/* * Written by Oron Peled * Copyright (C) 2004-2006, Xorcom * * All rights reserved. * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include #include #include #include #include #include #include #include #include #ifdef PROTOCOL_DEBUG #include #endif #include #include #include /* for msleep() to debug */ #include "xpd.h" #include "xpp_dahdi.h" #include "xbus-core.h" #include "card_global.h" #include "dahdi_debug.h" static const char rcsid[] = "$Id$"; /* Defines */ #define INITIALIZATION_TIMEOUT (90*HZ) /* in jiffies */ #define PROC_XBUSES "xbuses" #define PROC_XBUS_SUMMARY "summary" #ifdef PROTOCOL_DEBUG #ifdef CONFIG_PROC_FS #define PROC_XBUS_COMMAND "command" static const struct file_operations proc_xbus_command_ops; #endif #endif /* Command line parameters */ extern int debug; static DEF_PARM(uint, command_queue_length, 1500, 0444, "Maximal command queue length"); static DEF_PARM(uint, poll_timeout, 1000, 0644, "Timeout (in jiffies) waiting for units to reply"); static DEF_PARM_BOOL(rx_tasklet, 0, 0644, "Use receive tasklets"); static DEF_PARM_BOOL(dahdi_autoreg, 0, 0444, "Register devices automatically (1) or not (0). UNUSED."); #ifdef CONFIG_PROC_FS static const struct file_operations xbus_read_proc_ops; #endif static void transport_init(xbus_t *xbus, struct xbus_ops *ops, ushort max_send_size, struct device *transport_device, void *priv); static void transport_destroy(xbus_t *xbus); /* Data structures */ static DEFINE_SPINLOCK(xbuses_lock); #ifdef CONFIG_PROC_FS static struct proc_dir_entry *proc_xbuses; #endif static struct xbus_desc { xbus_t *xbus; int shutting_down; } xbuses_array[MAX_BUSES]; static int xbus_is_shutting_down(int num) { return xbuses_array[num].shutting_down; } static xbus_t *xbus_byhwid(const char *hwid) { int i; xbus_t *xbus; for (i = 0; i < ARRAY_SIZE(xbuses_array); i++) { xbus = xbuses_array[i].xbus; if (xbus && strcmp(hwid, xbus->label) == 0) return xbus; } return NULL; } int xbus_check_unique(xbus_t *xbus) { if (!xbus) return -ENOENT; if (xbus->label && *(xbus->label)) { xbus_t *xbus_old; XBUS_DBG(DEVICES, xbus, "Checking LABEL='%s'\n", xbus->label); xbus_old = xbus_byhwid(xbus->label); if (xbus_old && xbus_old != xbus) { XBUS_NOTICE(xbus_old, "Duplicate LABEL='%s'. Leave %s unused. " "refcount_xbus=%d\n", xbus_old->label, xbus->busname, refcount_xbus(xbus_old)); return -EBUSY; } } else { XBUS_NOTICE(xbus, "Missing board label (old Astribank?)\n"); } return 0; } const char *xbus_statename(enum xbus_state st) { switch (st) { case XBUS_STATE_START: return "START"; case XBUS_STATE_IDLE: return "IDLE"; case XBUS_STATE_SENT_REQUEST: return "SENT_REQUEST"; case XBUS_STATE_RECVD_DESC: return "RECVD_DESC"; case XBUS_STATE_READY: return "READY"; case XBUS_STATE_DEACTIVATING: return "DEACTIVATING"; case XBUS_STATE_DEACTIVATED: return "DEACTIVATED"; case XBUS_STATE_FAIL: return "FAIL"; } return NULL; } EXPORT_SYMBOL(xbus_statename); static void init_xbus(uint num, xbus_t *xbus) { struct xbus_desc *desc; BUG_ON(num >= ARRAY_SIZE(xbuses_array)); desc = &xbuses_array[num]; desc->xbus = xbus; if (xbus) desc->shutting_down = 0; } xbus_t *xbus_num(uint num) { struct xbus_desc *desc; if (num >= ARRAY_SIZE(xbuses_array)) return NULL; desc = &xbuses_array[num]; return desc->xbus; } EXPORT_SYMBOL(xbus_num); static void initialize_xbuses_array(void) { int i; for (i = 0; i < ARRAY_SIZE(xbuses_array); i++) init_xbus(i, NULL); } static void finalize_xbuses_array(void) { int i; for (i = 0; i < ARRAY_SIZE(xbuses_array); i++) { if (xbuses_array[i].xbus != NULL) { ERR("%s: xbus #%d is not NULL\n", __func__, i); BUG(); } } } /* * Called by put_xbus() when XBUS has no more references. */ static void xbus_destroy(struct kref *kref) { xbus_t *xbus; int num; xbus = kref_to_xbus(kref); XBUS_DBG(DEVICES, xbus, "%s\n", __func__); num = xbus->num; xbuses_array[num].shutting_down = 1; xbus_sysfs_remove(xbus); } xbus_t *get_xbus(const char *msg, uint num) { unsigned long flags; xbus_t *xbus; if (xbus_is_shutting_down(num)) { DBG(DEVICES, "%s(%s): XBUS-%d: shutting down\n", __func__, msg, num); return NULL; } spin_lock_irqsave(&xbuses_lock, flags); xbus = xbus_num(num); if (xbus != NULL) { kref_get(&xbus->kref); XBUS_DBG(DEVICES, xbus, "%s: refcount_xbus=%d\n", msg, refcount_xbus(xbus)); } spin_unlock_irqrestore(&xbuses_lock, flags); return xbus; } void put_xbus(const char *msg, xbus_t *xbus) { if (xbus_is_shutting_down(xbus->num)) { if (!refcount_xbus(xbus)) { DBG(DEVICES, "%s(%s): XBUS-%d: shutting down\n", __func__, msg, xbus->num); return; } } XBUS_DBG(DEVICES, xbus, "%s: refcount_xbus=%d\n", msg, refcount_xbus(xbus)); kref_put(&xbus->kref, xbus_destroy); } int refcount_xbus(xbus_t *xbus) { struct kref *kref = &xbus->kref; return atomic_read(&kref->refcount); } /*------------------------- Frame Handling ------------------------*/ void xframe_init(xbus_t *xbus, xframe_t *xframe, void *buf, size_t maxsize, void *priv) { memset(xframe, 0, sizeof(*xframe)); INIT_LIST_HEAD(&xframe->frame_list); xframe->priv = priv; xframe->xbus = xbus; xframe->packets = xframe->first_free = buf; xframe->frame_maxlen = maxsize; atomic_set(&xframe->frame_len, 0); do_gettimeofday(&xframe->tv_created); xframe->xframe_magic = XFRAME_MAGIC; } EXPORT_SYMBOL(xframe_init); /* * Return pointer to next packet slot in the frame * or NULL if the frame is full. * * FIXME: we do not use atomic_add_return() because kernel-2.6.8 * does not have it. This make this code a little racy, * but we currently call xframe_next_packet() only in the * PCM loop (xbus_tick() etc.) */ xpacket_t *xframe_next_packet(xframe_t *frm, int len) { int newlen = XFRAME_LEN(frm); newlen += len; #if 0 DBG(GENERAL, "len=%d, newlen=%d, frm->frame_len=%d\n", len, newlen, XFRAME_LEN(frm)); #endif if (newlen > XFRAME_DATASIZE) return NULL; atomic_add(len, &frm->frame_len); return (xpacket_t *)(frm->packets + newlen - len); } EXPORT_SYMBOL(xframe_next_packet); static DEFINE_SPINLOCK(serialize_dump_xframe); static void do_hexdump(const char msg[], __u8 *data, uint16_t len) { int i; int debug = DBG_ANY; /* mask global debug */ for (i = 0; i < len; i++) DBG(ANY, "%s: %3d> %02X\n", msg, i, data[i]); } void dump_xframe(const char msg[], const xbus_t *xbus, const xframe_t *xframe, int debug) { const uint16_t frm_len = XFRAME_LEN(xframe); xpacket_t *pack; uint16_t pos = 0; uint16_t nextpos; int num = 1; bool do_print; unsigned long flags; if (xframe->xframe_magic != XFRAME_MAGIC) { XBUS_ERR(xbus, "%s: bad xframe_magic %lX\n", __func__, xframe->xframe_magic); return; } spin_lock_irqsave(&serialize_dump_xframe, flags); do { if (pos >= xbus->transport.max_send_size) { if (printk_ratelimit()) { XBUS_NOTICE(xbus, "%s: xframe overflow (%d bytes)\n", msg, frm_len); do_hexdump(msg, xframe->packets, frm_len); } break; } if (pos > frm_len) { if (printk_ratelimit()) { XBUS_NOTICE(xbus, "%s: packet overflow pos=%d " "frame_len=%d\n", msg, pos, frm_len); do_hexdump(msg, xframe->packets, frm_len); } break; } pack = (xpacket_t *)&xframe->packets[pos]; if (XPACKET_LEN(pack) <= 0) { if (printk_ratelimit()) { XBUS_NOTICE(xbus, "%s: xframe -- bad packet_len=%d " "pos=%d frame_len=%d\n", msg, XPACKET_LEN(pack), pos, frm_len); do_hexdump(msg, xframe->packets, frm_len); } break; } nextpos = pos + XPACKET_LEN(pack); if (nextpos > frm_len) { if (printk_ratelimit()) { XBUS_NOTICE(xbus, "%s: packet overflow nextpos=%d " "frame_len=%d\n", msg, nextpos, frm_len); do_hexdump(msg, xframe->packets, frm_len); } break; } do_print = 0; if (debug == DBG_ANY) do_print = 1; else if (XPACKET_OP(pack) != XPROTO_NAME(GLOBAL, PCM_READ) && XPACKET_OP(pack) != XPROTO_NAME(GLOBAL, PCM_WRITE)) do_print = 1; else if (debug & DBG_PCM) { static int rate_limit; if ((rate_limit++ % 1003) == 0) do_print = 1; } if (do_print) { if (num == 1) { XBUS_DBG(ANY, xbus, "%s: frame_len=%d. %s\n", msg, frm_len, (XPACKET_IS_PCM(pack)) ? "(IS_PCM)" : ""); } XBUS_DBG(ANY, xbus, " %3d. DATALEN=%d pcm=%d slot=%d OP=0x%02X " "XPD-%d%d (pos=%d)\n", num, XPACKET_LEN(pack), XPACKET_IS_PCM(pack), XPACKET_PCMSLOT(pack), XPACKET_OP(pack), XPACKET_ADDR_UNIT(pack), XPACKET_ADDR_SUBUNIT(pack), pos); dump_packet(" ", pack, debug); } num++; pos = nextpos; if (pos >= frm_len) break; } while (1); spin_unlock_irqrestore(&serialize_dump_xframe, flags); } EXPORT_SYMBOL(dump_xframe); /** * * Frame is freed: * - In case of error, by this function. * - Otherwise, by the underlying sending mechanism */ int send_pcm_frame(xbus_t *xbus, xframe_t *xframe) { struct xbus_ops *ops; int ret = -ENODEV; BUG_ON(!xframe); if (!XBUS_IS(xbus, READY)) { XBUS_ERR(xbus, "Dropped a pcm frame -- hardware is not ready.\n"); ret = -ENODEV; goto error; } ops = transportops_get(xbus); BUG_ON(!ops); ret = ops->xframe_send_pcm(xbus, xframe); transportops_put(xbus); if (ret) XBUS_COUNTER(xbus, TX_BYTES) += XFRAME_LEN(xframe); return ret; error: FREE_SEND_XFRAME(xbus, xframe); return ret; } EXPORT_SYMBOL(send_pcm_frame); static int really_send_cmd_frame(xbus_t *xbus, xframe_t *xframe) { struct xbus_ops *ops; int ret; BUG_ON(!xbus); BUG_ON(!xframe); BUG_ON(xframe->xframe_magic != XFRAME_MAGIC); if (!XBUS_FLAGS(xbus, CONNECTED)) { XBUS_ERR(xbus, "Dropped command before sending -- " "hardware deactivated.\n"); dump_xframe("Dropped", xbus, xframe, DBG_ANY); FREE_SEND_XFRAME(xbus, xframe); return -ENODEV; } ops = transportops_get(xbus); BUG_ON(!ops); if (debug & DBG_COMMANDS) dump_xframe("TX-CMD", xbus, xframe, DBG_ANY); ret = ops->xframe_send_cmd(xbus, xframe); transportops_put(xbus); if (ret == 0) { XBUS_COUNTER(xbus, TX_CMD)++; XBUS_COUNTER(xbus, TX_BYTES) += XFRAME_LEN(xframe); } return ret; } int xbus_command_queue_tick(xbus_t *xbus) { xframe_t *frm; int ret = 0; int packno; xbus->command_tick_counter++; xbus->usec_nosend -= 1000; /* That's our budget */ for (packno = 0; packno < 3; packno++) { if (xbus->usec_nosend > 0) break; frm = xframe_dequeue(&xbus->command_queue); if (!frm) { wake_up(&xbus->command_queue_empty); break; } BUG_ON(frm->xframe_magic != XFRAME_MAGIC); xbus->usec_nosend += frm->usec_towait; ret = really_send_cmd_frame(xbus, frm); if (ret < 0) { XBUS_ERR(xbus, "Failed to send from command_queue (ret=%d)\n", ret); xbus_setstate(xbus, XBUS_STATE_FAIL); } } if (xbus->usec_nosend < 0) xbus->usec_nosend = 0; return ret; } EXPORT_SYMBOL(xbus_command_queue_tick); static void xbus_command_queue_clean(xbus_t *xbus) { xframe_t *frm; XBUS_DBG(DEVICES, xbus, "count=%d\n", xbus->command_queue.count); xframe_queue_disable(&xbus->command_queue, 1); while ((frm = xframe_dequeue(&xbus->command_queue)) != NULL) FREE_SEND_XFRAME(xbus, frm); } static int xbus_command_queue_waitempty(xbus_t *xbus) { int ret; XBUS_DBG(DEVICES, xbus, "Waiting for command_queue to empty\n"); ret = wait_event_interruptible(xbus->command_queue_empty, xframe_queue_count(&xbus->command_queue) == 0); if (ret) XBUS_ERR(xbus, "waiting for command_queue interrupted!!!\n"); return ret; } int send_cmd_frame(xbus_t *xbus, xframe_t *xframe) { static int rate_limit; int ret = 0; BUG_ON(xframe->xframe_magic != XFRAME_MAGIC); if (!XBUS_FLAGS(xbus, CONNECTED)) { XBUS_ERR(xbus, "Dropped command before queueing -- " "hardware deactivated.\n"); ret = -ENODEV; goto err; } if (debug & DBG_COMMANDS) dump_xframe(__func__, xbus, xframe, DBG_ANY); if (!xframe_enqueue(&xbus->command_queue, xframe)) { if ((rate_limit++ % 1003) == 0) { XBUS_ERR(xbus, "Dropped command xframe. Cannot enqueue (%d)\n", rate_limit); dump_xframe(__func__, xbus, xframe, DBG_ANY); } xbus_setstate(xbus, XBUS_STATE_FAIL); ret = -E2BIG; goto err; } return 0; err: FREE_SEND_XFRAME(xbus, xframe); return ret; } EXPORT_SYMBOL(send_cmd_frame); /*------------------------- Receive Tasklet Handling ---------------*/ static void xframe_enqueue_recv(xbus_t *xbus, xframe_t *xframe) { int cpu = smp_processor_id(); BUG_ON(!xbus); xbus->cpu_rcv_intr[cpu]++; if (!xframe_enqueue(&xbus->receive_queue, xframe)) { static int rate_limit; if ((rate_limit++ % 1003) == 0) XBUS_ERR(xbus, "Failed to enqueue for receive_tasklet (%d)\n", rate_limit); FREE_RECV_XFRAME(xbus, xframe); /* return to receive_pool */ return; } tasklet_schedule(&xbus->receive_tasklet); } /* * process frames in the receive_queue in a tasklet */ static void receive_tasklet_func(unsigned long data) { xbus_t *xbus = (xbus_t *)data; xframe_t *xframe = NULL; int cpu = smp_processor_id(); BUG_ON(!xbus); xbus->cpu_rcv_tasklet[cpu]++; while ((xframe = xframe_dequeue(&xbus->receive_queue)) != NULL) xframe_receive(xbus, xframe); } void xbus_receive_xframe(xbus_t *xbus, xframe_t *xframe) { BUG_ON(!xbus); if (xbus_is_shutting_down(xbus->num)) { static int rate_limit; if ((rate_limit++ % 1000) == 0) XBUS_NOTICE(xbus, "%s: during shutdown (%d)\n", __func__, rate_limit); return; } if (rx_tasklet) { xframe_enqueue_recv(xbus, xframe); } else { if (likely(XBUS_FLAGS(xbus, CONNECTED))) xframe_receive(xbus, xframe); else /* return to receive_pool */ FREE_RECV_XFRAME(xbus, xframe); } } EXPORT_SYMBOL(xbus_receive_xframe); /*------------------------- Bus Management -------------------------*/ xpd_t *xpd_of(const xbus_t *xbus, int xpd_num) { if (!VALID_XPD_NUM(xpd_num)) return NULL; return xbus->xpds[xpd_num]; } EXPORT_SYMBOL(xpd_of); xpd_t *xpd_byaddr(const xbus_t *xbus, uint unit, uint subunit) { if (unit > MAX_UNIT || subunit > MAX_SUBUNIT) return NULL; return xbus->xpds[XPD_IDX(unit, subunit)]; } EXPORT_SYMBOL(xpd_byaddr); int xbus_xpd_bind(xbus_t *xbus, xpd_t *xpd, int unit, int subunit) { unsigned int xpd_num; unsigned long flags; BUG_ON(!xbus); xpd_num = XPD_IDX(unit, subunit); XBUS_DBG(DEVICES, xbus, "XPD #%d\n", xpd_num); spin_lock_irqsave(&xbus->lock, flags); if (!VALID_XPD_NUM(xpd_num)) { XBUS_ERR(xbus, "Bad xpd_num = %d\n", xpd_num); BUG(); } if (xbus->xpds[xpd_num] != NULL) { xpd_t *other = xbus->xpds[xpd_num]; XBUS_ERR(xbus, "xpd_num=%d is occupied by %p (%s)\n", xpd_num, other, other->xpdname); BUG(); } snprintf(xpd->xpdname, XPD_NAMELEN, "XPD-%1d%1d", unit, subunit); MKADDR(&xpd->addr, unit, subunit); xpd->xbus_idx = xpd_num; xbus->xpds[xpd_num] = xpd; xpd->xbus = xbus; atomic_inc(&xbus->num_xpds); spin_unlock_irqrestore(&xbus->lock, flags); /* Must be done out of atomic context */ if (xpd_device_register(xbus, xpd) < 0) { XPD_ERR(xpd, "%s: xpd_device_register() failed\n", __func__); /* FIXME: What to do? */ } return 0; } int xbus_xpd_unbind(xbus_t *xbus, xpd_t *xpd) { unsigned int xpd_num = xpd->xbus_idx; unsigned long flags; XBUS_DBG(DEVICES, xbus, "XPD #%d\n", xpd_num); if (!VALID_XPD_NUM(xpd_num)) { XBUS_ERR(xbus, "%s: Bad xpd_num = %d\n", __func__, xpd_num); BUG(); } if (xbus->xpds[xpd_num] == NULL) { XBUS_ERR(xbus, "%s: slot xpd_num=%d is empty\n", __func__, xpd_num); BUG(); } if (xbus->xpds[xpd_num] != xpd) { xpd_t *other = xbus->xpds[xpd_num]; XBUS_ERR(xbus, "%s: slot xpd_num=%d is occupied by %p (%s)\n", __func__, xpd_num, other, other->xpdname); BUG(); } spin_lock_irqsave(&xbus->lock, flags); xpd->xbus = NULL; xbus->xpds[xpd_num] = NULL; if (atomic_dec_and_test(&xbus->num_xpds)) xbus_setstate(xbus, XBUS_STATE_IDLE); spin_unlock_irqrestore(&xbus->lock, flags); return 0; } static xpd_type_t xpd_hw2xpd_type(const struct unit_descriptor *unit_descriptor) { xpd_type_t xpd_type; switch (unit_descriptor->type) { case 1: case 6: xpd_type = XPD_TYPE_FXS; break; case 2: xpd_type = XPD_TYPE_FXO; break; case 3: xpd_type = XPD_TYPE_BRI; break; case 4: xpd_type = XPD_TYPE_PRI; break; case 5: xpd_type = XPD_TYPE_ECHO; break; case 7: xpd_type = XPD_TYPE_NOMODULE; break; default: NOTICE("WARNING: xpd hw type is: %d\n", unit_descriptor->type); xpd_type = XPD_TYPE_NOMODULE; break; } return xpd_type; } int subunits_of_xpd(const struct unit_descriptor* unit_descriptor, const xproto_table_t *proto_table) { int ports = unit_descriptor->ports_per_chip * unit_descriptor->numchips; return (ports + proto_table->ports_per_subunit - 1) / proto_table->ports_per_subunit; } static int new_card(xbus_t *xbus, const struct unit_descriptor *unit_descriptor) { int unit = unit_descriptor->addr.unit; xpd_type_t xpd_type; __u8 hw_type; __u8 numchips; __u8 ports_per_chip; __u8 ports; __u8 port_dir; const xproto_table_t *proto_table; int i; int subunits; int ret = 0; int remaining_ports; const struct echoops *echoops; /* Translate parameters from "unit_descriptor" */ hw_type = unit_descriptor->type; numchips = unit_descriptor->numchips; ports_per_chip = unit_descriptor->ports_per_chip; port_dir = unit_descriptor->port_dir; ports = unit_descriptor->ports_per_chip * unit_descriptor->numchips; xpd_type = xpd_hw2xpd_type(unit_descriptor); proto_table = xproto_get(xpd_type); if (!proto_table) { XBUS_NOTICE(xbus, "CARD %d: missing protocol table for xpd_type %d. " "Ignored.\n", unit, xpd_type); return -EINVAL; } echoops = proto_table->echoops; if (echoops) { XBUS_INFO(xbus, "Detected ECHO Canceler (%d)\n", unit); if (ECHOOPS(xbus)) { XBUS_NOTICE(xbus, "CARD %d: tryies to define echoops (xpd_type %d) " "but we already have one. Ignored.\n", unit, xpd_type); return -EINVAL; } xbus->echo_state.echoops = echoops; xbus->echo_state.xpd_idx = XPD_IDX(unit, 0); } remaining_ports = ports; subunits = subunits_of_xpd(unit_descriptor, proto_table); XBUS_DBG(DEVICES, xbus, "CARD %d xpd_type=%d/hw_type=%d ports=%d (%dx%d), " "%d subunits, port-dir=0x%02X\n", unit, xpd_type, hw_type, ports, numchips, ports_per_chip, subunits, port_dir); if (xpd_type == XPD_TYPE_PRI || xpd_type == XPD_TYPE_BRI) xbus->quirks.has_digital_span = 1; if (xpd_type == XPD_TYPE_FXO) xbus->quirks.has_fxo = 1; xbus->worker.num_units += subunits - 1; for (i = 0; i < subunits; i++) { int subunit_ports = proto_table->ports_per_subunit; if (subunit_ports > remaining_ports) subunit_ports = remaining_ports; remaining_ports -= proto_table->ports_per_subunit; if (subunit_ports <= 0) { XBUS_NOTICE(xbus, "Subunit XPD=%d%d without ports (%d of %d)\n", unit, i, subunit_ports, ports); ret = -ENODEV; goto out; } if (!XBUS_IS(xbus, RECVD_DESC)) { XBUS_NOTICE(xbus, "Cannot create XPD=%d%d in state %s\n", unit, i, xbus_statename(XBUS_STATE(xbus))); ret = -ENODEV; goto out; } XBUS_DBG(DEVICES, xbus, "Creating XPD=%d%d xpd_type=%d.%d hw_type=%d (%d ports)\n", unit, i, xpd_type, unit_descriptor->subtype, hw_type, subunit_ports); ret = create_xpd(xbus, proto_table, unit_descriptor, unit, i, xpd_type); if (ret < 0) { XBUS_ERR(xbus, "Creation of XPD=%d%d failed %d\n", unit, i, ret); goto out; } xbus->worker.num_units_initialized++; } out: xproto_put(proto_table); /* ref count is inside the xpds now */ return ret; } static void xbus_release_xpds(xbus_t *xbus) { int i; XBUS_DBG(DEVICES, xbus, "[%s] Release XPDS\n", xbus->label); for (i = 0; i < MAX_XPDS; i++) { xpd_t *xpd = xpd_of(xbus, i); if (xpd) put_xpd(__func__, xpd); } } static int xbus_aquire_xpds(xbus_t *xbus) { unsigned long flags; int i; int ret = 0; xpd_t *xpd; XBUS_DBG(DEVICES, xbus, "[%s] Aquire XPDS\n", xbus->label); spin_lock_irqsave(&xbus->lock, flags); for (i = 0; i < MAX_XPDS; i++) { xpd = xpd_of(xbus, i); if (xpd) { xpd = get_xpd(__func__, xpd); if (!xpd) goto err; } } out: spin_unlock_irqrestore(&xbus->lock, flags); return ret; err: for (--i; i >= 0; i--) { xpd = xpd_of(xbus, i); if (xpd) put_xpd(__func__, xpd); } ret = -EBUSY; goto out; } static int xpd_initialize(xpd_t *xpd) { int ret = -ENODEV; if (CALL_XMETHOD(card_init, xpd) < 0) { XPD_ERR(xpd, "Card Initialization failed\n"); goto out; } xpd->card_present = 1; if (IS_PHONEDEV(xpd)) { /* * Set echo canceler channels (off) * Asterisk will tell us when/if it's needed. */ CALL_PHONE_METHOD(echocancel_setmask, xpd, 0); /* Turn on all channels */ CALL_PHONE_METHOD(card_state, xpd, 1); } if (!xpd_setstate(xpd, XPD_STATE_READY)) goto out; XPD_INFO(xpd, "Initialized: %s\n", xpd->type_name); ret = 0; out: return ret; } static int xbus_echocancel(xbus_t *xbus, int on) { int unit; int subunit; xpd_t *xpd; if (!ECHOOPS(xbus)) return 0; for (unit = 0; unit < MAX_UNIT; unit++) { xpd = xpd_byaddr(xbus, unit, 0); if (!xpd || !IS_PHONEDEV(xpd)) continue; for (subunit = 0; subunit < MAX_SUBUNIT; subunit++) { int ret; xpd = xpd_byaddr(xbus, unit, subunit); if (!xpd || !IS_PHONEDEV(xpd)) continue; ret = echocancel_xpd(xpd, on); if (ret < 0) { XPD_ERR(xpd, "Fail in xbus_echocancel()\n"); return ret; } } } return 0; } static void xbus_deactivate_xpds(xbus_t *xbus) { unsigned long flags; int unit; int subunit; xpd_t *xpd; for (unit = 0; unit < MAX_UNIT; unit++) { xpd = xpd_byaddr(xbus, unit, 0); if (!xpd) continue; for (subunit = 0; subunit < MAX_SUBUNIT; subunit++) { xpd = xpd_byaddr(xbus, unit, subunit); if (!xpd) continue; spin_lock_irqsave(&xpd->lock, flags); xpd->card_present = 0; xpd_setstate(xpd, XPD_STATE_NOHW); spin_unlock_irqrestore(&xpd->lock, flags); } } } static int xbus_initialize(xbus_t *xbus) { int unit; int subunit; xpd_t *xpd; struct timeval time_start; struct timeval time_end; unsigned long timediff; int res = 0; do_gettimeofday(&time_start); XBUS_DBG(DEVICES, xbus, "refcount_xbus=%d\n", refcount_xbus(xbus)); if (xbus_aquire_xpds(xbus) < 0) /* Until end of initialization */ return -EBUSY; for (unit = 0; unit < MAX_UNIT; unit++) { xpd = xpd_byaddr(xbus, unit, 0); if (!xpd) continue; if (!XBUS_IS(xbus, RECVD_DESC)) { XBUS_NOTICE(xbus, "Cannot initialize UNIT=%d in state %s\n", unit, xbus_statename(XBUS_STATE(xbus))); goto err; } if (run_initialize_registers(xpd) < 0) { XBUS_ERR(xbus, "Register Initialization of card #%d failed\n", unit); goto err; } for (subunit = 0; subunit < MAX_SUBUNIT; subunit++) { int ret; xpd = xpd_byaddr(xbus, unit, subunit); if (!xpd) continue; if (!XBUS_IS(xbus, RECVD_DESC)) { XBUS_ERR(xbus, "XPD-%d%d Not in 'RECVD_DESC' state\n", unit, subunit); goto err; } ret = xpd_initialize(xpd); if (ret < 0) goto err; } } xbus_echocancel(xbus, 1); do_gettimeofday(&time_end); timediff = usec_diff(&time_end, &time_start); timediff /= 1000 * 100; XBUS_INFO(xbus, "Initialized in %ld.%1ld sec\n", timediff / 10, timediff % 10); out: xbus_release_xpds(xbus); /* Initialization done/failed */ return res; err: xbus_setstate(xbus, XBUS_STATE_FAIL); res = -EINVAL; goto out; } int xbus_is_registered(xbus_t *xbus) { return xbus->ddev && xbus->ddev->dev.parent; } static void xbus_free_ddev(xbus_t *xbus) { if (!xbus->ddev) return; kfree(xbus->ddev->devicetype); /* NULL is safe */ xbus->ddev->devicetype = NULL; xbus->ddev->location = NULL; xbus->ddev->hardware_id = NULL; dahdi_free_device(xbus->ddev); xbus->ddev = NULL; } static DEFINE_MUTEX(dahdi_registration_mutex); int xbus_register_dahdi_device(xbus_t *xbus) { int i; int offset = 0; int ret; XBUS_DBG(DEVICES, xbus, "Entering %s\n", __func__); ret = mutex_lock_interruptible(&dahdi_registration_mutex); if (ret < 0) { XBUS_ERR(xbus, "dahdi_registration_mutex already taken\n"); goto err; } if (xbus_is_registered(xbus)) { /* * Ignore duplicate registrations (from dahdi_registration) * Until we completely migrate to dahdi_autoreg=1 and * hotplug-based span-assignments */ XBUS_DBG(DEVICES, xbus, "Already registered to DAHDI\n"); ret = 0; goto out; } xbus->ddev = dahdi_create_device(); if (!xbus->ddev) { ret = -ENOMEM; goto err; } /* * This actually describe the dahdi_spaninfo version 3 * A bunch of unrelated data exported via a modified ioctl() * What a bummer... */ xbus->ddev->manufacturer = "Xorcom Inc."; /* OK, that's obvious */ /* span->spantype = "...."; set in card_dahdi_preregistration() */ /* * Yes, this basically duplicates information available * from the description field. If some more is needed * why not add it there? * OK, let's add to the kernel more useless info. */ xbus->ddev->devicetype = kasprintf(GFP_KERNEL, "Astribank2"); if (!xbus->ddev->devicetype) { ret = -ENOMEM; goto err; } /* * location is the only usefull new data item. * For our devices it was available for ages via: * - The legacy "/proc/xpp/XBUS-??/summary" (CONNECTOR=...) * - The same info in "/proc/xpp/xbuses" * - The modern "/sys/bus/astribanks/devices/xbus-??/connector" * attribute * So let's also export it via the newfangled "location" field. */ xbus->ddev->location = xbus->connector; xbus->ddev->hardware_id = xbus->label; /* * Prepare the span list */ for (i = 0; i < MAX_XPDS; i++) { xpd_t *xpd = xpd_of(xbus, i); if (xpd && IS_PHONEDEV(xpd)) { XPD_DBG(DEVICES, xpd, "offset=%d\n", offset); xpd_dahdi_preregister(xpd, offset++); } } if (dahdi_register_device(xbus->ddev, &xbus->astribank)) { XBUS_ERR(xbus, "Failed to dahdi_register_device()\n"); ret = -ENODEV; goto err; } for (i = 0; i < MAX_XPDS; i++) { xpd_t *xpd = xpd_of(xbus, i); if (xpd && IS_PHONEDEV(xpd)) { XPD_DBG(DEVICES, xpd, "\n"); xpd_dahdi_postregister(xpd); } } ret = 0; out: mutex_unlock(&dahdi_registration_mutex); return ret; err: xbus_free_ddev(xbus); goto out; } void xbus_unregister_dahdi_device(xbus_t *xbus) { int i; int ret; XBUS_DBG(DEVICES, xbus, "%s\n", __func__); ret = mutex_lock_interruptible(&dahdi_registration_mutex); if (ret < 0) { XBUS_ERR(xbus, "dahdi_registration_mutex already taken\n"); return; } if (!xbus_is_registered(xbus)) { /* * Ignore duplicate unregistrations */ XBUS_DBG(DEVICES, xbus, "Already unregistered to DAHDI\n"); goto err; } for (i = 0; i < MAX_XPDS; i++) { xpd_t *xpd = xpd_of(xbus, i); xpd_dahdi_preunregister(xpd); } if (xbus->ddev) { dahdi_unregister_device(xbus->ddev); XBUS_DBG(DEVICES, xbus, "%s: finished dahdi_unregister_device()\n", __func__); xbus_free_ddev(xbus); } for (i = 0; i < MAX_XPDS; i++) { xpd_t *xpd = xpd_of(xbus, i); xpd_dahdi_postunregister(xpd); } err: mutex_unlock(&dahdi_registration_mutex); } /* * This must be called from synchronous (non-interrupt) context * it returns only when all XPD's on the bus are detected and * initialized. */ #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20) static void xbus_populate(struct work_struct *work) { struct xbus_workqueue *worker = container_of(work, struct xbus_workqueue, xpds_init_work); #else void xbus_populate(void *data) { struct xbus_workqueue *worker = data; #endif xbus_t *xbus; struct list_head *card; struct list_head *next_card; unsigned long flags; int ret = 0; xbus = container_of(worker, xbus_t, worker); xbus = get_xbus(__func__, xbus->num); /* return in function end */ XBUS_DBG(DEVICES, xbus, "Entering %s\n", __func__); spin_lock_irqsave(&worker->worker_lock, flags); list_for_each_safe(card, next_card, &worker->card_list) { struct card_desc_struct *card_desc = list_entry(card, struct card_desc_struct, card_list); list_del(card); BUG_ON(card_desc->magic != CARD_DESC_MAGIC); /* Release/Reacquire locks around blocking calls */ spin_unlock_irqrestore(&xbus->worker.worker_lock, flags); ret = new_card(xbus, &card_desc->unit_descriptor); spin_lock_irqsave(&xbus->worker.worker_lock, flags); KZFREE(card_desc); if (ret) break; } spin_unlock_irqrestore(&worker->worker_lock, flags); if (xbus_initialize(xbus) < 0) { XBUS_NOTICE(xbus, "Initialization failed. Leave unused. " "refcount_xbus=%d\n", refcount_xbus(xbus)); goto failed; } if (!xbus_setstate(xbus, XBUS_STATE_READY)) { XBUS_NOTICE(xbus, "Illegal transition. Leave unused. refcount_xbus=%d\n", refcount_xbus(xbus)); goto failed; } worker->xpds_init_done = 1; /* * Now request Astribank to start self_ticking. * This is the last initialization command. So * all others will reach the device before it. */ xbus_request_sync(xbus, SYNC_MODE_PLL); elect_syncer("xbus_populate(end)"); /* FIXME: try to do it later */ if (!dahdi_get_auto_assign_spans()) xbus_register_dahdi_device(xbus); out: XBUS_DBG(DEVICES, xbus, "Leaving\n"); wake_up_interruptible_all(&worker->wait_for_xpd_initialization); XBUS_DBG(DEVICES, xbus, "populate release\n"); up(&worker->running_initialization); put_xbus(__func__, xbus); /* taken at function entry */ return; failed: xbus_setstate(xbus, XBUS_STATE_FAIL); goto out; } int xbus_process_worker(xbus_t *xbus) { struct xbus_workqueue *worker; if (!xbus) { ERR("%s: xbus gone -- skip initialization\n", __func__); return 0; } worker = &xbus->worker; if (down_trylock(&worker->running_initialization)) { ERR("%s: xbus is disconnected -- skip initialization\n", __func__); return 0; } XBUS_DBG(DEVICES, xbus, "\n"); /* Initialize the work. (adapt to kernel API changes). */ #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20) INIT_WORK(&worker->xpds_init_work, xbus_populate); #else INIT_WORK(&worker->xpds_init_work, xbus_populate, worker); #endif BUG_ON(!xbus); /* Now send it */ if (!queue_work(worker->wq, &worker->xpds_init_work)) { XBUS_ERR(xbus, "Failed to queue xpd initialization work\n"); up(&worker->running_initialization); return 0; } return 1; } static void worker_reset(xbus_t *xbus) { struct xbus_workqueue *worker; struct list_head *card; struct list_head *next_card; unsigned long flags; char *name; BUG_ON(!xbus); worker = &xbus->worker; name = (xbus) ? xbus->busname : "detached"; DBG(DEVICES, "%s\n", name); if (!worker->xpds_init_done) { XBUS_NOTICE(xbus, "XPDS initialization was not finished\n"); } spin_lock_irqsave(&worker->worker_lock, flags); list_for_each_safe(card, next_card, &worker->card_list) { struct card_desc_struct *card_desc = list_entry(card, struct card_desc_struct, card_list); BUG_ON(card_desc->magic != CARD_DESC_MAGIC); list_del(card); KZFREE(card_desc); } worker->xpds_init_done = 0; worker->num_units = 0; worker->num_units_initialized = 0; wake_up_interruptible_all(&worker->wait_for_xpd_initialization); spin_unlock_irqrestore(&worker->worker_lock, flags); } /* * Called only after worker_reset(xbus) */ static void worker_destroy(xbus_t *xbus) { struct xbus_workqueue *worker; BUG_ON(!xbus); worker = &xbus->worker; XBUS_DBG(DEVICES, xbus, "Waiting for worker to finish...\n"); down(&worker->running_initialization); XBUS_DBG(DEVICES, xbus, "Waiting for worker to finish -- done\n"); if (worker->wq) { XBUS_DBG(DEVICES, xbus, "destroying workqueue...\n"); flush_workqueue(worker->wq); destroy_workqueue(worker->wq); worker->wq = NULL; XBUS_DBG(DEVICES, xbus, "destroying workqueue -- done\n"); } XBUS_DBG(DEVICES, xbus, "detach worker\n"); put_xbus(__func__, xbus); /* got from worker_run() */ } static void worker_init(xbus_t *xbus) { struct xbus_workqueue *worker; BUG_ON(!xbus); XBUS_DBG(DEVICES, xbus, "\n"); worker = &xbus->worker; /* poll related variables */ spin_lock_init(&worker->worker_lock); INIT_LIST_HEAD(&worker->card_list); init_waitqueue_head(&worker->wait_for_xpd_initialization); worker->wq = NULL; sema_init(&xbus->worker.running_initialization, 1); } /* * Allocate a worker for the xbus including the nessessary workqueue. * May call blocking operations, but only briefly (as we are called * from xbus_new() which is called from khubd. */ static int worker_run(xbus_t *xbus) { struct xbus_workqueue *worker; xbus = get_xbus(__func__, xbus->num); /* return in worker_destroy() */ BUG_ON(!xbus); BUG_ON(xbus->busname[0] == '\0'); /* No name? */ worker = &xbus->worker; BUG_ON(worker->wq); /* Hmmm... nested workers? */ XBUS_DBG(DEVICES, xbus, "\n"); /* poll related variables */ worker->wq = create_singlethread_workqueue(xbus->busname); if (!worker->wq) { XBUS_ERR(xbus, "Failed to create worker workqueue.\n"); goto err; } return 1; err: worker_reset(xbus); worker_destroy(xbus); return 0; } bool xbus_setflags(xbus_t *xbus, int flagbit, bool on) { unsigned long flags; spin_lock_irqsave(&xbus->transport.state_lock, flags); XBUS_DBG(DEVICES, xbus, "%s flag %d\n", (on) ? "Set" : "Clear", flagbit); if (on) set_bit(flagbit, &(xbus->transport.transport_flags)); else clear_bit(flagbit, &(xbus->transport.transport_flags)); spin_unlock_irqrestore(&xbus->transport.state_lock, flags); return 1; } bool xbus_setstate(xbus_t *xbus, enum xbus_state newstate) { unsigned long flags; bool ret = 0; int state_flip = 0; spin_lock_irqsave(&xbus->transport.state_lock, flags); if (newstate == XBUS_STATE(xbus)) { XBUS_DBG(DEVICES, xbus, "stay at %s\n", xbus_statename(newstate)); goto out; } /* Sanity tests */ switch (newstate) { case XBUS_STATE_START: goto bad_state; case XBUS_STATE_IDLE: if (!XBUS_IS(xbus, START) && !XBUS_IS(xbus, DEACTIVATED)) goto bad_state; break; case XBUS_STATE_SENT_REQUEST: if (!XBUS_IS(xbus, IDLE) && !XBUS_IS(xbus, SENT_REQUEST)) goto bad_state; break; case XBUS_STATE_RECVD_DESC: if (!XBUS_IS(xbus, SENT_REQUEST)) goto bad_state; break; case XBUS_STATE_READY: if (!XBUS_IS(xbus, RECVD_DESC)) goto bad_state; state_flip = 1; /* We are good */ break; case XBUS_STATE_DEACTIVATING: if (XBUS_IS(xbus, DEACTIVATING)) goto bad_state; if (XBUS_IS(xbus, DEACTIVATED)) goto bad_state; break; case XBUS_STATE_DEACTIVATED: if (!XBUS_IS(xbus, DEACTIVATING)) goto bad_state; break; case XBUS_STATE_FAIL: if (XBUS_IS(xbus, DEACTIVATING)) goto bad_state; if (XBUS_IS(xbus, DEACTIVATED)) goto bad_state; break; default: XBUS_NOTICE(xbus, "%s: unknown state %d\n", __func__, newstate); goto out; } /* All good */ XBUS_DBG(DEVICES, xbus, "%s -> %s\n", xbus_statename(XBUS_STATE(xbus)), xbus_statename(newstate)); if (xbus->transport.xbus_state == XBUS_STATE_READY && newstate != XBUS_STATE_READY) state_flip = -1; /* We became bad */ xbus->transport.xbus_state = newstate; ret = 1; out: spin_unlock_irqrestore(&xbus->transport.state_lock, flags); /* Should be sent out of spinlocks */ if (state_flip > 0) astribank_uevent_send(xbus, KOBJ_ONLINE); else if (state_flip < 0) astribank_uevent_send(xbus, KOBJ_OFFLINE); return ret; bad_state: XBUS_NOTICE(xbus, "Bad state transition %s -> %s ignored.\n", xbus_statename(XBUS_STATE(xbus)), xbus_statename(newstate)); goto out; } EXPORT_SYMBOL(xbus_setstate); int xbus_activate(xbus_t *xbus) { XBUS_INFO(xbus, "[%s] Activating\n", xbus->label); xpp_drift_init(xbus); xbus_set_command_timer(xbus, 1); xframe_queue_disable(&xbus->command_queue, 0); /* must be done after transport is valid */ xbus_setstate(xbus, XBUS_STATE_IDLE); CALL_PROTO(GLOBAL, AB_REQUEST, xbus, NULL); /* * Make sure Astribank knows not to send us ticks. */ xbus_request_sync(xbus, SYNC_MODE_NONE); return 0; } EXPORT_SYMBOL(xbus_activate); int xbus_connect(xbus_t *xbus) { struct xbus_ops *ops; BUG_ON(!xbus); XBUS_DBG(DEVICES, xbus, "\n"); ops = transportops_get(xbus); BUG_ON(!ops); /* Sanity checks */ BUG_ON(!ops->xframe_send_pcm); BUG_ON(!ops->xframe_send_cmd); BUG_ON(!ops->alloc_xframe); BUG_ON(!ops->free_xframe); xbus_setflags(xbus, XBUS_FLAG_CONNECTED, 1); xbus_activate(xbus); return 0; } EXPORT_SYMBOL(xbus_connect); void xbus_deactivate(xbus_t *xbus) { BUG_ON(!xbus); XBUS_INFO(xbus, "[%s] Deactivating\n", xbus->label); if (!xbus_setstate(xbus, XBUS_STATE_DEACTIVATING)) return; xbus_request_sync(xbus, SYNC_MODE_NONE); /* no more ticks */ elect_syncer("deactivate"); xbus_echocancel(xbus, 0); xbus_deactivate_xpds(xbus); XBUS_DBG(DEVICES, xbus, "[%s] Waiting for queues\n", xbus->label); xbus_command_queue_clean(xbus); xbus_command_queue_waitempty(xbus); xbus_setstate(xbus, XBUS_STATE_DEACTIVATED); worker_reset(xbus); xbus_unregister_dahdi_device(xbus); xbus_release_xpds(xbus); /* taken in xpd_alloc() [kref_init] */ } EXPORT_SYMBOL(xbus_deactivate); void xbus_disconnect(xbus_t *xbus) { BUG_ON(!xbus); XBUS_INFO(xbus, "[%s] Disconnecting\n", xbus->label); xbus_setflags(xbus, XBUS_FLAG_CONNECTED, 0); xbus_deactivate(xbus); xbus_command_queue_clean(xbus); xbus_command_queue_waitempty(xbus); tasklet_kill(&xbus->receive_tasklet); xframe_queue_clear(&xbus->receive_queue); xframe_queue_clear(&xbus->send_pool); xframe_queue_clear(&xbus->receive_pool); xframe_queue_clear(&xbus->pcm_tospan); del_timer_sync(&xbus->command_timer); transportops_put(xbus); transport_destroy(xbus); /* worker_reset(xbus) was called in xbus_deactivate(xbus) */ worker_destroy(xbus); XBUS_DBG(DEVICES, xbus, "Deactivated refcount_xbus=%d\n", refcount_xbus(xbus)); xbus_sysfs_transport_remove(xbus); /* Device-Model */ put_xbus(__func__, xbus); /* from xbus_new() [kref_init()] */ } EXPORT_SYMBOL(xbus_disconnect); static xbus_t *xbus_alloc(void) { unsigned long flags; xbus_t *xbus; int i; xbus = KZALLOC(sizeof(xbus_t), GFP_KERNEL); if (!xbus) { ERR("%s: out of memory\n", __func__); return NULL; } spin_lock_irqsave(&xbuses_lock, flags); for (i = 0; i < MAX_BUSES; i++) if (xbuses_array[i].xbus == NULL) break; if (i >= MAX_BUSES) { ERR("%s: No free slot for new bus. i=%d\n", __func__, i); KZFREE(xbus); xbus = NULL; goto out; } /* Found empty slot */ xbus->num = i; init_xbus(i, xbus); out: spin_unlock_irqrestore(&xbuses_lock, flags); return xbus; } void xbus_free(xbus_t *xbus) { unsigned long flags; uint num; if (!xbus) return; XBUS_DBG(DEVICES, xbus, "Free\n"); spin_lock_irqsave(&xbuses_lock, flags); num = xbus->num; BUG_ON(!xbuses_array[num].xbus); BUG_ON(xbus != xbuses_array[num].xbus); init_xbus(num, NULL); spin_unlock_irqrestore(&xbuses_lock, flags); #ifdef CONFIG_PROC_FS if (xbus->proc_xbus_dir) { if (xbus->proc_xbus_summary) { XBUS_DBG(PROC, xbus, "Removing proc '%s'\n", PROC_XBUS_SUMMARY); remove_proc_entry(PROC_XBUS_SUMMARY, xbus->proc_xbus_dir); xbus->proc_xbus_summary = NULL; } #ifdef PROTOCOL_DEBUG if (xbus->proc_xbus_command) { XBUS_DBG(PROC, xbus, "Removing proc '%s'\n", PROC_XBUS_COMMAND); remove_proc_entry(PROC_XBUS_COMMAND, xbus->proc_xbus_dir); xbus->proc_xbus_command = NULL; } #endif XBUS_DBG(PROC, xbus, "Removing proc directory\n"); remove_proc_entry(xbus->busname, xpp_proc_toplevel); xbus->proc_xbus_dir = NULL; } #endif spin_lock_irqsave(&xbuses_lock, flags); XBUS_DBG(DEVICES, xbus, "Going to free...\n"); spin_unlock_irqrestore(&xbuses_lock, flags); KZFREE(xbus); } EXPORT_SYMBOL(xbus_free); xbus_t *xbus_new(struct xbus_ops *ops, ushort max_send_size, struct device *transport_device, void *priv) { int err; xbus_t *xbus = NULL; BUG_ON(!ops); xbus = xbus_alloc(); if (!xbus) { ERR("%s: Failed allocating new xbus\n", __func__); return NULL; } snprintf(xbus->busname, XBUS_NAMELEN, "XBUS-%02d", xbus->num); XBUS_DBG(DEVICES, xbus, "\n"); transport_init(xbus, ops, max_send_size, transport_device, priv); spin_lock_init(&xbus->lock); init_waitqueue_head(&xbus->command_queue_empty); init_timer(&xbus->command_timer); atomic_set(&xbus->pcm_rx_counter, 0); xbus->min_tx_sync = INT_MAX; xbus->min_rx_sync = INT_MAX; kref_init(&xbus->kref); worker_init(xbus); atomic_set(&xbus->num_xpds, 0); xbus->sync_mode = SYNC_MODE_NONE; xbus->sync_mode_default = SYNC_MODE_PLL; err = xbus_sysfs_create(xbus); if (err) { XBUS_ERR(xbus, "SYSFS creation failed: %d\n", err); goto nobus; } err = xbus_sysfs_transport_create(xbus); if (err) { XBUS_ERR(xbus, "SYSFS transport link creation failed: %d\n", err); goto nobus; } xbus_reset_counters(xbus); #ifdef CONFIG_PROC_FS XBUS_DBG(PROC, xbus, "Creating xbus proc directory\n"); xbus->proc_xbus_dir = proc_mkdir(xbus->busname, xpp_proc_toplevel); if (!xbus->proc_xbus_dir) { XBUS_ERR(xbus, "Failed to create proc directory\n"); err = -EIO; goto nobus; } xbus->proc_xbus_summary = proc_create_data(PROC_XBUS_SUMMARY, 0444, xbus->proc_xbus_dir, &xbus_read_proc_ops, (void *)((unsigned long)xbus->num)); if (!xbus->proc_xbus_summary) { XBUS_ERR(xbus, "Failed to create proc file '%s'\n", PROC_XBUS_SUMMARY); err = -EIO; goto nobus; } #ifdef PROTOCOL_DEBUG xbus->proc_xbus_command = proc_create_data(PROC_XBUS_COMMAND, 0200, xbus->proc_xbus_dir, &proc_xbus_command_ops, xbus); if (!xbus->proc_xbus_command) { XBUS_ERR(xbus, "Failed to create proc file '%s'\n", PROC_XBUS_COMMAND); err = -EIO; goto nobus; } #endif #endif xframe_queue_init(&xbus->command_queue, 10, command_queue_length, "command_queue", xbus); xframe_queue_init(&xbus->receive_queue, 10, 50, "receive_queue", xbus); xframe_queue_init(&xbus->send_pool, 10, 100, "send_pool", xbus); xframe_queue_init(&xbus->receive_pool, 10, 50, "receive_pool", xbus); xframe_queue_init(&xbus->pcm_tospan, 5, 10, "pcm_tospan", xbus); tasklet_init(&xbus->receive_tasklet, receive_tasklet_func, (unsigned long)xbus); /* * Create worker after /proc/XBUS-?? so the directory exists * before /proc/XBUS-??/waitfor_xpds tries to get created. */ if (!worker_run(xbus)) { ERR("Failed to allocate worker\n"); goto nobus; } return xbus; nobus: xbus_free(xbus); return NULL; } EXPORT_SYMBOL(xbus_new); /*------------------------- Proc handling --------------------------*/ void xbus_reset_counters(xbus_t *xbus) { int i; XBUS_DBG(GENERAL, xbus, "Reseting counters\n"); for (i = 0; i < XBUS_COUNTER_MAX; i++) xbus->counters[i] = 0; } EXPORT_SYMBOL(xbus_reset_counters); static bool xpds_done(xbus_t *xbus) { if (XBUS_IS(xbus, FAIL)) return 1; /* Nothing to wait for */ if (xbus->worker.xpds_init_done) return 1; /* All good */ /* Keep waiting */ return 0; } int waitfor_xpds(xbus_t *xbus, char *buf) { struct xbus_workqueue *worker; unsigned long flags; int ret; int len = 0; /* * FIXME: worker is created before ????? * So by now it exists and initialized. */ worker = &xbus->worker; BUG_ON(!worker); if (!worker->wq) { XBUS_ERR(xbus, "Missing worker thread. Skipping.\n"); len = -ENODEV; goto out; } XBUS_DBG(DEVICES, xbus, "Waiting for card init of XPDs max %d seconds\n", INITIALIZATION_TIMEOUT / HZ); ret = wait_event_interruptible_timeout(worker-> wait_for_xpd_initialization, xpds_done(xbus), INITIALIZATION_TIMEOUT); if (ret == 0) { XBUS_ERR(xbus, "Card Initialization Timeout\n"); len = -ETIMEDOUT; goto out; } else if (ret < 0) { XBUS_ERR(xbus, "Card Initialization Interrupted %d\n", ret); len = ret; goto out; } else XBUS_DBG(DEVICES, xbus, "Finished initialization of %d XPD's in %d seconds.\n", worker->num_units_initialized, (INITIALIZATION_TIMEOUT - ret) / HZ); if (XBUS_IS(xbus, FAIL)) { len += sprintf(buf, "FAILED: %s\n", xbus->busname); } else { spin_lock_irqsave(&xbus->lock, flags); len += sprintf(buf, "XPDS_READY: %s: %d/%d\n", xbus->busname, worker->num_units_initialized, worker->num_units); spin_unlock_irqrestore(&xbus->lock, flags); } out: return len; } #ifdef CONFIG_PROC_FS static void xbus_fill_proc_queue(struct seq_file *sfile, struct xframe_queue *q) { seq_printf(sfile, "%-15s: counts %3d, %3d, %3d worst %3d, overflows %3d " "worst_lag %02ld.%ld ms\n", q->name, q->steady_state_count, q->count, q->max_count, q->worst_count, q->overflows, q->worst_lag_usec / 1000, q->worst_lag_usec % 1000); xframe_queue_clearstats(q); } static int xbus_proc_show(struct seq_file *sfile, void *data) { xbus_t *xbus; unsigned long flags; int len = 0; int i = (int)((unsigned long)sfile->private); xbus = get_xbus(__func__, i); /* until end of xbus_proc_show() */ if (!xbus) return -EINVAL; spin_lock_irqsave(&xbus->lock, flags); seq_printf(sfile, "%s: CONNECTOR=%s LABEL=[%s] STATUS=%s\n", xbus->busname, xbus->connector, xbus->label, (XBUS_FLAGS(xbus, CONNECTED)) ? "connected" : "missing"); xbus_fill_proc_queue(sfile, &xbus->send_pool); xbus_fill_proc_queue(sfile, &xbus->receive_pool); xbus_fill_proc_queue(sfile, &xbus->command_queue); xbus_fill_proc_queue(sfile, &xbus->receive_queue); xbus_fill_proc_queue(sfile, &xbus->pcm_tospan); if (rx_tasklet) { seq_printf(sfile, "\ncpu_rcv_intr: "); for_each_online_cpu(i) seq_printf(sfile, "%5d ", xbus->cpu_rcv_intr[i]); seq_printf(sfile, "\ncpu_rcv_tasklet: "); for_each_online_cpu(i) seq_printf(sfile, "%5d ", xbus->cpu_rcv_tasklet[i]); seq_printf(sfile, "\n"); } seq_printf(sfile, "self_ticking: %d (last_tick at %ld)\n", xbus->self_ticking, xbus->ticker.last_sample.tv.tv_sec); seq_printf(sfile, "command_tick: %d\n", xbus->command_tick_counter); seq_printf(sfile, "usec_nosend: %d\n", xbus->usec_nosend); seq_printf(sfile, "xbus: pcm_rx_counter = %d, frag = %d\n", atomic_read(&xbus->pcm_rx_counter), xbus->xbus_frag_count); seq_printf(sfile, "max_rx_process = %2ld.%ld ms\n", xbus->max_rx_process / 1000, xbus->max_rx_process % 1000); xbus->max_rx_process = 0; seq_printf(sfile, "\nTRANSPORT: max_send_size=%d refcount=%d\n", MAX_SEND_SIZE(xbus), atomic_read(&xbus->transport.transport_refcount) ); seq_printf(sfile, "PCM Metrices:\n"); seq_printf(sfile, "\tPCM TX: min=%ld max=%ld\n", xbus->min_tx_sync, xbus->max_tx_sync); seq_printf(sfile, "\tPCM RX: min=%ld max=%ld\n", xbus->min_rx_sync, xbus->max_rx_sync); seq_printf(sfile, "COUNTERS:\n"); for (i = 0; i < XBUS_COUNTER_MAX; i++) { seq_printf(sfile, "\t%-15s = %d\n", xbus_counters[i].name, xbus->counters[i]); } seq_printf(sfile, "<-- len=%d\n", len); spin_unlock_irqrestore(&xbus->lock, flags); put_xbus(__func__, xbus); /* from xbus_proc_show() */ return 0; } static int xbus_read_proc_open(struct inode *inode, struct file *file) { return single_open(file, xbus_proc_show, PDE_DATA(inode)); } static const struct file_operations xbus_read_proc_ops = { .owner = THIS_MODULE, .open = xbus_read_proc_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, }; #ifdef PROTOCOL_DEBUG static ssize_t proc_xbus_command_write(struct file *file, const char __user *buffer, size_t count, loff_t *offset) { char *buf; xbus_t *xbus = file->private_data; char *p; __u8 *pack_start; __u8 *q; xframe_t *xframe; size_t len; const size_t max_len = xbus->transport.max_send_size; const size_t max_text = max_len * 3 + 10; if (count > max_text) { XBUS_ERR(xbus, "%s: line too long (%zd > %zd)\n", __func__, count, max_len); return -EFBIG; } /* 3 bytes per hex-digit and space */ buf = kmalloc(max_text, GFP_KERNEL); if (!buf) return -ENOMEM; if (copy_from_user(buf, buffer, count)) { count = -EINVAL; goto out; } buf[count] = '\0'; XBUS_DBG(GENERAL, xbus, "count=%zd\n", count); /* * We replace the content of buf[] from * ascii representation to packet content * as the binary representation is shorter */ q = pack_start = buf; for (p = buf; *p;) { int val; char hexdigit[3]; /* skip whitespace */ while (*p && isspace(*p)) p++; if (!(*p)) break; if (!isxdigit(*p)) { XBUS_ERR(xbus, "%s: bad hex value ASCII='0x%X' " "at position %ld\n", __func__, *p, (long)(p - buf)); count = -EINVAL; goto out; } hexdigit[0] = *p++; hexdigit[1] = '\0'; hexdigit[2] = '\0'; if (isxdigit(*p)) hexdigit[1] = *p++; if (sscanf(hexdigit, "%2X", &val) != 1) { XBUS_ERR(xbus, "%s: bad hex value '%s' at position %ld\n", __func__, hexdigit, (long)(p - buf)); count = -EINVAL; goto out; } *q++ = val; XBUS_DBG(GENERAL, xbus, "%3zd> '%s' val=%d\n", q - pack_start, hexdigit, val); } len = q - pack_start; xframe = ALLOC_SEND_XFRAME(xbus); if (!xframe) { count = -ENOMEM; goto out; } if (len > max_len) len = max_len; atomic_set(&xframe->frame_len, len); memcpy(xframe->packets, pack_start, len); /* FIXME: checksum? */ dump_xframe("COMMAND", xbus, xframe, debug); send_cmd_frame(xbus, xframe); out: kfree(buf); return count; } static int proc_xbus_command_open(struct inode *inode, struct file *file) { file->private_data = PDE_DATA(inode); return 0; } static const struct file_operations proc_xbus_command_ops = { .owner = THIS_MODULE, .open = proc_xbus_command_open, .write = proc_xbus_command_write, }; #endif static int xpp_proc_read_show(struct seq_file *sfile, void *data) { int i; for (i = 0; i < MAX_BUSES; i++) { xbus_t *xbus = get_xbus(__func__, i); if (xbus) { seq_printf(sfile, "%s: CONNECTOR=%s LABEL=[%s] STATUS=%s\n", xbus->busname, xbus->connector, xbus->label, (XBUS_FLAGS(xbus, CONNECTED)) ? "connected" : "missing"); put_xbus(__func__, xbus); } } #if 0 seq_printf(sfile, "<-- len=%d\n", len); #endif return 0; } static int xpp_proc_read_open(struct inode *inode, struct file *file) { return single_open(file, xpp_proc_read_show, PDE_DATA(inode)); } static const struct file_operations xpp_proc_read_ops = { .owner = THIS_MODULE, .open = xpp_proc_read_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, }; #endif static void transport_init(xbus_t *xbus, struct xbus_ops *ops, ushort max_send_size, struct device *transport_device, void *priv) { BUG_ON(!xbus); BUG_ON(!ops); BUG_ON(!ops->xframe_send_pcm); BUG_ON(!ops->xframe_send_cmd); BUG_ON(!ops->alloc_xframe); BUG_ON(!ops->free_xframe); xbus->transport.ops = ops; xbus->transport.max_send_size = max_send_size; xbus->transport.transport_device = transport_device; xbus->transport.priv = priv; xbus->transport.xbus_state = XBUS_STATE_START; spin_lock_init(&xbus->transport.state_lock); spin_lock_init(&xbus->transport.lock); atomic_set(&xbus->transport.transport_refcount, 0); xbus_setflags(xbus, XBUS_FLAG_CONNECTED, 0); init_waitqueue_head(&xbus->transport.transport_unused); } static void transport_destroy(xbus_t *xbus) { int ret; BUG_ON(!xbus); XBUS_DBG(DEVICES, xbus, "Waiting... (transport_refcount=%d)\n", atomic_read(&xbus->transport.transport_refcount)); ret = wait_event_interruptible(xbus->transport.transport_unused, atomic_read(&xbus->transport. transport_refcount) == 0); if (ret) XBUS_ERR(xbus, "Waiting for transport_refcount interrupted!!!\n"); xbus->transport.ops = NULL; xbus->transport.priv = NULL; } struct xbus_ops *transportops_get(xbus_t *xbus) { struct xbus_ops *ops; BUG_ON(!xbus); atomic_inc(&xbus->transport.transport_refcount); ops = xbus->transport.ops; if (!ops) atomic_dec(&xbus->transport.transport_refcount); /* fall through */ return ops; } EXPORT_SYMBOL(transportops_get); void transportops_put(xbus_t *xbus) { struct xbus_ops *ops; BUG_ON(!xbus); ops = xbus->transport.ops; BUG_ON(!ops); if (atomic_dec_and_test(&xbus->transport.transport_refcount)) wake_up(&xbus->transport.transport_unused); } EXPORT_SYMBOL(transportops_put); /*------------------------- Initialization -------------------------*/ static void xbus_core_cleanup(void) { finalize_xbuses_array(); #ifdef CONFIG_PROC_FS if (proc_xbuses) { DBG(PROC, "Removing " PROC_XBUSES " from proc\n"); remove_proc_entry(PROC_XBUSES, xpp_proc_toplevel); proc_xbuses = NULL; } #endif } int __init xbus_core_init(void) { int ret = 0; if (dahdi_autoreg == 1) { NOTICE("WARNING: The dahdi_autoreg parameter is deprecated " \ "-- just set dahdi.auto_assign_spans=0\n"); } initialize_xbuses_array(); #ifdef PROTOCOL_DEBUG INFO("FEATURE: with PROTOCOL_DEBUG\n"); #endif #ifdef CONFIG_PROC_FS proc_xbuses = proc_create_data(PROC_XBUSES, 0444, xpp_proc_toplevel, &xpp_proc_read_ops, NULL); if (!proc_xbuses) { ERR("Failed to create proc file %s\n", PROC_XBUSES); ret = -EFAULT; goto err; } #endif if ((ret = xpp_driver_init()) < 0) goto err; return 0; err: xbus_core_cleanup(); return ret; } void xbus_core_shutdown(void) { xbus_core_cleanup(); xpp_driver_exit(); }