/* * * MCAP for BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2010 GSyC/LibreSoft, Universidad Rey Juan Carlos. * * Authors: * Santiago Carot-Nemesio * Jose Antonio Santos-Cadenas * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #include "log.h" #include "error.h" #include #include #include #include #include "btio.h" #include #include #include "mcap.h" #include "mcap_lib.h" #include "mcap_internal.h" #define RESPONSE_TIMER 6 /* seconds */ #define MAX_CACHED 10 /* 10 devices */ #define MCAP_ERROR g_quark_from_static_string("mcap-error-quark") #define RELEASE_TIMER(__mcl) do { \ if (__mcl->tid) { \ g_source_remove(__mcl->tid); \ __mcl->tid = 0; \ } \ } while(0) struct connect_mcl { struct mcap_mcl *mcl; /* MCL for this operation */ mcap_mcl_connect_cb connect_cb; /* Connect callback */ GDestroyNotify destroy; /* Destroy callback */ gpointer user_data; /* Callback user data */ }; typedef union { mcap_mdl_operation_cb op; mcap_mdl_operation_conf_cb op_conf; mcap_mdl_notify_cb notify; } mcap_cb_type; struct mcap_mdl_op_cb { struct mcap_mdl *mdl; /* MDL for this operation */ mcap_cb_type cb; /* Operation callback */ GDestroyNotify destroy; /* Destroy callback */ gpointer user_data; /* Callback user data */ }; /* MCAP finite state machine functions */ static void proc_req_connected(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t l); static void proc_req_pending(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t l); static void proc_req_active(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t l); static void (*proc_req[])(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t len) = { proc_req_connected, proc_req_pending, proc_req_active }; static void mcap_cache_mcl(struct mcap_mcl *mcl); static void default_mdl_connected_cb(struct mcap_mdl *mdl, gpointer data) { DBG("MCAP Unmanaged mdl connection"); } static void default_mdl_closed_cb(struct mcap_mdl *mdl, gpointer data) { DBG("MCAP Unmanaged mdl closed"); } static void default_mdl_deleted_cb(struct mcap_mdl *mdl, gpointer data) { DBG("MCAP Unmanaged mdl deleted"); } static void default_mdl_aborted_cb(struct mcap_mdl *mdl, gpointer data) { DBG("MCAP Unmanaged mdl aborted"); } static uint8_t default_mdl_conn_req_cb(struct mcap_mcl *mcl, uint8_t mdepid, uint16_t mdlid, uint8_t *conf, gpointer data) { DBG("MCAP mdl remote connection aborted"); /* Due to this callback isn't managed this request won't be supported */ return MCAP_REQUEST_NOT_SUPPORTED; } static uint8_t default_mdl_reconn_req_cb(struct mcap_mdl *mdl, gpointer data) { DBG("MCAP mdl remote reconnection aborted"); /* Due to this callback isn't managed this request won't be supported */ return MCAP_REQUEST_NOT_SUPPORTED; } static void set_default_cb(struct mcap_mcl *mcl) { if (!mcl->cb) mcl->cb = g_new0(struct mcap_mdl_cb, 1); mcl->cb->mdl_connected = default_mdl_connected_cb; mcl->cb->mdl_closed = default_mdl_closed_cb; mcl->cb->mdl_deleted = default_mdl_deleted_cb; mcl->cb->mdl_aborted = default_mdl_aborted_cb; mcl->cb->mdl_conn_req = default_mdl_conn_req_cb; mcl->cb->mdl_reconn_req = default_mdl_reconn_req_cb; } static char *error2str(uint8_t rc) { switch (rc) { case MCAP_SUCCESS: return "Success"; case MCAP_INVALID_OP_CODE: return "Invalid Op Code"; case MCAP_INVALID_PARAM_VALUE: return "Invalid Parameter Value"; case MCAP_INVALID_MDEP: return "Invalid MDEP"; case MCAP_MDEP_BUSY: return "MDEP Busy"; case MCAP_INVALID_MDL: return "Invalid MDL"; case MCAP_MDL_BUSY: return "MDL Busy"; case MCAP_INVALID_OPERATION: return "Invalid Operation"; case MCAP_RESOURCE_UNAVAILABLE: return "Resource Unavailable"; case MCAP_UNSPECIFIED_ERROR: return "Unspecified Error"; case MCAP_REQUEST_NOT_SUPPORTED: return "Request Not Supported"; case MCAP_CONFIGURATION_REJECTED: return "Configuration Rejected"; default: return "Unknown Response Code"; } } static gboolean mcap_send_std_opcode(struct mcap_mcl *mcl, void *cmd, uint32_t size, GError **err) { if (mcl->state == MCL_IDLE) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_FAILED, "MCL is not connected"); return FALSE; } if (mcl->req != MCL_AVAILABLE) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_RESOURCE_UNAVAILABLE, "Pending request"); return FALSE; } if (!(mcl->ctrl & MCAP_CTRL_STD_OP)) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_REQUEST_NOT_SUPPORTED, "Remote does not support standard opcodes"); return FALSE; } if (mcl->state == MCL_PENDING) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_INVALID_OPERATION, "Not Std Op. Codes can be sent in PENDING State"); return FALSE; } if (mcap_send_data(g_io_channel_unix_get_fd(mcl->cc), cmd, size) < 0) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_FAILED, "Command can't be sent, write error"); return FALSE; } mcl->lcmd = cmd; mcl->req = MCL_WAITING_RSP; return TRUE; } static void update_mcl_state(struct mcap_mcl *mcl) { GSList *l; struct mcap_mdl *mdl; if (mcl->state == MCL_PENDING) return; for (l = mcl->mdls; l; l = l->next) { mdl = l->data; if (mdl->state == MDL_CONNECTED) { mcl->state = MCL_ACTIVE; return; } } mcl->state = MCL_CONNECTED; } static void shutdown_mdl(struct mcap_mdl *mdl) { mdl->state = MDL_CLOSED; if (mdl->wid) { g_source_remove(mdl->wid); mdl->wid = 0; } if (mdl->dc) { g_io_channel_shutdown(mdl->dc, TRUE, NULL); g_io_channel_unref(mdl->dc); mdl->dc = NULL; } } static void free_mdl(struct mcap_mdl *mdl) { if (!mdl) return; mcap_mcl_unref(mdl->mcl); g_free(mdl); } static gint cmp_mdl_state(gconstpointer a, gconstpointer b) { const struct mcap_mdl *mdl = a; const MDLState *st = b; if (mdl->state == *st) return 0; else if (mdl->state < *st) return -1; else return 1; } static void free_mcap_mdl_op(struct mcap_mdl_op_cb *op) { if (op->destroy) op->destroy(op->user_data); if (op->mdl) mcap_mdl_unref(op->mdl); g_free(op); } static void free_mcl_priv_data(struct mcap_mcl *mcl) { free_mcap_mdl_op(mcl->priv_data); mcl->priv_data = NULL; } static void mcap_notify_error(struct mcap_mcl *mcl, GError *err) { struct mcap_mdl_op_cb *con = mcl->priv_data; struct mcap_mdl *mdl; MDLState st; GSList *l; if (!con || !mcl->lcmd) return; switch (mcl->lcmd[0]) { case MCAP_MD_CREATE_MDL_REQ: st = MDL_WAITING; l = g_slist_find_custom(mcl->mdls, &st, cmp_mdl_state); mdl = l->data; mcl->mdls = g_slist_remove(mcl->mdls, mdl); mcap_mdl_unref(mdl); update_mcl_state(mcl); con->cb.op_conf(NULL, 0, err, con->user_data); break; case MCAP_MD_ABORT_MDL_REQ: st = MDL_WAITING; l = g_slist_find_custom(mcl->mdls, &st, cmp_mdl_state); shutdown_mdl(l->data); update_mcl_state(mcl); con->cb.notify(err, con->user_data); break; case MCAP_MD_DELETE_MDL_REQ: for (l = mcl->mdls; l; l = l->next) { mdl = l->data; if (mdl->state == MDL_DELETING) mdl->state = (mdl->dc) ? MDL_CONNECTED : MDL_CLOSED; } update_mcl_state(mcl); con->cb.notify(err, con->user_data); break; case MCAP_MD_RECONNECT_MDL_REQ: st = MDL_WAITING; l = g_slist_find_custom(mcl->mdls, &st, cmp_mdl_state); shutdown_mdl(l->data); update_mcl_state(mcl); con->cb.op(NULL, err, con->user_data); break; } free_mcl_priv_data(mcl); g_free(mcl->lcmd); mcl->lcmd = NULL; } int mcap_send_data(int sock, const void *buf, uint32_t size) { const uint8_t *buf_b = buf; uint32_t sent = 0; while (sent < size) { int n = write(sock, buf_b + sent, size - sent); if (n < 0) return -1; sent += n; } return 0; } static int mcap_send_cmd(struct mcap_mcl *mcl, uint8_t oc, uint8_t rc, uint16_t mdl, uint8_t *data, size_t len) { mcap_rsp *cmd; int sock, sent; if (mcl->cc == NULL) return -1; sock = g_io_channel_unix_get_fd(mcl->cc); cmd = g_malloc(sizeof(mcap_rsp) + len); cmd->op = oc; cmd->rc = rc; cmd->mdl = htons(mdl); if (data && len > 0) memcpy(cmd->data, data, len); sent = mcap_send_data(sock, cmd, sizeof(mcap_rsp) + len); g_free(cmd); return sent; } static struct mcap_mdl *get_mdl(struct mcap_mcl *mcl, uint16_t mdlid) { GSList *l; struct mcap_mdl *mdl; for (l = mcl->mdls; l; l = l->next) { mdl = l->data; if (mdlid == mdl->mdlid) return mdl; } return NULL; } static uint16_t generate_mdlid(struct mcap_mcl *mcl) { uint16_t mdlid = mcl->next_mdl; struct mcap_mdl *mdl; do { mdl = get_mdl(mcl, mdlid); if (!mdl) { mcl->next_mdl = (mdlid % MCAP_MDLID_FINAL) + 1; return mdlid; } else mdlid = (mdlid % MCAP_MDLID_FINAL) + 1; } while (mdlid != mcl->next_mdl); /* No more mdlids availables */ return 0; } static mcap_md_req *create_req(uint8_t op, uint16_t mdl_id) { mcap_md_req *req_cmd; req_cmd = g_new0(mcap_md_req, 1); req_cmd->op = op; req_cmd->mdl = htons(mdl_id); return req_cmd; } static mcap_md_create_mdl_req *create_mdl_req(uint16_t mdl_id, uint8_t mdep, uint8_t conf) { mcap_md_create_mdl_req *req_mdl; req_mdl = g_new0(mcap_md_create_mdl_req, 1); req_mdl->op = MCAP_MD_CREATE_MDL_REQ; req_mdl->mdl = htons(mdl_id); req_mdl->mdep = mdep; req_mdl->conf = conf; return req_mdl; } static gint compare_mdl(gconstpointer a, gconstpointer b) { const struct mcap_mdl *mdla = a; const struct mcap_mdl *mdlb = b; if (mdla->mdlid == mdlb->mdlid) return 0; else if (mdla->mdlid < mdlb->mdlid) return -1; else return 1; } static gboolean wait_response_timer(gpointer data) { struct mcap_mcl *mcl = data; GError *gerr = NULL; RELEASE_TIMER(mcl); g_set_error(&gerr, MCAP_ERROR, MCAP_ERROR_FAILED, "Timeout waiting response"); mcap_notify_error(mcl, gerr); g_error_free(gerr); mcl->mi->mcl_disconnected_cb(mcl, mcl->mi->user_data); mcap_cache_mcl(mcl); return FALSE; } gboolean mcap_create_mdl(struct mcap_mcl *mcl, uint8_t mdepid, uint8_t conf, mcap_mdl_operation_conf_cb connect_cb, gpointer user_data, GDestroyNotify destroy, GError **err) { struct mcap_mdl *mdl; struct mcap_mdl_op_cb *con; mcap_md_create_mdl_req *cmd; uint16_t id; id = generate_mdlid(mcl); if (!id) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_FAILED, "Not more mdlids available"); return FALSE; } mdl = g_new0(struct mcap_mdl, 1); mdl->mcl = mcap_mcl_ref(mcl); mdl->mdlid = id; mdl->mdep_id = mdepid; mdl->state = MDL_WAITING; con = g_new0(struct mcap_mdl_op_cb, 1); con->mdl = mcap_mdl_ref(mdl); con->cb.op_conf = connect_cb; con->destroy = destroy; con->user_data = user_data; cmd = create_mdl_req(id, mdepid, conf); if (!mcap_send_std_opcode(mcl, cmd, sizeof(mcap_md_create_mdl_req), err)) { mcap_mdl_unref(con->mdl); g_free(con); g_free(cmd); return FALSE; } mcl->state = MCL_ACTIVE; mcl->priv_data = con; mcl->mdls = g_slist_insert_sorted(mcl->mdls, mcap_mdl_ref(mdl), compare_mdl); mcl->tid = g_timeout_add_seconds(RESPONSE_TIMER, wait_response_timer, mcl); return TRUE; } gboolean mcap_reconnect_mdl(struct mcap_mdl *mdl, mcap_mdl_operation_cb reconnect_cb, gpointer user_data, GDestroyNotify destroy, GError **err) { struct mcap_mdl_op_cb *con; struct mcap_mcl *mcl = mdl->mcl; mcap_md_req *cmd; if (mdl->state != MDL_CLOSED) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_FAILED, "MDL is not closed"); return FALSE; } cmd = create_req(MCAP_MD_RECONNECT_MDL_REQ, mdl->mdlid); if (!mcap_send_std_opcode(mcl, cmd, sizeof(mcap_md_req), err)) { g_free(cmd); return FALSE; } mdl->state = MDL_WAITING; con = g_new0(struct mcap_mdl_op_cb, 1); con->mdl = mcap_mdl_ref(mdl); con->cb.op = reconnect_cb; con->destroy = destroy; con->user_data = user_data; mcl->state = MCL_ACTIVE; mcl->priv_data = con; mcl->tid = g_timeout_add_seconds(RESPONSE_TIMER, wait_response_timer, mcl); return TRUE; } static gboolean send_delete_req(struct mcap_mcl *mcl, struct mcap_mdl_op_cb *con, uint16_t mdlid, GError **err) { mcap_md_req *cmd; cmd = create_req(MCAP_MD_DELETE_MDL_REQ, mdlid); if (!mcap_send_std_opcode(mcl, cmd, sizeof(mcap_md_req), err)) { g_free(cmd); return FALSE; } mcl->priv_data = con; mcl->tid = g_timeout_add_seconds(RESPONSE_TIMER, wait_response_timer, mcl); return TRUE; } gboolean mcap_delete_all_mdls(struct mcap_mcl *mcl, mcap_mdl_notify_cb delete_cb, gpointer user_data, GDestroyNotify destroy, GError **err) { GSList *l; struct mcap_mdl *mdl; struct mcap_mdl_op_cb *con; DBG("MCL in state: %d", mcl->state); if (!mcl->mdls) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_FAILED, "There are not MDLs created"); return FALSE; } for (l = mcl->mdls; l; l = l->next) { mdl = l->data; if (mdl->state != MDL_WAITING) mdl->state = MDL_DELETING; } con = g_new0(struct mcap_mdl_op_cb, 1); con->mdl = NULL; con->cb.notify = delete_cb; con->destroy = destroy; con->user_data = user_data; if (!send_delete_req(mcl, con, MCAP_ALL_MDLIDS, err)) { g_free(con); return FALSE; } return TRUE; } gboolean mcap_delete_mdl(struct mcap_mdl *mdl, mcap_mdl_notify_cb delete_cb, gpointer user_data, GDestroyNotify destroy, GError **err) { struct mcap_mcl *mcl= mdl->mcl; struct mcap_mdl_op_cb *con; GSList *l; l = g_slist_find(mcl->mdls, mdl); if (!l) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_INVALID_MDL, "%s" , error2str(MCAP_INVALID_MDEP)); return FALSE; } if (mdl->state == MDL_WAITING) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_FAILED, "Mdl is not created"); return FALSE; } mdl->state = MDL_DELETING; con = g_new0(struct mcap_mdl_op_cb, 1); con->mdl = mcap_mdl_ref(mdl); con->cb.notify = delete_cb; con->destroy = destroy; con->user_data = user_data; if (!send_delete_req(mcl, con, mdl->mdlid, err)) { mcap_mdl_unref(con->mdl); g_free(con); return FALSE; } return TRUE; } gboolean mcap_mdl_abort(struct mcap_mdl *mdl, mcap_mdl_notify_cb abort_cb, gpointer user_data, GDestroyNotify destroy, GError **err) { struct mcap_mdl_op_cb *con; struct mcap_mcl *mcl = mdl->mcl; mcap_md_req *cmd; if (mdl->state != MDL_WAITING) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_FAILED, "Mdl in invalid state"); return FALSE; } cmd = create_req(MCAP_MD_ABORT_MDL_REQ, mdl->mdlid); if (!mcap_send_std_opcode(mcl, cmd, sizeof(mcap_md_req), err)) { g_free(cmd); return FALSE; } con = g_new0(struct mcap_mdl_op_cb, 1); con->mdl = mcap_mdl_ref(mdl); con->cb.notify = abort_cb; con->destroy = destroy; con->user_data = user_data; mcl->priv_data = con; mcl->tid = g_timeout_add_seconds(RESPONSE_TIMER, wait_response_timer, mcl); return TRUE; } static struct mcap_mcl *find_mcl(GSList *list, const bdaddr_t *addr) { GSList *l; struct mcap_mcl *mcl; for (l = list; l; l = l->next) { mcl = l->data; if (!bacmp(&mcl->addr, addr)) return mcl; } return NULL; } int mcap_mdl_get_fd(struct mcap_mdl *mdl) { if (!mdl || mdl->state != MDL_CONNECTED) return -ENOTCONN; return g_io_channel_unix_get_fd(mdl->dc); } uint16_t mcap_mdl_get_mdlid(struct mcap_mdl *mdl) { if (!mdl) return MCAP_MDLID_RESERVED; return mdl->mdlid; } static void close_mcl(struct mcap_mcl *mcl, gboolean cache_requested) { gboolean save = ((!(mcl->ctrl & MCAP_CTRL_FREE)) && cache_requested); RELEASE_TIMER(mcl); if (mcl->cc) { g_io_channel_shutdown(mcl->cc, TRUE, NULL); g_io_channel_unref(mcl->cc); mcl->cc = NULL; } if (mcl->wid) { g_source_remove(mcl->wid); mcl->wid = 0; } if (mcl->lcmd) { g_free(mcl->lcmd); mcl->lcmd = NULL; } if (mcl->priv_data) free_mcl_priv_data(mcl); g_slist_foreach(mcl->mdls, (GFunc) shutdown_mdl, NULL); mcap_sync_stop(mcl); mcl->state = MCL_IDLE; if (save) return; g_slist_foreach(mcl->mdls, (GFunc) mcap_mdl_unref, NULL); g_slist_free(mcl->mdls); mcl->mdls = NULL; } static void mcap_mcl_shutdown(struct mcap_mcl *mcl) { close_mcl(mcl, TRUE); } static void mcap_mcl_release(struct mcap_mcl *mcl) { close_mcl(mcl, FALSE); } static void mcap_cache_mcl(struct mcap_mcl *mcl) { GSList *l; struct mcap_mcl *last; int len; if (mcl->ctrl & MCAP_CTRL_CACHED) return; mcl->mi->mcls = g_slist_remove(mcl->mi->mcls, mcl); if (mcl->ctrl & MCAP_CTRL_NOCACHE) { mcl->mi->cached = g_slist_remove(mcl->mi->cached, mcl); mcap_mcl_release(mcl); mcap_mcl_unref(mcl); return; } DBG("Caching MCL"); len = g_slist_length(mcl->mi->cached); if (len == MAX_CACHED) { /* Remove the latest cached mcl */ l = g_slist_last(mcl->mi->cached); last = l->data; mcl->mi->cached = g_slist_remove(mcl->mi->cached, last); last->ctrl &= ~MCAP_CTRL_CACHED; if (last->ctrl & MCAP_CTRL_CONN) { /* We have to release this MCL if */ /* connection is not succesful */ last->ctrl |= MCAP_CTRL_FREE; } else { mcap_mcl_release(last); last->mi->mcl_uncached_cb(last, last->mi->user_data); } mcap_mcl_unref(last); } mcl->mi->cached = g_slist_prepend(mcl->mi->cached, mcl); mcl->ctrl |= MCAP_CTRL_CACHED; mcap_mcl_shutdown(mcl); } static void mcap_uncache_mcl(struct mcap_mcl *mcl) { if (!(mcl->ctrl & MCAP_CTRL_CACHED)) return; DBG("Got MCL from cache"); mcl->mi->cached = g_slist_remove(mcl->mi->cached, mcl); mcl->mi->mcls = g_slist_prepend(mcl->mi->mcls, mcl); mcl->ctrl &= ~MCAP_CTRL_CACHED; mcl->ctrl &= ~MCAP_CTRL_FREE; } void mcap_close_mcl(struct mcap_mcl *mcl, gboolean cache) { if (!mcl) return; if (mcl->ctrl & MCAP_CTRL_FREE) { mcap_mcl_release(mcl); return; } if (!cache) mcl->ctrl |= MCAP_CTRL_NOCACHE; if (mcl->cc) { g_io_channel_shutdown(mcl->cc, TRUE, NULL); g_io_channel_unref(mcl->cc); mcl->cc = NULL; mcl->state = MCL_IDLE; } else if ((mcl->ctrl & MCAP_CTRL_CACHED) && (mcl->ctrl & MCAP_CTRL_NOCACHE)) { mcl->ctrl &= ~MCAP_CTRL_CACHED; mcl->mi->cached = g_slist_remove(mcl->mi->cached, mcl); mcap_mcl_release(mcl); mcap_mcl_unref(mcl); } } struct mcap_mcl *mcap_mcl_ref(struct mcap_mcl *mcl) { mcl->ref++; DBG("mcap_mcl_ref(%p): ref=%d", mcl, mcl->ref); return mcl; } void mcap_mcl_unref(struct mcap_mcl *mcl) { mcl->ref--; DBG("mcap_mcl_unref(%p): ref=%d", mcl, mcl->ref); if (mcl->ref > 0) return; mcap_mcl_release(mcl); mcap_instance_unref(mcl->mi); g_free(mcl->cb); g_free(mcl); } static gboolean parse_set_opts(struct mcap_mdl_cb *mdl_cb, GError **err, McapMclCb cb1, va_list args) { McapMclCb cb = cb1; struct mcap_mdl_cb *c; c = g_new0(struct mcap_mdl_cb, 1); while (cb != MCAP_MDL_CB_INVALID) { switch (cb) { case MCAP_MDL_CB_CONNECTED: c->mdl_connected = va_arg(args, mcap_mdl_event_cb); break; case MCAP_MDL_CB_CLOSED: c->mdl_closed = va_arg(args, mcap_mdl_event_cb); break; case MCAP_MDL_CB_DELETED: c->mdl_deleted = va_arg(args, mcap_mdl_event_cb); break; case MCAP_MDL_CB_ABORTED: c->mdl_aborted = va_arg(args, mcap_mdl_event_cb); break; case MCAP_MDL_CB_REMOTE_CONN_REQ: c->mdl_conn_req = va_arg(args, mcap_remote_mdl_conn_req_cb); break; case MCAP_MDL_CB_REMOTE_RECONN_REQ: c->mdl_reconn_req = va_arg(args, mcap_remote_mdl_reconn_req_cb); break; default: g_set_error(err, MCAP_ERROR, MCAP_ERROR_INVALID_ARGS, "Unknown option %d", cb); return FALSE; } cb = va_arg(args, int); } /* Set new callbacks */ if (c->mdl_connected) mdl_cb->mdl_connected = c->mdl_connected; if (c->mdl_closed) mdl_cb->mdl_closed = c->mdl_closed; if (c->mdl_deleted) mdl_cb->mdl_deleted = c->mdl_deleted; if (c->mdl_aborted) mdl_cb->mdl_aborted = c->mdl_aborted; if (c->mdl_conn_req) mdl_cb->mdl_conn_req = c->mdl_conn_req; if (c->mdl_reconn_req) mdl_cb->mdl_reconn_req = c->mdl_reconn_req; g_free(c); return TRUE; } gboolean mcap_mcl_set_cb(struct mcap_mcl *mcl, gpointer user_data, GError **gerr, McapMclCb cb1, ...) { va_list args; gboolean ret; va_start(args, cb1); ret = parse_set_opts(mcl->cb, gerr, cb1, args); va_end(args); if (!ret) return FALSE; mcl->cb->user_data = user_data; return TRUE; } void mcap_mcl_get_addr(struct mcap_mcl *mcl, bdaddr_t *addr) { bacpy(addr, &mcl->addr); } static void mcap_del_mdl(gpointer elem, gpointer user_data) { struct mcap_mdl *mdl = elem; gboolean notify = *(gboolean *) user_data; shutdown_mdl(mdl); if (notify) mdl->mcl->cb->mdl_deleted(mdl, mdl->mcl->cb->user_data); mcap_mdl_unref(mdl); } static gboolean check_cmd_req_length(struct mcap_mcl *mcl, void *cmd, uint32_t rlen, uint32_t explen, uint8_t rspcod) { mcap_md_req *req; uint16_t mdl_id; if (rlen != explen) { if (rlen >= sizeof(mcap_md_req)) { req = cmd; mdl_id = ntohs(req->mdl); } else { /* We can't get mdlid */ mdl_id = MCAP_MDLID_RESERVED; } mcap_send_cmd(mcl, rspcod, MCAP_INVALID_PARAM_VALUE, mdl_id, NULL, 0); return FALSE; } return TRUE; } static void process_md_create_mdl_req(struct mcap_mcl *mcl, void *cmd, uint32_t len) { mcap_md_create_mdl_req *req; struct mcap_mdl *mdl; uint16_t mdl_id; uint8_t mdep_id; uint8_t cfga, conf; uint8_t rsp; if (!check_cmd_req_length(mcl, cmd, len, sizeof(mcap_md_create_mdl_req), MCAP_MD_CREATE_MDL_RSP)) return; req = cmd; mdl_id = ntohs(req->mdl); if (mdl_id < MCAP_MDLID_INITIAL || mdl_id > MCAP_MDLID_FINAL) { mcap_send_cmd(mcl, MCAP_MD_CREATE_MDL_RSP, MCAP_INVALID_MDL, mdl_id, NULL, 0); return; } mdep_id = req->mdep; if (mdep_id > MCAP_MDEPID_FINAL) { mcap_send_cmd(mcl, MCAP_MD_CREATE_MDL_RSP, MCAP_INVALID_MDEP, mdl_id, NULL, 0); return; } mdl = get_mdl(mcl, mdl_id); if (mdl && (mdl->state == MDL_WAITING || mdl->state == MDL_DELETING )) { /* Creation request arrives for a MDL that is being managed * at current moment */ mcap_send_cmd(mcl, MCAP_MD_CREATE_MDL_RSP, MCAP_MDL_BUSY, mdl_id, NULL, 0); return; } cfga = conf = req->conf; /* Callback to upper layer */ rsp = mcl->cb->mdl_conn_req(mcl, mdep_id, mdl_id, &conf, mcl->cb->user_data); if (mcl->state == MCL_IDLE) { /* MCL has been closed int the callback */ return; } if (cfga != 0 && cfga != conf) { /* Remote device set default configuration but upper profile */ /* has changed it. Protocol Error: force closing the MCL by */ /* remote device using UNSPECIFIED_ERROR response */ mcap_send_cmd(mcl, MCAP_MD_CREATE_MDL_RSP, MCAP_UNSPECIFIED_ERROR, mdl_id, NULL, 0); return; } if (rsp != MCAP_SUCCESS) { mcap_send_cmd(mcl, MCAP_MD_CREATE_MDL_RSP, rsp, mdl_id, NULL, 0); return; } if (!mdl) { mdl = g_new0(struct mcap_mdl, 1); mdl->mcl = mcap_mcl_ref(mcl); mdl->mdlid = mdl_id; mcl->mdls = g_slist_insert_sorted(mcl->mdls, mcap_mdl_ref(mdl), compare_mdl); } else if (mdl->state == MDL_CONNECTED) { /* MCAP specification says that we should close the MCL if * it is open when we receive a MD_CREATE_MDL_REQ */ shutdown_mdl(mdl); } mdl->mdep_id = mdep_id; mdl->state = MDL_WAITING; mcl->state = MCL_PENDING; mcap_send_cmd(mcl, MCAP_MD_CREATE_MDL_RSP, MCAP_SUCCESS, mdl_id, &conf, 1); } static void process_md_reconnect_mdl_req(struct mcap_mcl *mcl, void *cmd, uint32_t len) { mcap_md_req *req; struct mcap_mdl *mdl; uint16_t mdl_id; uint8_t rsp; if (!check_cmd_req_length(mcl, cmd, len, sizeof(mcap_md_req), MCAP_MD_RECONNECT_MDL_RSP)) return; req = cmd; mdl_id = ntohs(req->mdl); mdl = get_mdl(mcl, mdl_id); if (!mdl) { mcap_send_cmd(mcl, MCAP_MD_RECONNECT_MDL_RSP, MCAP_INVALID_MDL, mdl_id, NULL, 0); return; } else if (mdl->state == MDL_WAITING || mdl->state == MDL_DELETING ) { /* Creation request arrives for a MDL that is being managed * at current moment */ mcap_send_cmd(mcl, MCAP_MD_RECONNECT_MDL_RSP, MCAP_MDL_BUSY, mdl_id, NULL, 0); return; } /* Callback to upper layer */ rsp = mcl->cb->mdl_reconn_req(mdl, mcl->cb->user_data); if (mcl->state == MCL_IDLE) return; if (rsp != MCAP_SUCCESS) { mcap_send_cmd(mcl, MCAP_MD_RECONNECT_MDL_RSP, rsp, mdl_id, NULL, 0); return; } if (mdl->state == MDL_CONNECTED) shutdown_mdl(mdl); mdl->state = MDL_WAITING; mcl->state = MCL_PENDING; mcap_send_cmd(mcl, MCAP_MD_RECONNECT_MDL_RSP, MCAP_SUCCESS, mdl_id, NULL, 0); } static void process_md_abort_mdl_req(struct mcap_mcl *mcl, void *cmd, uint32_t len) { mcap_md_req *req; GSList *l; struct mcap_mdl *mdl, *abrt; uint16_t mdl_id; if (!check_cmd_req_length(mcl, cmd, len, sizeof(mcap_md_req), MCAP_MD_ABORT_MDL_RSP)) return; req = cmd; mdl_id = ntohs(req->mdl); mcl->state = MCL_CONNECTED; abrt = NULL; for (l = mcl->mdls; l; l = l->next) { mdl = l->data; if (mdl_id == mdl->mdlid && mdl->state == MDL_WAITING) { abrt = mdl; if (mcl->state != MCL_CONNECTED) break; continue; } if (mdl->state == MDL_CONNECTED && mcl->state != MCL_ACTIVE) mcl->state = MCL_ACTIVE; if (abrt && mcl->state == MCL_ACTIVE) break; } if (!abrt) { mcap_send_cmd(mcl, MCAP_MD_ABORT_MDL_RSP, MCAP_INVALID_MDL, mdl_id, NULL, 0); return; } mcl->cb->mdl_aborted(abrt, mcl->cb->user_data); abrt->state = MDL_CLOSED; mcap_send_cmd(mcl, MCAP_MD_ABORT_MDL_RSP, MCAP_SUCCESS, mdl_id, NULL, 0); } static void process_md_delete_mdl_req(struct mcap_mcl *mcl, void *cmd, uint32_t len) { mcap_md_req *req; struct mcap_mdl *mdl, *aux; uint16_t mdlid; gboolean notify; GSList *l; if (!check_cmd_req_length(mcl, cmd, len, sizeof(mcap_md_req), MCAP_MD_DELETE_MDL_RSP)) return; req = cmd; mdlid = ntohs(req->mdl); if (mdlid == MCAP_ALL_MDLIDS) { notify = FALSE; g_slist_foreach(mcl->mdls, mcap_del_mdl, ¬ify); g_slist_free(mcl->mdls); mcl->mdls = NULL; mcl->state = MCL_CONNECTED; /* NULL mdl means ALL_MDLS */ mcl->cb->mdl_deleted(NULL, mcl->cb->user_data); goto resp; } if (mdlid < MCAP_MDLID_INITIAL || mdlid > MCAP_MDLID_FINAL) { mcap_send_cmd(mcl, MCAP_MD_DELETE_MDL_RSP, MCAP_INVALID_MDL, mdlid, NULL, 0); return; } for (l = mcl->mdls, mdl = NULL; l; l = l->next) { aux = l->data; if (aux->mdlid == mdlid) { mdl = aux; break; } } if (!mdl || mdl->state == MDL_WAITING) { mcap_send_cmd(mcl, MCAP_MD_DELETE_MDL_RSP, MCAP_INVALID_MDL, mdlid, NULL, 0); return; } mcl->mdls = g_slist_remove(mcl->mdls, mdl); update_mcl_state(mcl); notify = TRUE; mcap_del_mdl(mdl, ¬ify); resp: mcap_send_cmd(mcl, MCAP_MD_DELETE_MDL_RSP, MCAP_SUCCESS, mdlid, NULL, 0); } static void invalid_req_state(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t len) { uint16_t mdlr; error("Invalid cmd received (op code = %d) in state %d", cmd[0], mcl->state); /* Get previously mdlid sent to generate an appropriate * response if it is possible */ mdlr = len < sizeof(mcap_md_req) ? MCAP_MDLID_RESERVED : ntohs(((mcap_md_req *) cmd)->mdl); mcap_send_cmd(mcl, cmd[0]+1, MCAP_INVALID_OPERATION, mdlr, NULL, 0); } /* Function used to process commands depending of MCL state */ static void proc_req_connected(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t len) { switch (cmd[0]) { case MCAP_MD_CREATE_MDL_REQ: process_md_create_mdl_req(mcl, cmd, len); break; case MCAP_MD_RECONNECT_MDL_REQ: process_md_reconnect_mdl_req(mcl, cmd, len); break; case MCAP_MD_DELETE_MDL_REQ: process_md_delete_mdl_req(mcl, cmd, len); break; default: invalid_req_state(mcl, cmd, len); } } static void proc_req_pending(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t len) { if (cmd[0] == MCAP_MD_ABORT_MDL_REQ) process_md_abort_mdl_req(mcl, cmd, len); else invalid_req_state(mcl, cmd, len); } static void proc_req_active(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t len) { switch (cmd[0]) { case MCAP_MD_CREATE_MDL_REQ: process_md_create_mdl_req(mcl, cmd, len); break; case MCAP_MD_RECONNECT_MDL_REQ: process_md_reconnect_mdl_req(mcl, cmd, len); break; case MCAP_MD_DELETE_MDL_REQ: process_md_delete_mdl_req(mcl, cmd, len); break; default: invalid_req_state(mcl, cmd, len); } } /* Function used to process replies */ static gboolean check_err_rsp(struct mcap_mcl *mcl, mcap_rsp *rsp, uint32_t rlen, uint32_t len, GError **gerr) { mcap_md_req *cmdlast = (mcap_md_req *) mcl->lcmd; gint err = MCAP_ERROR_FAILED; gboolean close = FALSE; char *msg; if (rsp->op == MCAP_ERROR_RSP) { msg = "MCAP_ERROR_RSP received"; close = FALSE; goto fail; } /* Check if the response matches with the last request */ if (rlen < sizeof(mcap_rsp) || (mcl->lcmd[0] + 1) != rsp->op) { msg = "Protocol error"; close = FALSE; goto fail; } if (rlen < len) { msg = "Protocol error"; close = FALSE; goto fail; } if (rsp->mdl != cmdlast->mdl) { msg = "MDLID received doesn't match with MDLID sent"; close = TRUE; goto fail; } if (rsp->rc == MCAP_REQUEST_NOT_SUPPORTED) { msg = "Remote does not support opcodes"; mcl->ctrl &= ~MCAP_CTRL_STD_OP; goto fail; } if (rsp->rc == MCAP_UNSPECIFIED_ERROR) { msg = "Unspecified error"; close = TRUE; goto fail; } if (rsp->rc != MCAP_SUCCESS) { msg = error2str(rsp->rc); err = rsp->rc; goto fail; } return FALSE; fail: g_set_error(gerr, MCAP_ERROR, err, "%s", msg); return close; } static gboolean process_md_create_mdl_rsp(struct mcap_mcl *mcl, mcap_rsp *rsp, uint32_t len) { mcap_md_create_mdl_req *cmdlast = (mcap_md_create_mdl_req *) mcl->lcmd; struct mcap_mdl_op_cb *conn = mcl->priv_data; mcap_mdl_operation_conf_cb connect_cb = conn->cb.op_conf; gpointer user_data = conn->user_data; struct mcap_mdl *mdl = conn->mdl; uint8_t conf = cmdlast->conf; gboolean close; GError *gerr = NULL; close = check_err_rsp(mcl, rsp, len, sizeof(mcap_rsp) + 1, &gerr); g_free(mcl->lcmd); mcl->lcmd = NULL; mcl->req = MCL_AVAILABLE; if (gerr) goto fail; /* Check if preferences changed */ if (conf != 0x00 && rsp->data[0] != conf) { g_set_error(&gerr, MCAP_ERROR, MCAP_ERROR_FAILED, "Configuration changed"); close = TRUE; goto fail; } connect_cb(mdl, rsp->data[0], gerr, user_data); return close; fail: connect_cb(NULL, 0, gerr, user_data); mcl->mdls = g_slist_remove(mcl->mdls, mdl); mcap_mdl_unref(mdl); g_error_free(gerr); update_mcl_state(mcl); return close; } static gboolean process_md_reconnect_mdl_rsp(struct mcap_mcl *mcl, mcap_rsp *rsp, uint32_t len) { struct mcap_mdl_op_cb *reconn = mcl->priv_data; mcap_mdl_operation_cb reconn_cb = reconn->cb.op; gpointer user_data = reconn->user_data; struct mcap_mdl *mdl = reconn->mdl; GError *gerr = NULL; gboolean close; close = check_err_rsp(mcl, rsp, len, sizeof(mcap_rsp), &gerr); g_free(mcl->lcmd); mcl->lcmd = NULL; mcl->req = MCL_AVAILABLE; reconn_cb(mdl, gerr, user_data); if (!gerr) return close; g_error_free(gerr); shutdown_mdl(mdl); update_mcl_state(mcl); if (rsp->rc != MCAP_INVALID_MDL) return close; /* Remove cached mdlid */ mcl->mdls = g_slist_remove(mcl->mdls, mdl); mcl->cb->mdl_deleted(mdl, mcl->cb->user_data); mcap_mdl_unref(mdl); return close; } static gboolean process_md_abort_mdl_rsp(struct mcap_mcl *mcl, mcap_rsp *rsp, uint32_t len) { struct mcap_mdl_op_cb *abrt = mcl->priv_data; mcap_mdl_notify_cb abrt_cb = abrt->cb.notify; gpointer user_data = abrt->user_data; struct mcap_mdl *mdl = abrt->mdl; GError *gerr = NULL; gboolean close; close = check_err_rsp(mcl, rsp, len, sizeof(mcap_rsp), &gerr); g_free(mcl->lcmd); mcl->lcmd = NULL; mcl->req = MCL_AVAILABLE; abrt_cb(gerr, user_data); shutdown_mdl(mdl); if (len >= sizeof(mcap_rsp) && rsp->rc == MCAP_INVALID_MDL) { mcl->mdls = g_slist_remove(mcl->mdls, mdl); mcl->cb->mdl_deleted(mdl, mcl->cb->user_data); mcap_mdl_unref(mdl); } if (gerr) g_error_free(gerr); update_mcl_state(mcl); return close; } static void restore_mdl(gpointer elem, gpointer data) { struct mcap_mdl *mdl = elem; if (mdl->state == MDL_DELETING) { if (mdl->dc) mdl->state = MDL_CONNECTED; else mdl->state = MDL_CLOSED; } else if (mdl->state == MDL_CLOSED) mdl->mcl->cb->mdl_closed(mdl, mdl->mcl->cb->user_data); } static void check_mdl_del_err(struct mcap_mdl *mdl, mcap_rsp *rsp) { if (rsp->rc != MCAP_ERROR_INVALID_MDL) { restore_mdl(mdl, NULL); return; } /* MDL does not exist in remote side, we can delete it */ mdl->mcl->mdls = g_slist_remove(mdl->mcl->mdls, mdl); mcap_mdl_unref(mdl); } static gboolean process_md_delete_mdl_rsp(struct mcap_mcl *mcl, mcap_rsp *rsp, uint32_t len) { struct mcap_mdl_op_cb *del = mcl->priv_data; struct mcap_mdl *mdl = del->mdl; mcap_mdl_notify_cb deleted_cb = del->cb.notify; gpointer user_data = del->user_data; mcap_md_req *cmdlast = (mcap_md_req *) mcl->lcmd; uint16_t mdlid = ntohs(cmdlast->mdl); GError *gerr = NULL; gboolean close; gboolean notify = FALSE; close = check_err_rsp(mcl, rsp, len, sizeof(mcap_rsp), &gerr); g_free(mcl->lcmd); mcl->lcmd = NULL; mcl->req = MCL_AVAILABLE; if (gerr) { if (mdl) check_mdl_del_err(mdl, rsp); else g_slist_foreach(mcl->mdls, restore_mdl, NULL); deleted_cb(gerr, user_data); g_error_free(gerr); return close; } if (mdlid == MCAP_ALL_MDLIDS) { g_slist_foreach(mcl->mdls, mcap_del_mdl, ¬ify); g_slist_free(mcl->mdls); mcl->mdls = NULL; mcl->state = MCL_CONNECTED; } else { mcl->mdls = g_slist_remove(mcl->mdls, mdl); update_mcl_state(mcl); mcap_del_mdl(mdl, ¬ify); } deleted_cb(gerr, user_data); return close; } static void post_process_rsp(struct mcap_mcl *mcl, struct mcap_mdl_op_cb *op) { if (mcl->priv_data != op) { /* Queued MCAP request in some callback. */ /* We should not delete the mcl private data */ free_mcap_mdl_op(op); } else { /* This is not a queued request. It's safe */ /* delete the mcl private data here. */ free_mcl_priv_data(mcl); } } static void proc_response(struct mcap_mcl *mcl, void *buf, uint32_t len) { struct mcap_mdl_op_cb *op = mcl->priv_data; mcap_rsp *rsp = buf; gboolean close; RELEASE_TIMER(mcl); switch (mcl->lcmd[0] + 1) { case MCAP_MD_CREATE_MDL_RSP: close = process_md_create_mdl_rsp(mcl, rsp, len); post_process_rsp(mcl, op); break; case MCAP_MD_RECONNECT_MDL_RSP: close = process_md_reconnect_mdl_rsp(mcl, rsp, len); post_process_rsp(mcl, op); break; case MCAP_MD_ABORT_MDL_RSP: close = process_md_abort_mdl_rsp(mcl, rsp, len); post_process_rsp(mcl, op); break; case MCAP_MD_DELETE_MDL_RSP: close = process_md_delete_mdl_rsp(mcl, rsp, len); post_process_rsp(mcl, op); break; default: DBG("Unknown cmd response received (op code = %d)", rsp->op); close = TRUE; break; } if (close) { mcl->mi->mcl_disconnected_cb(mcl, mcl->mi->user_data); mcap_cache_mcl(mcl); } } static void proc_cmd(struct mcap_mcl *mcl, uint8_t *cmd, uint32_t len) { GError *gerr = NULL; if (cmd[0] > MCAP_MD_SYNC_INFO_IND || (cmd[0] > MCAP_MD_DELETE_MDL_RSP && cmd[0] < MCAP_MD_SYNC_CAP_REQ)) { error("Unknown cmd received (op code = %d)", cmd[0]); mcap_send_cmd(mcl, MCAP_ERROR_RSP, MCAP_INVALID_OP_CODE, MCAP_MDLID_RESERVED, NULL, 0); return; } if (cmd[0] >= MCAP_MD_SYNC_CAP_REQ && cmd[0] <= MCAP_MD_SYNC_INFO_IND) { proc_sync_cmd(mcl, cmd, len); return; } if (!(mcl->ctrl & MCAP_CTRL_STD_OP)) { /* In case the remote device doesn't work correctly */ error("Remote device does not support opcodes, cmd ignored"); return; } if (mcl->req == MCL_WAITING_RSP) { if (cmd[0] & 0x01) { /* Request arrived when a response is expected */ if (mcl->role == MCL_INITIATOR) /* ignore */ return; /* Initiator will ignore our last request */ RELEASE_TIMER(mcl); mcl->req = MCL_AVAILABLE; g_set_error(&gerr, MCAP_ERROR, MCAP_ERROR_REQ_IGNORED, "Initiator sent a request with more priority"); mcap_notify_error(mcl, gerr); proc_req[mcl->state](mcl, cmd, len); return; } proc_response(mcl, cmd, len); } else if (cmd[0] & 0x01) proc_req[mcl->state](mcl, cmd, len); } static gboolean mdl_event_cb(GIOChannel *chan, GIOCondition cond, gpointer data) { struct mcap_mdl *mdl = data; gboolean notify; DBG("Close MDL %d", mdl->mdlid); notify = (mdl->state == MDL_CONNECTED); shutdown_mdl(mdl); update_mcl_state(mdl->mcl); if (notify) { /*Callback to upper layer */ mdl->mcl->cb->mdl_closed(mdl, mdl->mcl->cb->user_data); } return FALSE; } static void mcap_connect_mdl_cb(GIOChannel *chan, GError *conn_err, gpointer data) { struct mcap_mdl_op_cb *con = data; struct mcap_mdl *mdl = con->mdl; mcap_mdl_operation_cb cb = con->cb.op; gpointer user_data = con->user_data; DBG("mdl connect callback"); if (conn_err) { DBG("ERROR: mdl connect callback"); mdl->state = MDL_CLOSED; g_io_channel_unref(mdl->dc); mdl->dc = NULL; cb(mdl, conn_err, user_data); return; } mdl->state = MDL_CONNECTED; mdl->wid = g_io_add_watch_full(mdl->dc, G_PRIORITY_DEFAULT, G_IO_ERR | G_IO_HUP | G_IO_NVAL, (GIOFunc) mdl_event_cb, mcap_mdl_ref(mdl), (GDestroyNotify) mcap_mdl_unref); cb(mdl, conn_err, user_data); } gboolean mcap_connect_mdl(struct mcap_mdl *mdl, uint8_t mode, uint16_t dcpsm, mcap_mdl_operation_cb connect_cb, gpointer user_data, GDestroyNotify destroy, GError **err) { struct mcap_mdl_op_cb *con; if (mdl->state != MDL_WAITING) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_INVALID_MDL, "%s", error2str(MCAP_INVALID_MDL)); return FALSE; } if ((mode != L2CAP_MODE_ERTM) && (mode != L2CAP_MODE_STREAMING)) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_INVALID_ARGS, "Invalid MDL configuration"); return FALSE; } con = g_new0(struct mcap_mdl_op_cb, 1); con->mdl = mcap_mdl_ref(mdl); con->cb.op = connect_cb; con->destroy = destroy; con->user_data = user_data; mdl->dc = bt_io_connect(BT_IO_L2CAP, mcap_connect_mdl_cb, con, (GDestroyNotify) free_mcap_mdl_op, err, BT_IO_OPT_SOURCE_BDADDR, &mdl->mcl->mi->src, BT_IO_OPT_DEST_BDADDR, &mdl->mcl->addr, BT_IO_OPT_PSM, dcpsm, BT_IO_OPT_MTU, MCAP_DC_MTU, BT_IO_OPT_SEC_LEVEL, mdl->mcl->mi->sec, BT_IO_OPT_MODE, mode, BT_IO_OPT_INVALID); if (!mdl->dc) { DBG("MDL Connection error"); mdl->state = MDL_CLOSED; mcap_mdl_unref(con->mdl); g_free(con); return FALSE; } return TRUE; } static gboolean mcl_control_cb(GIOChannel *chan, GIOCondition cond, gpointer data) { GError *gerr = NULL; struct mcap_mcl *mcl = data; int sk, len; uint8_t buf[MCAP_CC_MTU]; if (cond & (G_IO_ERR | G_IO_HUP | G_IO_NVAL)) goto fail; sk = g_io_channel_unix_get_fd(chan); len = read(sk, buf, sizeof(buf)); if (len < 0) goto fail; proc_cmd(mcl, buf, (uint32_t) len); return TRUE; fail: if (mcl->state != MCL_IDLE) { if (mcl->req == MCL_WAITING_RSP) { /* notify error in pending callback */ g_set_error(&gerr, MCAP_ERROR, MCAP_ERROR_MCL_CLOSED, "MCL closed"); mcap_notify_error(mcl, gerr); g_error_free(gerr); } mcl->mi->mcl_disconnected_cb(mcl, mcl->mi->user_data); } mcap_cache_mcl(mcl); return FALSE; } static void mcap_connect_mcl_cb(GIOChannel *chan, GError *conn_err, gpointer user_data) { char dstaddr[18]; struct connect_mcl *con = user_data; struct mcap_mcl *aux, *mcl = con->mcl; mcap_mcl_connect_cb connect_cb = con->connect_cb; gpointer data = con->user_data; GError *gerr = NULL; mcl->ctrl &= ~MCAP_CTRL_CONN; if (conn_err) { if (mcl->ctrl & MCAP_CTRL_FREE) { mcap_mcl_release(mcl); mcl->mi->mcl_uncached_cb(mcl, mcl->mi->user_data); } connect_cb(NULL, conn_err, data); return; } ba2str(&mcl->addr, dstaddr); aux = find_mcl(mcl->mi->mcls, &mcl->addr); if (aux) { /* Double MCL connection case */ error("MCL error: Device %s is already connected", dstaddr); g_set_error(&gerr, MCAP_ERROR, MCAP_ERROR_ALREADY_EXISTS, "MCL %s is already connected", dstaddr); connect_cb(NULL, gerr, data); g_error_free(gerr); return; } mcl->state = MCL_CONNECTED; mcl->role = MCL_INITIATOR; mcl->req = MCL_AVAILABLE; mcl->ctrl |= MCAP_CTRL_STD_OP; mcap_sync_init(mcl); if (mcl->ctrl & MCAP_CTRL_CACHED) mcap_uncache_mcl(mcl); else { mcl->ctrl &= ~MCAP_CTRL_FREE; mcl->mi->mcls = g_slist_prepend(mcl->mi->mcls, mcap_mcl_ref(mcl)); } mcl->wid = g_io_add_watch_full(mcl->cc, G_PRIORITY_DEFAULT, G_IO_IN | G_IO_ERR | G_IO_HUP | G_IO_NVAL, (GIOFunc) mcl_control_cb, mcap_mcl_ref(mcl), (GDestroyNotify) mcap_mcl_unref); connect_cb(mcl, gerr, data); } static void set_mdl_properties(GIOChannel *chan, struct mcap_mdl *mdl) { struct mcap_mcl *mcl = mdl->mcl; mdl->state = MDL_CONNECTED; mdl->dc = g_io_channel_ref(chan); mdl->wid = g_io_add_watch_full(mdl->dc, G_PRIORITY_DEFAULT, G_IO_ERR | G_IO_HUP | G_IO_NVAL, (GIOFunc) mdl_event_cb, mcap_mdl_ref(mdl), (GDestroyNotify) mcap_mdl_unref); mcl->state = MCL_ACTIVE; mcl->cb->mdl_connected(mdl, mcl->cb->user_data); } static void mcl_io_destroy(gpointer data) { struct connect_mcl *con = data; mcap_mcl_unref(con->mcl); if (con->destroy) con->destroy(con->user_data); g_free(con); } gboolean mcap_create_mcl(struct mcap_instance *mi, const bdaddr_t *addr, uint16_t ccpsm, mcap_mcl_connect_cb connect_cb, gpointer user_data, GDestroyNotify destroy, GError **err) { struct mcap_mcl *mcl; struct connect_mcl *con; mcl = find_mcl(mi->mcls, addr); if (mcl) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_ALREADY_EXISTS, "MCL is already connected."); return FALSE; } mcl = find_mcl(mi->cached, addr); if (!mcl) { mcl = g_new0(struct mcap_mcl, 1); mcl->mi = mcap_instance_ref(mi); mcl->state = MCL_IDLE; bacpy(&mcl->addr, addr); set_default_cb(mcl); mcl->next_mdl = (rand() % MCAP_MDLID_FINAL) + 1; } mcl->ctrl |= MCAP_CTRL_CONN; con = g_new0(struct connect_mcl, 1); con->mcl = mcap_mcl_ref(mcl); con->connect_cb = connect_cb; con->destroy = destroy; con->user_data = user_data; mcl->cc = bt_io_connect(BT_IO_L2CAP, mcap_connect_mcl_cb, con, mcl_io_destroy, err, BT_IO_OPT_SOURCE_BDADDR, &mi->src, BT_IO_OPT_DEST_BDADDR, addr, BT_IO_OPT_PSM, ccpsm, BT_IO_OPT_MTU, MCAP_CC_MTU, BT_IO_OPT_SEC_LEVEL, mi->sec, BT_IO_OPT_MODE, L2CAP_MODE_ERTM, BT_IO_OPT_INVALID); if (!mcl->cc) { mcl->ctrl &= ~MCAP_CTRL_CONN; if (mcl->ctrl & MCAP_CTRL_FREE) { mcap_mcl_release(mcl); mcl->mi->mcl_uncached_cb(mcl, mcl->mi->user_data); } mcap_mcl_unref(con->mcl); g_free(con); return FALSE; } return TRUE; } static void connect_dc_event_cb(GIOChannel *chan, GError *gerr, gpointer user_data) { struct mcap_instance *mi = user_data; struct mcap_mcl *mcl; struct mcap_mdl *mdl; GError *err = NULL; bdaddr_t dst; GSList *l; if (gerr) return; bt_io_get(chan, BT_IO_L2CAP, &err, BT_IO_OPT_DEST_BDADDR, &dst, BT_IO_OPT_INVALID); if (err) { error("%s", err->message); g_error_free(err); goto drop; } mcl = find_mcl(mi->mcls, &dst); if (!mcl || mcl->state != MCL_PENDING) goto drop; for (l = mcl->mdls; l; l = l->next) { mdl = l->data; if (mdl->state == MDL_WAITING) { set_mdl_properties(chan, mdl); return; } } drop: g_io_channel_shutdown(chan, TRUE, NULL); } static void set_mcl_conf(GIOChannel *chan, struct mcap_mcl *mcl) { gboolean reconn; mcl->state = MCL_CONNECTED; mcl->role = MCL_ACCEPTOR; mcl->req = MCL_AVAILABLE; mcl->cc = g_io_channel_ref(chan); mcl->ctrl |= MCAP_CTRL_STD_OP; mcap_sync_init(mcl); reconn = (mcl->ctrl & MCAP_CTRL_CACHED); if (reconn) mcap_uncache_mcl(mcl); else mcl->mi->mcls = g_slist_prepend(mcl->mi->mcls, mcap_mcl_ref(mcl)); mcl->wid = g_io_add_watch_full(mcl->cc, G_PRIORITY_DEFAULT, G_IO_IN | G_IO_ERR | G_IO_HUP | G_IO_NVAL, (GIOFunc) mcl_control_cb, mcap_mcl_ref(mcl), (GDestroyNotify) mcap_mcl_unref); /* Callback to report new MCL */ if (reconn) mcl->mi->mcl_reconnected_cb(mcl, mcl->mi->user_data); else mcl->mi->mcl_connected_cb(mcl, mcl->mi->user_data); } static void connect_mcl_event_cb(GIOChannel *chan, GError *gerr, gpointer user_data) { struct mcap_instance *mi = user_data; struct mcap_mcl *mcl; bdaddr_t dst; char address[18], srcstr[18]; GError *err = NULL; if (gerr) return; bt_io_get(chan, BT_IO_L2CAP, &err, BT_IO_OPT_DEST_BDADDR, &dst, BT_IO_OPT_DEST, address, BT_IO_OPT_INVALID); if (err) { error("%s", err->message); g_error_free(err); goto drop; } ba2str(&mi->src, srcstr); mcl = find_mcl(mi->mcls, &dst); if (mcl) { error("Control channel already created with %s on adapter %s", address, srcstr); goto drop; } mcl = find_mcl(mi->cached, &dst); if (!mcl) { mcl = g_new0(struct mcap_mcl, 1); mcl->mi = mcap_instance_ref(mi); bacpy(&mcl->addr, &dst); set_default_cb(mcl); mcl->next_mdl = (rand() % MCAP_MDLID_FINAL) + 1; } set_mcl_conf(chan, mcl); return; drop: g_io_channel_shutdown(chan, TRUE, NULL); } struct mcap_instance *mcap_create_instance(bdaddr_t *src, BtIOSecLevel sec, uint16_t ccpsm, uint16_t dcpsm, mcap_mcl_event_cb mcl_connected, mcap_mcl_event_cb mcl_reconnected, mcap_mcl_event_cb mcl_disconnected, mcap_mcl_event_cb mcl_uncached, mcap_info_ind_event_cb mcl_sync_info_ind, gpointer user_data, GError **gerr) { struct mcap_instance *mi; if (sec < BT_IO_SEC_MEDIUM) { g_set_error(gerr, MCAP_ERROR, MCAP_ERROR_INVALID_ARGS, "Security level can't be minor of %d", BT_IO_SEC_MEDIUM); return NULL; } if (!(mcl_connected && mcl_reconnected && mcl_disconnected && mcl_uncached)) { g_set_error(gerr, MCAP_ERROR, MCAP_ERROR_INVALID_ARGS, "The callbacks can't be null"); return NULL; } mi = g_new0(struct mcap_instance, 1); bacpy(&mi->src, src); mi->sec = sec; mi->mcl_connected_cb = mcl_connected; mi->mcl_reconnected_cb = mcl_reconnected; mi->mcl_disconnected_cb = mcl_disconnected; mi->mcl_uncached_cb = mcl_uncached; mi->mcl_sync_infoind_cb = mcl_sync_info_ind; mi->user_data = user_data; mi->csp_enabled = FALSE; /* Listen incoming connections in control channel */ mi->ccio = bt_io_listen(BT_IO_L2CAP, connect_mcl_event_cb, NULL, mi, NULL, gerr, BT_IO_OPT_SOURCE_BDADDR, &mi->src, BT_IO_OPT_PSM, ccpsm, BT_IO_OPT_MTU, MCAP_CC_MTU, BT_IO_OPT_SEC_LEVEL, sec, BT_IO_OPT_MODE, L2CAP_MODE_ERTM, BT_IO_OPT_INVALID); if (!mi->ccio) { error("%s", (*gerr)->message); g_free(mi); return NULL; } /* Listen incoming connections in data channels */ mi->dcio = bt_io_listen(BT_IO_L2CAP, connect_dc_event_cb, NULL, mi, NULL, gerr, BT_IO_OPT_SOURCE_BDADDR, &mi->src, BT_IO_OPT_PSM, dcpsm, BT_IO_OPT_MTU, MCAP_DC_MTU, BT_IO_OPT_SEC_LEVEL, sec, BT_IO_OPT_INVALID); if (!mi->dcio) { g_io_channel_shutdown(mi->ccio, TRUE, NULL); g_io_channel_unref(mi->ccio); mi->ccio = NULL; error("%s", (*gerr)->message); g_free(mi); return NULL; } /* Initialize random seed to generate mdlids for this instance */ srand(time(NULL)); return mcap_instance_ref(mi);; } void mcap_release_instance(struct mcap_instance *mi) { GSList *l; if (!mi) return; if (mi->ccio) { g_io_channel_shutdown(mi->ccio, TRUE, NULL); g_io_channel_unref(mi->ccio); mi->ccio = NULL; } if (mi->dcio) { g_io_channel_shutdown(mi->dcio, TRUE, NULL); g_io_channel_unref(mi->dcio); mi->dcio = NULL; } for (l = mi->mcls; l; l = l->next) { mcap_mcl_release(l->data); mcap_mcl_unref(l->data); } g_slist_free(mi->mcls); mi->mcls = NULL; for (l = mi->cached; l; l = l->next) { mcap_mcl_release(l->data); mcap_mcl_unref(l->data); } g_slist_free(mi->cached); mi->cached = NULL; } struct mcap_instance *mcap_instance_ref(struct mcap_instance *mi) { mi->ref++; DBG("mcap_instance_ref(%p): ref=%d", mi, mi->ref); return mi; } void mcap_instance_unref(struct mcap_instance *mi) { mi->ref--; DBG("mcap_instance_unref(%p): ref=%d", mi, mi->ref); if (mi->ref > 0) return; mcap_release_instance(mi); g_free(mi); } uint16_t mcap_get_ctrl_psm(struct mcap_instance *mi, GError **err) { uint16_t lpsm; if (!(mi && mi->ccio)) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_INVALID_ARGS, "Invalid MCAP instance"); return 0; } if (!bt_io_get(mi->ccio, BT_IO_L2CAP, err, BT_IO_OPT_PSM, &lpsm, BT_IO_OPT_INVALID)) return 0; return lpsm; } uint16_t mcap_get_data_psm(struct mcap_instance *mi, GError **err) { uint16_t lpsm; if (!(mi && mi->dcio)) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_INVALID_ARGS, "Invalid MCAP instance"); return 0; } if (!bt_io_get(mi->dcio, BT_IO_L2CAP, err, BT_IO_OPT_PSM, &lpsm, BT_IO_OPT_INVALID)) return 0; return lpsm; } gboolean mcap_set_data_chan_mode(struct mcap_instance *mi, uint8_t mode, GError **err) { if (!(mi && mi->dcio)) { g_set_error(err, MCAP_ERROR, MCAP_ERROR_INVALID_ARGS, "Invalid MCAP instance"); return FALSE; } return bt_io_set(mi->dcio, BT_IO_L2CAP, err, BT_IO_OPT_MODE, mode, BT_IO_OPT_INVALID); } struct mcap_mdl *mcap_mdl_ref(struct mcap_mdl *mdl) { mdl->ref++; DBG("mcap_mdl_ref(%p): ref=%d", mdl, mdl->ref); return mdl; } void mcap_mdl_unref(struct mcap_mdl *mdl) { mdl->ref--; DBG("mcap_mdl_unref(%p): ref=%d", mdl, mdl->ref); if (mdl->ref > 0) return; free_mdl(mdl); }