int HIDDEN xbps_transaction_package_replace(struct xbps_handle *xhp, xbps_array_t pkgs) { for (unsigned int i = 0; i < xbps_array_count(pkgs); i++) { xbps_array_t replaces; xbps_object_t obj, obj2; xbps_object_iterator_t iter; const char *pkgver; char *pkgname; obj = xbps_array_get(pkgs, i); replaces = xbps_dictionary_get(obj, "replaces"); if (replaces == NULL || xbps_array_count(replaces) == 0) continue; iter = xbps_array_iterator(replaces); assert(iter); xbps_dictionary_get_cstring_nocopy(obj, "pkgver", &pkgver); pkgname = xbps_pkg_name(pkgver); assert(pkgname); while ((obj2 = xbps_object_iterator_next(iter)) != NULL) { xbps_dictionary_t instd, reppkgd; const char *tract, *pattern, *curpkgver; char *curpkgname; bool instd_auto = false; pattern = xbps_string_cstring_nocopy(obj2); /* * Find the installed package that matches the pattern * to be replaced. */ if (((instd = xbps_pkgdb_get_pkg(xhp, pattern)) == NULL) && ((instd = xbps_pkgdb_get_virtualpkg(xhp, pattern)) == NULL)) continue; xbps_dictionary_get_cstring_nocopy(instd, "pkgver", &curpkgver); curpkgname = xbps_pkg_name(curpkgver); assert(curpkgname); /* * Check that we are not replacing the same package, * due to virtual packages. */ if (strcmp(pkgname, curpkgname) == 0) { free(curpkgname); continue; } /* * Make sure to not add duplicates. */ xbps_dictionary_get_bool(instd, "automatic-install", &instd_auto); reppkgd = xbps_find_pkg_in_array(pkgs, curpkgname, NULL); if (reppkgd) { xbps_dictionary_get_cstring_nocopy(reppkgd, "transaction", &tract); if (strcmp(tract, "remove") == 0) continue; /* * Package contains replaces="pkgpattern", but the * package that should be replaced is also in the * transaction and it's going to be updated. */ xbps_dictionary_set_bool(reppkgd, "automatic-install", instd_auto); xbps_array_replace_dict_by_name(pkgs, reppkgd, curpkgname); continue; } /* * If new package is providing a virtual package to the * package that we want to replace we should respect * the automatic-install object. */ if (xbps_match_virtual_pkg_in_dict(obj, pattern)) { xbps_dictionary_set_bool(obj, "automatic-install", instd_auto); } xbps_dbg_printf(xhp, "Package `%s' will be replaced by `%s', " "matched with `%s'\n", curpkgver, pkgver, pattern); /* * Add package dictionary into the transaction and mark * it as to be "removed". */ xbps_dictionary_set_cstring_nocopy(instd, "transaction", "remove"); if (!xbps_array_add_first(pkgs, instd)) return EINVAL; free(curpkgname); } xbps_object_iterator_release(iter); free(pkgname); } return 0; }
/* * Verify reverse dependencies for packages in transaction. * This will catch cases where a package update would break its reverse dependencies: * * - foo-1.0 is being updated to 2.0. * - baz-1.1 depends on foo<2.0. * - foo is updated to 2.0, hence baz-1.1 is currently broken. * * Abort transaction if such case is found. */ static bool check_virtual_pkgs(struct xbps_handle *xhp, xbps_dictionary_t trans_pkgd, xbps_dictionary_t rev_pkgd) { xbps_array_t unsorted, provides, rundeps, mdeps; const char *pkgver, *revpkgver, *pkgpattern; char *pkgname, *pkgdepname, *vpkgname, *vpkgver, *str; unsigned int i, x; bool matched = false; unsorted = xbps_dictionary_get(xhp->transd, "unsorted_deps"); provides = xbps_dictionary_get(trans_pkgd, "provides"); for (i = 0; i < xbps_array_count(provides); i++) { char *tmp = NULL; xbps_array_get_cstring(provides, i, &vpkgver); if (strchr(vpkgver, '_') == NULL) { tmp = xbps_xasprintf("%s_1", vpkgver); vpkgver = strdup(tmp); } vpkgname = xbps_pkg_name(vpkgver); assert(vpkgname); rundeps = xbps_dictionary_get(rev_pkgd, "run_depends"); for (x = 0; x < xbps_array_count(rundeps); x++) { xbps_array_get_cstring_nocopy(rundeps, x, &pkgpattern); if (((pkgname = xbps_pkgpattern_name(pkgpattern)) == NULL) && ((pkgname = xbps_pkg_name(pkgpattern)) == NULL)) continue; if (strcmp(vpkgname, pkgname)) { free(pkgname); continue; } free(pkgname); if (xbps_pkgpattern_match(vpkgver, pkgpattern)) continue; /* * Installed package conflicts with package * in transaction being updated, check * if a new version of this conflicting package * is in the transaction. */ xbps_dictionary_get_cstring_nocopy(trans_pkgd, "pkgver", &pkgver); pkgdepname = xbps_pkg_name(pkgver); assert(pkgdepname); if (xbps_find_pkg_in_array(unsorted, pkgdepname)) { free(pkgdepname); continue; } free(pkgdepname); mdeps = xbps_dictionary_get(xhp->transd, "missing_deps"); xbps_dictionary_get_cstring_nocopy(trans_pkgd, "pkgver", &pkgver); xbps_dictionary_get_cstring_nocopy(rev_pkgd, "pkgver", &revpkgver); str = xbps_xasprintf("CONFLICT: `%s' update " "breaks `%s', needs `%s' virtual pkg (got `%s`)", pkgver, revpkgver, pkgpattern, vpkgver); xbps_array_add_cstring(mdeps, str); free(str); matched = true; } free(vpkgname); free(vpkgver); } return matched; }
void HIDDEN xbps_transaction_revdeps(struct xbps_handle *xhp) { xbps_array_t mdeps, unsorted, pkgrdeps, rundeps; xbps_dictionary_t revpkgd; xbps_object_t obj; const char *pkgver, *curdep, *revpkgver, *curpkgver, *tract; char *pkgname, *curdepname, *curpkgname, *str; unsigned int i, j, x; unsorted = xbps_dictionary_get(xhp->transd, "unsorted_deps"); for (i = 0; i < xbps_array_count(unsorted); i++) { obj = xbps_array_get(unsorted, i); /* * Only check packages in transaction being updated. */ xbps_dictionary_get_cstring_nocopy(obj, "transaction", &tract); if (strcmp(tract, "update")) continue; /* * if pkg in transaction is not installed, * pass to next one. */ xbps_dictionary_get_cstring_nocopy(obj, "pkgver", &pkgver); pkgname = xbps_pkg_name(pkgver); assert(pkgname); if (xbps_pkg_is_installed(xhp, pkgname) == 0) { free(pkgname); continue; } /* * If pkg is installed but does not have revdeps, * pass to next one. */ pkgrdeps = xbps_pkgdb_get_pkg_revdeps(xhp, pkgname); if (!xbps_array_count(pkgrdeps)) { free(pkgname); continue; } free(pkgname); /* * Time to validate revdeps for current pkg. */ for (x = 0; x < xbps_array_count(pkgrdeps); x++) { bool found = false; xbps_array_get_cstring_nocopy(pkgrdeps, x, &curpkgver); revpkgd = xbps_pkgdb_get_pkg(xhp, curpkgver); /* * First try to match any supported virtual package. */ if (check_virtual_pkgs(xhp, obj, revpkgd)) continue; /* * Try to match real dependencies. */ rundeps = xbps_dictionary_get(revpkgd, "run_depends"); /* * Find out what dependency is it. */ curpkgname = xbps_pkg_name(pkgver); assert(curpkgname); for (j = 0; j < xbps_array_count(rundeps); j++) { xbps_array_get_cstring_nocopy(rundeps, j, &curdep); if (((curdepname = xbps_pkg_name(curdep)) == NULL) && ((curdepname = xbps_pkgpattern_name(curdep)) == NULL)) abort(); if (strcmp(curdepname, curpkgname) == 0) { free(curdepname); found = true; break; } free(curdepname); } if (!found) continue; if (xbps_match_pkgdep_in_array(rundeps, pkgver)) continue; /* * Installed package conflicts with package * in transaction being updated, check * if a new version of this conflicting package * is in the transaction. */ pkgname = xbps_pkg_name(curpkgver); if (xbps_find_pkg_in_array(unsorted, pkgname)) { free(pkgname); continue; } free(pkgname); mdeps = xbps_dictionary_get(xhp->transd, "missing_deps"); xbps_dictionary_get_cstring_nocopy(revpkgd, "pkgver", &revpkgver); str = xbps_xasprintf("CONFLICT: `%s' " "update breaks `%s', needs `%s'", pkgver, revpkgver, curdep); xbps_array_add_cstring(mdeps, str); free(str); } } }
int HIDDEN xbps_transaction_package_replace(struct xbps_handle *xhp) { xbps_array_t replaces, unsorted; xbps_dictionary_t instd, reppkgd, filesd; xbps_object_t obj, obj2; xbps_object_iterator_t iter; const char *pattern, *pkgver, *curpkgver; char *buf, *pkgname, *curpkgname; bool instd_auto, sr; unsigned int i; unsorted = xbps_dictionary_get(xhp->transd, "unsorted_deps"); for (i = 0; i < xbps_array_count(unsorted); i++) { obj = xbps_array_get(unsorted, i); replaces = xbps_dictionary_get(obj, "replaces"); if (replaces == NULL || xbps_array_count(replaces) == 0) continue; iter = xbps_array_iterator(replaces); assert(iter); while ((obj2 = xbps_object_iterator_next(iter)) != NULL) { pattern = xbps_string_cstring_nocopy(obj2); /* * Find the installed package that matches the pattern * to be replaced. */ if (((instd = xbps_pkgdb_get_pkg(xhp, pattern)) == NULL) && ((instd = xbps_pkgdb_get_virtualpkg(xhp, pattern)) == NULL)) continue; xbps_dictionary_get_cstring_nocopy(obj, "pkgver", &pkgver); xbps_dictionary_get_cstring_nocopy(instd, "pkgver", &curpkgver); pkgname = xbps_pkg_name(pkgver); assert(pkgname); curpkgname = xbps_pkg_name(curpkgver); assert(curpkgver); /* * Check that we are not replacing the same package, * due to virtual packages. */ if (strcmp(pkgname, curpkgname) == 0) { free(pkgname); free(curpkgname); continue; } xbps_dbg_printf(xhp, "Package `%s' will be replaced by `%s', " "matched with `%s'\n", curpkgver, pkgver, pattern); instd_auto = false; xbps_dictionary_get_bool(instd, "automatic-install", &instd_auto); /* * Package contains replaces="pkgpattern", but the * package that should be replaced is also in the * transaction and it's going to be updated. */ if ((reppkgd = xbps_find_pkg_in_array(unsorted, curpkgname))) { xbps_dbg_printf(xhp, "found replaced pkg " "in transaction\n"); xbps_dictionary_set_bool(instd, "remove-and-update", true); xbps_dictionary_set_bool(reppkgd, "automatic-install", instd_auto); xbps_dictionary_set_bool(reppkgd, "skip-obsoletes", true); xbps_array_replace_dict_by_name(unsorted, reppkgd, curpkgname); } /* * If new package is providing a virtual package to the * package that we want to replace we should respect * the automatic-install object. */ if (xbps_match_virtual_pkg_in_dict(obj, pattern, true) || xbps_match_virtual_pkg_in_dict(instd, pkgname, false)) { xbps_dictionary_set_bool(obj, "automatic-install", instd_auto); } sr = false; xbps_dictionary_get_bool(obj, "softreplace", &sr); if (sr) { xbps_dictionary_set_bool(obj, "automatic-install", instd_auto); xbps_dictionary_set_bool(instd, "softreplace", true); buf = xbps_xasprintf("%s/.%s.plist", xhp->metadir, curpkgname); filesd = xbps_dictionary_internalize_from_file(buf); free(buf); assert(filesd != NULL); buf = xbps_xasprintf("%s/.%s.plist", xhp->metadir, pkgname); if (!xbps_dictionary_externalize_to_file(filesd, buf)) { free(buf); xbps_object_release(filesd); xbps_object_iterator_release(iter); free(pkgname); free(curpkgname); return errno; } xbps_object_release(filesd); free(buf); } /* * Add package dictionary into the transaction and mark * it as to be "removed". */ xbps_dictionary_set_cstring_nocopy(instd, "transaction", "remove"); xbps_array_add(unsorted, instd); free(pkgname); free(curpkgname); } xbps_object_iterator_release(iter); } return 0; }
static int find_repo_deps(struct xbps_handle *xhp, xbps_array_t unsorted, /* array of unsorted deps */ xbps_array_t pkg_rdeps_array, /* current pkg rundeps array */ xbps_array_t pkg_provides, /* current pkg provides array */ const char *curpkg, /* current pkgver */ unsigned short *depth) /* max recursion depth */ { xbps_dictionary_t curpkgd = NULL; xbps_object_t obj; xbps_object_iterator_t iter; xbps_array_t curpkgrdeps = NULL, curpkgprovides = NULL; pkg_state_t state; const char *reqpkg, *pkgver_q, *reason = NULL; char *pkgname, *reqpkgname; int rv = 0; bool foundvpkg; if (*depth >= MAX_DEPTH) return ELOOP; /* * Iterate over the list of required run dependencies for * current package. */ iter = xbps_array_iterator(pkg_rdeps_array); assert(iter); while ((obj = xbps_object_iterator_next(iter))) { foundvpkg = false; reqpkg = xbps_string_cstring_nocopy(obj); if (xhp->flags & XBPS_FLAG_DEBUG) { xbps_dbg_printf(xhp, "%s", ""); for (unsigned short x = 0; x < *depth; x++) { xbps_dbg_printf_append(xhp, " "); } xbps_dbg_printf_append(xhp, "%s: requires dependency '%s': ", curpkg ? curpkg : " ", reqpkg); } if (((pkgname = xbps_pkgpattern_name(reqpkg)) == NULL) && ((pkgname = xbps_pkg_name(reqpkg)) == NULL)) { xbps_dbg_printf(xhp, "%s: can't guess pkgname for dependency: %s\n", curpkg, reqpkg); xbps_set_cb_state(xhp, XBPS_STATE_INVALID_DEP, ENXIO, NULL, "%s: can't guess pkgname for dependency '%s'", curpkg, reqpkg); rv = ENXIO; break; } /* * Pass 1: check if required dependency is provided as virtual * package via "provides", if true ignore dependency. */ if (pkg_provides && xbps_match_virtual_pkg_in_array(pkg_provides, reqpkg)) { xbps_dbg_printf_append(xhp, "%s is a vpkg provided by %s, ignored.\n", pkgname, curpkg); free(pkgname); continue; } /* * Pass 2: check if required dependency has been already * added in the transaction dictionary. */ if ((curpkgd = xbps_find_pkg_in_array(unsorted, reqpkg, NULL)) || (curpkgd = xbps_find_virtualpkg_in_array(xhp, unsorted, reqpkg, NULL))) { xbps_dictionary_get_cstring_nocopy(curpkgd, "pkgver", &pkgver_q); xbps_dbg_printf_append(xhp, " (%s queued)\n", pkgver_q); free(pkgname); continue; } /* * Pass 3: check if required dependency is already installed * and its version is fully matched. */ if ((curpkgd = xbps_pkgdb_get_pkg(xhp, pkgname)) == NULL) { if ((curpkgd = xbps_pkgdb_get_virtualpkg(xhp, pkgname))) { foundvpkg = true; } } if (curpkgd == NULL) { if (errno && errno != ENOENT) { /* error */ rv = errno; xbps_dbg_printf(xhp, "failed to find installed pkg for `%s': %s\n", reqpkg, strerror(rv)); free(pkgname); break; } free(pkgname); /* Required dependency not installed */ xbps_dbg_printf_append(xhp, "not installed.\n"); reason = "install"; state = XBPS_PKG_STATE_NOT_INSTALLED; } else { /* * Required dependency is installed, check if its version can * satisfy the requirements. */ xbps_dictionary_get_cstring_nocopy(curpkgd, "pkgver", &pkgver_q); /* Check its state */ if ((rv = xbps_pkg_state_dictionary(curpkgd, &state)) != 0) { free(pkgname); break; } if (foundvpkg && xbps_match_virtual_pkg_in_dict(curpkgd, reqpkg)) { /* * Check if required dependency is a virtual package and is satisfied * by an installed package. */ xbps_dbg_printf_append(xhp, "[virtual] satisfied by `%s'.\n", pkgver_q); free(pkgname); continue; } rv = xbps_pkgpattern_match(pkgver_q, reqpkg); if (rv == 0) { char *curpkgname; /* * The version requirement is not satisfied. */ curpkgname = xbps_pkg_name(pkgver_q); assert(curpkgname); if (strcmp(pkgname, curpkgname)) { xbps_dbg_printf_append(xhp, "not installed `%s (vpkg)'", pkgver_q); if (xbps_dictionary_get(curpkgd, "hold")) { xbps_dbg_printf_append(xhp, " on hold state! ignoring package.\n"); } else { xbps_dbg_printf_append(xhp, "\n"); reason = "install"; } } else { xbps_dbg_printf_append(xhp, "installed `%s', must be updated", pkgver_q); if (xbps_dictionary_get(curpkgd, "hold")) { xbps_dbg_printf_append(xhp, " on hold state! ignoring package.\n"); } else { xbps_dbg_printf_append(xhp, "\n"); reason = "update"; } } free(curpkgname); free(pkgname); } else if (rv == 1) { /* * The version requirement is satisfied. */ free(pkgname); rv = 0; if (state == XBPS_PKG_STATE_UNPACKED) { /* * Package matches the dependency pattern but was only unpacked, * configure pkg. */ xbps_dbg_printf_append(xhp, "installed `%s', must be configured.\n", pkgver_q); reason = "configure"; } else if (state == XBPS_PKG_STATE_INSTALLED) { /* * Package matches the dependency pattern and is fully installed, * skip to next one. */ xbps_dbg_printf_append(xhp, "installed `%s'.\n", pkgver_q); continue; } } else { /* error matching pkgpattern */ xbps_dbg_printf(xhp, "failed to match pattern %s with %s\n", reqpkg, pkgver_q); free(pkgname); break; } } if (xbps_dictionary_get(curpkgd, "hold")) { xbps_dbg_printf(xhp, "%s on hold state! ignoring package.\n", curpkg); continue; } /* * Pass 4: find required dependency in repository pool. * If dependency does not match add pkg into the missing * deps array and pass to next one. */ if (((curpkgd = xbps_rpool_get_pkg(xhp, reqpkg)) == NULL) && ((curpkgd = xbps_rpool_get_virtualpkg(xhp, reqpkg)) == NULL)) { /* pkg not found, there was some error */ if (errno && errno != ENOENT) { xbps_dbg_printf(xhp, "failed to find pkg for `%s' in rpool: %s\n", reqpkg, strerror(errno)); rv = errno; break; } rv = add_missing_reqdep(xhp, reqpkg); if (rv != 0 && rv != EEXIST) { xbps_dbg_printf(xhp, "`%s': add_missing_reqdep failed\n", reqpkg); break; } else if (rv == EEXIST) { xbps_dbg_printf(xhp, "`%s' missing dep already added.\n", reqpkg); rv = 0; continue; } else { xbps_dbg_printf(xhp, "`%s' added into the missing deps array.\n", reqpkg); continue; } } xbps_dictionary_get_cstring_nocopy(curpkgd, "pkgver", &pkgver_q); reqpkgname = xbps_pkg_name(pkgver_q); assert(reqpkgname); /* * Check dependency validity. */ pkgname = xbps_pkg_name(curpkg); assert(pkgname); if (strcmp(pkgname, reqpkgname) == 0) { xbps_dbg_printf_append(xhp, "[ignoring wrong dependency %s (depends on itself)]\n", reqpkg); xbps_remove_string_from_array(pkg_rdeps_array, reqpkg); free(pkgname); free(reqpkgname); continue; } free(pkgname); free(reqpkgname); /* * If package doesn't have rundeps, pass to the next one. */ curpkgrdeps = xbps_dictionary_get(curpkgd, "run_depends"); if (curpkgrdeps == NULL) { /* * Package is on repo, add it into the transaction dictionary. */ xbps_dictionary_set_cstring_nocopy(curpkgd, "transaction", reason); rv = xbps_transaction_store(xhp, unsorted, curpkgd, reason, true); if (rv != 0) { xbps_dbg_printf(xhp, "xbps_transaction_store failed for `%s': %s\n", reqpkg, strerror(rv)); break; } continue; } if (xhp->flags & XBPS_FLAG_DEBUG) { xbps_dbg_printf(xhp, "%s", ""); for (unsigned short x = 0; x < *depth; x++) { xbps_dbg_printf_append(xhp, " "); } xbps_dbg_printf_append(xhp, "%s: finding dependencies:\n", pkgver_q); } /* * Recursively find rundeps for current pkg dictionary. */ (*depth)++; curpkgprovides = xbps_dictionary_get(curpkgd, "provides"); rv = find_repo_deps(xhp, unsorted, curpkgrdeps, curpkgprovides, pkgver_q, depth); if (rv != 0) { xbps_dbg_printf(xhp, "Error checking %s for rundeps: %s\n", reqpkg, strerror(rv)); break; } /* * Package is on repo, add it into the transaction dictionary. */ xbps_dictionary_set_cstring_nocopy(curpkgd, "transaction", reason); rv = xbps_transaction_store(xhp, unsorted, curpkgd, reason, true); if (rv != 0) { xbps_dbg_printf(xhp, "xbps_transaction_store failed for `%s': %s\n", reqpkg, strerror(rv)); break; } } xbps_object_iterator_release(iter); (*depth)--; return rv; }
void HIDDEN xbps_transaction_revdeps(struct xbps_handle *xhp, xbps_array_t pkgs) { xbps_array_t mdeps; mdeps = xbps_dictionary_get(xhp->transd, "missing_deps"); for (unsigned int i = 0; i < xbps_array_count(pkgs); i++) { xbps_array_t pkgrdeps; xbps_object_t obj; const char *pkgver, *tract; char *pkgname; obj = xbps_array_get(pkgs, i); /* * if pkg in transaction is not installed, * pass to next one. */ xbps_dictionary_get_cstring_nocopy(obj, "pkgver", &pkgver); xbps_dictionary_get_cstring_nocopy(obj, "transaction", &tract); pkgname = xbps_pkg_name(pkgver); assert(pkgname); if (xbps_pkg_is_installed(xhp, pkgname) == 0) { free(pkgname); continue; } /* * If pkg is installed but does not have revdeps, * pass to next one. */ pkgrdeps = xbps_pkgdb_get_pkg_revdeps(xhp, pkgname); if (!xbps_array_count(pkgrdeps)) { free(pkgname); continue; } free(pkgname); /* * Time to validate revdeps for current pkg. */ for (unsigned int x = 0; x < xbps_array_count(pkgrdeps); x++) { xbps_array_t rundeps; xbps_dictionary_t revpkgd; const char *curpkgver, *revpkgver, *curdep, *curtract; char *curpkgname, *curdepname; bool found = false; xbps_array_get_cstring_nocopy(pkgrdeps, x, &curpkgver); pkgname = xbps_pkg_name(curpkgver); assert(pkgname); if ((revpkgd = xbps_find_pkg_in_array(pkgs, pkgname, NULL))) { xbps_dictionary_get_cstring_nocopy(revpkgd, "transaction", &curtract); if (strcmp(curtract, "remove") == 0) revpkgd = NULL; } if (revpkgd == NULL) revpkgd = xbps_pkgdb_get_pkg(xhp, curpkgver); xbps_dictionary_get_cstring_nocopy(revpkgd, "pkgver", &revpkgver); /* * If target pkg is being removed, all its revdeps * will be broken unless those revdeps are also in * the transaction. */ if (strcmp(tract, "remove") == 0) { if (xbps_dictionary_get(obj, "replaced")) { free(pkgname); continue; } if (xbps_find_pkg_in_array(pkgs, pkgname, "remove")) { free(pkgname); continue; } free(pkgname); broken_pkg(mdeps, curpkgver, pkgver, tract); continue; } /* * First try to match any supported virtual package. */ if (check_virtual_pkgs(mdeps, obj, revpkgd)) { free(pkgname); continue; } /* * Try to match real dependencies. */ rundeps = xbps_dictionary_get(revpkgd, "run_depends"); /* * Find out what dependency is it. */ curpkgname = xbps_pkg_name(pkgver); assert(curpkgname); for (unsigned int j = 0; j < xbps_array_count(rundeps); j++) { xbps_array_get_cstring_nocopy(rundeps, j, &curdep); if (((curdepname = xbps_pkg_name(curdep)) == NULL) && ((curdepname = xbps_pkgpattern_name(curdep)) == NULL)) abort(); if (strcmp(curdepname, curpkgname) == 0) { free(curdepname); found = true; break; } free(curdepname); } free(curpkgname); if (!found) { free(pkgname); continue; } if (xbps_match_pkgdep_in_array(rundeps, pkgver)) { free(pkgname); continue; } /* * Installed package conflicts with package * in transaction being updated, check * if a new version of this conflicting package * is in the transaction. */ if (xbps_find_pkg_in_array(pkgs, pkgname, "update")) { free(pkgname); continue; } free(pkgname); broken_pkg(mdeps, curpkgver, pkgver, tract); } } }