Commit 1619cb6f authored by Chris Kelly's avatar Chris Kelly Committed by Greg Kroah-Hartman

staging: ozwpan: Added basic L2 protocol support

Added the basic implementation of the L2 protocol support used to
communicate with devices over the network.
Signed-off-by: default avatarChris Kelly <ckelly@ozmodevices.com>
Signed-off-by: default avatarGreg Kroah-Hartman <gregkh@linuxfoundation.org>
parent 62450bca
/* -----------------------------------------------------------------------------
* Copyright (c) 2011 Ozmo Inc
* Released under the GNU General Public License Version 2 (GPLv2).
* -----------------------------------------------------------------------------
*/
#include <linux/init.h>
#include <linux/module.h>
#include <linux/timer.h>
#include <linux/sched.h>
#include <linux/netdevice.h>
#include <linux/errno.h>
#include <linux/ieee80211.h>
#include "ozconfig.h"
#include "ozprotocol.h"
#include "ozeltbuf.h"
#include "ozpd.h"
#include "ozproto.h"
#include "ozusbsvc.h"
#include "oztrace.h"
#include "ozappif.h"
#include "ozevent.h"
#include "ozalloc.h"
#include <asm/unaligned.h>
#include <linux/uaccess.h>
#include <net/psnap.h>
/*------------------------------------------------------------------------------
*/
#define OZ_CF_CONN_SUCCESS 1
#define OZ_CF_CONN_FAILURE 2
#define OZ_DO_STOP 1
#define OZ_DO_SLEEP 2
/* States of the timer.
*/
#define OZ_TIMER_IDLE 0
#define OZ_TIMER_SET 1
#define OZ_TIMER_IN_HANDLER 2
#define OZ_MAX_TIMER_POOL_SIZE 16
/*------------------------------------------------------------------------------
*/
struct oz_binding {
struct packet_type ptype;
char name[OZ_MAX_BINDING_LEN];
struct oz_binding *next;
};
struct oz_timer {
struct list_head link;
struct oz_pd *pd;
unsigned long due_time;
int type;
};
/*------------------------------------------------------------------------------
* Static external variables.
*/
static DEFINE_SPINLOCK(g_polling_lock);
static LIST_HEAD(g_pd_list);
static struct oz_binding *g_binding ;
static DEFINE_SPINLOCK(g_binding_lock);
static struct sk_buff_head g_rx_queue;
static u8 g_session_id;
static u16 g_apps = 0x1;
static int g_processing_rx;
static struct timer_list g_timer;
static struct oz_timer *g_cur_timer;
static struct list_head *g_timer_pool;
static int g_timer_pool_count;
static int g_timer_state = OZ_TIMER_IDLE;
static LIST_HEAD(g_timer_list);
/*------------------------------------------------------------------------------
*/
static void oz_protocol_timer_start(void);
/*------------------------------------------------------------------------------
* Context: softirq-serialized
*/
static u8 oz_get_new_session_id(u8 exclude)
{
if (++g_session_id == 0)
g_session_id = 1;
if (g_session_id == exclude) {
if (++g_session_id == 0)
g_session_id = 1;
}
return g_session_id;
}
/*------------------------------------------------------------------------------
* Context: softirq-serialized
*/
static void oz_send_conn_rsp(struct oz_pd *pd, u8 status)
{
struct sk_buff *skb;
struct net_device *dev = pd->net_dev;
struct oz_hdr *oz_hdr;
struct oz_elt *elt;
struct oz_elt_connect_rsp *body;
int sz = sizeof(struct oz_hdr) + sizeof(struct oz_elt) +
sizeof(struct oz_elt_connect_rsp);
skb = alloc_skb(sz + OZ_ALLOCATED_SPACE(dev), GFP_ATOMIC);
if (skb == 0)
return;
skb_reserve(skb, LL_RESERVED_SPACE(dev));
skb_reset_network_header(skb);
oz_hdr = (struct oz_hdr *)skb_put(skb, sz);
elt = (struct oz_elt *)(oz_hdr+1);
body = (struct oz_elt_connect_rsp *)(elt+1);
skb->dev = dev;
skb->protocol = htons(OZ_ETHERTYPE);
/* Fill in device header */
if (dev_hard_header(skb, dev, OZ_ETHERTYPE, pd->mac_addr,
dev->dev_addr, skb->len) < 0) {
kfree_skb(skb);
return;
}
oz_hdr->control = (OZ_PROTOCOL_VERSION<<OZ_VERSION_SHIFT);
oz_hdr->last_pkt_num = 0;
put_unaligned(0, &oz_hdr->pkt_num);
oz_event_log(OZ_EVT_CONNECT_RSP, 0, 0, 0, 0);
elt->type = OZ_ELT_CONNECT_RSP;
elt->length = sizeof(struct oz_elt_connect_rsp);
memset(body, 0, sizeof(struct oz_elt_connect_rsp));
body->status = status;
if (status == 0) {
body->mode = pd->mode;
body->session_id = pd->session_id;
put_unaligned(cpu_to_le16(pd->total_apps), &body->apps);
}
oz_trace("TX: OZ_ELT_CONNECT_RSP %d", status);
dev_queue_xmit(skb);
return;
}
/*------------------------------------------------------------------------------
* Context: softirq-serialized
*/
static void pd_set_keepalive(struct oz_pd *pd, u8 kalive)
{
unsigned long keep_alive = kalive & OZ_KALIVE_VALUE_MASK;
switch (kalive & OZ_KALIVE_TYPE_MASK) {
case OZ_KALIVE_SPECIAL:
pd->keep_alive_j =
oz_ms_to_jiffies(keep_alive * 1000*60*60*24*20);
break;
case OZ_KALIVE_SECS:
pd->keep_alive_j = oz_ms_to_jiffies(keep_alive*1000);
break;
case OZ_KALIVE_MINS:
pd->keep_alive_j = oz_ms_to_jiffies(keep_alive*1000*60);
break;
case OZ_KALIVE_HOURS:
pd->keep_alive_j = oz_ms_to_jiffies(keep_alive*1000*60*60);
break;
default:
pd->keep_alive_j = 0;
}
oz_trace("Keepalive = %lu jiffies\n", pd->keep_alive_j);
}
/*------------------------------------------------------------------------------
* Context: softirq-serialized
*/
static void pd_set_presleep(struct oz_pd *pd, u8 presleep)
{
if (presleep)
pd->presleep_j = oz_ms_to_jiffies(presleep*100);
else
pd->presleep_j = OZ_PRESLEEP_TOUT_J;
oz_trace("Presleep time = %lu jiffies\n", pd->presleep_j);
}
/*------------------------------------------------------------------------------
* Context: softirq-serialized
*/
static struct oz_pd *oz_connect_req(struct oz_pd *cur_pd, struct oz_elt *elt,
u8 *pd_addr, struct net_device *net_dev)
{
struct oz_pd *pd;
struct oz_elt_connect_req *body =
(struct oz_elt_connect_req *)(elt+1);
u8 rsp_status = OZ_STATUS_SUCCESS;
u8 stop_needed = 0;
u16 new_apps = g_apps;
struct net_device *old_net_dev = 0;
struct oz_pd *free_pd = 0;
if (cur_pd) {
pd = cur_pd;
spin_lock_bh(&g_polling_lock);
} else {
struct oz_pd *pd2 = 0;
struct list_head *e;
pd = oz_pd_alloc(pd_addr);
if (pd == 0)
return 0;
pd->last_rx_time_j = jiffies;
spin_lock_bh(&g_polling_lock);
list_for_each(e, &g_pd_list) {
pd2 = container_of(e, struct oz_pd, link);
if (memcmp(pd2->mac_addr, pd_addr, ETH_ALEN) == 0) {
free_pd = pd;
pd = pd2;
break;
}
}
if (pd != pd2)
list_add_tail(&pd->link, &g_pd_list);
}
if (pd == 0) {
spin_unlock_bh(&g_polling_lock);
return 0;
}
if (pd->net_dev != net_dev) {
old_net_dev = pd->net_dev;
dev_hold(net_dev);
pd->net_dev = net_dev;
}
oz_trace("Host vendor: %d\n", body->host_vendor);
pd->max_tx_size = OZ_MAX_TX_SIZE;
pd->mode = body->mode;
pd->pd_info = body->pd_info;
if (pd->mode & OZ_F_ISOC_NO_ELTS) {
pd->mode |= OZ_F_ISOC_ANYTIME;
pd->ms_per_isoc = body->ms_per_isoc;
if (!pd->ms_per_isoc)
pd->ms_per_isoc = 4;
}
if (body->max_len_div16)
pd->max_tx_size = ((u16)body->max_len_div16)<<4;
oz_trace("Max frame:%u Ms per isoc:%u\n",
pd->max_tx_size, pd->ms_per_isoc);
pd->max_stream_buffering = 3*1024;
pd->timeout_time_j = jiffies + OZ_CONNECTION_TOUT_J;
pd->pulse_period_j = OZ_QUANTUM_J;
pd_set_presleep(pd, body->presleep);
pd_set_keepalive(pd, body->keep_alive);
new_apps &= le16_to_cpu(get_unaligned(&body->apps));
if ((new_apps & 0x1) && (body->session_id)) {
if (pd->session_id) {
if (pd->session_id != body->session_id) {
rsp_status = OZ_STATUS_SESSION_MISMATCH;
goto done;
}
} else {
new_apps &= ~0x1; /* Resume not permitted */
pd->session_id =
oz_get_new_session_id(body->session_id);
}
} else {
if (pd->session_id && !body->session_id) {
rsp_status = OZ_STATUS_SESSION_TEARDOWN;
stop_needed = 1;
} else {
new_apps &= ~0x1; /* Resume not permitted */
pd->session_id =
oz_get_new_session_id(body->session_id);
}
}
done:
if (rsp_status == OZ_STATUS_SUCCESS) {
u16 start_apps = new_apps & ~pd->total_apps & ~0x1;
u16 stop_apps = pd->total_apps & ~new_apps & ~0x1;
u16 resume_apps = new_apps & pd->paused_apps & ~0x1;
spin_unlock_bh(&g_polling_lock);
oz_pd_set_state(pd, OZ_PD_S_CONNECTED);
oz_timer_delete(pd, OZ_TIMER_STOP);
oz_trace("new_apps=0x%x total_apps=0x%x paused_apps=0x%x\n",
new_apps, pd->total_apps, pd->paused_apps);
if (start_apps) {
if (oz_services_start(pd, start_apps, 0))
rsp_status = OZ_STATUS_TOO_MANY_PDS;
}
if (resume_apps)
if (oz_services_start(pd, resume_apps, 1))
rsp_status = OZ_STATUS_TOO_MANY_PDS;
if (stop_apps)
oz_services_stop(pd, stop_apps, 0);
oz_pd_request_heartbeat(pd);
} else {
spin_unlock_bh(&g_polling_lock);
}
oz_send_conn_rsp(pd, rsp_status);
if (rsp_status != OZ_STATUS_SUCCESS) {
if (stop_needed)
oz_pd_stop(pd);
oz_pd_put(pd);
pd = 0;
}
if (old_net_dev)
dev_put(old_net_dev);
if (free_pd)
oz_pd_destroy(free_pd);
return pd;
}
/*------------------------------------------------------------------------------
* Context: softirq-serialized
*/
static void oz_add_farewell(struct oz_pd *pd, u8 ep_num, u8 index,
u8 *report, u8 len)
{
struct oz_farewell *f;
struct oz_farewell *f2;
int found = 0;
f = oz_alloc(sizeof(struct oz_farewell) + len - 1, GFP_ATOMIC);
if (!f)
return;
f->ep_num = ep_num;
f->index = index;
memcpy(f->report, report, len);
oz_trace("RX: Adding farewell report\n");
spin_lock(&g_polling_lock);
list_for_each_entry(f2, &pd->farewell_list, link) {
if ((f2->ep_num == ep_num) && (f2->index == index)) {
found = 1;
list_del(&f2->link);
break;
}
}
list_add_tail(&f->link, &pd->farewell_list);
spin_unlock(&g_polling_lock);
if (found)
oz_free(f2);
}
/*------------------------------------------------------------------------------
* Context: softirq-serialized
*/
static void oz_rx_frame(struct sk_buff *skb)
{
u8 *mac_hdr;
u8 *src_addr;
struct oz_elt *elt;
int length;
struct oz_pd *pd = 0;
struct oz_hdr *oz_hdr = (struct oz_hdr *)skb_network_header(skb);
int dup = 0;
u32 pkt_num;
oz_event_log(OZ_EVT_RX_PROCESS, 0,
(((u16)oz_hdr->control)<<8)|oz_hdr->last_pkt_num,
0, oz_hdr->pkt_num);
oz_trace2(OZ_TRACE_RX_FRAMES,
"RX frame PN=0x%x LPN=0x%x control=0x%x\n",
oz_hdr->pkt_num, oz_hdr->last_pkt_num, oz_hdr->control);
mac_hdr = skb_mac_header(skb);
src_addr = &mac_hdr[ETH_ALEN] ;
length = skb->len;
/* Check the version field */
if (oz_get_prot_ver(oz_hdr->control) != OZ_PROTOCOL_VERSION) {
oz_trace("Incorrect protocol version: %d\n",
oz_get_prot_ver(oz_hdr->control));
goto done;
}
pkt_num = le32_to_cpu(get_unaligned(&oz_hdr->pkt_num));
pd = oz_pd_find(src_addr);
if (pd) {
pd->last_rx_time_j = jiffies;
oz_timer_add(pd, OZ_TIMER_TOUT,
pd->last_rx_time_j + pd->presleep_j, 1);
if (pkt_num != pd->last_rx_pkt_num) {
pd->last_rx_pkt_num = pkt_num;
} else {
dup = 1;
oz_trace("Duplicate frame\n");
}
}
if (pd && !dup && ((pd->mode & OZ_MODE_MASK) == OZ_MODE_TRIGGERED)) {
pd->last_sent_frame = &pd->tx_queue;
if (oz_hdr->control & OZ_F_ACK) {
/* Retire completed frames */
oz_retire_tx_frames(pd, oz_hdr->last_pkt_num);
}
if ((oz_hdr->control & OZ_F_ACK_REQUESTED) &&
(pd->state == OZ_PD_S_CONNECTED)) {
int backlog = pd->nb_queued_frames;
pd->trigger_pkt_num = pkt_num;
/* Send queued frames */
while (oz_prepare_frame(pd, 0) >= 0)
;
oz_send_queued_frames(pd, backlog);
}
}
length -= sizeof(struct oz_hdr);
elt = (struct oz_elt *)((u8 *)oz_hdr + sizeof(struct oz_hdr));
while (length >= sizeof(struct oz_elt)) {
length -= sizeof(struct oz_elt) + elt->length;
if (length < 0)
break;
switch (elt->type) {
case OZ_ELT_CONNECT_REQ:
oz_event_log(OZ_EVT_CONNECT_REQ, 0, 0, 0, 0);
oz_trace("RX: OZ_ELT_CONNECT_REQ\n");
pd = oz_connect_req(pd, elt, src_addr, skb->dev);
break;
case OZ_ELT_DISCONNECT:
oz_trace("RX: OZ_ELT_DISCONNECT\n");
if (pd)
oz_pd_sleep(pd);
break;
case OZ_ELT_UPDATE_PARAM_REQ: {
struct oz_elt_update_param *body =
(struct oz_elt_update_param *)(elt + 1);
oz_trace("RX: OZ_ELT_UPDATE_PARAM_REQ\n");
if (pd && (pd->state & OZ_PD_S_CONNECTED)) {
spin_lock(&g_polling_lock);
pd_set_keepalive(pd, body->keepalive);
pd_set_presleep(pd, body->presleep);
spin_unlock(&g_polling_lock);
}
}
break;
case OZ_ELT_FAREWELL_REQ: {
struct oz_elt_farewell *body =
(struct oz_elt_farewell *)(elt + 1);
oz_trace("RX: OZ_ELT_FAREWELL_REQ\n");
oz_add_farewell(pd, body->ep_num,
body->index, body->report,
elt->length + 1 - sizeof(*body));
}
break;
case OZ_ELT_APP_DATA:
if (pd && (pd->state & OZ_PD_S_CONNECTED)) {
struct oz_app_hdr *app_hdr =
(struct oz_app_hdr *)(elt+1);
if (dup)
break;
oz_handle_app_elt(pd, app_hdr->app_id, elt);
}
break;
default:
oz_trace("RX: Unknown elt %02x\n", elt->type);
}
elt = oz_next_elt(elt);
}
done:
if (pd)
oz_pd_put(pd);
consume_skb(skb);
}
/*------------------------------------------------------------------------------
* Context: process
*/
void oz_protocol_term(void)
{
struct list_head *chain = 0;
del_timer_sync(&g_timer);
/* Walk the list of bindings and remove each one.
*/
spin_lock_bh(&g_binding_lock);
while (g_binding) {
struct oz_binding *b = g_binding;
g_binding = b->next;
spin_unlock_bh(&g_binding_lock);
dev_remove_pack(&b->ptype);
if (b->ptype.dev)
dev_put(b->ptype.dev);
oz_free(b);
spin_lock_bh(&g_binding_lock);
}
spin_unlock_bh(&g_binding_lock);
/* Walk the list of PDs and stop each one. This causes the PD to be
* removed from the list so we can just pull each one from the head
* of the list.
*/
spin_lock_bh(&g_polling_lock);
while (!list_empty(&g_pd_list)) {
struct oz_pd *pd =
list_first_entry(&g_pd_list, struct oz_pd, link);
oz_pd_get(pd);
spin_unlock_bh(&g_polling_lock);
oz_pd_stop(pd);
oz_pd_put(pd);
spin_lock_bh(&g_polling_lock);
}
chain = g_timer_pool;
g_timer_pool = 0;
spin_unlock_bh(&g_polling_lock);
while (chain) {
struct oz_timer *t = container_of(chain, struct oz_timer, link);
chain = chain->next;
oz_free(t);
}
oz_trace("Protocol stopped\n");
}
/*------------------------------------------------------------------------------
* Context: softirq
*/
static void oz_pd_handle_timer(struct oz_pd *pd, int type)
{
switch (type) {
case OZ_TIMER_TOUT:
oz_pd_sleep(pd);
break;
case OZ_TIMER_STOP:
oz_pd_stop(pd);
break;
case OZ_TIMER_HEARTBEAT: {
u16 apps = 0;
spin_lock_bh(&g_polling_lock);
pd->heartbeat_requested = 0;
if (pd->state & OZ_PD_S_CONNECTED)
apps = pd->total_apps;
spin_unlock_bh(&g_polling_lock);
if (apps)
oz_pd_heartbeat(pd, apps);
}
break;
}
}
/*------------------------------------------------------------------------------
* Context: softirq
*/
static void oz_protocol_timer(unsigned long arg)
{
struct oz_timer *t;
struct oz_timer *t2;
struct oz_pd *pd;
spin_lock_bh(&g_polling_lock);
if (!g_cur_timer) {
/* This happens if we remove the current timer but can't stop
* the timer from firing. In this case just get out.
*/
oz_event_log(OZ_EVT_TIMER, 0, 0, 0, 0);
spin_unlock_bh(&g_polling_lock);
return;
}
g_timer_state = OZ_TIMER_IN_HANDLER;
t = g_cur_timer;
g_cur_timer = 0;
list_del(&t->link);
spin_unlock_bh(&g_polling_lock);
do {
pd = t->pd;
oz_event_log(OZ_EVT_TIMER, 0, t->type, 0, 0);
oz_pd_handle_timer(pd, t->type);
spin_lock_bh(&g_polling_lock);
if (g_timer_pool_count < OZ_MAX_TIMER_POOL_SIZE) {
t->link.next = g_timer_pool;
g_timer_pool = &t->link;
g_timer_pool_count++;
t = 0;
}
if (!list_empty(&g_timer_list)) {
t2 = container_of(g_timer_list.next,
struct oz_timer, link);
if (time_before_eq(t2->due_time, jiffies))
list_del(&t2->link);
else
t2 = 0;
} else {
t2 = 0;
}
spin_unlock_bh(&g_polling_lock);
oz_pd_put(pd);
if (t)
oz_free(t);
t = t2;
} while (t);
g_timer_state = OZ_TIMER_IDLE;
oz_protocol_timer_start();
}
/*------------------------------------------------------------------------------
* Context: softirq
*/
static void oz_protocol_timer_start(void)
{
spin_lock_bh(&g_polling_lock);
if (!list_empty(&g_timer_list)) {
g_cur_timer =
container_of(g_timer_list.next, struct oz_timer, link);
if (g_timer_state == OZ_TIMER_SET) {
oz_event_log(OZ_EVT_TIMER_CTRL, 3,
(u16)g_cur_timer->type, 0,
(unsigned)g_cur_timer->due_time);
mod_timer(&g_timer, g_cur_timer->due_time);
} else {
oz_event_log(OZ_EVT_TIMER_CTRL, 4,
(u16)g_cur_timer->type, 0,
(unsigned)g_cur_timer->due_time);
g_timer.expires = g_cur_timer->due_time;
g_timer.function = oz_protocol_timer;
g_timer.data = 0;
add_timer(&g_timer);
}
g_timer_state = OZ_TIMER_SET;
} else {
oz_trace("No queued timers\n");
}
spin_unlock_bh(&g_polling_lock);
}
/*------------------------------------------------------------------------------
* Context: softirq or process
*/
void oz_timer_add(struct oz_pd *pd, int type, unsigned long due_time,
int remove)
{
struct list_head *e;
struct oz_timer *t = 0;
int restart_needed = 0;
oz_event_log(OZ_EVT_TIMER_CTRL, 1, (u16)type, 0, (unsigned)due_time);
spin_lock(&g_polling_lock);
if (remove) {
list_for_each(e, &g_timer_list) {
t = container_of(e, struct oz_timer, link);
if ((t->pd == pd) && (t->type == type)) {
if (g_cur_timer == t) {
restart_needed = 1;
g_cur_timer = 0;
}
list_del(e);
break;
}
t = 0;
}
}
if (!t) {
if (g_timer_pool) {
t = container_of(g_timer_pool, struct oz_timer, link);
g_timer_pool = g_timer_pool->next;
g_timer_pool_count--;
} else {
t = oz_alloc(sizeof(struct oz_timer), GFP_ATOMIC);
}
if (t) {
t->pd = pd;
t->type = type;
oz_pd_get(pd);
}
}
if (t) {
struct oz_timer *t2;
t->due_time = due_time;
list_for_each(e, &g_timer_list) {
t2 = container_of(e, struct oz_timer, link);
if (time_before(due_time, t2->due_time)) {
if (t2 == g_cur_timer) {
g_cur_timer = 0;
restart_needed = 1;
}
break;
}
}
list_add_tail(&t->link, e);
}
if (g_timer_state == OZ_TIMER_IDLE)
restart_needed = 1;
else if (g_timer_state == OZ_TIMER_IN_HANDLER)
restart_needed = 0;
spin_unlock(&g_polling_lock);
if (restart_needed)
oz_protocol_timer_start();
}
/*------------------------------------------------------------------------------
* Context: softirq or process
*/
void oz_timer_delete(struct oz_pd *pd, int type)
{
struct list_head *chain = 0;
struct oz_timer *t;
struct oz_timer *n;
int restart_needed = 0;
int release = 0;
oz_event_log(OZ_EVT_TIMER_CTRL, 2, (u16)type, 0, 0);
spin_lock(&g_polling_lock);
list_for_each_entry_safe(t, n, &g_timer_list, link) {
if ((t->pd == pd) && ((type == 0) || (t->type == type))) {
if (g_cur_timer == t) {
restart_needed = 1;
g_cur_timer = 0;
del_timer(&g_timer);
}
list_del(&t->link);
release++;
if (g_timer_pool_count < OZ_MAX_TIMER_POOL_SIZE) {
t->link.next = g_timer_pool;
g_timer_pool = &t->link;
g_timer_pool_count++;
} else {
t->link.next = chain;
chain = &t->link;
}
if (type)
break;
}
}
if (g_timer_state == OZ_TIMER_IN_HANDLER)
restart_needed = 0;
else if (restart_needed)
g_timer_state = OZ_TIMER_IDLE;
spin_unlock(&g_polling_lock);
if (restart_needed)
oz_protocol_timer_start();
while (release--)
oz_pd_put(pd);
while (chain) {
t = container_of(chain, struct oz_timer, link);
chain = chain->next;
oz_free(t);
}
}
/*------------------------------------------------------------------------------
* Context: softirq or process
*/
void oz_pd_request_heartbeat(struct oz_pd *pd)
{
unsigned long now = jiffies;
unsigned long t;
spin_lock(&g_polling_lock);
if (pd->heartbeat_requested) {
spin_unlock(&g_polling_lock);
return;
}
if (pd->pulse_period_j)
t = ((now / pd->pulse_period_j) + 1) * pd->pulse_period_j;
else
t = now + 1;
pd->heartbeat_requested = 1;
spin_unlock(&g_polling_lock);
oz_timer_add(pd, OZ_TIMER_HEARTBEAT, t, 0);
}
/*------------------------------------------------------------------------------
* Context: softirq or process
*/
struct oz_pd *oz_pd_find(u8 *mac_addr)
{
struct oz_pd *pd;
struct list_head *e;
spin_lock_bh(&g_polling_lock);
list_for_each(e, &g_pd_list) {
pd = container_of(e, struct oz_pd, link);
if (memcmp(pd->mac_addr, mac_addr, ETH_ALEN) == 0) {
atomic_inc(&pd->ref_count);
spin_unlock_bh(&g_polling_lock);
return pd;
}
}
spin_unlock_bh(&g_polling_lock);
return 0;
}
/*------------------------------------------------------------------------------
* Context: process
*/
void oz_app_enable(int app_id, int enable)
{
if (app_id <= OZ_APPID_MAX) {
spin_lock_bh(&g_polling_lock);
if (enable)
g_apps |= (1<<app_id);
else
g_apps &= ~(1<<app_id);
spin_unlock_bh(&g_polling_lock);
}
}
/*------------------------------------------------------------------------------
* Context: softirq
*/
static int oz_pkt_recv(struct sk_buff *skb, struct net_device *dev,
struct packet_type *pt, struct net_device *orig_dev)
{
oz_event_log(OZ_EVT_RX_FRAME, 0, 0, 0, 0);
skb = skb_share_check(skb, GFP_ATOMIC);
if (skb == 0)
return 0;
spin_lock_bh(&g_rx_queue.lock);
if (g_processing_rx) {
/* We already hold the lock so use __ variant.
*/
__skb_queue_head(&g_rx_queue, skb);
spin_unlock_bh(&g_rx_queue.lock);
} else {
g_processing_rx = 1;
do {
spin_unlock_bh(&g_rx_queue.lock);
oz_rx_frame(skb);
spin_lock_bh(&g_rx_queue.lock);
if (skb_queue_empty(&g_rx_queue)) {
g_processing_rx = 0;
spin_unlock_bh(&g_rx_queue.lock);
break;
}
/* We already hold the lock so use __ variant.
*/
skb = __skb_dequeue(&g_rx_queue);
} while (1);
}
return 0;
}
/*------------------------------------------------------------------------------
* Context: process
*/
void oz_binding_add(char *net_dev)
{
struct oz_binding *binding;
binding = oz_alloc(sizeof(struct oz_binding), GFP_ATOMIC);
if (binding) {
binding->ptype.type = __constant_htons(OZ_ETHERTYPE);
binding->ptype.func = oz_pkt_recv;
memcpy(binding->name, net_dev, OZ_MAX_BINDING_LEN);
if (net_dev && *net_dev) {
oz_trace("Adding binding: %s\n", net_dev);
binding->ptype.dev =
dev_get_by_name(&init_net, net_dev);
if (binding->ptype.dev == 0) {
oz_trace("Netdev %s not found\n", net_dev);
oz_free(binding);
binding = 0;
}
} else {
oz_trace("Binding to all netcards\n");
binding->ptype.dev = 0;
}
if (binding) {
dev_add_pack(&binding->ptype);
spin_lock_bh(&g_binding_lock);
binding->next = g_binding;
g_binding = binding;
spin_unlock_bh(&g_binding_lock);
}
}
}
/*------------------------------------------------------------------------------
* Context: process
*/
static int compare_binding_name(char *s1, char *s2)
{
int i;
for (i = 0; i < OZ_MAX_BINDING_LEN; i++) {
if (*s1 != *s2)
return 0;
if (!*s1++)
return 1;
s2++;
}
return 1;
}
/*------------------------------------------------------------------------------
* Context: process
*/
static void pd_stop_all_for_device(struct net_device *net_dev)
{
struct list_head h;
struct oz_pd *pd;
struct oz_pd *n;
INIT_LIST_HEAD(&h);
spin_lock_bh(&g_polling_lock);
list_for_each_entry_safe(pd, n, &g_pd_list, link) {
if (pd->net_dev == net_dev) {
list_move(&pd->link, &h);
oz_pd_get(pd);
}
}
spin_unlock_bh(&g_polling_lock);
while (!list_empty(&h)) {
pd = list_first_entry(&h, struct oz_pd, link);
oz_pd_stop(pd);
oz_pd_put(pd);
}
}
/*------------------------------------------------------------------------------
* Context: process
*/
void oz_binding_remove(char *net_dev)
{
struct oz_binding *binding = 0;
struct oz_binding **link;
oz_trace("Removing binding: %s\n", net_dev);
spin_lock_bh(&g_binding_lock);
binding = g_binding;
link = &g_binding;
while (binding) {
if (compare_binding_name(binding->name, net_dev)) {
oz_trace("Binding '%s' found\n", net_dev);
*link = binding->next;
break;
} else {
link = &binding;
binding = binding->next;
}
}
spin_unlock_bh(&g_binding_lock);
if (binding) {
dev_remove_pack(&binding->ptype);
if (binding->ptype.dev) {
dev_put(binding->ptype.dev);
pd_stop_all_for_device(binding->ptype.dev);
}
oz_free(binding);
}
}
/*------------------------------------------------------------------------------
* Context: process
*/
static char *oz_get_next_device_name(char *s, char *dname, int max_size)
{
while (*s == ',')
s++;
while (*s && (*s != ',') && max_size > 1) {
*dname++ = *s++;
max_size--;
}
*dname = 0;
return s;
}
/*------------------------------------------------------------------------------
* Context: process
*/
int oz_protocol_init(char *devs)
{
skb_queue_head_init(&g_rx_queue);
if (devs && (devs[0] == '*')) {
oz_binding_add(0);
} else {
char d[32];
while (*devs) {
devs = oz_get_next_device_name(devs, d, sizeof(d));
if (d[0])
oz_binding_add(d);
}
}
init_timer(&g_timer);
return 0;
}
/*------------------------------------------------------------------------------
* Context: process
*/
int oz_get_pd_list(struct oz_mac_addr *addr, int max_count)
{
struct oz_pd *pd;
struct list_head *e;
int count = 0;
spin_lock_bh(&g_polling_lock);
list_for_each(e, &g_pd_list) {
if (count >= max_count)
break;
pd = container_of(e, struct oz_pd, link);
memcpy(&addr[count++], pd->mac_addr, ETH_ALEN);
}
spin_unlock_bh(&g_polling_lock);
return count;
}
/*------------------------------------------------------------------------------
*/
void oz_polling_lock_bh(void)
{
spin_lock_bh(&g_polling_lock);
}
/*------------------------------------------------------------------------------
*/
void oz_polling_unlock_bh(void)
{
spin_unlock_bh(&g_polling_lock);
}
/* -----------------------------------------------------------------------------
* Copyright (c) 2011 Ozmo Inc
* Released under the GNU General Public License Version 2 (GPLv2).
* -----------------------------------------------------------------------------
*/
#ifndef _OZPROTO_H
#define _OZPROTO_H
#include <asm/byteorder.h>
#include "ozconfig.h"
#include "ozappif.h"
#define OZ_ALLOCATED_SPACE(__x) (LL_RESERVED_SPACE(__x)+(__x)->needed_tailroom)
/* Converts millisecs to jiffies.
*/
#define oz_ms_to_jiffies(__x) (((__x)*1000)/HZ)
/* Quantum milliseconds.
*/
#define OZ_QUANTUM_MS 8
/* Quantum jiffies
*/
#define OZ_QUANTUM_J (oz_ms_to_jiffies(OZ_QUANTUM_MS))
/* Default timeouts.
*/
#define OZ_CONNECTION_TOUT_J (2*HZ)
#define OZ_PRESLEEP_TOUT_J (11*HZ)
/* Maximun sizes of tx frames. */
#define OZ_MAX_TX_SIZE 1514
/* Application handler functions.
*/
typedef int (*oz_app_init_fn_t)(void);
typedef void (*oz_app_term_fn_t)(void);
typedef int (*oz_app_start_fn_t)(struct oz_pd *pd, int resume);
typedef void (*oz_app_stop_fn_t)(struct oz_pd *pd, int pause);
typedef void (*oz_app_rx_fn_t)(struct oz_pd *pd, struct oz_elt *elt);
typedef int (*oz_app_hearbeat_fn_t)(struct oz_pd *pd);
typedef void (*oz_app_farewell_fn_t)(struct oz_pd *pd, u8 ep_num,
u8 *data, u8 len);
struct oz_app_if {
oz_app_init_fn_t init;
oz_app_term_fn_t term;
oz_app_start_fn_t start;
oz_app_stop_fn_t stop;
oz_app_rx_fn_t rx;
oz_app_hearbeat_fn_t heartbeat;
oz_app_farewell_fn_t farewell;
int app_id;
};
int oz_protocol_init(char *devs);
void oz_protocol_term(void);
int oz_get_pd_list(struct oz_mac_addr *addr, int max_count);
void oz_app_enable(int app_id, int enable);
struct oz_pd *oz_pd_find(u8 *mac_addr);
void oz_binding_add(char *net_dev);
void oz_binding_remove(char *net_dev);
void oz_timer_add(struct oz_pd *pd, int type, unsigned long due_time,
int remove);
void oz_timer_delete(struct oz_pd *pd, int type);
void oz_pd_request_heartbeat(struct oz_pd *pd);
void oz_polling_lock_bh(void);
void oz_polling_unlock_bh(void);
#endif /* _OZPROTO_H */
/* -----------------------------------------------------------------------------
* Copyright (c) 2011 Ozmo Inc
* Released under the GNU General Public License Version 2 (GPLv2).
* -----------------------------------------------------------------------------
*/
#ifndef _OZPROTOCOL_H
#define _OZPROTOCOL_H
#define PACKED __packed
#define OZ_ETHERTYPE 0x892e
/* Status codes
*/
#define OZ_STATUS_SUCCESS 0
#define OZ_STATUS_INVALID_PARAM 1
#define OZ_STATUS_TOO_MANY_PDS 2
#define OZ_STATUS_NOT_ALLOWED 4
#define OZ_STATUS_SESSION_MISMATCH 5
#define OZ_STATUS_SESSION_TEARDOWN 6
/* This is the generic element header.
Every element starts with this.
*/
struct oz_elt {
u8 type;
u8 length;
} PACKED;
#define oz_next_elt(__elt) \
(struct oz_elt *)((u8 *)((__elt) + 1) + (__elt)->length)
/* Protocol element IDs.
*/
#define OZ_ELT_CONNECT_REQ 0x06
#define OZ_ELT_CONNECT_RSP 0x07
#define OZ_ELT_DISCONNECT 0x08
#define OZ_ELT_UPDATE_PARAM_REQ 0x11
#define OZ_ELT_FAREWELL_REQ 0x12
#define OZ_ELT_APP_DATA 0x31
/* This is the Ozmo header which is the first Ozmo specific part
* of a frame and comes after the MAC header.
*/
struct oz_hdr {
u8 control;
u8 last_pkt_num;
u32 pkt_num;
} PACKED;
#define OZ_PROTOCOL_VERSION 0x1
/* Bits in the control field. */
#define OZ_VERSION_MASK 0xc
#define OZ_VERSION_SHIFT 2
#define OZ_F_ACK 0x10
#define OZ_F_ISOC 0x20
#define OZ_F_MORE_DATA 0x40
#define OZ_F_ACK_REQUESTED 0x80
#define oz_get_prot_ver(__x) (((__x) & OZ_VERSION_MASK) >> OZ_VERSION_SHIFT)
/* Used to select the bits of packet number to put in the last_pkt_num.
*/
#define OZ_LAST_PN_MASK 0x00ff
#define OZ_LAST_PN_HALF_CYCLE 127
/* Connect request data structure.
*/
struct oz_elt_connect_req {
u8 mode;
u8 resv1[16];
u8 pd_info;
u8 session_id;
u8 presleep;
u8 resv2;
u8 host_vendor;
u8 keep_alive;
u16 apps;
u8 max_len_div16;
u8 ms_per_isoc;
u8 resv3[2];
} PACKED;
/* mode field bits.
*/
#define OZ_MODE_POLLED 0x0
#define OZ_MODE_TRIGGERED 0x1
#define OZ_MODE_MASK 0xf
#define OZ_F_ISOC_NO_ELTS 0x40
#define OZ_F_ISOC_ANYTIME 0x80
/* Keep alive field.
*/
#define OZ_KALIVE_TYPE_MASK 0xc0
#define OZ_KALIVE_VALUE_MASK 0x3f
#define OZ_KALIVE_SPECIAL 0x00
#define OZ_KALIVE_SECS 0x40
#define OZ_KALIVE_MINS 0x80
#define OZ_KALIVE_HOURS 0xc0
/* Connect response data structure.
*/
struct oz_elt_connect_rsp {
u8 mode;
u8 status;
u8 resv1[3];
u8 session_id;
u16 apps;
u32 resv2;
} PACKED;
struct oz_elt_farewell {
u8 ep_num;
u8 index;
u8 report[1];
} PACKED;
struct oz_elt_update_param {
u8 resv1[16];
u8 presleep;
u8 resv2;
u8 host_vendor;
u8 keepalive;
} PACKED;
/* Header common to all application elements.
*/
struct oz_app_hdr {
u8 app_id;
u8 elt_seq_num;
} PACKED;
/* Values for app_id.
*/
#define OZ_APPID_USB 0x1
#define OZ_APPID_UNUSED1 0x2
#define OZ_APPID_UNUSED2 0x3
#define OZ_APPID_SERIAL 0x4
#define OZ_APPID_MAX OZ_APPID_SERIAL
#define OZ_NB_APPS (OZ_APPID_MAX+1)
/* USB header common to all elements for the USB application.
* This header extends the oz_app_hdr and comes directly after
* the element header in a USB application.
*/
struct oz_usb_hdr {
u8 app_id;
u8 elt_seq_num;
u8 type;
} PACKED;
/* USB requests element subtypes (type field of hs_usb_hdr).
*/
#define OZ_GET_DESC_REQ 1
#define OZ_GET_DESC_RSP 2
#define OZ_SET_CONFIG_REQ 3
#define OZ_SET_CONFIG_RSP 4
#define OZ_SET_INTERFACE_REQ 5
#define OZ_SET_INTERFACE_RSP 6
#define OZ_VENDOR_CLASS_REQ 7
#define OZ_VENDOR_CLASS_RSP 8
#define OZ_GET_STATUS_REQ 9
#define OZ_GET_STATUS_RSP 10
#define OZ_CLEAR_FEATURE_REQ 11
#define OZ_CLEAR_FEATURE_RSP 12
#define OZ_SET_FEATURE_REQ 13
#define OZ_SET_FEATURE_RSP 14
#define OZ_GET_CONFIGURATION_REQ 15
#define OZ_GET_CONFIGURATION_RSP 16
#define OZ_GET_INTERFACE_REQ 17
#define OZ_GET_INTERFACE_RSP 18
#define OZ_SYNCH_FRAME_REQ 19
#define OZ_SYNCH_FRAME_RSP 20
#define OZ_USB_ENDPOINT_DATA 23
#define OZ_REQD_D2H 0x80
struct oz_get_desc_req {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u16 offset;
u16 size;
u8 req_type;
u8 desc_type;
u16 w_index;
u8 index;
} PACKED;
/* Values for desc_type field.
*/
#define OZ_DESC_DEVICE 0x01
#define OZ_DESC_CONFIG 0x02
#define OZ_DESC_STRING 0x03
/* Values for req_type field.
*/
#define OZ_RECP_MASK 0x1F
#define OZ_RECP_DEVICE 0x00
#define OZ_RECP_INTERFACE 0x01
#define OZ_RECP_ENDPOINT 0x02
#define OZ_REQT_MASK 0x60
#define OZ_REQT_STD 0x00
#define OZ_REQT_CLASS 0x20
#define OZ_REQT_VENDOR 0x40
struct oz_get_desc_rsp {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u16 offset;
u16 total_size;
u8 rcode;
u8 data[1];
} PACKED;
struct oz_feature_req {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 recipient;
u8 index;
u16 feature;
} PACKED;
struct oz_feature_rsp {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 rcode;
} PACKED;
struct oz_set_config_req {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 index;
} PACKED;
struct oz_set_config_rsp {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 rcode;
} PACKED;
struct oz_set_interface_req {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 index;
u8 alternative;
} PACKED;
struct oz_set_interface_rsp {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 rcode;
} PACKED;
struct oz_get_interface_req {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 index;
} PACKED;
struct oz_get_interface_rsp {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 rcode;
u8 alternative;
} PACKED;
struct oz_vendor_class_req {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 req_type;
u8 request;
u16 value;
u16 index;
u8 data[1];
} PACKED;
struct oz_vendor_class_rsp {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 req_id;
u8 rcode;
u8 data[1];
} PACKED;
struct oz_data {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 endpoint;
u8 format;
} PACKED;
struct oz_isoc_fixed {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 endpoint;
u8 format;
u8 unit_size;
u8 frame_number;
u8 data[1];
} PACKED;
struct oz_multiple_fixed {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 endpoint;
u8 format;
u8 unit_size;
u8 data[1];
} PACKED;
struct oz_fragmented {
u8 app_id;
u8 elt_seq_num;
u8 type;
u8 endpoint;
u8 format;
u16 total_size;
u16 offset;
u8 data[1];
} PACKED;
/* Note: the following does not get packaged in an element in the same way
* that other data formats are packaged. Instead the data is put in a frame
* directly after the oz_header and is the only permitted data in such a
* frame. The length of the data is directly determined from the frame size.
*/
struct oz_isoc_large {
u8 endpoint;
u8 format;
u8 ms_data;
u8 frame_number;
} PACKED;
#define OZ_DATA_F_TYPE_MASK 0xF
#define OZ_DATA_F_MULTIPLE_FIXED 0x1
#define OZ_DATA_F_MULTIPLE_VAR 0x2
#define OZ_DATA_F_ISOC_FIXED 0x3
#define OZ_DATA_F_ISOC_VAR 0x4
#define OZ_DATA_F_FRAGMENTED 0x5
#define OZ_DATA_F_ISOC_LARGE 0x7
#endif /* _OZPROTOCOL_H */
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