/* * queue.c * compilation of a list of packages into a world dependency set * * Copyright (c) 2012 pkgconf authors (see AUTHORS). * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * This software is provided 'as is' and without any warranty, express or * implied. In no event shall the authors be liable for any damages arising * from the use of this software. */ #include #include /* * !doc * * libpkgconf `queue` module * ========================= * * The `queue` module provides an interface that allows easily building a dependency graph from an * arbitrary set of dependencies. It also provides support for doing "preflight" checks on the entire * dependency graph prior to working with it. * * Using the `queue` module functions is the recommended way of working with dependency graphs. */ /* * !doc * * .. c:function:: void pkgconf_queue_push(pkgconf_list_t *list, const char *package) * * Pushes a requested dependency onto the dependency resolver's queue. * * :param pkgconf_list_t* list: the dependency resolution queue to add the package request to. * :param char* package: the dependency atom requested * :return: nothing */ void pkgconf_queue_push(pkgconf_list_t *list, const char *package) { pkgconf_queue_t *pkgq = calloc(1, sizeof(pkgconf_queue_t)); pkgq->package = strdup(package); pkgconf_node_insert_tail(&pkgq->iter, pkgq, list); } /* * !doc * * .. c:function:: bool pkgconf_queue_compile(pkgconf_client_t *client, pkgconf_pkg_t *world, pkgconf_list_t *list) * * Compile a dependency resolution queue into a dependency resolution problem if possible, otherwise report an error. * * :param pkgconf_client_t* client: The pkgconf client object to use for dependency resolution. * :param pkgconf_pkg_t* world: The designated root of the dependency graph. * :param pkgconf_list_t* list: The list of dependency requests to consider. * :return: true if the built dependency resolution problem is consistent, else false * :rtype: bool */ bool pkgconf_queue_compile(pkgconf_client_t *client, pkgconf_pkg_t *world, pkgconf_list_t *list) { pkgconf_node_t *iter; PKGCONF_FOREACH_LIST_ENTRY(list->head, iter) { pkgconf_queue_t *pkgq; pkgq = iter->data; pkgconf_dependency_parse(client, world, &world->required, pkgq->package, 0); } return (world->required.head != NULL); } /* * !doc * * .. c:function:: void pkgconf_queue_free(pkgconf_list_t *list) * * Release any memory related to a dependency resolution queue. * * :param pkgconf_list_t* list: The dependency resolution queue to release. * :return: nothing */ void pkgconf_queue_free(pkgconf_list_t *list) { pkgconf_node_t *node, *tnode; PKGCONF_FOREACH_LIST_ENTRY_SAFE(list->head, tnode, node) { pkgconf_queue_t *pkgq = node->data; free(pkgq->package); free(pkgq); } } static void pkgconf_queue_mark_public(pkgconf_client_t *client, pkgconf_pkg_t *pkg, void *data) { if (pkg->flags & PKGCONF_PKG_PROPF_VISITED_PRIVATE) { pkgconf_list_t *list = data; pkgconf_node_t *node; PKGCONF_FOREACH_LIST_ENTRY(list->head, node) { pkgconf_dependency_t *dep = node->data; if (dep->match == pkg) dep->flags &= ~PKGCONF_PKG_DEPF_PRIVATE; } pkg->flags &= ~PKGCONF_PKG_PROPF_VISITED_PRIVATE; PKGCONF_TRACE(client, "%s: updated, public", pkg->id); } } static unsigned int pkgconf_queue_collect_dependencies_main(pkgconf_client_t *client, pkgconf_pkg_t *root, void *data, int maxdepth); static inline unsigned int pkgconf_queue_collect_dependencies_walk(pkgconf_client_t *client, pkgconf_list_t *deplist, void *data, int depth) { unsigned int eflags = PKGCONF_PKG_ERRF_OK; pkgconf_node_t *node; pkgconf_pkg_t *world = data; PKGCONF_FOREACH_LIST_ENTRY_REVERSE(deplist->tail, node) { pkgconf_dependency_t *dep = node->data; pkgconf_dependency_t *flattened_dep; pkgconf_pkg_t *pkg = dep->match; if (*dep->package == '\0') continue; if (pkg == NULL) { PKGCONF_TRACE(client, "WTF: unmatched dependency %p <%s>", dep, dep->package); abort(); } if (pkg->serial == client->serial) continue; if (client->flags & PKGCONF_PKG_PKGF_ITER_PKG_IS_PRIVATE) pkg->flags |= PKGCONF_PKG_PROPF_VISITED_PRIVATE; else pkg->flags &= ~PKGCONF_PKG_PROPF_VISITED_PRIVATE; eflags |= pkgconf_queue_collect_dependencies_main(client, pkg, data, depth - 1); flattened_dep = pkgconf_dependency_copy(client, dep); pkgconf_node_insert(&flattened_dep->iter, flattened_dep, &world->required); } return eflags; } static unsigned int pkgconf_queue_collect_dependencies_main(pkgconf_client_t *client, pkgconf_pkg_t *root, void *data, int maxdepth) { unsigned int eflags = PKGCONF_PKG_ERRF_OK; if (maxdepth == 0) return eflags; /* Short-circuit if we have already visited this node. */ if (root->serial == client->serial) return eflags; root->serial = client->serial; if (client->flags & PKGCONF_PKG_PKGF_SEARCH_PRIVATE) { PKGCONF_TRACE(client, "%s: collecting private dependencies, level %d", root->id, maxdepth); /* XXX: ugly */ const unsigned int saved_flags = client->flags; client->flags |= PKGCONF_PKG_PKGF_ITER_PKG_IS_PRIVATE; eflags = pkgconf_queue_collect_dependencies_walk(client, &root->requires_private, data, maxdepth); client->flags = saved_flags; if (eflags != PKGCONF_PKG_ERRF_OK) return eflags; } PKGCONF_TRACE(client, "%s: collecting public dependencies, level %d", root->id, maxdepth); eflags = pkgconf_queue_collect_dependencies_walk(client, &root->required, data, maxdepth); if (eflags != PKGCONF_PKG_ERRF_OK) return eflags; PKGCONF_TRACE(client, "%s: finished, %s", root->id, (root->flags & PKGCONF_PKG_PROPF_VISITED_PRIVATE) ? "private" : "public"); return eflags; } static inline unsigned int pkgconf_queue_collect_dependencies(pkgconf_client_t *client, pkgconf_pkg_t *root, void *data, int maxdepth) { ++client->serial; return pkgconf_queue_collect_dependencies_main(client, root, data, maxdepth); } static inline unsigned int pkgconf_queue_verify(pkgconf_client_t *client, pkgconf_pkg_t *world, pkgconf_list_t *list, int maxdepth) { unsigned int result; const unsigned int saved_flags = client->flags; pkgconf_pkg_t initial_world = { .id = "user:request", .realname = "virtual world package", .flags = PKGCONF_PKG_PROPF_STATIC | PKGCONF_PKG_PROPF_VIRTUAL, }; if (!pkgconf_queue_compile(client, &initial_world, list)) { pkgconf_solution_free(client, &initial_world); return PKGCONF_PKG_ERRF_DEPGRAPH_BREAK; } PKGCONF_TRACE(client, "solving"); result = pkgconf_pkg_traverse(client, &initial_world, NULL, NULL, maxdepth, 0); if (result != PKGCONF_PKG_ERRF_OK) { pkgconf_solution_free(client, &initial_world); return result; } PKGCONF_TRACE(client, "flattening"); result = pkgconf_queue_collect_dependencies(client, &initial_world, world, maxdepth); if (result != PKGCONF_PKG_ERRF_OK) { pkgconf_solution_free(client, &initial_world); return result; } if (client->flags & PKGCONF_PKG_PKGF_SEARCH_PRIVATE) { PKGCONF_TRACE(client, "marking public deps"); client->flags &= ~PKGCONF_PKG_PKGF_SEARCH_PRIVATE; client->flags |= PKGCONF_PKG_PKGF_SKIP_CONFLICTS; result = pkgconf_pkg_traverse(client, &initial_world, pkgconf_queue_mark_public, &world->required, maxdepth, 0); client->flags = saved_flags; if (result != PKGCONF_PKG_ERRF_OK) { pkgconf_solution_free(client, &initial_world); return result; } } /* free the initial solution */ pkgconf_solution_free(client, &initial_world); return PKGCONF_PKG_ERRF_OK; } /* * !doc * * .. c:function:: void pkgconf_solution_free(pkgconf_client_t *client, pkgconf_pkg_t *world, int maxdepth) * * Removes references to package nodes contained in a solution. * * :param pkgconf_client_t* client: The pkgconf client object to use for dependency resolution. * :param pkgconf_pkg_t* world: The root for the generated dependency graph. Should have PKGCONF_PKG_PROPF_VIRTUAL flag. * :returns: nothing */ void pkgconf_solution_free(pkgconf_client_t *client, pkgconf_pkg_t *world) { (void) client; if (world->flags & PKGCONF_PKG_PROPF_VIRTUAL) { pkgconf_dependency_free(&world->required); pkgconf_dependency_free(&world->requires_private); } } /* * !doc * * .. c:function:: bool pkgconf_queue_solve(pkgconf_client_t *client, pkgconf_list_t *list, pkgconf_pkg_t *world, int maxdepth) * * Solves and flattens the dependency graph for the supplied dependency list. * * :param pkgconf_client_t* client: The pkgconf client object to use for dependency resolution. * :param pkgconf_list_t* list: The list of dependency requests to consider. * :param pkgconf_pkg_t* world: The root for the generated dependency graph, provided by the caller. Should have PKGCONF_PKG_PROPF_VIRTUAL flag. * :param int maxdepth: The maximum allowed depth for the dependency resolver. A depth of -1 means unlimited. * :returns: true if the dependency resolver found a solution, otherwise false. * :rtype: bool */ bool pkgconf_queue_solve(pkgconf_client_t *client, pkgconf_list_t *list, pkgconf_pkg_t *world, int maxdepth) { /* if maxdepth is one, then we will not traverse deeper than our virtual package. */ if (!maxdepth) maxdepth = -1; return pkgconf_queue_verify(client, world, list, maxdepth) == PKGCONF_PKG_ERRF_OK; } /* * !doc * * .. c:function:: void pkgconf_queue_apply(pkgconf_client_t *client, pkgconf_list_t *list, pkgconf_queue_apply_func_t func, int maxdepth, void *data) * * Attempt to compile a dependency resolution queue into a dependency resolution problem, then attempt to solve the problem and * feed the solution to a callback function if a complete dependency graph is found. * * This function should not be used in new code. Use pkgconf_queue_solve instead. * * :param pkgconf_client_t* client: The pkgconf client object to use for dependency resolution. * :param pkgconf_list_t* list: The list of dependency requests to consider. * :param pkgconf_queue_apply_func_t func: The callback function to call if a solution is found by the dependency resolver. * :param int maxdepth: The maximum allowed depth for the dependency resolver. A depth of -1 means unlimited. * :param void* data: An opaque pointer which is passed to the callback function. * :returns: true if the dependency resolver found a solution, otherwise false. * :rtype: bool */ bool pkgconf_queue_apply(pkgconf_client_t *client, pkgconf_list_t *list, pkgconf_queue_apply_func_t func, int maxdepth, void *data) { bool ret = false; pkgconf_pkg_t world = { .id = "virtual:world", .realname = "virtual world package", .flags = PKGCONF_PKG_PROPF_STATIC | PKGCONF_PKG_PROPF_VIRTUAL, }; /* if maxdepth is one, then we will not traverse deeper than our virtual package. */ if (!maxdepth) maxdepth = -1; if (!pkgconf_queue_solve(client, list, &world, maxdepth)) goto cleanup; /* the world dependency set is flattened after it is returned from pkgconf_queue_verify */ if (!func(client, &world, data, maxdepth)) goto cleanup; ret = true; cleanup: pkgconf_pkg_free(client, &world); return ret; } /* * !doc * * .. c:function:: void pkgconf_queue_validate(pkgconf_client_t *client, pkgconf_list_t *list, pkgconf_queue_apply_func_t func, int maxdepth, void *data) * * Attempt to compile a dependency resolution queue into a dependency resolution problem, then attempt to solve the problem. * * :param pkgconf_client_t* client: The pkgconf client object to use for dependency resolution. * :param pkgconf_list_t* list: The list of dependency requests to consider. * :param int maxdepth: The maximum allowed depth for the dependency resolver. A depth of -1 means unlimited. * :returns: true if the dependency resolver found a solution, otherwise false. * :rtype: bool */ bool pkgconf_queue_validate(pkgconf_client_t *client, pkgconf_list_t *list, int maxdepth) { bool retval = true; pkgconf_pkg_t world = { .id = "virtual:world", .realname = "virtual world package", .flags = PKGCONF_PKG_PROPF_STATIC | PKGCONF_PKG_PROPF_VIRTUAL, }; /* if maxdepth is one, then we will not traverse deeper than our virtual package. */ if (!maxdepth) maxdepth = -1; if (pkgconf_queue_verify(client, &world, list, maxdepth) != PKGCONF_PKG_ERRF_OK) retval = false; pkgconf_pkg_free(client, &world); return retval; }