "rtas-size") || !strcmp(name, "linux,tce-size")) size = *data; else if (reuse_initrd && !strcmp(name, "linux,initrd-start")) if (len == 8) base = *(unsigned long long *) data; else base = *data; else if (reuse_initrd && !strcmp(name, "linux,initrd-end")) end = *(unsigned long long *) data; if (size && end) die("unrecoverable error: size and end set at same time\n"); if (base && size) { reserve(base, size); base = 0; size = 0; } if (base && end) { reserve(base, end-base); base = 0; end = 0; } } /* * return the property index for a property name, creating a new one * if needed. */ static unsigned propnum(const char *name) { unsigned offset = 0; while (propnames[offset]) if (strcmp(name, propnames+offset)) offset += strlen(propnames+offset)+1; else return offset; if (NAMESPACE - offset < strlen(name) + 1) die("unrecoverable error: propnames overrun\n"); strcpy(propnames+offset, name); return offset; } static void add_usable_mem_property(int fd, int len) { char fname[MAXPATH], *bname; unsigned long buf[2]; unsigned long ranges[2*MAX_MEMORY_RANGES]; unsigned long long base, end, loc_base, loc_end; int range, rlen = 0; strcpy(fname, pathname); bname = strrchr(fname, '/'); bname[0] = '\0'; bname = strrchr(fname, '/'); if (strncmp(bname, "/memory@", 8) && strcmp(bname, "/memory")) return; if (lseek(fd, 0, SEEK_SET) < 0) die("unrecoverable error: error seeking in \"%s\": %s\n", pathname, strerror(errno)); if (read_memory_region_limits(fd, &base, &end) != 0) die("unrecoverable error: error parsing memory/reg limits\n"); for (range = 0; range < usablemem_rgns.size; range++) { loc_base = usablemem_rgns.ranges[range].start; loc_end = usablemem_rgns.ranges[range].end; if (loc_base >= base && loc_end <= end) { ranges[rlen++] = loc_base; ranges[rlen++] = loc_end - loc_base; } else if (base < loc_end && end > loc_base) { if (loc_base < base) loc_base = base; if (loc_end > end) loc_end = end; ranges[rlen++] = loc_base; ranges[rlen++] = loc_end - loc_base; } } if (!rlen) { /* * User did not pass any ranges for thsi region. Hence, write * (0,0) duple in linux,usable-memory property such that * this region will be ignored. */ ranges[rlen++] = 0; ranges[rlen++] = 0; } rlen = rlen * sizeof(unsigned long); /* * No add linux,usable-memory property. */ *dt++ = 3; *dt++ = rlen; *dt++ = propnum("linux,usable-memory"); memcpy(dt, &ranges, rlen); dt += (rlen + 3)/4; } /* put all properties (files) in the property structure */ static void putprops(char *fn, struct dirent **nlist, int numlist) { struct dirent *dp; int i = 0, fd, len; struct stat statbuf; for (i = 0; i < numlist; i++) { dp = nlist[i]; strcpy(fn, dp->d_name); if (!strcmp(dp->d_name, ".") || !strcmp(dp->d_name, "..")) continue; if (lstat(pathname, &statbuf)) die("unrecoverable error: could not stat \"%s\": %s\n", pathname, strerror(errno)); if (!crash_param && !strcmp(fn, "linux,crashkernel-base")) continue; if (!crash_param && !strcmp(fn, "linux,crashkernel-size")) continue; /* * This property will be created for each node during kexec * boot. So, ignore it. */ if (!strcmp(dp->d_name, "linux,pci-domain") || !strcmp(dp->d_name, "linux,htab-base") || !strcmp(dp->d_name, "linux,htab-size") || !strcmp(dp->d_name, "linux,kernel-end") || !strcmp(dp->d_name, "linux,usable-memory")) continue; /* This property will be created/modified later in putnode() * So ignore it, unless we are reusing the initrd. */ if ((!strcmp(dp->d_name, "linux,initrd-start") || !strcmp(dp->d_name, "linux,initrd-end")) && !reuse_initrd) continue; if (!S_ISREG(statbuf.st_mode)) continue; len = statbuf.st_size; *dt++ = 3; dt_len = dt; *dt++ = len; *dt++ = propnum(fn); fd = open(pathname, O_RDONLY); if (fd == -1) die("unrecoverable error: could not open \"%s\": %s\n", pathname, strerror(errno)); if (read(fd, dt, len) != len) die("unrecoverable error: could not read \"%s\": %s\n", pathname, strerror(errno)); checkprop(fn, dt, len); /* Get the cmdline from the device-tree and modify it */ if (!strcmp(dp->d_name, "bootargs")) { int cmd_len; char temp_cmdline[COMMAND_LINE_SIZE] = { "" }; char *param = NULL; cmd_len = strlen(local_cmdline); if (cmd_len != 0) { param = strstr(local_cmdline, "crashkernel="); if (param) crash_param = 1; param = strstr(local_cmdline, "root="); } if (!param) { char *old_param; memcpy(temp_cmdline, dt, len); param = strstr(temp_cmdline, "root="); if (param) { old_param = strtok(param, " "); if (cmd_len != 0) strcat(local_cmdline, " "); strcat(local_cmdline, old_param); } } strcat(local_cmdline, " "); cmd_len = strlen(local_cmdline); cmd_len = cmd_len + 1; memcpy(dt, local_cmdline, cmd_len); len = cmd_len; *dt_len = cmd_len; dbgprintf("Modified cmdline:%s\n", local_cmdline); } dt += (len + 3)/4; if (!strcmp(dp->d_name, "reg") && usablemem_rgns.size) add_usable_mem_property(fd, len); close(fd); } fn[0] = '\0'; checkprop(pathname, NULL, 0); } /* * Compare function used to sort the device-tree directories * This function will be passed to scandir. */ static int comparefunc(const void *dentry1, const void *dentry2) { char *str1 = (*(struct dirent **)dentry1)->d_name; char *str2 = (*(struct dirent **)dentry2)->d_name; char *p1, *p2; int res = 0, max_len; /* * strcmp scans from left to right and fails to idetify for some * strings such as memory@10000000 and memory@f000000. * Therefore, we get the wrong sorted order like memory@10000000 and * memory@f000000. */ if ((p1 = strchr(str1, '@')) && (p2 = strchr(str2, '@'))) { max_len = max(p1 - str1, p2 - str2); if ((res = strncmp(str1, str2, max_len)) == 0) { /* prefix is equal - compare part after '@' by length */ p1++; p2++; res = strlen(p1) - strlen(p2); if (res == 0) /* equal length, compare by strcmp() */ res = strcmp(p1,p2); } } else { res = strcmp(str1, str2); } return res; } /* * put a node (directory) in the property structure. first properties * then children. */ static void putnode(void) { char *dn; struct dirent *dp; char *basename; struct dirent **namelist; int numlist, i; struct stat statbuf; numlist = scandir(pathname, &namelist, 0, comparefunc); if (numlist < 0) die("unrecoverable error: could not scan \"%s\": %s\n", pathname, strerror(errno)); if (numlist == 0) die("unrecoverable error: no directory entries in \"%s\"", pathname); basename = strrchr(pathname, '/') + 1; *dt++ = 1; strcpy((void *)dt, *basename ? basename : ""); dt += strlen((void *)dt) / sizeof(unsigned) + 1; strcat(pathname, "/"); dn = pathname + strlen(pathname); putprops(dn, namelist, numlist); /* * Add initrd entries to the second kernel * if * a) a ramdisk is specified in cmdline * OR * b) reuseinitrd is specified and a initrd is * used by the kernel. * */ if ((ramdisk || (initrd_base && reuse_initrd)) && !strcmp(basename, "chosen/")) { int len = 8; unsigned long long initrd_end; *dt++ = 3; *dt++ = len; *dt++ = propnum("linux,initrd-start"); memcpy(dt, &initrd_base, len); dt += (len + 3)/4; len = 8; *dt++ = 3; *dt++ = len; *dt++ = propnum("linux,initrd-end"); initrd_end = initrd_base + initrd_size; memcpy(dt, &initrd_end, len); dt += (len + 3)/4; /* reserve the existing initrd image in case of reuse_initrd */ if (initrd_base && initrd_size && reuse_initrd) reserve(initrd_base, initrd_size); } for (i = 0; i < numlist; i++) { dp = namelist[i]; strcpy(dn, dp->d_name); free(namelist[i]); if (!strcmp(dn, ".") || !strcmp(dn, "..")) continue; if (lstat(pathname, &statbuf)) die("unrecoverable error: could not stat \"%s\": %s\n", pathname, strerror(errno)); if (S_ISDIR(statbuf.st_mode)) putnode(); } *dt++ = 2; dn[-1] = '\0'; free(namelist); } int create_flatten_tree(struct kexec_info *info, unsigned char **bufp, unsigned long *sizep, char *cmdline) { unsigned long len; unsigned long tlen; unsigned char *buf; unsigned long me; me = 0; strcpy(pathname, "/proc/device-tree/"); dt = dtstruct; if (cmdline) strcpy(local_cmdline, cmdline); putnode(); *dt++ = 9; len = _ALIGN(sizeof(bb[0]), 8); bb->off_mem_rsvmap = len; for (len = 1; mem_rsrv[len]; len += 2) ; len += 3; len *= sizeof(mem_rsrv[0]); bb->off_dt_struct = bb->off_mem_rsvmap + len; len = dt - dtstruct; len *= sizeof(unsigned); bb->dt_struct_size = len; bb->off_dt_strings = bb->off_dt_struct + len; len = propnum(""); bb->dt_strings_size = len; len = _ALIGN(len, 4); bb->totalsize = bb->off_dt_strings + len; bb->magic = 0xd00dfeed; bb->version = 17; bb->last_comp_version = 16; reserve(me, bb->totalsize); /* patched later in kexec_load */ buf = (unsigned char *) malloc(bb->totalsize); *bufp = buf; memcpy(buf, bb, bb->off_mem_rsvmap); tlen = bb->off_mem_rsvmap; memcpy(buf+tlen, mem_rsrv, bb->off_dt_struct - bb->off_mem_rsvmap); tlen = tlen + (bb->off_dt_struct - bb->off_mem_rsvmap); memcpy(buf+tlen, dtstruct, bb->off_dt_strings - bb->off_dt_struct); tlen = tlen + (bb->off_dt_strings - bb->off_dt_struct); memcpy(buf+tlen, propnames, bb->totalsize - bb->off_dt_strings); tlen = tlen + bb->totalsize - bb->off_dt_strings; *sizep = tlen; return 0; }