#include "pmutility.h"
#include "oic_string.h"
#include "utlist.h"
+#include "srmutility.h"
#define DB_FILE "PDM.db"
#define PDM_BIND_INDEX_SECOND 2
#define PDM_BIND_INDEX_THIRD 3
+#define HEX_UUID_STR_LENGTH (UUID_LENGTH*2 + 4)
+
#define PDM_CREATE_T_DEVICE_LIST "create table T_DEVICE_LIST(ID INTEGER PRIMARY KEY AUTOINCREMENT,\
UUID BLOB NOT NULL UNIQUE, STATE INT NOT NULL);"
* Macro to verify sqlite success.
* eg: VERIFY_NON_NULL(TAG, ptrData, ERROR,OC_STACK_ERROR);
*/
-#define PDM_VERIFY_SQLITE_OK(tag, arg, logLevel, retValue) do{ if (SQLITE_OK != (arg)) \
+#define PDM_VERIFY_SQLITE_OK(tag, arg, stmt, logLevel, retValue) do{ if (SQLITE_OK != (arg)) \
{ OIC_LOG_V((logLevel), tag, "Error in " #arg ", Error Message: %s", \
- sqlite3_errmsg(g_db)); return retValue; }}while(0)
+ sqlite3_errmsg(g_db)); sqlite3_finalize(stmt); return retValue; }}while(0)
+
#define PDM_SQLITE_TRANSACTION_BEGIN "BEGIN TRANSACTION;"
#define PDM_SQLITE_TRANSACTION_COMMIT "COMMIT;"
#define PDM_SQLITE_TRANSACTION_ROLLBACK "ROLLBACK;"
#define PDM_SQLITE_GET_STALE_INFO "SELECT ID,ID2 FROM T_DEVICE_LINK_STATE WHERE STATE = ?"
#define PDM_SQLITE_INSERT_T_DEVICE_LIST "INSERT INTO T_DEVICE_LIST VALUES(?,?,?)"
-#define PDM_SQLITE_GET_ID "SELECT ID FROM T_DEVICE_LIST WHERE UUID like ?"
+#define PDM_SQLITE_GET_ID "SELECT ID FROM T_DEVICE_LIST WHERE UUID = "
+#define PDM_SQLITE_GET_ID_SIZE (int)sizeof(PDM_SQLITE_GET_ID)
#define PDM_SQLITE_INSERT_LINK_DATA "INSERT INTO T_DEVICE_LINK_STATE VALUES(?,?,?)"
#define PDM_SQLITE_DELETE_LINK "DELETE FROM T_DEVICE_LINK_STATE WHERE ID = ? and ID2 = ?"
#define PDM_SQLITE_DELETE_DEVICE_LINK "DELETE FROM T_DEVICE_LINK_STATE WHERE ID = ? or ID2 = ?"
#define PDM_SQLITE_DELETE_DEVICE "DELETE FROM T_DEVICE_LIST WHERE ID = ?"
+#define PDM_SQLITE_DELETE_DEVICE_WITH_STATE "DELETE FROM T_DEVICE_LIST WHERE STATE= ?"
#define PDM_SQLITE_UPDATE_LINK "UPDATE T_DEVICE_LINK_STATE SET STATE = ? WHERE ID = ? and ID2 = ?"
#define PDM_SQLITE_LIST_ALL_UUID "SELECT UUID FROM T_DEVICE_LIST WHERE STATE = 0"
#define PDM_SQLITE_GET_UUID "SELECT UUID,STATE FROM T_DEVICE_LIST WHERE ID = ?"
(ID = ? or ID2 = ?) and state = 0"
#define PDM_SQLITE_GET_DEVICE_LINKS "SELECT ID,ID2 FROM T_DEVICE_LINK_STATE WHERE \
ID = ? and ID2 = ? and state = 0"
-#define PDM_SQLITE_UPDATE_DEVICE "UPDATE T_DEVICE_LIST SET STATE = ? WHERE UUID like ?"
-#define PDM_SQLITE_GET_DEVICE_STATUS "SELECT STATE FROM T_DEVICE_LIST WHERE UUID like ?"
+#define PDM_SQLITE_UPDATE_DEVICE "UPDATE T_DEVICE_LIST SET STATE = ? WHERE UUID = "
+#define PDM_SQLITE_UPDATE_DEVICE_SIZE (int)sizeof(PDM_SQLITE_UPDATE_DEVICE)
+#define PDM_SQLITE_GET_DEVICE_STATUS "SELECT STATE FROM T_DEVICE_LIST WHERE UUID = "
+#define PDM_SQLITE_GET_DEVICE_STATUS_SIZE (int)sizeof(PDM_SQLITE_GET_DEVICE_STATUS)
#define PDM_SQLITE_UPDATE_LINK_STALE_FOR_STALE_DEVICE "UPDATE T_DEVICE_LINK_STATE SET STATE = 1\
WHERE ID = ? or ID2 = ?"
+#define OTM_CREATE_TABLE "CREATE TABLE IF NOT EXISTS otm(\
+id INTEGER PRIMARY KEY AUTOINCREMENT,\
+owner TEXT,\
+uuid TEXT NOT NULL UNIQUE,\
+state INT DEFAULT(1) NOT NULL,\
+time TIMESTAMP DEFAULT(datetime(\'now\',\'localtime\')) NOT NULL);"
+
+#define OTM_INSERT "INSERT INTO otm(owner,uuid) VALUES(?,?)"
+#define OTM_UPDATE "UPDATE otm SET state=? WHERE uuid=?"
+#define OTM_GET_STATE "SELECT state FROM otm WHERE uuid=?"
#define ASCENDING_ORDER(id1, id2) do{if( (id1) > (id2) )\
{ int temp; temp = id1; id1 = id2; id2 = temp; }}while(0)
*/
static OCStackResult createDB(const char* path)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
int result = 0;
result = sqlite3_open_v2(path, &g_db, SQLITE_OPEN_READWRITE|SQLITE_OPEN_CREATE, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, result, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, result, NULL, ERROR, OC_STACK_ERROR);
result = sqlite3_exec(g_db, PDM_CREATE_T_DEVICE_LIST, NULL, NULL, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, result, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, result, NULL, ERROR, OC_STACK_ERROR);
OIC_LOG(INFO, TAG, "Created T_DEVICE_LIST");
result = sqlite3_exec(g_db, PDM_CREATE_T_DEVICE_LINK, NULL, NULL, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, result, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, result, NULL, ERROR, OC_STACK_ERROR);
OIC_LOG(INFO, TAG, "Created T_DEVICE_LINK_STATE");
+
+ result = sqlite3_exec(g_db, OTM_CREATE_TABLE, NULL, NULL, NULL);
+ PDM_VERIFY_SQLITE_OK(TAG, result, NULL, ERROR, OC_STACK_ERROR);
+
gInit = true;
+
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
+
return OC_STACK_OK;
}
{
int res = 0;
res = sqlite3_exec(g_db, PDM_SQLITE_TRANSACTION_BEGIN, NULL, NULL, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
return OC_STACK_OK;
}
{
int res = 0;
res = sqlite3_exec(g_db, PDM_SQLITE_TRANSACTION_COMMIT, NULL, NULL, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
return OC_STACK_OK;
}
{
int res = 0;
res = sqlite3_exec(g_db, PDM_SQLITE_TRANSACTION_ROLLBACK, NULL, NULL, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
return OC_STACK_OK;
}
/**
+ * Function to convert UUID into hex representation
+ */
+static bool convertUuidToHexString(const OicUuid_t* uuidOfDevice, char* uuidHexString)
+{
+ if(NULL == uuidOfDevice || NULL == uuidHexString)
+ {
+ OIC_LOG(ERROR, TAG, "convertUuidToHexString : Invalid param");
+ return false;
+ }
+
+ char *strUUID = NULL;
+ OCStackResult ret = ConvertUuidToStr(uuidOfDevice, &strUUID);
+ if(OC_STACK_OK != ret)
+ {
+ OIC_LOG(ERROR, TAG, "SendDeleteCredentialRequest : Failed to canonical UUID encoding");
+ return OC_STACK_ERROR;
+
+ }
+ char* headPtr = strUUID;
+ strncat(uuidHexString, "x'",2);
+ while(('\0' != *headPtr))
+ {
+ char tmp = *headPtr;
+ if('-' != tmp)
+ {
+ strncat(uuidHexString, &tmp,1);
+ }
+ headPtr++;
+ }
+ strncat(uuidHexString, "'",1);
+
+ OICFree(strUUID);
+ return true;
+}
+
+/**
* Error log callback called by SQLite stack in case of error
*/
void errLogCallback(void *pArg, int iErrCode, const char *zMsg)
(void) pArg;
(void) iErrCode;
(void) zMsg;
- OIC_LOG_V(DEBUG,TAG, "(%d) %s", iErrCode, zMsg);
+ OIC_LOG_V(DEBUG,TAG, "%s : (%d) %s", __func__, iErrCode, zMsg);
}
OCStackResult PDMInit(const char *path)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
int rc;
const char *dbPath = NULL;
if (SQLITE_OK != sqlite3_config(SQLITE_CONFIG_LOG, errLogCallback, NULL))
if (SQLITE_OK != rc)
{
OIC_LOG_V(INFO, TAG, "ERROR: Can't open database: %s", sqlite3_errmsg(g_db));
- return createDB(dbPath);
+ sqlite3_close(g_db);
+ OCStackResult ret = createDB(dbPath);
+ if (OC_STACK_OK != ret)
+ {
+ sqlite3_close(g_db);
+ }
+ return ret;
}
+
+ rc = sqlite3_exec(g_db, OTM_CREATE_TABLE, NULL, NULL, NULL);
+ PDM_VERIFY_SQLITE_OK(TAG, rc, NULL, ERROR, OC_STACK_ERROR);
+
gInit = true;
+
+ /*
+ * Remove PDM_DEVICE_INIT status devices.
+ * PDM_DEVICE_INIT means that the OTM process is in progress.
+ * PDM_DEVICE_INIT state device can be existed when the program is terminated during the OTM process in progress.
+ * For this reason, PDM_DEVICE_INIT devices should be removed at PDM initialization time.
+ */
+ if(OC_STACK_OK != PDMDeleteDeviceWithState(PDM_DEVICE_INIT))
+ {
+ OIC_LOG_V(WARNING, TAG, "Failed to delete init state devices.");
+ }
+
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
+
+ return OC_STACK_OK;
+}
+
+OCStackResult OTMStart(const OicUuid_t *uuid, const OicUuid_t *owner)
+{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
+ CHECK_PDM_INIT(TAG);
+
+ if (NULL == uuid || NULL == owner)
+ {
+ return OC_STACK_INVALID_PARAM;
+ }
+
+ sqlite3_stmt *stmt = 0;
+ int res =0;
+ char *uuidStr = NULL;
+ OCStackResult ret = OC_STACK_OK;
+
+ res = sqlite3_prepare_v2(g_db, OTM_INSERT, strlen(OTM_INSERT) + 1, &stmt, NULL);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+
+ ConvertUuidToStr(owner, &uuidStr);
+
+ res = sqlite3_bind_text(stmt, 1, uuidStr, strlen(uuidStr), SQLITE_TRANSIENT);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+
+ OICFree(uuidStr);
+ uuidStr = NULL;
+ ConvertUuidToStr(uuid, &uuidStr);
+
+ res = sqlite3_bind_text(stmt, 2, uuidStr, strlen(uuidStr), SQLITE_TRANSIENT);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+
+ OICFree(uuidStr);
+
+ res = sqlite3_step(stmt);
+ if (SQLITE_DONE != res)
+ {
+ if (SQLITE_CONSTRAINT == res)
+ {
+ int state;
+ if(OC_STACK_OK == OTMGetState(uuid, &state) && 1 == state)
+ {
+ OIC_LOG_V(WARNING, TAG, "%s OTM already started", __func__);
+ ret = OC_STACK_DUPLICATE_UUID;
+ }
+ }
+ else
+ {
+ ret = OC_STACK_ERROR;
+ }
+ }
+ sqlite3_finalize(stmt);
+
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
+ return ret;
+}
+
+OCStackResult OTMSetState(const OicUuid_t *uuid, int state)
+{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
+ CHECK_PDM_INIT(TAG);
+
+ if (NULL == uuid)
+ {
+ return OC_STACK_INVALID_PARAM;
+ }
+
+ sqlite3_stmt *stmt = 0;
+ int res = 0 ;
+ char *uuidStr = NULL;
+
+ res = sqlite3_prepare_v2(g_db, OTM_UPDATE, strlen(OTM_UPDATE) + 1, &stmt, NULL);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+
+ res = sqlite3_bind_int(stmt, 1, state);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+
+ ConvertUuidToStr(uuid, &uuidStr);
+
+ res = sqlite3_bind_text(stmt, 2, uuidStr, strlen(uuidStr), SQLITE_TRANSIENT);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+
+ OICFree(uuidStr);
+
+ if (SQLITE_DONE != sqlite3_step(stmt))
+ {
+ OIC_LOG_V(ERROR, TAG, "Error message: %s", sqlite3_errmsg(g_db));
+ sqlite3_finalize(stmt);
+ return OC_STACK_ERROR;
+ }
+ sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
+OCStackResult OTMStop(const OicUuid_t *uuid)
+{
+ return OTMSetState(uuid, 2);
+}
+
+OCStackResult OTMGetState(const OicUuid_t *uuid, int *state)
+{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
+ CHECK_PDM_INIT(TAG);
+
+ if (NULL == uuid)
+ {
+ return OC_STACK_INVALID_PARAM;
+ }
+
+ sqlite3_stmt *stmt = 0;
+ int res = 0;
+ char *uuidStr = NULL;
+ OCStackResult ret = OC_STACK_ERROR;
+
+ res = sqlite3_prepare_v2(g_db, OTM_GET_STATE, strlen(OTM_GET_STATE) + 1, &stmt, NULL);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+
+ ConvertUuidToStr(uuid, &uuidStr);
+ res = sqlite3_bind_text(stmt, 1, uuidStr, strlen(uuidStr), SQLITE_TRANSIENT);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+
+ if (SQLITE_ROW == sqlite3_step(stmt))
+ {
+ *state = sqlite3_column_int(stmt, 1);
+ OIC_LOG_V(DEBUG, TAG, "%s state is %d", uuidStr, *state);
+ ret = OC_STACK_OK;
+ }
+
+ OICFree(uuidStr);
+ sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
+ return ret;
+}
OCStackResult PDMAddDevice(const OicUuid_t *UUID)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL == UUID)
{
int res =0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_INSERT_T_DEVICE_LIST,
strlen(PDM_SQLITE_INSERT_T_DEVICE_LIST) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_blob(stmt, PDM_BIND_INDEX_SECOND, UUID, UUID_LENGTH, SQLITE_STATIC);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_THIRD, PDM_DEVICE_INIT);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_step(stmt);
if (SQLITE_DONE != res)
return OC_STACK_ERROR;
}
sqlite3_finalize(stmt);
+
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
*/
static OCStackResult getIdForUUID(const OicUuid_t *UUID , int *id)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
sqlite3_stmt *stmt = 0;
int res = 0;
- res = sqlite3_prepare_v2(g_db, PDM_SQLITE_GET_ID, strlen(PDM_SQLITE_GET_ID) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ char sqlStat[PDM_SQLITE_GET_ID_SIZE - 1 + HEX_UUID_STR_LENGTH];
+ char hexUUID[HEX_UUID_STR_LENGTH];
- res = sqlite3_bind_blob(stmt, PDM_BIND_INDEX_FIRST, UUID, UUID_LENGTH, SQLITE_STATIC);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ memset(sqlStat, 0, sizeof(sqlStat));
+ strncpy(sqlStat, PDM_SQLITE_GET_ID, PDM_SQLITE_GET_ID_SIZE - 1);
+ memset(hexUUID, 0, sizeof(hexUUID));
- OIC_LOG(DEBUG, TAG, "Binding Done");
- while (SQLITE_ROW == sqlite3_step(stmt))
+ if (!convertUuidToHexString(UUID, hexUUID))
+ {
+ return OC_STACK_ERROR;
+ }
+
+ strncpy(sqlStat + PDM_SQLITE_GET_ID_SIZE - 1, hexUUID, HEX_UUID_STR_LENGTH);
+ res = sqlite3_prepare_v2(g_db, sqlStat, (int)sizeof(sqlStat), &stmt, 0);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
+
+ if (SQLITE_ROW == sqlite3_step(stmt))
{
int tempId = sqlite3_column_int(stmt, PDM_FIRST_INDEX);
OIC_LOG_V(DEBUG, TAG, "ID is %d", tempId);
*id = tempId;
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
+
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
+
return OC_STACK_INVALID_PARAM;
}
*/
OCStackResult PDMIsDuplicateDevice(const OicUuid_t* UUID, bool *result)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
CHECK_PDM_INIT(TAG);
if (NULL == UUID || NULL == result)
}
sqlite3_stmt *stmt = 0;
int res = 0;
- res = sqlite3_prepare_v2(g_db, PDM_SQLITE_GET_ID, strlen(PDM_SQLITE_GET_ID) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ char sqlStat[PDM_SQLITE_GET_ID_SIZE - 1 + HEX_UUID_STR_LENGTH];
+ char hexUUID[HEX_UUID_STR_LENGTH];
+
+ memset(sqlStat, 0, sizeof(sqlStat));
+ strncpy(sqlStat, PDM_SQLITE_GET_ID, PDM_SQLITE_GET_ID_SIZE - 1);
+ memset(hexUUID, 0, sizeof(hexUUID));
+
+ if (!convertUuidToHexString(UUID, hexUUID))
+ {
+ return OC_STACK_ERROR;
+ }
- res = sqlite3_bind_blob(stmt, PDM_BIND_INDEX_FIRST, UUID, UUID_LENGTH, SQLITE_STATIC);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ strncpy(sqlStat + PDM_SQLITE_GET_ID_SIZE - 1, hexUUID, HEX_UUID_STR_LENGTH);
+ res = sqlite3_prepare_v2(g_db, sqlStat, (int)sizeof(sqlStat), &stmt, 0);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
- OIC_LOG(DEBUG, TAG, "Binding Done");
bool retValue = false;
while(SQLITE_ROW == sqlite3_step(stmt))
{
sqlite3_finalize(stmt);
*result = retValue;
+
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
*/
static OCStackResult addlink(int id1, int id2)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
sqlite3_stmt *stmt = 0;
int res = 0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_INSERT_LINK_DATA,
strlen(PDM_SQLITE_INSERT_LINK_DATA) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, id1);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_SECOND, id2);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_THIRD, PDM_DEVICE_ACTIVE);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
if (sqlite3_step(stmt) != SQLITE_DONE)
{
return OC_STACK_ERROR;
}
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
OCStackResult PDMLinkDevices(const OicUuid_t *UUID1, const OicUuid_t *UUID2)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL == UUID1 || NULL == UUID2)
{
}
ASCENDING_ORDER(id1, id2);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return addlink(id1, id2);
}
*/
static OCStackResult removeLink(int id1, int id2)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
int res = 0;
sqlite3_stmt *stmt = 0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_DELETE_LINK, strlen(PDM_SQLITE_DELETE_LINK) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, id1);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_SECOND, id2);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
if (SQLITE_DONE != sqlite3_step(stmt))
{
return OC_STACK_ERROR;
}
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
OCStackResult PDMUnlinkDevices(const OicUuid_t *UUID1, const OicUuid_t *UUID2)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL == UUID1 || NULL == UUID2)
{
return OC_STACK_INVALID_PARAM;
}
ASCENDING_ORDER(id1, id2);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return removeLink(id1, id2);
}
static OCStackResult removeFromDeviceList(int id)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
sqlite3_stmt *stmt = 0;
int res = 0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_DELETE_DEVICE,
strlen(PDM_SQLITE_DELETE_DEVICE) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, id);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
if (sqlite3_step(stmt) != SQLITE_DONE)
{
return OC_STACK_ERROR;
}
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
OCStackResult PDMDeleteDevice(const OicUuid_t *UUID)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL == UUID)
{
return OC_STACK_ERROR;
}
commit();
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
static OCStackResult updateLinkState(int id1, int id2, int state)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
sqlite3_stmt *stmt = 0;
int res = 0 ;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_UPDATE_LINK,
strlen(PDM_SQLITE_UPDATE_LINK) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, state);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_SECOND, id1);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_THIRD, id2);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
if (SQLITE_DONE != sqlite3_step(stmt))
{
return OC_STACK_ERROR;
}
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
OCStackResult PDMSetLinkStale(const OicUuid_t* uuidOfDevice1, const OicUuid_t* uuidOfDevice2)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL == uuidOfDevice1 || NULL == uuidOfDevice2)
{
return OC_STACK_INVALID_PARAM;
}
ASCENDING_ORDER(id1, id2);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return updateLinkState(id1, id2, PDM_DEVICE_STALE);
}
OCStackResult PDMGetOwnedDevices(OCUuidList_t **uuidList, size_t *numOfDevices)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL != *uuidList)
{
int res = 0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_LIST_ALL_UUID,
strlen(PDM_SQLITE_LIST_ALL_UUID) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
size_t counter = 0;
while (SQLITE_ROW == sqlite3_step(stmt))
}
*numOfDevices = counter;
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
static OCStackResult getUUIDforId(int id, OicUuid_t *uid, bool *result)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
sqlite3_stmt *stmt = 0;
int res = 0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_GET_UUID,
strlen(PDM_SQLITE_GET_UUID) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, id);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
- while (SQLITE_ROW == sqlite3_step(stmt))
+ if (SQLITE_ROW == sqlite3_step(stmt))
{
const void *ptr = sqlite3_column_blob(stmt, PDM_FIRST_INDEX);
memcpy(uid, ptr, sizeof(OicUuid_t));
return OC_STACK_OK;
}
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_INVALID_PARAM;
}
OCStackResult PDMGetLinkedDevices(const OicUuid_t *UUID, OCUuidList_t **UUIDLIST, size_t *numOfDevices)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL == UUID || NULL == numOfDevices || !UUIDLIST)
{
int res = 0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_GET_LINKED_DEVICES,
strlen(PDM_SQLITE_GET_LINKED_DEVICES) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, id);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_SECOND, id);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
size_t counter = 0;
while (SQLITE_ROW == sqlite3_step(stmt))
}
*numOfDevices = counter;
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
OCStackResult PDMGetToBeUnlinkedDevices(OCPairList_t **staleDevList, size_t *numOfDevices)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL != *staleDevList)
{
int res = 0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_GET_STALE_INFO,
strlen(PDM_SQLITE_GET_STALE_INFO) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, PDM_DEVICE_STALE);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
size_t counter = 0;
while (SQLITE_ROW == sqlite3_step(stmt))
}
*numOfDevices = counter;
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
OCStackResult PDMClose()
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
int res = 0;
res = sqlite3_close(g_db);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, NULL, ERROR, OC_STACK_ERROR);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
void PDMDestoryOicUuidLinkList(OCUuidList_t* ptr)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
if(ptr)
{
OCUuidList_t *tmp1 = NULL,*tmp2=NULL;
OICFree(tmp1);
}
}
+
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
}
void PDMDestoryStaleLinkList(OCPairList_t* ptr)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
if(ptr)
{
OCPairList_t *tmp1 = NULL,*tmp2=NULL;
OICFree(tmp1);
}
}
+
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
}
OCStackResult PDMIsLinkExists(const OicUuid_t* uuidOfDevice1, const OicUuid_t* uuidOfDevice2,
bool* result)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
CHECK_PDM_INIT(TAG);
if (NULL == uuidOfDevice1 || NULL == uuidOfDevice2 || NULL == result)
{
int res = 0;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_GET_DEVICE_LINKS,
strlen(PDM_SQLITE_GET_DEVICE_LINKS) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, id1);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_SECOND, id2);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
bool ret = false;
while(SQLITE_ROW == sqlite3_step(stmt))
}
sqlite3_finalize(stmt);
*result = ret;
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
static OCStackResult updateDeviceState(const OicUuid_t *uuid, PdmDeviceState_t state)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+ OIC_LOG_V(WARNING, TAG, "UUID is: %s", (char*) uuid);
+
sqlite3_stmt *stmt = 0;
int res = 0 ;
- res = sqlite3_prepare_v2(g_db, PDM_SQLITE_UPDATE_DEVICE,
- strlen(PDM_SQLITE_UPDATE_DEVICE) + 1, &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ char sqlStat[PDM_SQLITE_UPDATE_DEVICE_SIZE - 1 + HEX_UUID_STR_LENGTH];
+ char hexUUID[HEX_UUID_STR_LENGTH];
- res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, state);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ memset(sqlStat, 0, sizeof(sqlStat));
+ strncpy(sqlStat, PDM_SQLITE_UPDATE_DEVICE, PDM_SQLITE_UPDATE_DEVICE_SIZE - 1);
+ memset(hexUUID, 0, sizeof(hexUUID));
+
+ if (!convertUuidToHexString(uuid, hexUUID))
+ {
+ return OC_STACK_ERROR;
+ }
+
+ strncpy(sqlStat + PDM_SQLITE_UPDATE_DEVICE_SIZE - 1, hexUUID, HEX_UUID_STR_LENGTH);
+ res = sqlite3_prepare_v2(g_db, sqlStat,
+ (int)sizeof(sqlStat), &stmt, NULL);
- res = sqlite3_bind_blob(stmt, PDM_BIND_INDEX_SECOND, uuid, UUID_LENGTH, SQLITE_STATIC);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
+ res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, state);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
if (SQLITE_DONE != sqlite3_step(stmt))
{
return OC_STACK_ERROR;
}
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
static OCStackResult updateLinkForStaleDevice(const OicUuid_t *devUuid)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
sqlite3_stmt *stmt = 0;
int res = 0 ;
res = sqlite3_prepare_v2(g_db, PDM_SQLITE_UPDATE_LINK_STALE_FOR_STALE_DEVICE,
strlen(PDM_SQLITE_UPDATE_LINK_STALE_FOR_STALE_DEVICE) + 1,
&stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, id);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_SECOND, id);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
if (SQLITE_DONE != sqlite3_step(stmt))
{
return OC_STACK_ERROR;
}
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
OCStackResult PDMSetDeviceState(const OicUuid_t* uuid, PdmDeviceState_t state)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
OCStackResult res = OC_STACK_ERROR;
CHECK_PDM_INIT(TAG);
return res;
}
commit();
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
return OC_STACK_OK;
}
OCStackResult PDMGetDeviceState(const OicUuid_t *uuid, PdmDeviceState_t* result)
{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
if (NULL == uuid || NULL == result)
{
OIC_LOG(ERROR, TAG, "UUID or result is NULL");
sqlite3_stmt *stmt = 0;
int res = 0;
- res = sqlite3_prepare_v2(g_db, PDM_SQLITE_GET_DEVICE_STATUS, strlen(PDM_SQLITE_GET_DEVICE_STATUS) + 1,
- &stmt, NULL);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ char sqlStat[PDM_SQLITE_GET_DEVICE_STATUS_SIZE - 1 + HEX_UUID_STR_LENGTH];
+ char hexUUID[HEX_UUID_STR_LENGTH];
+
+ memset(sqlStat, 0, sizeof(sqlStat));
+ strncpy(sqlStat, PDM_SQLITE_GET_DEVICE_STATUS, PDM_SQLITE_GET_DEVICE_STATUS_SIZE - 1);
+ memset(hexUUID, 0, sizeof(hexUUID));
+
+ if (!convertUuidToHexString(uuid, hexUUID))
+ {
+ return OC_STACK_ERROR;
+ }
- res = sqlite3_bind_blob(stmt, PDM_BIND_INDEX_FIRST, uuid, UUID_LENGTH, SQLITE_STATIC);
- PDM_VERIFY_SQLITE_OK(TAG, res, ERROR, OC_STACK_ERROR);
+ strncpy(sqlStat + PDM_SQLITE_GET_DEVICE_STATUS_SIZE - 1, hexUUID, HEX_UUID_STR_LENGTH);
+ res = sqlite3_prepare_v2(g_db, sqlStat, (int)sizeof(sqlStat), &stmt, 0);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
*result = PDM_DEVICE_UNKNOWN;
while(SQLITE_ROW == sqlite3_step(stmt))
OIC_LOG_V(DEBUG, TAG, "Device state is %d", tempStaleStateFromDb);
*result = (PdmDeviceState_t)tempStaleStateFromDb;
}
+
sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
+
return OC_STACK_OK;
}
+OCStackResult PDMDeleteDeviceWithState(const PdmDeviceState_t state)
+{
+ OIC_LOG_V(DEBUG, TAG, "IN %s", __func__);
+
+ CHECK_PDM_INIT(TAG);
+ if (PDM_DEVICE_ACTIVE != state && PDM_DEVICE_STALE != state &&
+ PDM_DEVICE_INIT != state && PDM_DEVICE_UNKNOWN != state)
+ {
+ return OC_STACK_INVALID_PARAM;
+ }
+
+ sqlite3_stmt *stmt = 0;
+ int res =0;
+ res = sqlite3_prepare_v2(g_db, PDM_SQLITE_DELETE_DEVICE_WITH_STATE,
+ strlen(PDM_SQLITE_DELETE_DEVICE_WITH_STATE) + 1, &stmt, NULL);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
+
+ res = sqlite3_bind_int(stmt, PDM_BIND_INDEX_FIRST, state);
+ PDM_VERIFY_SQLITE_OK(TAG, res, stmt, ERROR, OC_STACK_ERROR);
+
+ if (SQLITE_DONE != sqlite3_step(stmt))
+ {
+ OIC_LOG_V(ERROR, TAG, "Error message: %s", sqlite3_errmsg(g_db));
+ sqlite3_finalize(stmt);
+ return OC_STACK_ERROR;
+ }
+ sqlite3_finalize(stmt);
+ OIC_LOG_V(DEBUG, TAG, "OUT %s", __func__);
+ return OC_STACK_OK;
+}