/* * Server-Side/Stored Information. * * Relatively new facility that allows storing of certain types of information, * such as a users buddy list, permit/deny list, and permit/deny preferences, * to be stored on the server, so that they can be accessed from any client. * * We keep a copy of the ssi data in sess->ssi, because the data needs to be * accessed for various reasons. So all the "aim_ssi_itemlist_bleh" functions * near the top just manage the local data. * * The SNAC sending and receiving functions are lower down in the file, and * they're simpler. They are in the order of the subtypes they deal with, * starting with the request rights function (subtype 0x0002), then parse * rights (subtype 0x0003), then--well, you get the idea. * * This is entirely too complicated. * You don't know the half of it. * * XXX - Test for memory leaks * XXX - Better parsing of rights, and use the rights info to limit adds * */ #include #include "ssi.h" /** * Locally add a new item to the given item list. * * @param list A pointer to a pointer to the current list of items. * @param parent A pointer to the parent group, or NULL if the item should have no * parent group (ie. the group ID# should be 0). * @param name A null terminated string of the name of the new item, or NULL if the * item should have no name. * @param type The type of the item, 0x0001 for a contact, 0x0002 for a group, etc. * @return The newly created item. */ static struct aim_ssi_item *aim_ssi_itemlist_add(struct aim_ssi_item **list, struct aim_ssi_item *parent, char *name, guint16 type) { int i; struct aim_ssi_item *cur, *newitem; if (!(newitem = g_new0(struct aim_ssi_item, 1))) return NULL; /* Set the name */ if (name) { if (!(newitem->name = (char *)g_malloc((strlen(name)+1)*sizeof(char)))) { g_free(newitem); return NULL; } strcpy(newitem->name, name); } else newitem->name = NULL; /* Set the group ID# and the buddy ID# */ newitem->gid = 0x0000; newitem->bid = 0x0000; if (type == AIM_SSI_TYPE_GROUP) { if (name) do { newitem->gid += 0x0001; for (cur=*list, i=0; ((cur) && (!i)); cur=cur->next) if ((cur->gid == newitem->gid) && (cur->gid == newitem->gid)) i=1; } while (i); } else { if (parent) newitem->gid = parent->gid; do { newitem->bid += 0x0001; for (cur=*list, i=0; ((cur) && (!i)); cur=cur->next) if ((cur->bid == newitem->bid) && (cur->gid == newitem->gid)) i=1; } while (i); } /* Set the rest */ newitem->type = type; newitem->data = NULL; newitem->next = *list; *list = newitem; return newitem; } /** * Locally rebuild the 0x00c8 TLV in the additional data of the given group. * * @param list A pointer to a pointer to the current list of items. * @param parentgroup A pointer to the group who's additional data you want to rebuild. * @return Return 0 if no errors, otherwise return the error number. */ static int aim_ssi_itemlist_rebuildgroup(struct aim_ssi_item **list, struct aim_ssi_item *parentgroup) { int newlen; //, i; struct aim_ssi_item *cur; /* Free the old additional data */ if (parentgroup->data) { aim_freetlvchain((aim_tlvlist_t **)&parentgroup->data); parentgroup->data = NULL; } /* Find the length for the new additional data */ newlen = 0; if (parentgroup->gid == 0x0000) { for (cur=*list; cur; cur=cur->next) if ((cur->gid != 0x0000) && (cur->type == AIM_SSI_TYPE_GROUP)) newlen += 2; } else { for (cur=*list; cur; cur=cur->next) if ((cur->gid == parentgroup->gid) && (cur->type == AIM_SSI_TYPE_BUDDY)) newlen += 2; } /* Rebuild the additional data */ if (newlen>0) { guint8 *newdata; if (!(newdata = (guint8 *)g_malloc((newlen)*sizeof(guint8)))) return -ENOMEM; newlen = 0; if (parentgroup->gid == 0x0000) { for (cur=*list; cur; cur=cur->next) if ((cur->gid != 0x0000) && (cur->type == AIM_SSI_TYPE_GROUP)) newlen += aimutil_put16(newdata+newlen, cur->gid); } else { for (cur=*list; cur; cur=cur->next) if ((cur->gid == parentgroup->gid) && (cur->type == AIM_SSI_TYPE_BUDDY)) newlen += aimutil_put16(newdata+newlen, cur->bid); } aim_addtlvtochain_raw((aim_tlvlist_t **)&(parentgroup->data), 0x00c8, newlen, newdata); g_free(newdata); } return 0; } /** * Locally free all of the stored buddy list information. * * @param sess The oscar session. * @return Return 0 if no errors, otherwise return the error number. */ static int aim_ssi_freelist(aim_session_t *sess) { struct aim_ssi_item *cur, *delitem; cur = sess->ssi.items; while (cur) { if (cur->name) g_free(cur->name); if (cur->data) aim_freetlvchain((aim_tlvlist_t **)&cur->data); delitem = cur; cur = cur->next; g_free(delitem); } sess->ssi.items = NULL; sess->ssi.revision = 0; sess->ssi.timestamp = (time_t)0; return 0; } /** * Locally find an item given a group ID# and a buddy ID#. * * @param list A pointer to the current list of items. * @param gid The group ID# of the desired item. * @param bid The buddy ID# of the desired item. * @return Return a pointer to the item if found, else return NULL; */ struct aim_ssi_item *aim_ssi_itemlist_find(struct aim_ssi_item *list, guint16 gid, guint16 bid) { struct aim_ssi_item *cur; for (cur=list; cur; cur=cur->next) if ((cur->gid == gid) && (cur->bid == bid)) return cur; return NULL; } /** * Locally find an item given a group name, screen name, and type. If group name * and screen name are null, then just return the first item of the given type. * * @param list A pointer to the current list of items. * @param gn The group name of the desired item. * @param bn The buddy name of the desired item. * @param type The type of the desired item. * @return Return a pointer to the item if found, else return NULL; */ struct aim_ssi_item *aim_ssi_itemlist_finditem(struct aim_ssi_item *list, char *gn, char *sn, guint16 type) { struct aim_ssi_item *cur; if (!list) return NULL; if (gn && sn) { /* For finding buddies in groups */ for (cur=list; cur; cur=cur->next) if ((cur->type == type) && (cur->name) && !(aim_sncmp(cur->name, sn))) { struct aim_ssi_item *curg; for (curg=list; curg; curg=curg->next) if ((curg->type == AIM_SSI_TYPE_GROUP) && (curg->gid == cur->gid) && (curg->name) && !(aim_sncmp(curg->name, gn))) return cur; } } else if (sn) { /* For finding groups, permits, denies, and ignores */ for (cur=list; cur; cur=cur->next) if ((cur->type == type) && (cur->name) && !(aim_sncmp(cur->name, sn))) return cur; /* For stuff without names--permit deny setting, visibility mask, etc. */ } else for (cur=list; cur; cur=cur->next) { if (cur->type == type) return cur; } return NULL; } /** * Locally find the parent item of the given buddy name. * * @param list A pointer to the current list of items. * @param bn The buddy name of the desired item. * @return Return a pointer to the item if found, else return NULL; */ struct aim_ssi_item *aim_ssi_itemlist_findparent(struct aim_ssi_item *list, char *sn) { struct aim_ssi_item *cur, *curg; if (!list || !sn) return NULL; if (!(cur = aim_ssi_itemlist_finditem(list, NULL, sn, AIM_SSI_TYPE_BUDDY))) return NULL; for (curg=list; curg; curg=curg->next) if ((curg->type == AIM_SSI_TYPE_GROUP) && (curg->gid == cur->gid)) return curg; return NULL; } /** * Locally find the permit/deny setting item, and return the setting. * * @param list A pointer to the current list of items. * @return Return the current SSI permit deny setting, or 0 if no setting was found. */ int aim_ssi_getpermdeny(struct aim_ssi_item *list) { struct aim_ssi_item *cur = aim_ssi_itemlist_finditem(list, NULL, NULL, AIM_SSI_TYPE_PDINFO); if (cur) { aim_tlvlist_t *tlvlist = cur->data; if (tlvlist) { aim_tlv_t *tlv = aim_gettlv(tlvlist, 0x00ca, 1); if (tlv && tlv->value) return aimutil_get8(tlv->value); } } return 0; } /** * Add the given packet to the holding queue. We totally need to send SSI SNACs one at * a time, so we have a local queue where packets get put before they are sent, and * then we send stuff one at a time, nice and orderly-like. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param fr The newly created SNAC that you want to send. * @return Return 0 if no errors, otherwise return the error number. */ static int aim_ssi_enqueue(aim_session_t *sess, aim_conn_t *conn, aim_frame_t *fr) { aim_frame_t *cur; if (!sess || !conn || !fr) return -EINVAL; fr->next = NULL; if (sess->ssi.holding_queue == NULL) { sess->ssi.holding_queue = fr; if (!sess->ssi.waiting_for_ack) aim_ssi_modbegin(sess, conn); } else { for (cur = sess->ssi.holding_queue; cur->next; cur = cur->next) ; cur->next = fr; } return 0; } /** * Send the next SNAC from the holding queue. This is called * automatically when an ack from an add, mod, or del is received. * If the queue is empty, it sends the modend SNAC. * * @param sess The oscar session. * @param conn The bos connection for this session. * @return Return 0 if no errors, otherwise return the error number. */ static int aim_ssi_dispatch(aim_session_t *sess, aim_conn_t *conn) { aim_frame_t *cur; if (!sess || !conn) return -EINVAL; if (!sess->ssi.waiting_for_ack) { if (sess->ssi.holding_queue) { sess->ssi.waiting_for_ack = 1; cur = sess->ssi.holding_queue->next; sess->ssi.holding_queue->next = NULL; aim_tx_enqueue(sess, sess->ssi.holding_queue); sess->ssi.holding_queue = cur; } else aim_ssi_modend(sess, conn); } return 0; } /** * Add an array of screen names to the given group. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param gn The name of the group to which you want to add these names. * @param sn An array of null terminated strings of the names you want to add. * @param num The number of screen names you are adding (size of the sn array). * @param flags 1 - Add with TLV(0x66) * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_addbuddies(aim_session_t *sess, aim_conn_t *conn, char *gn, char **sn, unsigned int num, unsigned int flags) { struct aim_ssi_item *parentgroup, **newitems; guint16 i; if (!sess || !conn || !gn || !sn || !num) return -EINVAL; /* Look up the parent group */ if (!(parentgroup = aim_ssi_itemlist_finditem(sess->ssi.items, NULL, gn, AIM_SSI_TYPE_GROUP))) { aim_ssi_addgroups(sess, conn, &gn, 1); if (!(parentgroup = aim_ssi_itemlist_finditem(sess->ssi.items, NULL, gn, AIM_SSI_TYPE_GROUP))) return -ENOMEM; } /* Allocate an array of pointers to each of the new items */ if (!(newitems = g_new0(struct aim_ssi_item *, num))) return -ENOMEM; /* Add items to the local list, and index them in the array */ for (i=0; issi.items, parentgroup, sn[i], AIM_SSI_TYPE_BUDDY))) { g_free(newitems); return -ENOMEM; } else if (flags & 1) { aim_tlvlist_t *tl = NULL; aim_addtlvtochain_noval(&tl, 0x66); newitems[i]->data = tl; } /* Send the add item SNAC */ if ((i = aim_ssi_addmoddel(sess, conn, newitems, num, AIM_CB_SSI_ADD))) { g_free(newitems); return -i; } /* Free the array of pointers to each of the new items */ g_free(newitems); /* Rebuild the additional data in the parent group */ if ((i = aim_ssi_itemlist_rebuildgroup(&sess->ssi.items, parentgroup))) return i; /* Send the mod item SNAC */ if ((i = aim_ssi_addmoddel(sess, conn, &parentgroup, 1, AIM_CB_SSI_MOD ))) return i; /* Begin sending SSI SNACs */ if (!(i = aim_ssi_dispatch(sess, conn))) return i; return 0; } /** * Add the master group (the group containing all groups). This is called by * aim_ssi_addgroups, if necessary. * * @param sess The oscar session. * @param conn The bos connection for this session. * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_addmastergroup(aim_session_t *sess, aim_conn_t *conn) { struct aim_ssi_item *newitem; if (!sess || !conn) return -EINVAL; /* Add the item to the local list, and keep a pointer to it */ if (!(newitem = aim_ssi_itemlist_add(&sess->ssi.items, NULL, NULL, AIM_SSI_TYPE_GROUP))) return -ENOMEM; /* If there are any existing groups (technically there shouldn't be, but */ /* just in case) then add their group ID#'s to the additional data */ aim_ssi_itemlist_rebuildgroup(&sess->ssi.items, newitem); /* Send the add item SNAC */ aim_ssi_addmoddel(sess, conn, &newitem, 1, AIM_CB_SSI_ADD); /* Begin sending SSI SNACs */ aim_ssi_dispatch(sess, conn); return 0; } /** * Add an array of groups to the list. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param gn An array of null terminated strings of the names you want to add. * @param num The number of groups names you are adding (size of the sn array). * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_addgroups(aim_session_t *sess, aim_conn_t *conn, char **gn, unsigned int num) { struct aim_ssi_item *parentgroup, **newitems; guint16 i; if (!sess || !conn || !gn || !num) return -EINVAL; /* Look up the parent group */ if (!(parentgroup = aim_ssi_itemlist_find(sess->ssi.items, 0, 0))) { aim_ssi_addmastergroup(sess, conn); if (!(parentgroup = aim_ssi_itemlist_find(sess->ssi.items, 0, 0))) return -ENOMEM; } /* Allocate an array of pointers to each of the new items */ if (!(newitems = g_new0(struct aim_ssi_item *, num))) return -ENOMEM; /* Add items to the local list, and index them in the array */ for (i=0; issi.items, parentgroup, gn[i], AIM_SSI_TYPE_GROUP))) { g_free(newitems); return -ENOMEM; } /* Send the add item SNAC */ if ((i = aim_ssi_addmoddel(sess, conn, newitems, num, AIM_CB_SSI_ADD))) { g_free(newitems); return -i; } /* Free the array of pointers to each of the new items */ g_free(newitems); /* Rebuild the additional data in the parent group */ if ((i = aim_ssi_itemlist_rebuildgroup(&sess->ssi.items, parentgroup))) return i; /* Send the mod item SNAC */ if ((i = aim_ssi_addmoddel(sess, conn, &parentgroup, 1, AIM_CB_SSI_MOD))) return i; /* Begin sending SSI SNACs */ if (!(i = aim_ssi_dispatch(sess, conn))) return i; return 0; } /** * Add an array of a certain type of item to the list. This can be used for * permit buddies, deny buddies, ICQ's ignore buddies, and probably other * types, also. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param sn An array of null terminated strings of the names you want to add. * @param num The number of groups names you are adding (size of the sn array). * @param type The type of item you want to add. See the AIM_SSI_TYPE_BLEH * #defines in aim.h. * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_addpord(aim_session_t *sess, aim_conn_t *conn, char **sn, unsigned int num, guint16 type) { struct aim_ssi_item **newitems; guint16 i; if (!sess || !conn || !sn || !num) return -EINVAL; /* Allocate an array of pointers to each of the new items */ if (!(newitems = g_new0(struct aim_ssi_item *, num))) return -ENOMEM; /* Add items to the local list, and index them in the array */ for (i=0; issi.items, NULL, sn[i], type))) { g_free(newitems); return -ENOMEM; } /* Send the add item SNAC */ if ((i = aim_ssi_addmoddel(sess, conn, newitems, num, AIM_CB_SSI_ADD))) { g_free(newitems); return -i; } /* Free the array of pointers to each of the new items */ g_free(newitems); /* Begin sending SSI SNACs */ if (!(i = aim_ssi_dispatch(sess, conn))) return i; return 0; } /** * Move a buddy from one group to another group. This basically just deletes the * buddy and re-adds it. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param oldgn The group that the buddy is currently in. * @param newgn The group that the buddy should be moved in to. * @param sn The name of the buddy to be moved. * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_movebuddy(aim_session_t *sess, aim_conn_t *conn, char *oldgn, char *newgn, char *sn) { struct aim_ssi_item **groups, *buddy, *cur; guint16 i; if (!sess || !conn || !oldgn || !newgn || !sn) return -EINVAL; /* Look up the buddy */ if (!(buddy = aim_ssi_itemlist_finditem(sess->ssi.items, NULL, sn, AIM_SSI_TYPE_BUDDY))) return -ENOMEM; /* Allocate an array of pointers to the two groups */ if (!(groups = g_new0(struct aim_ssi_item *, 2))) return -ENOMEM; /* Look up the old parent group */ if (!(groups[0] = aim_ssi_itemlist_finditem(sess->ssi.items, NULL, oldgn, AIM_SSI_TYPE_GROUP))) { g_free(groups); return -ENOMEM; } /* Look up the new parent group */ if (!(groups[1] = aim_ssi_itemlist_finditem(sess->ssi.items, NULL, newgn, AIM_SSI_TYPE_GROUP))) { g_free(groups); return -ENOMEM; } /* Send the delete item SNAC */ aim_ssi_addmoddel(sess, conn, &buddy, 1, AIM_CB_SSI_DEL); /* Put the buddy in the new group */ buddy->gid = groups[1]->gid; /* Assign a new buddy ID#, because the new group might already have a buddy with this ID# */ buddy->bid = 0; do { buddy->bid += 0x0001; for (cur=sess->ssi.items, i=0; ((cur) && (!i)); cur=cur->next) if ((cur->bid == buddy->bid) && (cur->gid == buddy->gid) && (cur->type == AIM_SSI_TYPE_BUDDY) && (cur->name) && aim_sncmp(cur->name, buddy->name)) i=1; } while (i); /* Rebuild the additional data in the two parent groups */ aim_ssi_itemlist_rebuildgroup(&sess->ssi.items, groups[0]); aim_ssi_itemlist_rebuildgroup(&sess->ssi.items, groups[1]); /* Send the add item SNAC */ aim_ssi_addmoddel(sess, conn, &buddy, 1, AIM_CB_SSI_ADD); /* Send the mod item SNAC */ aim_ssi_addmoddel(sess, conn, groups, 2, AIM_CB_SSI_MOD); /* Free the temporary array */ g_free(groups); /* Begin sending SSI SNACs */ aim_ssi_dispatch(sess, conn); return 0; } /** * Delete an array of screen names from the given group. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param gn The name of the group from which you want to delete these names. * @param sn An array of null terminated strings of the names you want to delete. * @param num The number of screen names you are deleting (size of the sn array). * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_delbuddies(aim_session_t *sess, aim_conn_t *conn, char *gn, char **sn, unsigned int num) { struct aim_ssi_item *cur, *parentgroup, **delitems; int i; if (!sess || !conn || !gn || !sn || !num) return -EINVAL; /* Look up the parent group */ if (!(parentgroup = aim_ssi_itemlist_finditem(sess->ssi.items, NULL, gn, AIM_SSI_TYPE_GROUP))) return -EINVAL; /* Allocate an array of pointers to each of the items to be deleted */ delitems = g_new0(struct aim_ssi_item *, num); /* Make the delitems array a pointer to the aim_ssi_item structs to be deleted */ for (i=0; issi.items, NULL, sn[i], AIM_SSI_TYPE_BUDDY))) { g_free(delitems); return -EINVAL; } /* Remove the delitems from the item list */ if (sess->ssi.items == delitems[i]) { sess->ssi.items = sess->ssi.items->next; } else { for (cur=sess->ssi.items; (cur->next && (cur->next!=delitems[i])); cur=cur->next); if (cur->next) cur->next = cur->next->next; } } /* Send the del item SNAC */ aim_ssi_addmoddel(sess, conn, delitems, num, AIM_CB_SSI_DEL); /* Free the items */ for (i=0; iname) g_free(delitems[i]->name); if (delitems[i]->data) aim_freetlvchain((aim_tlvlist_t **)&delitems[i]->data); g_free(delitems[i]); } g_free(delitems); /* Rebuild the additional data in the parent group */ aim_ssi_itemlist_rebuildgroup(&sess->ssi.items, parentgroup); /* Send the mod item SNAC */ aim_ssi_addmoddel(sess, conn, &parentgroup, 1, AIM_CB_SSI_MOD); /* Delete the group, but only if it's empty */ if (!parentgroup->data) aim_ssi_delgroups(sess, conn, &parentgroup->name, 1); /* Begin sending SSI SNACs */ aim_ssi_dispatch(sess, conn); return 0; } /** * Delete the master group from the item list. There can be only one. * Er, so just find the one master group and delete it. * * @param sess The oscar session. * @param conn The bos connection for this session. * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_delmastergroup(aim_session_t *sess, aim_conn_t *conn) { struct aim_ssi_item *cur, *delitem; if (!sess || !conn) return -EINVAL; /* Make delitem a pointer to the aim_ssi_item to be deleted */ if (!(delitem = aim_ssi_itemlist_find(sess->ssi.items, 0, 0))) return -EINVAL; /* Remove delitem from the item list */ if (sess->ssi.items == delitem) { sess->ssi.items = sess->ssi.items->next; } else { for (cur=sess->ssi.items; (cur->next && (cur->next!=delitem)); cur=cur->next); if (cur->next) cur->next = cur->next->next; } /* Send the del item SNAC */ aim_ssi_addmoddel(sess, conn, &delitem, 1, AIM_CB_SSI_DEL); /* Free the item */ if (delitem->name) g_free(delitem->name); if (delitem->data) aim_freetlvchain((aim_tlvlist_t **)&delitem->data); g_free(delitem); /* Begin sending SSI SNACs */ aim_ssi_dispatch(sess, conn); return 0; } /** * Delete an array of groups. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param gn An array of null terminated strings of the groups you want to delete. * @param num The number of groups you are deleting (size of the gn array). * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_delgroups(aim_session_t *sess, aim_conn_t *conn, char **gn, unsigned int num) { struct aim_ssi_item *cur, *parentgroup, **delitems; int i; if (!sess || !conn || !gn || !num) return -EINVAL; /* Look up the parent group */ if (!(parentgroup = aim_ssi_itemlist_find(sess->ssi.items, 0, 0))) return -EINVAL; /* Allocate an array of pointers to each of the items to be deleted */ delitems = g_new0(struct aim_ssi_item *, num); /* Make the delitems array a pointer to the aim_ssi_item structs to be deleted */ for (i=0; issi.items, NULL, gn[i], AIM_SSI_TYPE_GROUP))) { g_free(delitems); return -EINVAL; } /* Remove the delitems from the item list */ if (sess->ssi.items == delitems[i]) { sess->ssi.items = sess->ssi.items->next; } else { for (cur=sess->ssi.items; (cur->next && (cur->next!=delitems[i])); cur=cur->next); if (cur->next) cur->next = cur->next->next; } } /* Send the del item SNAC */ aim_ssi_addmoddel(sess, conn, delitems, num, AIM_CB_SSI_DEL); /* Free the items */ for (i=0; iname) g_free(delitems[i]->name); if (delitems[i]->data) aim_freetlvchain((aim_tlvlist_t **)&delitems[i]->data); g_free(delitems[i]); } g_free(delitems); /* Rebuild the additional data in the parent group */ aim_ssi_itemlist_rebuildgroup(&sess->ssi.items, parentgroup); /* Send the mod item SNAC */ aim_ssi_addmoddel(sess, conn, &parentgroup, 1, AIM_CB_SSI_MOD); /* Delete the group, but only if it's empty */ if (!parentgroup->data) aim_ssi_delmastergroup(sess, conn); /* Begin sending SSI SNACs */ aim_ssi_dispatch(sess, conn); return 0; } /** * Delete an array of a certain type of item from the list. This can be * used for permit buddies, deny buddies, ICQ's ignore buddies, and * probably other types, also. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param sn An array of null terminated strings of the items you want to delete. * @param num The number of items you are deleting (size of the sn array). * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_delpord(aim_session_t *sess, aim_conn_t *conn, char **sn, unsigned int num, guint16 type) { struct aim_ssi_item *cur, **delitems; int i; if (!sess || !conn || !sn || !num || (type!=AIM_SSI_TYPE_PERMIT && type!=AIM_SSI_TYPE_DENY)) return -EINVAL; /* Allocate an array of pointers to each of the items to be deleted */ delitems = g_new0(struct aim_ssi_item *, num); /* Make the delitems array a pointer to the aim_ssi_item structs to be deleted */ for (i=0; issi.items, NULL, sn[i], type))) { g_free(delitems); return -EINVAL; } /* Remove the delitems from the item list */ if (sess->ssi.items == delitems[i]) { sess->ssi.items = sess->ssi.items->next; } else { for (cur=sess->ssi.items; (cur->next && (cur->next!=delitems[i])); cur=cur->next); if (cur->next) cur->next = cur->next->next; } } /* Send the del item SNAC */ aim_ssi_addmoddel(sess, conn, delitems, num, AIM_CB_SSI_DEL); /* Free the items */ for (i=0; iname) g_free(delitems[i]->name); if (delitems[i]->data) aim_freetlvchain((aim_tlvlist_t **)&delitems[i]->data); g_free(delitems[i]); } g_free(delitems); /* Begin sending SSI SNACs */ aim_ssi_dispatch(sess, conn); return 0; } /* * Request SSI Rights. */ int aim_ssi_reqrights(aim_session_t *sess, aim_conn_t *conn) { return aim_genericreq_n(sess, conn, AIM_CB_FAM_SSI, AIM_CB_SSI_REQRIGHTS); } /* * SSI Rights Information. */ static int parserights(aim_session_t *sess, aim_module_t *mod, aim_frame_t *rx, aim_modsnac_t *snac, aim_bstream_t *bs) { int ret = 0; aim_rxcallback_t userfunc; if ((userfunc = aim_callhandler(sess, rx->conn, snac->family, snac->subtype))) ret = userfunc(sess, rx); return ret; } int aim_ssi_reqalldata(aim_session_t *sess, aim_conn_t *conn) { aim_frame_t *fr; aim_snacid_t snacid; if (!sess || !conn) return -EINVAL; if (!(fr = aim_tx_new(sess, conn, AIM_FRAMETYPE_FLAP, 0x02, 10))) return -ENOMEM; snacid = aim_cachesnac(sess, AIM_CB_FAM_SSI, AIM_CB_SSI_REQFULLLIST, 0x0000, NULL, 0); aim_putsnac(&fr->data, AIM_CB_FAM_SSI, AIM_CB_SSI_REQFULLLIST, 0x0000, snacid); aim_tx_enqueue(sess, fr); return 0; } /* * SSI Data. */ static int parsedata(aim_session_t *sess, aim_module_t *mod, aim_frame_t *rx, aim_modsnac_t *snac, aim_bstream_t *bs) { int ret = 0; aim_rxcallback_t userfunc; struct aim_ssi_item *cur = NULL; guint8 fmtver; /* guess */ guint16 revision; guint32 timestamp; /* When you set the version for the SSI family to 2-4, the beginning of this changes. * Instead of the version and then the revision, there is "0x0006" and then a type * 0x0001 TLV containing the 2 byte SSI family version that you sent earlier. Also, * the SNAC flags go from 0x0000 to 0x8000. I guess the 0x0006 is the length of the * TLV(s) that follow. The rights SNAC does the same thing, with the differing flag * and everything. */ fmtver = aimbs_get8(bs); /* Version of ssi data. Should be 0x00 */ revision = aimbs_get16(bs); /* # of times ssi data has been modified */ if (revision != 0) sess->ssi.revision = revision; for (cur = sess->ssi.items; cur && cur->next; cur=cur->next) ; while (aim_bstream_empty(bs) > 4) { /* last four bytes are stamp */ guint16 namelen, tbslen; if (!sess->ssi.items) { if (!(sess->ssi.items = g_new0(struct aim_ssi_item, 1))) return -ENOMEM; cur = sess->ssi.items; } else { if (!(cur->next = g_new0(struct aim_ssi_item, 1))) return -ENOMEM; cur = cur->next; } if ((namelen = aimbs_get16(bs))) cur->name = aimbs_getstr(bs, namelen); cur->gid = aimbs_get16(bs); cur->bid = aimbs_get16(bs); cur->type = aimbs_get16(bs); if ((tbslen = aimbs_get16(bs))) { aim_bstream_t tbs; aim_bstream_init(&tbs, bs->data + bs->offset /* XXX */, tbslen); cur->data = (void *)aim_readtlvchain(&tbs); aim_bstream_advance(bs, tbslen); } } timestamp = aimbs_get32(bs); if (timestamp != 0) sess->ssi.timestamp = timestamp; sess->ssi.received_data = 1; if ((userfunc = aim_callhandler(sess, rx->conn, snac->family, snac->subtype))) ret = userfunc(sess, rx, fmtver, sess->ssi.revision, sess->ssi.timestamp, sess->ssi.items); return ret; } /* * SSI Data Enable Presence. * * Should be sent after receiving 13/6 or 13/f to tell the server you * are ready to begin using the list. It will promptly give you the * presence information for everyone in your list and put your permit/deny * settings into effect. * */ int aim_ssi_enable(aim_session_t *sess, aim_conn_t *conn) { return aim_genericreq_n(sess, conn, AIM_CB_FAM_SSI, 0x0007); } /* * Stuff for SSI authorizations. The code used to work with the old im_ch4 * messages, but those are supposed to be obsolete. This is probably * ICQ-specific. */ /** * Request authorization to add someone to the server-side buddy list. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param uin The contact's ICQ UIN. * @param reason The reason string to send with the request. * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_auth_request( aim_session_t *sess, aim_conn_t *conn, char *uin, char *reason ) { aim_frame_t *fr; aim_snacid_t snacid; int snaclen; snaclen = 10 + 1 + strlen( uin ) + 2 + strlen( reason ) + 2; if( !( fr = aim_tx_new( sess, conn, AIM_FRAMETYPE_FLAP, 0x02, snaclen ) ) ) return -ENOMEM; snacid = aim_cachesnac( sess, AIM_CB_FAM_SSI, AIM_CB_SSI_SENDAUTHREQ, 0x0000, NULL, 0 ); aim_putsnac( &fr->data, AIM_CB_FAM_SSI, AIM_CB_SSI_SENDAUTHREQ, 0x0000, snacid ); aimbs_put8( &fr->data, strlen( uin ) ); aimbs_putraw( &fr->data, (guint8 *)uin, strlen( uin ) ); aimbs_put16( &fr->data, strlen( reason ) ); aimbs_putraw( &fr->data, (guint8 *)reason, strlen( reason ) ); aimbs_put16( &fr->data, 0 ); aim_tx_enqueue( sess, fr ); return( 0 ); } /** * Reply to an authorization request to add someone to the server-side buddy list. * * @param sess The oscar session. * @param conn The bos connection for this session. * @param uin The contact's ICQ UIN. * @param yesno 1 == Permit, 0 == Deny * @param reason The reason string to send with the request. * @return Return 0 if no errors, otherwise return the error number. */ int aim_ssi_auth_reply( aim_session_t *sess, aim_conn_t *conn, char *uin, int yesno, char *reason ) { aim_frame_t *fr; aim_snacid_t snacid; int snaclen; snaclen = 10 + 1 + strlen( uin ) + 3 + strlen( reason ); if( !( fr = aim_tx_new( sess, conn, AIM_FRAMETYPE_FLAP, 0x02, snaclen ) ) ) return -ENOMEM; snacid = aim_cachesnac( sess, AIM_CB_FAM_SSI, AIM_CB_SSI_SENDAUTHREP, 0x0000, NULL, 0 ); aim_putsnac( &fr->data, AIM_CB_FAM_SSI, AIM_CB_SSI_SENDAUTHREP, 0x0000, snacid ); aimbs_put8( &fr->data, strlen( uin ) ); aimbs_putraw( &fr->data, (guint8 *)uin, strlen( uin ) ); aimbs_put8( &fr->data, yesno ); aimbs_put16( &fr->data, strlen( reason ) ); aimbs_putraw( &fr->data, (guint8 *)reason, strlen( reason ) ); aim_tx_enqueue( sess, fr ); return( 0 ); } /* * SSI Add/Mod/Del Item(s). * * Sends the SNAC to add, modify, or delete an item from the server-stored * information. These 3 SNACs all have an identical structure. The only * difference is the subtype that is set for the SNAC. * */ int aim_ssi_addmoddel(aim_session_t *sess, aim_conn_t *conn, struct aim_ssi_item **items, unsigned int num, guint16 subtype) { aim_frame_t *fr; aim_snacid_t snacid; int i, snaclen, listlen; char *list = NULL; if (!sess || !conn || !items || !num) return -EINVAL; snaclen = 10; /* For family, subtype, flags, and SNAC ID */ listlen = 0; for (i=0; iname) { snaclen += strlen(items[i]->name); if (subtype == AIM_CB_SSI_ADD) { list = g_realloc(list, listlen + strlen(items[i]->name) + 1); strcpy(list + listlen, items[i]->name); listlen += strlen(items[i]->name) + 1; } } else { if (subtype == AIM_CB_SSI_ADD) { list = g_realloc(list, listlen + 1); list[listlen] = '\0'; listlen ++; } } if (items[i]->data) snaclen += aim_sizetlvchain((aim_tlvlist_t **)&items[i]->data); } if (!(fr = aim_tx_new(sess, conn, AIM_FRAMETYPE_FLAP, 0x02, snaclen))) return -ENOMEM; snacid = aim_cachesnac(sess, AIM_CB_FAM_SSI, subtype, 0x0000, list, list ? listlen : 0); aim_putsnac(&fr->data, AIM_CB_FAM_SSI, subtype, 0x0000, snacid); g_free(list); for (i=0; idata, items[i]->name ? strlen(items[i]->name) : 0); if (items[i]->name) aimbs_putraw(&fr->data, (guint8 *)items[i]->name, strlen(items[i]->name)); aimbs_put16(&fr->data, items[i]->gid); aimbs_put16(&fr->data, items[i]->bid); aimbs_put16(&fr->data, items[i]->type); aimbs_put16(&fr->data, items[i]->data ? aim_sizetlvchain((aim_tlvlist_t **)&items[i]->data) : 0); if (items[i]->data) aim_writetlvchain(&fr->data, (aim_tlvlist_t **)&items[i]->data); } aim_ssi_enqueue(sess, conn, fr); return 0; } /* * SSI Add/Mod/Del Ack. * * Response to add, modify, or delete SNAC (sent with aim_ssi_addmoddel). * */ static int parseack(aim_session_t *sess, aim_module_t *mod, aim_frame_t *rx, aim_modsnac_t *snac, aim_bstream_t *bs) { int ret = 0; aim_rxcallback_t userfunc; aim_snac_t *origsnac; sess->ssi.waiting_for_ack = 0; aim_ssi_dispatch(sess, rx->conn); origsnac = aim_remsnac(sess, snac->id); if ((userfunc = aim_callhandler(sess, rx->conn, snac->family, snac->subtype))) ret = userfunc(sess, rx, origsnac); if (origsnac) { g_free(origsnac->data); g_free(origsnac); } return ret; } /* * SSI Begin Data Modification. * * Tells the server you're going to start modifying data. * */ int aim_ssi_modbegin(aim_session_t *sess, aim_conn_t *conn) { return aim_genericreq_n(sess, conn, AIM_CB_FAM_SSI, AIM_CB_SSI_EDITSTART); } /* * SSI End Data Modification. * * Tells the server you're done modifying data. * */ int aim_ssi_modend(aim_session_t *sess, aim_conn_t *conn) { return aim_genericreq_n(sess, conn, AIM_CB_FAM_SSI, AIM_CB_SSI_EDITSTOP); } /* * SSI Data Unchanged. * * Response to aim_ssi_reqdata() if the server-side data is not newer than * posted local stamp/revision. * */ static int parsedataunchanged(aim_session_t *sess, aim_module_t *mod, aim_frame_t *rx, aim_modsnac_t *snac, aim_bstream_t *bs) { int ret = 0; aim_rxcallback_t userfunc; sess->ssi.received_data = 1; if ((userfunc = aim_callhandler(sess, rx->conn, snac->family, snac->subtype))) ret = userfunc(sess, rx); return ret; } static int snachandler(aim_session_t *sess, aim_module_t *mod, aim_frame_t *rx, aim_modsnac_t *snac, aim_bstream_t *bs) { if (snac->subtype == AIM_CB_SSI_RIGHTSINFO) return parserights(sess, mod, rx, snac, bs); else if (snac->subtype == AIM_CB_SSI_LIST) return parsedata(sess, mod, rx, snac, bs); else if (snac->subtype == AIM_CB_SSI_SRVACK) return parseack(sess, mod, rx, snac, bs); else if (snac->subtype == AIM_CB_SSI_NOLIST) return parsedataunchanged(sess, mod, rx, snac, bs); return 0; } static void ssi_shutdown(aim_session_t *sess, aim_module_t *mod) { aim_ssi_freelist(sess); return; } int ssi_modfirst(aim_session_t *sess, aim_module_t *mod) { mod->family = AIM_CB_FAM_SSI; mod->version = 0x0003; mod->toolid = 0x0110; mod->toolversion = 0x0629; mod->flags = 0; strncpy(mod->name, "ssi", sizeof(mod->name)); mod->snachandler = snachandler; mod->shutdown = ssi_shutdown; return 0; }