blob: 6c9a5eb4f39409d3b2277bba2cca39ac79a48f69 [file] [log] [blame]
/******************************************************************************
*
* Copyright (C) 2001-2012 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.
*
******************************************************************************/
/******************************************************************************
*
* Contains the LogMsg wrapper routines for BTE. It routes calls the
* appropriate application's LogMsg equivalent.
*
******************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include "gki.h"
#include "bte.h"
#include "bte_appl.h"
#if MMI_INCLUDED == TRUE
#include "mmi.h"
#endif
/* always enable trace framework */
#include "btu.h"
#include "l2c_api.h"
#if (RFCOMM_INCLUDED==TRUE)
#include "port_api.h"
#endif
#if (OBX_INCLUDED==TRUE)
#include "obx_api.h"
#endif
#if (AVCT_INCLUDED==TRUE)
#include "avct_api.h"
#endif
#if (AVDT_INCLUDED==TRUE)
#include "avdt_api.h"
#endif
#if (AVRC_INCLUDED==TRUE)
#include "avrc_api.h"
#endif
#if (AVDT_INCLUDED==TRUE)
#include "avdt_api.h"
#endif
#if (A2D_INCLUDED==TRUE)
#include "a2d_api.h"
#endif
#if (BIP_INCLUDED==TRUE)
#include "bip_api.h"
#endif
#if (BNEP_INCLUDED==TRUE)
#include "bnep_api.h"
#endif
#if (BPP_INCLUDED==TRUE)
#include "bpp_api.h"
#endif
#include "btm_api.h"
#if (DUN_INCLUDED==TRUE)
#include "dun_api.h"
#endif
#if (GAP_INCLUDED==TRUE)
#include "gap_api.h"
#endif
#if (GOEP_INCLUDED==TRUE)
#include "goep_util.h"
#endif
#if (HCRP_INCLUDED==TRUE)
#include "hcrp_api.h"
#endif
#if (PAN_INCLUDED==TRUE)
#include "pan_api.h"
#endif
#include "sdp_api.h"
#if (BLE_INCLUDED==TRUE)
#include "gatt_api.h"
#include "smp_api.h"
#endif
/* LayerIDs for BTA, currently everything maps onto appl_trace_level */
#if (BTA_INCLUDED==TRUE)
#include "bta_api.h"
#endif
#if defined(__CYGWIN__) || defined(__linux__)
#undef RPC_INCLUDED
#define RPC_INCLUDED TRUE
#include <sys/time.h>
#include <time.h>
#if (defined(ANDROID_USE_LOGCAT) && (ANDROID_USE_LOGCAT==TRUE))
const char * const bt_layer_tags[] = {
"bt-btif",
"bt-usb",
"bt-serial",
"bt-socket",
"bt-rs232",
"bt-lc",
"bt-lm",
"bt-hci",
"bt-l2cap",
"bt-rfcomm",
"bt-sdp",
"bt-tcs",
"bt-obex",
"bt-btm",
"bt-gap",
"bt-dun",
"bt-goep",
"bt-icp",
"bt-hsp2",
"bt-spp",
"bt-ctp",
"bt-bpp",
"bt-hcrp",
"bt-ftp",
"bt-opp",
"bt-btu",
"bt-gki",
"bt-bnep",
"bt-pan",
"bt-hfp",
"bt-hid",
"bt-bip",
"bt-avp",
"bt-a2d",
"bt-sap",
"bt-amp",
"bt-mca",
"bt-att",
"bt-smp",
"bt-nfc",
"bt-nci",
"bt-idep",
"bt-ndep",
"bt-llcp",
"bt-rw",
"bt-ce",
"bt-snep",
"bt-ndef",
"bt-nfa",
};
#ifndef LINUX_NATIVE
#include <cutils/log.h>
#define LOGI0(t,s) __android_log_write(ANDROID_LOG_INFO, t, s)
#define LOGD0(t,s) __android_log_write(ANDROID_LOG_DEBUG, t, s)
#define LOGW0(t,s) __android_log_write(ANDROID_LOG_WARN, t, s)
#define LOGE0(t,s) __android_log_write(ANDROID_LOG_ERROR, t, s)
#else
#undef ANDROID_USE_LOGCAT
#endif
#endif
//#include "btl_cfg.h"
#define BTL_GLOBAL_PROP_TRC_FLAG "TRC_BTAPP"
#ifndef DEFAULT_CONF_TRACE_LEVEL
#define DEFAULT_CONF_TRACE_LEVEL BT_TRACE_LEVEL_WARNING
#endif
#ifndef BTE_LOG_BUF_SIZE
#define BTE_LOG_BUF_SIZE 1024
#endif
#define BTE_LOG_MAX_SIZE (BTE_LOG_BUF_SIZE - 12)
//#define BTE_MAP_TRACE_LEVEL FALSE
/* map by default BTE trace levels onto android trace levels */
#ifndef BTE_MAP_TRACE_LEVEL
#define BTE_MAP_TRACE_LEVEL TRUE
#endif
// #define BTE_ANDROID_INTERNAL_TIMESTAMP TRUE
/* by default no internal timestamp. adb logcate -v time allows having timestamps */
#ifndef BTE_ANDROID_INTERNAL_TIMESTAMP
#define BTE_ANDROID_INTERNAL_TIMESTAMP FALSE
#endif
#if (BTE_ANDROID_INTERNAL_TIMESTAMP==TRUE)
#define MSG_BUFFER_OFFSET strlen(buffer)
#else
#define MSG_BUFFER_OFFSET 0
#endif
//#define DBG_TRACE
#if defined( DBG_TRACE )
#define DBG_TRACE_API0( m ) BT_TRACE_0( TRACE_LAYER_HCI, TRACE_TYPE_API, m )
#define DBG_TRACE_WARNING2( m, p0, p1 ) BT_TRACE_2( TRACE_LAYER_BTM, (TRACE_ORG_APPL|TRACE_TYPE_WARNING), m, p0, p1 )
#else
#define DBG_TRACE_API0( m )
#define DBG_TRACE_WARNING2( m, p0, p1 )
#endif
#define DBG_TRACE_DEBUG2( m, p0, p1 ) BT_TRACE_2( TRACE_LAYER_BTM, (TRACE_ORG_APPL|TRACE_TYPE_DEBUG), m, p0, p1 )
void
LogMsg(UINT32 trace_set_mask, const char *fmt_str, ...)
{
static char buffer[BTE_LOG_BUF_SIZE];
int trace_layer = TRACE_GET_LAYER(trace_set_mask);
if (trace_layer >= TRACE_LAYER_MAX_NUM)
trace_layer = 0;
va_list ap;
#if (BTE_ANDROID_INTERNAL_TIMESTAMP==TRUE)
struct timeval tv;
struct timezone tz;
struct tm *tm;
time_t t;
gettimeofday(&tv, &tz);
time(&t);
tm = localtime(&t);
sprintf(buffer, "%02d:%02d:%02d.%03d ", tm->tm_hour, tm->tm_min, tm->tm_sec,
tv.tv_usec / 1000);
#endif
va_start(ap, fmt_str);
vsnprintf(&buffer[MSG_BUFFER_OFFSET], BTE_LOG_MAX_SIZE, fmt_str, ap);
va_end(ap);
#if (defined(ANDROID_USE_LOGCAT) && (ANDROID_USE_LOGCAT==TRUE))
#if (BTE_MAP_TRACE_LEVEL==TRUE)
switch ( TRACE_GET_TYPE(trace_set_mask) )
{
case TRACE_TYPE_ERROR:
LOGE0(bt_layer_tags[trace_layer], buffer);
break;
case TRACE_TYPE_WARNING:
LOGW0(bt_layer_tags[trace_layer], buffer);
break;
case TRACE_TYPE_API:
case TRACE_TYPE_EVENT:
LOGI0(bt_layer_tags[trace_layer], buffer);
break;
case TRACE_TYPE_DEBUG:
LOGD0(bt_layer_tags[trace_layer], buffer);
break;
default:
LOGE0(bt_layer_tags[trace_layer], buffer); /* we should never get this */
break;
}
#else
LOGI0(bt_layer_tags[trace_layer], buffer);
#endif
#else
write(2, buffer, strlen(buffer));
write(2, "\n", 1);
#endif
}
void
ScrLog(UINT32 trace_set_mask, const char *fmt_str, ...)
{
static char buffer[BTE_LOG_BUF_SIZE];
va_list ap;
struct timeval tv;
struct timezone tz;
struct tm *tm;
time_t t;
int trace_layer = TRACE_GET_LAYER(trace_set_mask);
if (trace_layer >= TRACE_LAYER_MAX_NUM)
trace_layer = 0;
gettimeofday(&tv, &tz);
time(&t);
tm = localtime(&t);
sprintf(buffer, "%02d:%02d:%02d.%03ld ", tm->tm_hour, tm->tm_min, tm->tm_sec,
tv.tv_usec / 1000);
va_start(ap, fmt_str);
vsnprintf(&buffer[strlen(buffer)], BTE_LOG_MAX_SIZE, fmt_str, ap);
va_end(ap);
#if (defined(ANDROID_USE_LOGCAT) && (ANDROID_USE_LOGCAT==TRUE))
LOGI0(bt_layer_tags[trace_layer], buffer);
#else
write(2, buffer, strlen(buffer));
write(2, "\n", 1);
#endif
}
/* this function should go into BTAPP_DM for example */
BT_API UINT8 BTAPP_SetTraceLevel( UINT8 new_level )
{
if (new_level != 0xFF)
appl_trace_level = new_level;
return (appl_trace_level);
}
BT_API UINT8 BTIF_SetTraceLevel( UINT8 new_level )
{
if (new_level != 0xFF)
btif_trace_level = new_level;
return (btif_trace_level);
}
BTU_API UINT8 BTU_SetTraceLevel( UINT8 new_level )
{
if (new_level != 0xFF)
btu_cb.trace_level = new_level;
return (btu_cb.trace_level);
}
BOOLEAN trace_conf_enabled = FALSE;
void bte_trace_conf(char *p_conf_name, char *p_conf_value)
{
tBTTRC_FUNC_MAP *p_f_map = (tBTTRC_FUNC_MAP *) &bttrc_set_level_map[0];
while (p_f_map->trc_name != NULL)
{
if (strcmp(p_f_map->trc_name, (const char *)p_conf_name) == 0)
{
p_f_map->trace_level = (UINT8) atoi(p_conf_value);
break;
}
p_f_map++;
}
}
/********************************************************************************
**
** Function Name: BTA_SysSetTraceLevel
**
** Purpose: set or reads the different Trace Levels of layer IDs (see bt_trace.h,
** BTTRC_ID_xxxx
**
** Input Parameters: Array with trace layers to set to a given level or read. a layer ID of 0
** defines the end of the list
** WARNING: currently type should be 0-5! or FF for reading!!!!
**
** Returns:
** input array with trace levels for given layer id
**
*********************************************************************************/
BT_API tBTTRC_LEVEL * BTA_SysSetTraceLevel(tBTTRC_LEVEL * p_levels)
{
const tBTTRC_FUNC_MAP *p_f_map;
tBTTRC_LEVEL *p_l = p_levels;
DBG_TRACE_API0( "BTA_SysSetTraceLevel()" );
while (0 != p_l->layer_id)
{
p_f_map = &bttrc_set_level_map[0];
while (0 != p_f_map->layer_id_start)
{
printf("BTA_SysSetTraceLevel - trace id in map start = %d end= %d, paramter id = %d\r\n", p_f_map->layer_id_start, p_f_map->layer_id_end, p_l->layer_id );
/* as p_f_map is ordered by increasing layer id, go to next map entry as long end id
* is smaller */
//if (p_f_map->layer_id_end < p_l->layer_id)
//{
//p_f_map++;
//}
//else
{
/* check if layer_id actually false into a range or if it is note existing in the map */
if ((NULL != p_f_map->p_f) && (p_f_map->layer_id_start <= p_l->layer_id) && (p_f_map->layer_id_end >= p_l->layer_id) )
{
DBG_TRACE_DEBUG2( "BTA_SysSetTraceLevel( id:%d, level:%d ): setting/reading",
p_l->layer_id, p_l->type );
p_l->type = p_f_map->p_f(p_l->type);
break;
}
else
{
DBG_TRACE_WARNING2( "BTA_SysSetTraceLevel( id:%d, level:%d ): MISSING Set function OR ID in map!",
p_l->layer_id, p_l->type );
}
/* set/read next trace level by getting out ot map loop */
//p_l++;
//break;
}
p_f_map++;
}
//if (0 == p_f_map->layer_id_start)
{
DBG_TRACE_WARNING2( "BTA_SysSetTraceLevel( id:%d, level:%d ): ID NOT FOUND in map. Skip to next",
p_l->layer_id, p_l->type );
p_l++;
}
}
return p_levels;
} /* BTA_SysSetTraceLevel() */
/* make sure list is order by increasing layer id!!! */
tBTTRC_FUNC_MAP bttrc_set_level_map[] = {
{BTTRC_ID_STK_BTU, BTTRC_ID_STK_HCI, BTU_SetTraceLevel, "TRC_HCI", DEFAULT_CONF_TRACE_LEVEL},
{BTTRC_ID_STK_L2CAP, BTTRC_ID_STK_L2CAP, L2CA_SetTraceLevel, "TRC_L2CAP", DEFAULT_CONF_TRACE_LEVEL},
#if (RFCOMM_INCLUDED==TRUE)
{BTTRC_ID_STK_RFCOMM, BTTRC_ID_STK_RFCOMM_DATA, PORT_SetTraceLevel, "TRC_RFCOMM", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (OBX_INCLUDED==TRUE)
{BTTRC_ID_STK_OBEX, BTTRC_ID_STK_OBEX, OBX_SetTraceLevel, "TRC_OBEX", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (AVCT_INCLUDED==TRUE)
//{BTTRC_ID_STK_AVCT, BTTRC_ID_STK_AVCT, NULL, "TRC_AVCT", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (AVDT_INCLUDED==TRUE)
{BTTRC_ID_STK_AVDT, BTTRC_ID_STK_AVDT, AVDT_SetTraceLevel, "TRC_AVDT", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (AVRC_INCLUDED==TRUE)
{BTTRC_ID_STK_AVRC, BTTRC_ID_STK_AVRC, AVRC_SetTraceLevel, "TRC_AVRC", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (AVDT_INCLUDED==TRUE)
//{BTTRC_ID_AVDT_SCB, BTTRC_ID_AVDT_CCB, NULL, "TRC_AVDT_SCB", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (A2D_INCLUDED==TRUE)
{BTTRC_ID_STK_A2D, BTTRC_ID_STK_A2D, A2D_SetTraceLevel, "TRC_A2D", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (BIP_INCLUDED==TRUE)
{BTTRC_ID_STK_BIP, BTTRC_ID_STK_BIP, BIP_SetTraceLevel, "TRC_BIP", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (BNEP_INCLUDED==TRUE)
{BTTRC_ID_STK_BNEP, BTTRC_ID_STK_BNEP, BNEP_SetTraceLevel, "TRC_BNEP", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (BPP_INCLUDED==TRUE)
{BTTRC_ID_STK_BPP, BTTRC_ID_STK_BPP, BPP_SetTraceLevel, "TRC_BPP", DEFAULT_CONF_TRACE_LEVEL},
#endif
{BTTRC_ID_STK_BTM_ACL, BTTRC_ID_STK_BTM_SEC, BTM_SetTraceLevel, "TRC_BTM", DEFAULT_CONF_TRACE_LEVEL},
#if (DUN_INCLUDED==TRUE)
{BTTRC_ID_STK_DUN, BTTRC_ID_STK_DUN, DUN_SetTraceLevel, "TRC_DUN", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (GAP_INCLUDED==TRUE)
{BTTRC_ID_STK_GAP, BTTRC_ID_STK_GAP, GAP_SetTraceLevel, "TRC_GAP", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (GOEP_INCLUDED==TRUE)
{BTTRC_ID_STK_GOEP, BTTRC_ID_STK_GOEP, GOEP_SetTraceLevel, "TRC_GOEP", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (HCRP_INCLUDED==TRUE)
{BTTRC_ID_STK_HCRP, BTTRC_ID_STK_HCRP, HCRP_SetTraceLevel, "TRC_HCRP", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (PAN_INCLUDED==TRUE)
{BTTRC_ID_STK_PAN, BTTRC_ID_STK_PAN, PAN_SetTraceLevel, "TRC_PAN", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (SAP_SERVER_INCLUDED==TRUE)
{BTTRC_ID_STK_SAP, BTTRC_ID_STK_SAP, NULL, "TRC_SAP", DEFAULT_CONF_TRACE_LEVEL},
#endif
{BTTRC_ID_STK_SDP, BTTRC_ID_STK_SDP, SDP_SetTraceLevel, "TRC_SDP", DEFAULT_CONF_TRACE_LEVEL},
#if (BLE_INCLUDED==TRUE)
{BTTRC_ID_STK_GATT, BTTRC_ID_STK_GATT, GATT_SetTraceLevel, "TRC_GATT", DEFAULT_CONF_TRACE_LEVEL},
{BTTRC_ID_STK_SMP, BTTRC_ID_STK_SMP, SMP_SetTraceLevel, "TRC_SMP", DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (BTA_INCLUDED==TRUE)
/* LayerIDs for BTA, currently everything maps onto appl_trace_level.
* BTL_GLOBAL_PROP_TRC_FLAG serves as flag in conf.
*/
{BTTRC_ID_BTA_ACC, BTTRC_ID_BTAPP, BTAPP_SetTraceLevel, BTL_GLOBAL_PROP_TRC_FLAG, DEFAULT_CONF_TRACE_LEVEL},
#endif
#if (BT_TRACE_BTIF == TRUE)
{BTTRC_ID_BTA_ACC, BTTRC_ID_BTAPP, BTIF_SetTraceLevel, "TRC_BTIF", DEFAULT_CONF_TRACE_LEVEL},
#endif
{0, 0, NULL, NULL, DEFAULT_CONF_TRACE_LEVEL}
};
const UINT16 bttrc_map_size = sizeof(bttrc_set_level_map)/sizeof(tBTTRC_FUNC_MAP);
#endif
/********************************************************************************
**
** Function Name: BTE_InitTraceLevels
**
** Purpose: This function can be used to set the boot time reading it from the
** platform.
** WARNING: it is called under BTU context and it blocks the BTU task
** till it returns (sync call)
**
** Input Parameters: None, platform to provide levels
** Returns:
** Newly set levels, if any!
**
*********************************************************************************/
BT_API void BTE_InitTraceLevels( void )
{
/* read and set trace levels by calling the different XXX_SetTraceLevel().
*/
#if ( BT_USE_TRACES==TRUE )
if (trace_conf_enabled == TRUE)
{
tBTTRC_FUNC_MAP *p_f_map = (tBTTRC_FUNC_MAP *) &bttrc_set_level_map[0];
while (p_f_map->trc_name != NULL)
{
ALOGI("BTE_InitTraceLevels -- %s", p_f_map->trc_name);
if (p_f_map->p_f)
p_f_map->p_f(p_f_map->trace_level);
p_f_map++;
}
}
else
{
ALOGI("[bttrc] using compile default trace settings");
}
#endif
}
/********************************************************************************
**
** Function Name: LogMsg_0
**
** Purpose: Encodes a trace message that has no parameter arguments
**
** Input Parameters: trace_set_mask: tester trace type.
** fmt_str: displayable string.
** Returns:
** Nothing.
**
*********************************************************************************/
void LogMsg_0(UINT32 trace_set_mask, const char *fmt_str) {
LogMsg(trace_set_mask, fmt_str);
}
/********************************************************************************
**
** Function Name: LogMsg_1
**
** Purpose: Encodes a trace message that has one parameter argument
**
** Input Parameters: trace_set_mask: tester trace type.
** fmt_str: displayable string.
** Returns:
** Nothing.
**
*********************************************************************************/
void LogMsg_1(UINT32 trace_set_mask, const char *fmt_str, UINT32 p1) {
LogMsg(trace_set_mask, fmt_str, p1);
}
/********************************************************************************
**
** Function Name: LogMsg_2
**
** Purpose: Encodes a trace message that has two parameter arguments
**
** Input Parameters: trace_set_mask: tester trace type.
** fmt_str: displayable string.
** Returns:
** Nothing.
**
*********************************************************************************/
void LogMsg_2(UINT32 trace_set_mask, const char *fmt_str, UINT32 p1, UINT32 p2) {
LogMsg(trace_set_mask, fmt_str, p1, p2);
}
/********************************************************************************
**
** Function Name: LogMsg_3
**
** Purpose: Encodes a trace message that has three parameter arguments
**
** Input Parameters: trace_set_mask: tester trace type.
** fmt_str: displayable string.
** Returns:
** Nothing.
**
*********************************************************************************/
void LogMsg_3(UINT32 trace_set_mask, const char *fmt_str, UINT32 p1, UINT32 p2,
UINT32 p3) {
LogMsg(trace_set_mask, fmt_str, p1, p2, p3);
}
/********************************************************************************
**
** Function Name: LogMsg_4
**
** Purpose: Encodes a trace message that has four parameter arguments
**
** Input Parameters: trace_set_mask: tester trace type.
** fmt_str: displayable string.
** Returns:
** Nothing.
**
*********************************************************************************/
void LogMsg_4(UINT32 trace_set_mask, const char *fmt_str, UINT32 p1, UINT32 p2,
UINT32 p3, UINT32 p4) {
LogMsg(trace_set_mask, fmt_str, p1, p2, p3, p4);
}
/********************************************************************************
**
** Function Name: LogMsg_5
**
** Purpose: Encodes a trace message that has five parameter arguments
**
** Input Parameters: trace_set_mask: tester trace type.
** fmt_str: displayable string.
** Returns:
** Nothing.
**
*********************************************************************************/
void LogMsg_5(UINT32 trace_set_mask, const char *fmt_str, UINT32 p1, UINT32 p2,
UINT32 p3, UINT32 p4, UINT32 p5) {
LogMsg(trace_set_mask, fmt_str, p1, p2, p3, p4, p5);
}
/********************************************************************************
**
** Function Name: LogMsg_6
**
** Purpose: Encodes a trace message that has six parameter arguments
**
** Input Parameters: trace_set_mask: tester trace type.
** fmt_str: displayable string.
** Returns:
** Nothing.
**
*********************************************************************************/
void LogMsg_6(UINT32 trace_set_mask, const char *fmt_str, UINT32 p1, UINT32 p2,
UINT32 p3, UINT32 p4, UINT32 p5, UINT32 p6) {
LogMsg(trace_set_mask, fmt_str, p1, p2, p3, p4, p5, p6);
}