int umAddUser(char_t *user, char_t *pass, char_t *group,
bool_t prot, bool_t disabled)
{
int row;
char_t *password;
a_assert(user && *user);
a_assert(pass && *pass);
a_assert(group && *group);
trace(3, T("UM: Adding User <%s>\n"), user);
/*
* Do not allow duplicates
*/
if (umUserExists(user)) {
return UM_ERR_DUPLICATE;
}
/*
* Make sure user name and password contain valid characters
*/
if (!umCheckName(user)) {
return UM_ERR_BAD_NAME;
}
if (!umCheckName(pass)) {
return UM_ERR_BAD_PASSWORD;
}
/*
* Make sure group exists
*/
if (!umGroupExists(group)) {
return UM_ERR_NOT_FOUND;
}
/*
* Now create the user record
*/
row = dbAddRow(didUM, UM_USER_TABLENAME);
if (row < 0) {
return UM_ERR_GENERAL;
}
if (dbWriteStr(didUM, UM_USER_TABLENAME, UM_NAME, row, user) != 0) {
return UM_ERR_GENERAL;
}
password = bstrdup(B_L, pass);
umEncryptString(password);
dbWriteStr(didUM, UM_USER_TABLENAME, UM_PASS, row, password);
bfree(B_L, password);
dbWriteStr(didUM, UM_USER_TABLENAME, UM_GROUP, row, group);
dbWriteInt(didUM, UM_USER_TABLENAME, UM_PROT, row, prot);
dbWriteInt(didUM, UM_USER_TABLENAME, UM_DISABLE, row, disabled);
return 0;
}
int umAddGroup(char_t *group, short priv, accessMeth_t am,
bool_t prot, bool_t disabled)
{
int row;
a_assert(group && *group);
trace(3, T("UM: Adding group <%s>\n"), group);
/*
* Do not allow duplicates
*/
if (umGroupExists(group)) {
return UM_ERR_DUPLICATE;
}
/*
* Only allow valid characters in key field
*/
if (!umCheckName(group)) {
return UM_ERR_BAD_NAME;
}
/*
* Add a new row to the table
*/
if ((row = dbAddRow(didUM, UM_GROUP_TABLENAME)) < 0) {
return UM_ERR_GENERAL;
}
/*
* Write the key field
*/
if (dbWriteStr(didUM, UM_GROUP_TABLENAME, UM_NAME, row, group) != 0) {
return UM_ERR_GENERAL;
}
/*
* Write the remaining fields
*/
dbWriteInt(didUM, UM_GROUP_TABLENAME, UM_PRIVILEGE, row, priv);
dbWriteInt(didUM, UM_GROUP_TABLENAME, UM_METHOD, row, (int) am);
dbWriteInt(didUM, UM_GROUP_TABLENAME, UM_PROT, row, prot);
dbWriteInt(didUM, UM_GROUP_TABLENAME, UM_DISABLE, row, disabled);
return 0;
}
int dbSetTableNrow(int did, char_t *tablename, int nNewRows)
{
int nRet, tid, nRows, nColumns;
dbTable_t *pTable;
a_assert(tablename);
tid = dbGetTableId(0, tablename);
a_assert(tid >= 0) ;
if ((tid >= 0) && (tid < dbMaxTables) && (dbListTables[tid] != NULL)) {
pTable = dbListTables[tid];
} else {
return DB_ERR_TABLE_NOT_FOUND;
}
nRet = -1;
a_assert(pTable);
if (pTable) {
nColumns = pTable->nColumns;
nRows = pTable->nRows;
nRet = 0;
if (nRows >= nNewRows) {
/*
* If number of rows already allocated exceeds requested number, do nothing
*/
trace(4, T("DB: Ignoring row set to <%d> in table <%s>\n"),
nNewRows, tablename);
} else {
trace(4, T("DB: Setting rows to <%d> in table <%s>\n"),
nNewRows, tablename);
while (pTable->nRows < nNewRows) {
if (dbAddRow(did, tablename) < 0) {
return -1;
}
}
}
}
return nRet;
}
int umAddAccessLimit(char_t *url, accessMeth_t am, short secure, char_t *group)
{
int row;
a_assert(url && *url);
trace(3, T("UM: Adding Access Limit for <%s>\n"), url);
/*
* Do not allow duplicates
*/
if (umAccessLimitExists(url)) {
return UM_ERR_DUPLICATE;
}
/*
* Add a new row to the table
*/
if ((row = dbAddRow(didUM, UM_ACCESS_TABLENAME)) < 0) {
return UM_ERR_GENERAL;
}
/*
* Write the key field
*/
if(dbWriteStr(didUM, UM_ACCESS_TABLENAME, UM_NAME, row, url) < 0) {
return UM_ERR_GENERAL;
}
/*
* Write the remaining fields
*/
dbWriteInt(didUM, UM_ACCESS_TABLENAME, UM_METHOD, row, (int)am);
dbWriteInt(didUM, UM_ACCESS_TABLENAME, UM_SECURE, row, (int)secure);
dbWriteStr(didUM, UM_ACCESS_TABLENAME, UM_GROUP, row, group);
return 0;
}
