blob: 698191fa44441c7bbe3f9368099b3e9ca2deef2f [file] [log] [blame]
/******************************************************************************
*
* Copyright (C) 2009-2012 Broadcom Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
/************************************************************************************
*
* Filename: btif_sock_rfc.c
*
* Description: Handsfree Profile Bluetooth Interface
*
***********************************************************************************/
#include <assert.h>
#include <hardware/bluetooth.h>
#include <hardware/bt_sock.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <errno.h>
#include <sys/ioctl.h>
#define LOG_TAG "BTIF_SOCK"
#include "btif_common.h"
#include "btif_util.h"
#include "bd.h"
#include "bta_api.h"
#include "btif_sock_thread.h"
#include "btif_sock_sdp.h"
#include "btif_sock_util.h"
#include "bt_target.h"
#include "gki.h"
#include "hcimsgs.h"
#include "sdp_api.h"
#include "btu.h"
#include "btm_api.h"
#include "btm_int.h"
#include "bta_jv_api.h"
#include "bta_jv_co.h"
#include "port_api.h"
#include "list.h"
#include <cutils/log.h>
#include <hardware/bluetooth.h>
#define asrt(s) if(!(s)) APPL_TRACE_ERROR("## %s assert %s failed at line:%d ##",__FUNCTION__, #s, __LINE__)
extern void uuid_to_string(bt_uuid_t *p_uuid, char *str);
static inline void logu(const char* title, const uint8_t * p_uuid)
{
char uuids[128];
uuid_to_string((bt_uuid_t*)p_uuid, uuids);
ALOGD("%s: %s", title, uuids);
}
#define MAX_RFC_CHANNEL 30
#define MAX_RFC_SESSION BTA_JV_MAX_RFC_SR_SESSION //3 by default
typedef struct {
int outgoing_congest : 1;
int pending_sdp_request : 1;
int doing_sdp_request : 1;
int server : 1;
int connected : 1;
int closing : 1;
} flags_t;
typedef struct {
flags_t f;
uint32_t id;
int security;
int scn;
bt_bdaddr_t addr;
uint8_t service_uuid[16];
char service_name[256];
int fd, app_fd;
int mtu;
uint8_t* packet;
int sdp_handle;
int rfc_handle;
int rfc_port_handle;
int role;
list_t *incoming_queue;
} rfc_slot_t;
static rfc_slot_t rfc_slots[MAX_RFC_CHANNEL];
static uint32_t rfc_slot_id;
static volatile int pth = -1; //poll thread handle
static void jv_dm_cback(tBTA_JV_EVT event, tBTA_JV *p_data, void *user_data);
static void cleanup_rfc_slot(rfc_slot_t* rs);
static void *rfcomm_cback(tBTA_JV_EVT event, tBTA_JV *p_data, void *user_data);
static inline BOOLEAN send_app_scn(rfc_slot_t* rs);
static pthread_mutex_t slot_lock;
#define is_init_done() (pth != -1)
static inline void clear_slot_flag(flags_t* f)
{
memset(f, 0, sizeof(*f));
}
static inline void bd_copy(UINT8* dest, UINT8* src, BOOLEAN swap)
{
if (swap)
{
int i;
for (i =0; i < 6 ;i++)
dest[i]= src[5-i];
}
else memcpy(dest, src, 6);
}
static void init_rfc_slots()
{
int i;
memset(rfc_slots, 0, sizeof(rfc_slot_t)*MAX_RFC_CHANNEL);
for(i = 0; i < MAX_RFC_CHANNEL; i++)
{
rfc_slots[i].scn = -1;
rfc_slots[i].sdp_handle = 0;
rfc_slots[i].fd = rfc_slots[i].app_fd = -1;
rfc_slots[i].incoming_queue = list_new(GKI_freebuf);
assert(rfc_slots[i].incoming_queue != NULL);
}
BTA_JvEnable(jv_dm_cback);
init_slot_lock(&slot_lock);
}
bt_status_t btsock_rfc_init(int poll_thread_handle)
{
pth = poll_thread_handle;
init_rfc_slots();
return BT_STATUS_SUCCESS;
}
void btsock_rfc_cleanup()
{
int curr_pth = pth;
pth = -1;
btsock_thread_exit(curr_pth);
lock_slot(&slot_lock);
int i;
for(i = 0; i < MAX_RFC_CHANNEL; i++)
{
if(rfc_slots[i].id) {
cleanup_rfc_slot(&rfc_slots[i]);
list_free(rfc_slots[i].incoming_queue);
}
}
unlock_slot(&slot_lock);
}
static inline rfc_slot_t* find_free_slot()
{
int i;
for(i = 0; i < MAX_RFC_CHANNEL; i++)
{
if(rfc_slots[i].fd == -1)
{
return &rfc_slots[i];
}
}
return NULL;
}
static inline rfc_slot_t* find_rfc_slot_by_id(uint32_t id)
{
int i;
if(id)
{
for(i = 0; i < MAX_RFC_CHANNEL; i++)
{
if(rfc_slots[i].id == id)
{
return &rfc_slots[i];
}
}
}
APPL_TRACE_WARNING("invalid rfc slot id: %d", id);
return NULL;
}
static inline rfc_slot_t* find_rfc_slot_by_pending_sdp()
{
uint32_t min_id = (uint32_t)-1;
int slot = -1;
int i;
for(i = 0; i < MAX_RFC_CHANNEL; i++)
{
if(rfc_slots[i].id && rfc_slots[i].f.pending_sdp_request)
{
if(rfc_slots[i].id < min_id)
{
min_id = rfc_slots[i].id;
slot = i;
}
}
}
if(0<= slot && slot < MAX_RFC_CHANNEL)
return &rfc_slots[slot];
return NULL;
}
static inline rfc_slot_t* find_rfc_slot_requesting_sdp()
{
int i;
for(i = 0; i < MAX_RFC_CHANNEL; i++)
{
if(rfc_slots[i].id && rfc_slots[i].f.doing_sdp_request)
return &rfc_slots[i];
}
APPL_TRACE_DEBUG("can not find any slot is requesting sdp");
return NULL;
}
static inline rfc_slot_t* find_rfc_slot_by_fd(int fd)
{
int i;
if(fd >= 0)
{
for(i = 0; i < MAX_RFC_CHANNEL; i++)
{
if(rfc_slots[i].fd == fd)
{
if(rfc_slots[i].id)
return &rfc_slots[i];
else
{
APPL_TRACE_ERROR("invalid rfc slot id, cannot be 0");
break;
}
}
}
}
return NULL;
}
static rfc_slot_t* alloc_rfc_slot(const bt_bdaddr_t *addr, const char* name, const uint8_t* uuid, int channel, int flags, BOOLEAN server)
{
int security = 0;
if(flags & BTSOCK_FLAG_ENCRYPT)
security |= server ? BTM_SEC_IN_ENCRYPT : BTM_SEC_OUT_ENCRYPT;
if(flags & BTSOCK_FLAG_AUTH)
security |= server ? BTM_SEC_IN_AUTHENTICATE : BTM_SEC_OUT_AUTHENTICATE;
rfc_slot_t* rs = find_free_slot();
if(rs)
{
int fds[2] = {-1, -1};
if(socketpair(AF_LOCAL, SOCK_STREAM, 0, fds))
{
APPL_TRACE_ERROR("socketpair failed, errno:%d", errno);
return NULL;
}
rs->fd = fds[0];
rs->app_fd = fds[1];
rs->security = security;
rs->scn = channel;
if(uuid)
memcpy(rs->service_uuid, uuid, sizeof(rs->service_uuid));
else memset(rs->service_uuid, 0, sizeof(rs->service_uuid));
if(name && *name)
strncpy(rs->service_name, name, sizeof(rs->service_name) -1);
if(addr)
rs->addr = *addr;
++rfc_slot_id;
if(rfc_slot_id == 0)
rfc_slot_id = 1; //skip 0 when wrapped
rs->id = rfc_slot_id;
rs->f.server = server;
}
return rs;
}
// rfc_slot_t* accept_rs = create_srv_accept_rfc_slot(srv_rs, p_open->rem_bda,p_opne->handle, p_open->new_listen_handle);
static inline rfc_slot_t* create_srv_accept_rfc_slot(rfc_slot_t* srv_rs, const bt_bdaddr_t* addr,
int open_handle, int new_listen_handle)
{
rfc_slot_t *accept_rs = alloc_rfc_slot(addr, srv_rs->service_name, srv_rs->service_uuid, srv_rs->scn, 0, FALSE);
clear_slot_flag(&accept_rs->f);
accept_rs->f.server = FALSE;
accept_rs->f.connected = TRUE;
accept_rs->security = srv_rs->security;
accept_rs->mtu = srv_rs->mtu;
accept_rs->role = srv_rs->role;
accept_rs->rfc_handle = open_handle;
accept_rs->rfc_port_handle = BTA_JvRfcommGetPortHdl(open_handle);
//now update listen rfc_handle of server slot
srv_rs->rfc_handle = new_listen_handle;
srv_rs->rfc_port_handle = BTA_JvRfcommGetPortHdl(new_listen_handle);
BTIF_TRACE_DEBUG("create_srv_accept__rfc_slot(open_handle: 0x%x, new_listen_handle:"
"0x%x) accept_rs->rfc_handle:0x%x, srv_rs_listen->rfc_handle:0x%x"
,open_handle, new_listen_handle, accept_rs->rfc_port_handle, srv_rs->rfc_port_handle);
asrt(accept_rs->rfc_port_handle != srv_rs->rfc_port_handle);
//now swap the slot id
uint32_t new_listen_id = accept_rs->id;
accept_rs->id = srv_rs->id;
srv_rs->id = new_listen_id;
return accept_rs;
}
bt_status_t btsock_rfc_listen(const char* service_name, const uint8_t* service_uuid, int channel,
int* sock_fd, int flags)
{
APPL_TRACE_DEBUG("btsock_rfc_listen, service_name:%s", service_name);
if(sock_fd == NULL || (service_uuid == NULL && (channel < 1 || channel > 30)))
{
APPL_TRACE_ERROR("invalid rfc channel:%d or sock_fd:%p, uuid:%p", channel, sock_fd, service_uuid);
return BT_STATUS_PARM_INVALID;
}
*sock_fd = -1;
if(!is_init_done())
return BT_STATUS_NOT_READY;
if(is_uuid_empty(service_uuid))
service_uuid = UUID_SPP; //use serial port profile to listen to specified channel
else
{
//Check the service_uuid. overwrite the channel # if reserved
int reserved_channel = get_reserved_rfc_channel(service_uuid);
if(reserved_channel > 0)
{
channel = reserved_channel;
}
}
int status = BT_STATUS_FAIL;
lock_slot(&slot_lock);
rfc_slot_t* rs = alloc_rfc_slot(NULL, service_name, service_uuid, channel, flags, TRUE);
if(rs)
{
APPL_TRACE_DEBUG("BTA_JvCreateRecordByUser:%s", service_name);
BTA_JvCreateRecordByUser((void *)rs->id);
*sock_fd = rs->app_fd;
rs->app_fd = -1; //the fd ownership is transferred to app
status = BT_STATUS_SUCCESS;
btsock_thread_add_fd(pth, rs->fd, BTSOCK_RFCOMM, SOCK_THREAD_FD_EXCEPTION, rs->id);
}
unlock_slot(&slot_lock);
return status;
}
bt_status_t btsock_rfc_connect(const bt_bdaddr_t *bd_addr, const uint8_t* service_uuid,
int channel, int* sock_fd, int flags)
{
if(sock_fd == NULL || (service_uuid == NULL && (channel < 1 || channel > 30)))
{
APPL_TRACE_ERROR("invalid rfc channel:%d or sock_fd:%p, uuid:%p", channel, sock_fd,
service_uuid);
return BT_STATUS_PARM_INVALID;
}
*sock_fd = -1;
if(!is_init_done())
return BT_STATUS_NOT_READY;
int status = BT_STATUS_FAIL;
lock_slot(&slot_lock);
rfc_slot_t* rs = alloc_rfc_slot(bd_addr, NULL, service_uuid, channel, flags, FALSE);
if(rs)
{
if(is_uuid_empty(service_uuid))
{
APPL_TRACE_DEBUG("connecting to rfcomm channel:%d without service discovery", channel);
if(BTA_JvRfcommConnect(rs->security, rs->role, rs->scn, rs->addr.address,
rfcomm_cback, (void*)rs->id) == BTA_JV_SUCCESS)
{
if(send_app_scn(rs))
{
btsock_thread_add_fd(pth, rs->fd, BTSOCK_RFCOMM,
SOCK_THREAD_FD_RD, rs->id);
*sock_fd = rs->app_fd;
rs->app_fd = -1; //the fd ownership is transferred to app
status = BT_STATUS_SUCCESS;
}
else cleanup_rfc_slot(rs);
}
else cleanup_rfc_slot(rs);
}
else
{
tSDP_UUID sdp_uuid;
sdp_uuid.len = 16;
memcpy(sdp_uuid.uu.uuid128, service_uuid, sizeof(sdp_uuid.uu.uuid128));
logu("service_uuid", service_uuid);
*sock_fd = rs->app_fd;
rs->app_fd = -1; //the fd ownership is transferred to app
status = BT_STATUS_SUCCESS;
rfc_slot_t* rs_doing_sdp = find_rfc_slot_requesting_sdp();
if(rs_doing_sdp == NULL)
{
BTA_JvStartDiscovery((UINT8*)bd_addr->address, 1, &sdp_uuid, (void*)rs->id);
rs->f.pending_sdp_request = FALSE;
rs->f.doing_sdp_request = TRUE;
}
else
{
rs->f.pending_sdp_request = TRUE;
rs->f.doing_sdp_request = FALSE;
}
btsock_thread_add_fd(pth, rs->fd, BTSOCK_RFCOMM, SOCK_THREAD_FD_RD, rs->id);
}
}
unlock_slot(&slot_lock);
return status;
}
static int create_server_sdp_record(rfc_slot_t* rs)
{
int scn = rs->scn;
if(rs->scn > 0)
{
if(BTM_TryAllocateSCN(rs->scn) == FALSE)
{
APPL_TRACE_ERROR("rfc channel:%d already in use", scn);
return FALSE;
}
}
else if((rs->scn = BTM_AllocateSCN()) == 0)
{
APPL_TRACE_ERROR("run out of rfc channels");
return FALSE;
}
if((rs->sdp_handle = add_rfc_sdp_rec(rs->service_name, rs->service_uuid, rs->scn)) <= 0)
{
return FALSE;
}
return TRUE;
}
const char * jv_evt[] = {
"BTA_JV_ENABLE_EVT",
"BTA_JV_SET_DISCOVER_EVT",
"BTA_JV_LOCAL_ADDR_EVT",
"BTA_JV_LOCAL_NAME_EVT",
"BTA_JV_REMOTE_NAME_EVT",
"BTA_JV_SET_ENCRYPTION_EVT",
"BTA_JV_GET_SCN_EVT",
"BTA_JV_GET_PSM_EVT",
"BTA_JV_DISCOVERY_COMP_EVT",
"BTA_JV_SERVICES_LEN_EVT",
"BTA_JV_SERVICE_SEL_EVT",
"BTA_JV_CREATE_RECORD_EVT",
"BTA_JV_UPDATE_RECORD_EVT",
"BTA_JV_ADD_ATTR_EVT",
"BTA_JV_DELETE_ATTR_EVT",
"BTA_JV_CANCEL_DISCVRY_EVT",
"BTA_JV_L2CAP_OPEN_EVT",
"BTA_JV_L2CAP_CLOSE_EVT",
"BTA_JV_L2CAP_START_EVT",
"BTA_JV_L2CAP_CL_INIT_EVT",
"BTA_JV_L2CAP_DATA_IND_EVT",
"BTA_JV_L2CAP_CONG_EVT",
"BTA_JV_L2CAP_READ_EVT",
"BTA_JV_L2CAP_RECEIVE_EVT",
"BTA_JV_L2CAP_WRITE_EVT",
"BTA_JV_RFCOMM_OPEN_EVT",
"BTA_JV_RFCOMM_CLOSE_EVT",
"BTA_JV_RFCOMM_START_EVT",
"BTA_JV_RFCOMM_CL_INIT_EVT",
"BTA_JV_RFCOMM_DATA_IND_EVT",
"BTA_JV_RFCOMM_CONG_EVT",
"BTA_JV_RFCOMM_READ_EVT",
"BTA_JV_RFCOMM_WRITE_EVT",
"BTA_JV_RFCOMM_SRV_OPEN_EVT", // 33 /* open status of Server RFCOMM connection */
"BTA_JV_MAX_EVT"
};
static inline void free_rfc_slot_scn(rfc_slot_t* rs)
{
if(rs->scn > 0)
{
if(rs->f.server && !rs->f.closing && rs->rfc_handle)
{
BTA_JvRfcommStopServer(rs->rfc_handle, (void*)rs->id);
rs->rfc_handle = 0;
}
if(rs->f.server)
BTM_FreeSCN(rs->scn);
rs->scn = 0;
}
}
static void cleanup_rfc_slot(rfc_slot_t* rs)
{
APPL_TRACE_DEBUG("cleanup slot:%d, fd:%d, scn:%d, sdp_handle:0x%x", rs->id, rs->fd, rs->scn, rs->sdp_handle);
if(rs->fd != -1)
{
shutdown(rs->fd, 2);
close(rs->fd);
rs->fd = -1;
}
if(rs->app_fd != -1)
{
close(rs->app_fd);
rs->app_fd = -1;
}
if(rs->sdp_handle > 0)
{
del_rfc_sdp_rec(rs->sdp_handle);
rs->sdp_handle = 0;
}
if(rs->rfc_handle && !rs->f.closing && !rs->f.server)
{
APPL_TRACE_DEBUG("closing rfcomm connection, rfc_handle:0x%x", rs->rfc_handle);
BTA_JvRfcommClose(rs->rfc_handle, (void*)rs->id);
rs->rfc_handle = 0;
}
free_rfc_slot_scn(rs);
list_clear(rs->incoming_queue);
rs->rfc_port_handle = 0;
//cleanup the flag
memset(&rs->f, 0, sizeof(rs->f));
rs->id = 0;
}
static inline BOOLEAN send_app_scn(rfc_slot_t* rs)
{
if(sock_send_all(rs->fd, (const uint8_t*)&rs->scn, sizeof(rs->scn)) == sizeof(rs->scn))
{
return TRUE;
}
return FALSE;
}
static BOOLEAN send_app_connect_signal(int fd, const bt_bdaddr_t* addr, int channel, int status, int send_fd)
{
/*
typedef struct {
short size;
bt_bdaddr_t bd_addr;
int channel;
int status;
} __attribute__((packed)) sock_connect_signal_t;
*/
sock_connect_signal_t cs;
cs.size = sizeof(cs);
cs.bd_addr = *addr;
cs.channel = channel;
cs.status = status;
if(send_fd != -1)
{
if(sock_send_fd(fd, (const uint8_t*)&cs, sizeof(cs), send_fd) == sizeof(cs))
return TRUE;
else APPL_TRACE_ERROR("sock_send_fd failed, fd:%d, send_fd:%d", fd, send_fd);
}
else if(sock_send_all(fd, (const uint8_t*)&cs, sizeof(cs)) == sizeof(cs))
{
return TRUE;
}
return FALSE;
}
static void on_cl_rfc_init(tBTA_JV_RFCOMM_CL_INIT *p_init, uint32_t id)
{
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs)
{
if (p_init->status != BTA_JV_SUCCESS)
cleanup_rfc_slot(rs);
else
{
rs->rfc_handle = p_init->handle;
}
}
unlock_slot(&slot_lock);
}
static void on_srv_rfc_listen_started(tBTA_JV_RFCOMM_START *p_start, uint32_t id)
{
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs)
{
if (p_start->status != BTA_JV_SUCCESS)
cleanup_rfc_slot(rs);
else
{
rs->rfc_handle = p_start->handle;
if(!send_app_scn(rs))
{
//closed
APPL_TRACE_DEBUG("send_app_scn() failed, close rs->id:%d", rs->id);
cleanup_rfc_slot(rs);
}
}
}
unlock_slot(&slot_lock);
}
static uint32_t on_srv_rfc_connect(tBTA_JV_RFCOMM_SRV_OPEN *p_open, uint32_t id)
{
uint32_t new_listen_slot_id = 0;
lock_slot(&slot_lock);
rfc_slot_t* srv_rs = find_rfc_slot_by_id(id);
if(srv_rs)
{
rfc_slot_t* accept_rs = create_srv_accept_rfc_slot(srv_rs, (const bt_bdaddr_t*)p_open->rem_bda,
p_open->handle, p_open->new_listen_handle);
if(accept_rs)
{
//start monitor the socket
btsock_thread_add_fd(pth, srv_rs->fd, BTSOCK_RFCOMM, SOCK_THREAD_FD_EXCEPTION, srv_rs->id);
btsock_thread_add_fd(pth, accept_rs->fd, BTSOCK_RFCOMM, SOCK_THREAD_FD_RD, accept_rs->id);
APPL_TRACE_DEBUG("sending connect signal & app fd:%dto app server to accept() the connection",
accept_rs->app_fd);
APPL_TRACE_DEBUG("server fd:%d, scn:%d", srv_rs->fd, srv_rs->scn);
send_app_connect_signal(srv_rs->fd, &accept_rs->addr, srv_rs->scn, 0, accept_rs->app_fd);
accept_rs->app_fd = -1; //the fd is closed after sent to app
new_listen_slot_id = srv_rs->id;
}
}
unlock_slot(&slot_lock);
return new_listen_slot_id;
}
static void on_cli_rfc_connect(tBTA_JV_RFCOMM_OPEN *p_open, uint32_t id)
{
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs && p_open->status == BTA_JV_SUCCESS)
{
rs->rfc_port_handle = BTA_JvRfcommGetPortHdl(p_open->handle);
bd_copy(rs->addr.address, p_open->rem_bda, 0);
//notify app rfc is connected
APPL_TRACE_DEBUG("call send_app_connect_signal, slot id:%d, fd:%d, rfc scn:%d, server:%d",
rs->id, rs->fd, rs->scn, rs->f.server);
if(send_app_connect_signal(rs->fd, &rs->addr, rs->scn, 0, -1))
{
//start monitoring the socketpair to get call back when app writing data
APPL_TRACE_DEBUG("on_rfc_connect_ind, connect signal sent, slot id:%d, rfc scn:%d, server:%d",
rs->id, rs->scn, rs->f.server);
rs->f.connected = TRUE;
}
else APPL_TRACE_ERROR("send_app_connect_signal failed");
}
else if(rs)
cleanup_rfc_slot(rs);
unlock_slot(&slot_lock);
}
static void on_rfc_close(tBTA_JV_RFCOMM_CLOSE * p_close, uint32_t id)
{
UNUSED(p_close);
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs)
{
APPL_TRACE_DEBUG("on_rfc_close, slot id:%d, fd:%d, rfc scn:%d, server:%d",
rs->id, rs->fd, rs->scn, rs->f.server);
free_rfc_slot_scn(rs);
// rfc_handle already closed when receiving rfcomm close event from stack.
rs->f.connected = FALSE;
cleanup_rfc_slot(rs);
}
unlock_slot(&slot_lock);
}
static void on_rfc_write_done(tBTA_JV_RFCOMM_WRITE *p, uint32_t id)
{
UNUSED(p);
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs && !rs->f.outgoing_congest)
{
//mointer the fd for any outgoing data
btsock_thread_add_fd(pth, rs->fd, BTSOCK_RFCOMM, SOCK_THREAD_FD_RD, rs->id);
}
unlock_slot(&slot_lock);
}
static void on_rfc_outgoing_congest(tBTA_JV_RFCOMM_CONG *p, uint32_t id)
{
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs)
{
rs->f.outgoing_congest = p->cong ? 1 : 0;
//mointer the fd for any outgoing data
if(!rs->f.outgoing_congest)
btsock_thread_add_fd(pth, rs->fd, BTSOCK_RFCOMM, SOCK_THREAD_FD_RD, rs->id);
}
unlock_slot(&slot_lock);
}
static void *rfcomm_cback(tBTA_JV_EVT event, tBTA_JV *p_data, void *user_data)
{
int rc;
void* new_user_data = NULL;
APPL_TRACE_DEBUG("event=%s", jv_evt[event]);
switch (event)
{
case BTA_JV_RFCOMM_START_EVT:
on_srv_rfc_listen_started(&p_data->rfc_start, (uint32_t)user_data);
break;
case BTA_JV_RFCOMM_CL_INIT_EVT:
on_cl_rfc_init(&p_data->rfc_cl_init, (uint32_t)user_data);
break;
case BTA_JV_RFCOMM_OPEN_EVT:
BTA_JvSetPmProfile(p_data->rfc_open.handle,BTA_JV_PM_ID_1,BTA_JV_CONN_OPEN);
on_cli_rfc_connect(&p_data->rfc_open, (uint32_t)user_data);
break;
case BTA_JV_RFCOMM_SRV_OPEN_EVT:
BTA_JvSetPmProfile(p_data->rfc_srv_open.handle,BTA_JV_PM_ALL,BTA_JV_CONN_OPEN);
new_user_data = (void*)on_srv_rfc_connect(&p_data->rfc_srv_open, (uint32_t)user_data);
break;
case BTA_JV_RFCOMM_CLOSE_EVT:
APPL_TRACE_DEBUG("BTA_JV_RFCOMM_CLOSE_EVT: user_data:%d", (uint32_t)user_data);
on_rfc_close(&p_data->rfc_close, (uint32_t)user_data);
break;
case BTA_JV_RFCOMM_READ_EVT:
APPL_TRACE_DEBUG("BTA_JV_RFCOMM_READ_EVT not used");
break;
case BTA_JV_RFCOMM_WRITE_EVT:
on_rfc_write_done(&p_data->rfc_write, (uint32_t)user_data);
break;
case BTA_JV_RFCOMM_DATA_IND_EVT:
APPL_TRACE_DEBUG("BTA_JV_RFCOMM_DATA_IND_EVT not used");
break;
case BTA_JV_RFCOMM_CONG_EVT:
//on_rfc_cong(&p_data->rfc_cong);
on_rfc_outgoing_congest(&p_data->rfc_cong, (uint32_t)user_data);
break;
default:
APPL_TRACE_ERROR("unhandled event %d, slot id:%d", event, (uint32_t)user_data);
break;
}
return new_user_data;
}
static void jv_dm_cback(tBTA_JV_EVT event, tBTA_JV *p_data, void *user_data)
{
uint32_t id = (uint32_t)user_data;
APPL_TRACE_DEBUG("jv_dm_cback: event:%d, slot id:%d", event, id);
switch(event)
{
case BTA_JV_CREATE_RECORD_EVT:
{
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs && create_server_sdp_record(rs))
{
//now start the rfcomm server after sdp & channel # assigned
BTA_JvRfcommStartServer(rs->security, rs->role, rs->scn, MAX_RFC_SESSION, rfcomm_cback,
(void*)rs->id);
}
else if(rs)
{
APPL_TRACE_ERROR("jv_dm_cback: cannot start server, slot found:%p", rs);
cleanup_rfc_slot(rs);
}
unlock_slot(&slot_lock);
break;
}
case BTA_JV_DISCOVERY_COMP_EVT:
{
rfc_slot_t* rs = NULL;
lock_slot(&slot_lock);
if(p_data->disc_comp.status == BTA_JV_SUCCESS && p_data->disc_comp.scn)
{
APPL_TRACE_DEBUG("BTA_JV_DISCOVERY_COMP_EVT, slot id:%d, status:%d, scn:%d",
id, p_data->disc_comp.status, p_data->disc_comp.scn);
rs = find_rfc_slot_by_id(id);
if(rs && rs->f.doing_sdp_request)
{
if(BTA_JvRfcommConnect(rs->security, rs->role, p_data->disc_comp.scn, rs->addr.address,
rfcomm_cback, (void*)rs->id) == BTA_JV_SUCCESS)
{
rs->scn = p_data->disc_comp.scn;
rs->f.doing_sdp_request = FALSE;
if(!send_app_scn(rs))
cleanup_rfc_slot(rs);
}
else cleanup_rfc_slot(rs);
}
else if(rs)
{
APPL_TRACE_ERROR("DISCOVERY_COMP_EVT no pending sdp request, slot id:%d, \
flag sdp pending:%d, flag sdp doing:%d",
id, rs->f.pending_sdp_request, rs->f.doing_sdp_request);
}
}
else
{
APPL_TRACE_ERROR("DISCOVERY_COMP_EVT slot id:%d, failed to find channle, \
status:%d, scn:%d", id, p_data->disc_comp.status,
p_data->disc_comp.scn);
rs = find_rfc_slot_by_id(id);
if(rs)
cleanup_rfc_slot(rs);
}
rs = find_rfc_slot_by_pending_sdp();
if(rs)
{
APPL_TRACE_DEBUG("BTA_JV_DISCOVERY_COMP_EVT, start another pending scn sdp request");
tSDP_UUID sdp_uuid;
sdp_uuid.len = 16;
memcpy(sdp_uuid.uu.uuid128, rs->service_uuid, sizeof(sdp_uuid.uu.uuid128));
BTA_JvStartDiscovery((UINT8*)rs->addr.address, 1, &sdp_uuid, (void*)rs->id);
rs->f.pending_sdp_request = FALSE;
rs->f.doing_sdp_request = TRUE;
}
unlock_slot(&slot_lock);
break;
}
default:
APPL_TRACE_DEBUG("unhandled event:%d, slot id:%d", event, id);
break;
}
}
#define SENT_ALL 2
#define SENT_PARTIAL 1
#define SENT_NONE 0
#define SENT_FAILED (-1)
static int send_data_to_app(int fd, BT_HDR *p_buf)
{
if(p_buf->len == 0)
return SENT_ALL;
int sent = send(fd, (UINT8 *)(p_buf + 1) + p_buf->offset, p_buf->len, MSG_DONTWAIT);
if(sent == p_buf->len)
return SENT_ALL;
if(sent > 0 && sent < p_buf->len)
{
//sent partial
APPL_TRACE_ERROR("send partial, sent:%d, p_buf->len:%d", sent, p_buf->len);
p_buf->offset += sent;
p_buf->len -= sent;
return SENT_PARTIAL;
}
if(sent < 0 &&
(errno == EAGAIN || errno == EWOULDBLOCK || errno == EINTR))
{
APPL_TRACE_ERROR("send none, EAGAIN or EWOULDBLOCK, errno:%d", errno);
return SENT_NONE;
}
APPL_TRACE_ERROR("unknown send() error, sent:%d, p_buf->len:%d, errno:%d", sent, p_buf->len, errno);
return SENT_FAILED;
}
static BOOLEAN flush_incoming_que_on_wr_signal(rfc_slot_t* rs)
{
while(!list_is_empty(rs->incoming_queue))
{
BT_HDR *p_buf = list_front(rs->incoming_queue);
int sent = send_data_to_app(rs->fd, p_buf);
switch(sent)
{
case SENT_NONE:
case SENT_PARTIAL:
//monitor the fd to get callback when app is ready to receive data
btsock_thread_add_fd(pth, rs->fd, BTSOCK_RFCOMM, SOCK_THREAD_FD_WR, rs->id);
return TRUE;
case SENT_ALL:
case SENT_FAILED:
list_remove(rs->incoming_queue, p_buf);
return FALSE;
}
}
//app is ready to receive data, tell stack to start the data flow
//fix me: need a jv flow control api to serialize the call in stack
APPL_TRACE_DEBUG("enable data flow, rfc_handle:0x%x, rfc_port_handle:0x%x, user_id:%d",
rs->rfc_handle, rs->rfc_port_handle, rs->id);
extern int PORT_FlowControl_MaxCredit(UINT16 handle, BOOLEAN enable);
PORT_FlowControl_MaxCredit(rs->rfc_port_handle, TRUE);
return TRUE;
}
void btsock_rfc_signaled(int fd, int flags, uint32_t user_id)
{
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(user_id);
if(rs)
{
APPL_TRACE_DEBUG("rfc slot id:%d, fd:%d, flags:%x", rs->id, fd, flags);
BOOLEAN need_close = FALSE;
if(flags & SOCK_THREAD_FD_RD)
{
//data available from app, tell stack we have outgoing data
if(!rs->f.server)
{
if(rs->f.connected)
{
int size = 0;
//make sure there's data pending in case the peer closed the socket
if(!(flags & SOCK_THREAD_FD_EXCEPTION) ||
(ioctl(rs->fd, FIONREAD, &size) == 0 && size))
{
int rfc_handle = rs->rfc_handle;
UINT32 rs_id = rs->id;
//unlock before BTA_JvRfcommWrite to avoid deadlock on concurrnet multi rfcomm connectoins
unlock_slot(&slot_lock);
BTA_JvRfcommWrite(rfc_handle, rs_id);
return;
}
}
else
{
APPL_TRACE_ERROR("SOCK_THREAD_FD_RD signaled when rfc is not connected, \
slot id:%d, channel:%d", rs->id, rs->scn);
need_close = TRUE;
}
}
}
if(flags & SOCK_THREAD_FD_WR)
{
//app is ready to receive more data, tell stack to enable the data flow
if(!rs->f.connected || !flush_incoming_que_on_wr_signal(rs))
{
need_close = TRUE;
APPL_TRACE_ERROR("SOCK_THREAD_FD_WR signaled when rfc is not connected \
or app closed fd, slot id:%d, channel:%d", rs->id, rs->scn);
}
}
if(need_close || (flags & SOCK_THREAD_FD_EXCEPTION))
{
int size = 0;
if(need_close || ioctl(rs->fd, FIONREAD, &size) != 0 || size == 0 )
{
//cleanup when no data pending
APPL_TRACE_DEBUG("SOCK_THREAD_FD_EXCEPTION, cleanup, flags:%x, need_close:%d, pending size:%d",
flags, need_close, size);
cleanup_rfc_slot(rs);
}
else
APPL_TRACE_DEBUG("SOCK_THREAD_FD_EXCEPTION, cleanup pending, flags:%x, need_close:%d, pending size:%d",
flags, need_close, size);
}
}
unlock_slot(&slot_lock);
}
int bta_co_rfc_data_incoming(void *user_data, BT_HDR *p_buf)
{
uint32_t id = (uint32_t)user_data;
int ret = 0;
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs)
{
if(!list_is_empty(rs->incoming_queue))
list_append(rs->incoming_queue, p_buf);
else
{
int sent = send_data_to_app(rs->fd, p_buf);
switch(sent)
{
case SENT_NONE:
case SENT_PARTIAL:
//add it to the end of the queue
list_append(rs->incoming_queue, p_buf);
//monitor the fd to get callback when app is ready to receive data
btsock_thread_add_fd(pth, rs->fd, BTSOCK_RFCOMM, SOCK_THREAD_FD_WR, rs->id);
break;
case SENT_ALL:
GKI_freebuf(p_buf);
ret = 1;//enable the data flow
break;
case SENT_FAILED:
GKI_freebuf(p_buf);
cleanup_rfc_slot(rs);
break;
}
}
}
unlock_slot(&slot_lock);
return ret;//return 0 to disable data flow
}
int bta_co_rfc_data_outgoing_size(void *user_data, int *size)
{
uint32_t id = (uint32_t)user_data;
int ret = FALSE;
*size = 0;
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs)
{
if(ioctl(rs->fd, FIONREAD, size) == 0)
{
APPL_TRACE_DEBUG("ioctl read avaiable size:%d, fd:%d", *size, rs->fd);
ret = TRUE;
}
else
{
APPL_TRACE_ERROR("ioctl FIONREAD error, errno:%d, fd:%d", errno, rs->fd);
cleanup_rfc_slot(rs);
}
}
else APPL_TRACE_ERROR("bta_co_rfc_data_outgoing_size, invalid slot id:%d", id);
unlock_slot(&slot_lock);
return ret;
}
int bta_co_rfc_data_outgoing(void *user_data, UINT8* buf, UINT16 size)
{
uint32_t id = (uint32_t)user_data;
int ret = FALSE;
lock_slot(&slot_lock);
rfc_slot_t* rs = find_rfc_slot_by_id(id);
if(rs)
{
int received = recv(rs->fd, buf, size, 0);
if(received == size)
ret = TRUE;
else
{
APPL_TRACE_ERROR("recv error, errno:%d, fd:%d, size:%d, received:%d",
errno, rs->fd, size, received);
cleanup_rfc_slot(rs);
}
}
else APPL_TRACE_ERROR("bta_co_rfc_data_outgoing, invalid slot id:%d", id);
unlock_slot(&slot_lock);
return ret;
}