/* * Copyright (c) 2007, Novell Inc. * * This program is licensed under the BSD license, read LICENSE.BSD * for further information */ #include #include #include #include #include static int with_attr; static int dump_json; #include "pool.h" #include "chksum.h" #include "repo_solv.h" static int dump_attr(Repo *repo, Repodata *data, Repokey *key, KeyValue *kv) { const char *keyname; KeyValue *kvp; int indent = 0; keyname = pool_id2str(repo->pool, key->name); for (kvp = kv; (kvp = kvp->parent) != 0; indent += 2) printf(" "); switch(key->type) { case REPOKEY_TYPE_ID: if (data && data->localpool) kv->str = stringpool_id2str(&data->spool, kv->id); else kv->str = pool_dep2str(repo->pool, kv->id); printf("%s: %s\n", keyname, kv->str); break; case REPOKEY_TYPE_CONSTANTID: printf("%s: %s\n", keyname, pool_dep2str(repo->pool, kv->id)); break; case REPOKEY_TYPE_IDARRAY: if (!kv->entry) printf("%s:\n%*s", keyname, indent, ""); if (data && data->localpool) printf(" %s\n", stringpool_id2str(&data->spool, kv->id)); else printf(" %s\n", pool_dep2str(repo->pool, kv->id)); break; case REPOKEY_TYPE_STR: printf("%s: %s\n", keyname, kv->str); break; case REPOKEY_TYPE_VOID: printf("%s: (void)\n", keyname); break; case REPOKEY_TYPE_CONSTANT: printf("%s: %u\n", keyname, kv->num); break; case REPOKEY_TYPE_NUM: printf("%s: %llu\n", keyname, SOLV_KV_NUM64(kv)); break; case REPOKEY_TYPE_BINARY: if (kv->num) printf("%s: %02x..%02x len %u\n", keyname, (unsigned char)kv->str[0], (unsigned char)kv->str[kv->num - 1], kv->num); else printf("%s: len 0\n", keyname); break; case REPOKEY_TYPE_DIRNUMNUMARRAY: if (!kv->entry) printf("%s:\n%*s", keyname, indent, ""); printf(" %s %u %u\n", repodata_dir2str(data, kv->id, 0), kv->num, kv->num2); break; case REPOKEY_TYPE_DIRSTRARRAY: if (!kv->entry) printf("%s:\n%*s", keyname, indent, ""); printf(" %s\n", repodata_dir2str(data, kv->id, kv->str)); break; case REPOKEY_TYPE_FIXARRAY: case REPOKEY_TYPE_FLEXARRAY: if (!kv->entry) printf("%s:\n", keyname); else printf("\n"); break; default: if (solv_chksum_len(key->type)) { printf("%s: %s (%s)\n", keyname, repodata_chk2str(data, key->type, (unsigned char *)kv->str), solv_chksum_type2str(key->type)); break; } printf("%s: ?\n", keyname); break; } return 0; } static const char * jsonstring(Pool *pool, const char *s) { int needed = 0; const unsigned char *s1; char *r, *rp; for (s1 = (const unsigned char *)s; *s1; s1++) { if (*s1 < 32) needed += *s1 == '\n' ? 2 : 6; else if (*s1 == '\\' || *s1 == '\"') needed += 2; else needed++; } r = rp = pool_alloctmpspace(pool, needed + 3); *rp++ = '\"'; for (s1 = (const unsigned char *)s; *s1; s1++) { if (*s1 < 32) { int x; if (*s1 == '\n') { *rp++ = '\\'; *rp++ = 'n'; continue; } *rp++ = '\\'; *rp++ = 'u'; *rp++ = '0'; *rp++ = '0'; x = *s1 / 16; *rp++ = (x < 10 ? '0' : 'a' - 10) + x; x = *s1 & 15; *rp++ = (x < 10 ? '0' : 'a' - 10) + x; } else if (*s1 == '\\' || *s1 == '\"') { *rp++ = '\\'; *rp++ = *s1; } else *rp++ = *s1; } *rp++ = '\"'; *rp = 0; return r; } struct cbdata { unsigned char *first; int nfirst; int baseindent; }; static int dump_attr_json(Repo *repo, Repodata *data, Repokey *key, KeyValue *kv, struct cbdata *cbdata) { Pool *pool = repo->pool; const char *keyname; KeyValue *kvp; int indent = cbdata->baseindent; int isarray = 0; const char *str; int depth = 0; keyname = pool_id2str(repo->pool, key->name); for (kvp = kv; (kvp = kvp->parent) != 0; indent += 4) depth++; if (cbdata->nfirst < depth + 1) { cbdata->first = solv_realloc(cbdata->first, depth + 16); memset(cbdata->first + cbdata->nfirst, 0, depth + 16 - cbdata->nfirst); cbdata->nfirst = depth + 16; } switch(key->type) { case REPOKEY_TYPE_IDARRAY: case REPOKEY_TYPE_DIRNUMNUMARRAY: case REPOKEY_TYPE_DIRSTRARRAY: isarray = 1; break; case REPOKEY_TYPE_FIXARRAY: case REPOKEY_TYPE_FLEXARRAY: isarray = 2; break; default: break; } if (!isarray || !kv->entry) { if (cbdata->first[depth]) printf(",\n"); printf("%*s%s: ", indent, "", jsonstring(pool, keyname)); cbdata->first[depth] = 1; } if (isarray == 1 && !kv->entry) printf("[\n%*s", indent + 2, ""); else if (isarray == 1 && kv->entry) printf("%*s", indent + 2, ""); switch(key->type) { case REPOKEY_TYPE_ID: if (data && data->localpool) str = stringpool_id2str(&data->spool, kv->id); else str = pool_dep2str(repo->pool, kv->id); printf("%s", jsonstring(pool, str)); break; case REPOKEY_TYPE_CONSTANTID: str = pool_dep2str(repo->pool, kv->id); printf("%s", jsonstring(pool, str)); break; case REPOKEY_TYPE_IDARRAY: if (data && data->localpool) str = stringpool_id2str(&data->spool, kv->id); else str = pool_dep2str(repo->pool, kv->id); printf("%s", jsonstring(pool, str)); break; case REPOKEY_TYPE_STR: str = kv->str; printf("%s", jsonstring(pool, str)); break; case REPOKEY_TYPE_VOID: printf("null"); break; case REPOKEY_TYPE_CONSTANT: printf("%u", kv->num); break; case REPOKEY_TYPE_NUM: printf("%llu", SOLV_KV_NUM64(kv)); break; case REPOKEY_TYPE_BINARY: printf("\"\""); break; case REPOKEY_TYPE_DIRNUMNUMARRAY: printf("{\n"); printf("%*s \"dir\": %s,\n", indent, "", jsonstring(pool, repodata_dir2str(data, kv->id, 0))); printf("%*s \"num1\": %u,\n", indent, "", kv->num); printf("%*s \"num2\": %u\n", indent, "", kv->num2); printf("%*s }", indent, ""); break; case REPOKEY_TYPE_DIRSTRARRAY: printf("%s", jsonstring(pool, repodata_dir2str(data, kv->id, kv->str))); break; case REPOKEY_TYPE_FIXARRAY: case REPOKEY_TYPE_FLEXARRAY: cbdata->first[depth + 1] = 0; if (!kv->entry) printf("[\n"); else { if (kv->eof != 2) printf("\n%*s },\n", indent, ""); else printf("\n%*s }\n", indent, ""); } if (kv->eof != 2) printf("%*s {\n", indent, ""); else printf("%*s]", indent, ""); break; default: if (solv_chksum_len(key->type)) { printf("{\n"); printf("%*s \"value\": %s,\n", indent, "", jsonstring(pool, repodata_chk2str(data, key->type, (unsigned char *)kv->str))); printf("%*s \"type\": %s\n", indent, "", jsonstring(pool, solv_chksum_type2str(key->type))); printf("%*s}", indent, ""); break; } printf("\"?\""); break; } if (isarray == 1) { if (!kv->eof) printf(",\n"); else printf("\n%*s]", indent, ""); } return 0; } static int dump_repodata_cb(void *vcbdata, Solvable *s, Repodata *data, Repokey *key, KeyValue *kv) { if (key->name == REPOSITORY_SOLVABLES) return SEARCH_NEXT_SOLVABLE; if (!dump_json) return dump_attr(data->repo, data, key, kv); else return dump_attr_json(data->repo, data, key, kv, vcbdata); } static void dump_repodata(Repo *repo) { int i; Repodata *data; if (repo->nrepodata == 0) return; printf("repo contains %d repodata sections:\n", repo->nrepodata - 1); FOR_REPODATAS(repo, i, data) { unsigned int j; printf("\nrepodata %d has %d keys, %d schemata\n", i, data->nkeys - 1, data->nschemata - 1); for (j = 1; j < data->nkeys; j++) printf(" %s (type %s size %d storage %d)\n", pool_id2str(repo->pool, data->keys[j].name), pool_id2str(repo->pool, data->keys[j].type), data->keys[j].size, data->keys[j].storage); if (data->localpool) printf(" localpool has %d strings, size is %d\n", data->spool.nstrings, data->spool.sstrings); if (data->dirpool.ndirs) printf(" localpool has %d directories\n", data->dirpool.ndirs); printf("\n"); repodata_search(data, SOLVID_META, 0, SEARCH_ARRAYSENTINEL|SEARCH_SUB, dump_repodata_cb, 0); } printf("\n"); } static void dump_repodata_json(Repo *repo, struct cbdata *cbdata) { int i; Repodata *data; if (repo->nrepodata == 0) return; cbdata->baseindent = 6; FOR_REPODATAS(repo, i, data) repodata_search(data, SOLVID_META, 0, SEARCH_ARRAYSENTINEL|SEARCH_SUB, dump_repodata_cb, cbdata); } /* * dump all attributes for Id

*/ void dump_solvable(Repo *repo, Id p, struct cbdata *cbdata) { Dataiterator di; dataiterator_init(&di, repo->pool, repo, p, 0, 0, SEARCH_ARRAYSENTINEL|SEARCH_SUB); if (cbdata && cbdata->first) cbdata->first[0] = 0; if (cbdata) cbdata->baseindent = 10; while (dataiterator_step(&di)) { if (!dump_json) dump_attr(repo, di.data, di.key, &di.kv); else dump_attr_json(repo, di.data, di.key, &di.kv, cbdata); } dataiterator_free(&di); } static int loadcallback(Pool *pool, Repodata *data, void *vdata) { FILE *fp = 0; int r; const char *location; location = repodata_lookup_str(data, SOLVID_META, REPOSITORY_LOCATION); if (!location || !with_attr) return 0; fprintf(stderr, "[Loading SOLV file %s]\n", location); fp = fopen (location, "r"); if (!fp) { perror(location); return 0; } r = repo_add_solv(data->repo, fp, REPO_USE_LOADING|REPO_LOCALPOOL); fclose(fp); return !r ? 1 : 0; } static void usage(int status) { fprintf( stderr, "\nUsage:\n" "dumpsolv [-a] [-j] []\n" " -a read attributes.\n" " -j dump json format.\n" ); exit(status); } int main(int argc, char **argv) { Repo *repo; Pool *pool; int c, i, j, n; Solvable *s; pool = pool_create(); pool_setloadcallback(pool, loadcallback, 0); while ((c = getopt(argc, argv, "haj")) >= 0) { switch(c) { case 'h': usage(0); break; case 'a': with_attr = 1; break; case 'j': dump_json = 1; break; default: usage(1); break; } } if (!dump_json) pool_setdebuglevel(pool, 1); if (dump_json) pool->debugmask |= SOLV_DEBUG_TO_STDERR; for (; optind < argc; optind++) { if (freopen(argv[optind], "r", stdin) == 0) { perror(argv[optind]); exit(1); } repo = repo_create(pool, argv[optind]); if (repo_add_solv(repo, stdin, 0)) { fprintf(stderr, "could not read repository: %s\n", pool_errstr(pool)); exit(1); } } if (!pool->urepos) { repo = repo_create(pool, argc != 1 ? argv[1] : ""); if (repo_add_solv(repo, stdin, 0)) { fprintf(stderr, "could not read repository: %s\n", pool_errstr(pool)); exit(1); } } if (dump_json) { int openrepo = 0; struct cbdata cbdata; memset(&cbdata, 0, sizeof(cbdata)); printf("{\n"); printf(" \"repositories\": [\n"); FOR_REPOS(j, repo) { int open = 0; if (openrepo) printf("\n },"); printf(" {\n"); openrepo = 1; if (cbdata.first) cbdata.first[0] = 0; dump_repodata_json(repo, &cbdata); if (cbdata.first[0]) printf(",\n"); printf(" \"solvables\": [\n"); FOR_REPO_SOLVABLES(repo, i, s) { if (open) printf("\n },\n"); printf(" {\n"); open = 1; dump_solvable(repo, i, &cbdata); } if (open) printf("\n }\n"); printf(" ]\n"); } if (openrepo) printf(" }\n"); printf(" ]\n"); printf("}\n"); solv_free(cbdata.first); } else { printf("pool contains %d strings, %d rels, string size is %d\n", pool->ss.nstrings, pool->nrels, pool->ss.sstrings); n = 0; FOR_REPOS(j, repo) { dump_repodata(repo); printf("repo %d contains %d solvables\n", j, repo->nsolvables); printf("repo start: %d end: %d\n", repo->start, repo->end); FOR_REPO_SOLVABLES(repo, i, s) { n++; printf("\n"); printf("solvable %d (%d):\n", n, i); dump_solvable(repo, i, 0); } } } pool_free(pool); exit(0); }