FreeCalypso > hg > freecalypso-tools
view ffstools/tiffs-rd/tree.c @ 505:7bf0d909c87e
fc-loadtool flash ID check: change of reset after the check logic
This change only affects those flash configurations that have ID checks
enabled. The logic for resetting the flash after the ID check has been
changed as follows:
1) If the check fails, we return without attempting to reset the flash.
2) If the check is successful, we reset the flash using the configured
method (could be AMD or Intel or Intel W30) instead of always doing an
AMD flash reset as the original code did.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 27 May 2019 19:58:01 +0000 |
| parents | e7502631a0f9 |
| children | 1f27fc13eab7 |
line wrap: on
line source
/* * This C module implements operations on the tree level. */ #include <sys/types.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <strings.h> #include "types.h" #include "struct.h" #include "globals.h" #include "pathname.h" static void visible_walk_dir(pathbuf_start, pathbuf_ptr, dirino, depth, callback) char *pathbuf_start, *pathbuf_ptr; void (*callback)(); { int ndepth = depth + 1; int child; struct inode_info *inf; if (depth > MAX_DIR_NEST) { fprintf(stderr, "error: max dir nesting exceeded at inode #%x\n", dirino); return; } for (child = inode_info[dirino]->descend; child; child = inf->sibling) { if (!validate_inode(child)) { fprintf(stderr, "error: walk of visible tree hit invalid inode #%x\n", child); return; } inf = inode_info[child]; switch (inf->type) { case 0x00: /* walking the *visible* tree: skip deleted objects */ continue; case 0xF4: fprintf(stderr, "warning: directory #%x has child #%x of type segment (F4), skipping\n", dirino, child); continue; } if (!validate_obj_name(child, 0)) { fprintf(stderr, "visible tree walk error: no valid name for inode #%x\n", child); continue; } sprintf(pathbuf_ptr, "/%s", inf->dataptr); callback(pathbuf_start, child, ndepth); if (inf->type == 0xF2) visible_walk_dir(pathbuf_start, index(pathbuf_ptr, '\0'), child, ndepth, callback); } } traverse_visible_tree(callback) void (*callback)(); { char pathbuf[PATHNAME_BUF_SIZE]; visible_walk_dir(pathbuf, pathbuf, root_inode, 0, callback); } /* * The following function iterates through the descendants of a directory * object looking for a specific directory-member filename. * * Arguments: * - inode # of the parent directory * - inode # of the first descendant (descendant pointer from the dir object) * - filename to search for * * Returns: inode # of the sought descendant object if found, 0 otherwise. */ find_dir_member(dirino, first_descend, srchname) char *srchname; { int ino; struct inode_info *inf; for (ino = first_descend; ino; ino = inf->sibling) { if (!validate_inode(ino)) { fprintf(stderr, "error: pathname search hit invalid inode #%x\n", ino); exit(1); } inf = inode_info[ino]; switch (inf->type) { case 0x00: /* walking the *visible* tree: skip deleted objects */ continue; case 0xF4: fprintf(stderr, "warning: directory #%x has child #%x of type segment (F4), skipping\n", dirino, ino); continue; } if (!validate_obj_name(ino, 0)) { fprintf(stderr, "visible tree walk error: no valid name for inode #%x\n", ino); continue; } if (!strcmp(inf->dataptr, srchname)) return(ino); } return(0); } /* * The following function searches for a pathname from the root down. * Returns the inode # if found, otherwise exits with an error message * indicating which step failed. * * Warning: the pathname in the argument buffer will be destroyed: * 0s put in place of the slashes. */ find_pathname(pathname) char *pathname; { char *cur, *next; int ino; struct inode_info *inf; cur = pathname; if (*cur == '/') cur++; else { fprintf(stderr, "bad pathname \"%s\": TIFFS pathnames must be absolute\n", pathname); exit(1); } for (ino = root_inode; cur; cur = next) { if (!*cur) break; next = index(cur, '/'); if (next == cur) { fprintf(stderr, "malformed pathname: multiple adjacent slashes\n"); exit(1); } if (next) *next++ = '\0'; inf = inode_info[ino]; if (inf->type != 0xF2) { fprintf(stderr, "pathname search error: encountered a non-directory\n"); exit(1); } ino = find_dir_member(ino, inf->descend, cur); if (!ino) { fprintf(stderr, "pathname search error: component name not found\n"); exit(1); } } return(ino); } /* * treewalk_all() walks the entire inode tree from the root down, without * regard to object types, including deleted objects and even reclaimed ones. * The output is the filling of the parent and nparents fields in the inode * info array. */ static void treewalk_all_node(parent) { int child; struct inode_info *inf; for (child = inode_info[parent]->descend; child; child = inf->sibling) { if (!validate_inode(child)) { fprintf(stderr, "error: walk of complete tree hit invalid inode #%x\n", child); return; } inf = inode_info[child]; inf->parent = parent; inf->nparents++; if (inf->nparents >= inode_limit) { fprintf(stderr, "error: detected loop in inode tree at #%x, child of #%x\n", child, parent); return; } if (inf->nparents == 1) treewalk_all_node(child); } } treewalk_all() { treewalk_all_node(root_inode); } pathname_of_inode(ino, pnbuf) char *pnbuf; { int level; char *revpath[MAX_DIR_NEST+1]; struct inode_info *inf; char *op; for (level = 0; ino != root_inode; ino = inf->parent) { if (!validate_obj_name(ino, 0)) return(-1); inf = inode_info[ino]; if (!inf->parent) return(-1); if (level > MAX_DIR_NEST) return(-1); revpath[level++] = (char *) inf->dataptr; } op = pnbuf; if (!level) *op++ = '/'; while (level) { level--; *op++ = '/'; strcpy(op, revpath[level]); op = index(op, '\0'); } *op = '\0'; return(0); }