diff options
Diffstat (limited to 'src/modules/m_sqlv2.h')
-rw-r--r-- | src/modules/m_sqlv2.h | 606 |
1 files changed, 606 insertions, 0 deletions
diff --git a/src/modules/m_sqlv2.h b/src/modules/m_sqlv2.h new file mode 100644 index 000000000..a9297bd80 --- /dev/null +++ b/src/modules/m_sqlv2.h @@ -0,0 +1,606 @@ +/* +------------------------------------+ + * | Inspire Internet Relay Chat Daemon | + * +------------------------------------+ + * + * InspIRCd: (C) 2002-2009 InspIRCd Development Team + * See: http://wiki.inspircd.org/Credits + * + * This program is free but copyrighted software; see + * the file COPYING for details. + * + * --------------------------------------------------- + */ + +#ifndef INSPIRCD_SQLAPI_2 +#define INSPIRCD_SQLAPI_2 + +#include <string> +#include <deque> +#include <map> +#include "modules.h" + +/** Identifiers used to identify Request types + */ +#define SQLREQID "SQLv2 Request" +#define SQLRESID "SQLv2 Result" +#define SQLSUCCESS "You shouldn't be reading this (success)" + +/** Defines the error types which SQLerror may be set to + */ +enum SQLerrorNum { SQL_NO_ERROR, SQL_BAD_DBID, SQL_BAD_CONN, SQL_QSEND_FAIL, SQL_QREPLY_FAIL }; + +/** A list of format parameters for an SQLquery object. + */ +typedef std::deque<std::string> ParamL; + +/** The base class of SQL exceptions + */ +class SQLexception : public ModuleException +{ + public: + SQLexception(const std::string &reason) : ModuleException(reason) + { + } + + SQLexception() : ModuleException("SQLv2: Undefined exception") + { + } +}; + +/** An exception thrown when a bad column or row name or id is requested + */ +class SQLbadColName : public SQLexception +{ +public: + SQLbadColName() : SQLexception("SQLv2: Bad column name") + { + } +}; + +/** SQLerror holds the error state of any SQLrequest or SQLresult. + * The error string varies from database software to database software + * and should be used to display informational error messages to users. + */ +class SQLerror : public classbase +{ + /** The error id + */ + SQLerrorNum id; + /** The error string + */ + std::string str; +public: + /** Initialize an SQLerror + * @param i The error ID to set + * @param s The (optional) error string to set + */ + SQLerror(SQLerrorNum i = SQL_NO_ERROR, const std::string &s = "") + : id(i), str(s) + { + } + + /** Return the ID of the error + */ + SQLerrorNum Id() + { + return id; + } + + /** Set the ID of an error + * @param i The new error ID to set + * @return the ID which was set + */ + SQLerrorNum Id(SQLerrorNum i) + { + id = i; + return id; + } + + /** Set the error string for an error + * @param s The new error string to set + */ + void Str(const std::string &s) + { + str = s; + } + + /** Return the error string for an error + */ + const char* Str() + { + if(str.length()) + return str.c_str(); + + switch(id) + { + case SQL_NO_ERROR: + return "No error"; + case SQL_BAD_DBID: + return "Invalid database ID"; + case SQL_BAD_CONN: + return "Invalid connection"; + case SQL_QSEND_FAIL: + return "Sending query failed"; + case SQL_QREPLY_FAIL: + return "Getting query result failed"; + default: + return "Unknown error"; + } + } +}; + +/** SQLquery provides a way to represent a query string, and its parameters in a type-safe way. + * C++ has no native type-safe way of having a variable number of arguments to a function, + * the workaround for this isn't easy to describe simply, but in a nutshell what's really + * happening when - from the above example - you do this: + * + * SQLrequest foo = SQLrequest(this, target, "databaseid", SQLquery("SELECT (foo, bar) FROM rawr WHERE foo = '?' AND bar = ?", "Hello", "42")); + * + * what's actually happening is functionally this: + * + * SQLrequest foo = SQLrequest(this, target, "databaseid", query("SELECT (foo, bar) FROM rawr WHERE foo = '?' AND bar = ?").addparam("Hello").addparam("42")); + * + * with 'query()' returning a reference to an object with a 'addparam()' member function which + * in turn returns a reference to that object. There are actually four ways you can create a + * SQLrequest..all have their disadvantages and advantages. In the real implementations the + * 'query()' function is replaced by the constructor of another class 'SQLquery' which holds + * the query string and a ParamL (std::deque<std::string>) of query parameters. + * This is essentially the same as the above example except 'addparam()' is replaced by operator,(). The full syntax for this method is: + * + * SQLrequest foo = SQLrequest(this, target, "databaseid", (SQLquery("SELECT.. ?"), parameter, parameter)); + */ +class SQLquery : public classbase +{ +public: + /** The query 'format string' + */ + std::string q; + /** The query parameter list + * There should be one parameter for every ? character + * within the format string shown above. + */ + ParamL p; + + /** Initialize an SQLquery with a given format string only + */ + SQLquery(const std::string &query) + : q(query) + { + } + + /** Initialize an SQLquery with a format string and parameters. + * If you provide parameters, you must initialize the list yourself + * if you choose to do it via this method, using std::deque::push_back(). + */ + SQLquery(const std::string &query, const ParamL ¶ms) + : q(query), p(params) + { + } + + /** An overloaded operator for pushing parameters onto the parameter list + */ + template<typename T> SQLquery& operator,(const T &foo) + { + p.push_back(ConvToStr(foo)); + return *this; + } + + /** An overloaded operator for pushing parameters onto the parameter list. + * This has higher precedence than 'operator,' and can save on parenthesis. + */ + template<typename T> SQLquery& operator%(const T &foo) + { + p.push_back(ConvToStr(foo)); + return *this; + } +}; + +/** SQLrequest is sent to the SQL API to command it to run a query and return the result. + * You must instantiate this object with a valid SQLquery object and its parameters, then + * send it using its Send() method to the module providing the 'SQL' feature. To find this + * module, use Server::FindFeature(). + */ +class SQLrequest : public Request +{ +public: + /** The fully parsed and expanded query string + * This is initialized from the SQLquery parameter given in the constructor. + */ + SQLquery query; + /** The database ID to apply the request to + */ + std::string dbid; + /** True if this is a priority query. + * Priority queries may 'queue jump' in the request queue. + */ + bool pri; + /** The query ID, assigned by the SQL api. + * After your request is processed, this will + * be initialized for you by the API to a valid request ID, + * except in the case of an error. + */ + unsigned long id; + /** If an error occured, error.id will be any other value than SQL_NO_ERROR. + */ + SQLerror error; + + /** Initialize an SQLrequest. + * For example: + * + * SQLrequest req = SQLrequest(MyMod, SQLModule, dbid, SQLquery("INSERT INTO ircd_log_actors VALUES('','?')" % nick)); + * + * @param s A pointer to the sending module, where the result should be routed + * @param d A pointer to the receiving module, identified as implementing the 'SQL' feature + * @param databaseid The database ID to perform the query on. This must match a valid + * database ID from the configuration of the SQL module. + * @param q A properly initialized SQLquery object. + */ + SQLrequest(Module* s, Module* d, const std::string &databaseid, const SQLquery &q) + : Request(s, d, SQLREQID), query(q), dbid(databaseid), pri(false), id(0) + { + } + + /** Set the priority of a request. + */ + void Priority(bool p = true) + { + pri = p; + } + + /** Set the source of a request. You should not need to use this method. + */ + void SetSource(Module* mod) + { + source = mod; + } +}; + +/** + * This class contains a field's data plus a way to determine if the field + * is NULL or not without having to mess around with NULL pointers. + */ +class SQLfield +{ +public: + /** + * The data itself + */ + std::string d; + + /** + * If the field was null + */ + bool null; + + /** Initialize an SQLfield + */ + SQLfield(const std::string &data = "", bool n = false) + : d(data), null(n) + { + + } +}; + +/** A list of items which make up a row of a result or table (tuple) + * This does not include field names. + */ +typedef std::vector<SQLfield> SQLfieldList; +/** A list of items which make up a row of a result or table (tuple) + * This also includes the field names. + */ +typedef std::map<std::string, SQLfield> SQLfieldMap; + +/** SQLresult is a reply to a previous query. + * If you send a query to the SQL api, the response will arrive at your + * OnRequest method of your module at some later time, depending on the + * congestion of the SQL server and complexity of the query. The ID of + * this result will match the ID assigned to your original request. + * SQLresult contains its own internal cursor (row counter) which is + * incremented with each method call which retrieves a single row. + */ +class SQLresult : public Request +{ +public: + /** The original query string passed initially to the SQL API + */ + std::string query; + /** The database ID the query was executed on + */ + std::string dbid; + /** + * The error (if any) which occured. + * If an error occured the value of error.id will be any + * other value than SQL_NO_ERROR. + */ + SQLerror error; + /** + * This will match query ID you were given when sending + * the request at an earlier time. + */ + unsigned long id; + + /** Used by the SQL API to instantiate an SQLrequest + */ + SQLresult(Module* s, Module* d, unsigned long i) + : Request(s, d, SQLRESID), id(i) + { + } + + /** + * Return the number of rows in the result + * Note that if you have perfomed an INSERT + * or UPDATE query or other query which will + * not return rows, this will return the + * number of affected rows, and SQLresult::Cols() + * will contain 0. In this case you SHOULD NEVER + * access any of the result set rows, as there arent any! + * @returns Number of rows in the result set. + */ + virtual int Rows() = 0; + + /** + * Return the number of columns in the result. + * If you performed an UPDATE or INSERT which + * does not return a dataset, this value will + * be 0. + * @returns Number of columns in the result set. + */ + virtual int Cols() = 0; + + /** + * Get a string name of the column by an index number + * @param column The id number of a column + * @returns The column name associated with the given ID + */ + virtual std::string ColName(int column) = 0; + + /** + * Get an index number for a column from a string name. + * An exception of type SQLbadColName will be thrown if + * the name given is invalid. + * @param column The column name to get the ID of + * @returns The ID number of the column provided + */ + virtual int ColNum(const std::string &column) = 0; + + /** + * Get a string value in a given row and column + * This does not effect the internal cursor. + * @returns The value stored at [row,column] in the table + */ + virtual SQLfield GetValue(int row, int column) = 0; + + /** + * Return a list of values in a row, this should + * increment an internal counter so you can repeatedly + * call it until it returns an empty vector. + * This returns a reference to an internal object, + * the same object is used for all calls to this function + * and therefore the return value is only valid until + * you call this function again. It is also invalid if + * the SQLresult object is destroyed. + * The internal cursor (row counter) is incremented by one. + * @returns A reference to the current row's SQLfieldList + */ + virtual SQLfieldList& GetRow() = 0; + + /** + * As above, but return a map indexed by key name. + * The internal cursor (row counter) is incremented by one. + * @returns A reference to the current row's SQLfieldMap + */ + virtual SQLfieldMap& GetRowMap() = 0; + + /** + * Like GetRow(), but returns a pointer to a dynamically + * allocated object which must be explicitly freed. For + * portability reasons this must be freed with SQLresult::Free() + * The internal cursor (row counter) is incremented by one. + * @returns A newly-allocated SQLfieldList + */ + virtual SQLfieldList* GetRowPtr() = 0; + + /** + * As above, but return a map indexed by key name + * The internal cursor (row counter) is incremented by one. + * @returns A newly-allocated SQLfieldMap + */ + virtual SQLfieldMap* GetRowMapPtr() = 0; + + /** + * Overloaded function for freeing the lists and maps + * returned by GetRowPtr or GetRowMapPtr. + * @param fm The SQLfieldMap to free + */ + virtual void Free(SQLfieldMap* fm) = 0; + + /** + * Overloaded function for freeing the lists and maps + * returned by GetRowPtr or GetRowMapPtr. + * @param fl The SQLfieldList to free + */ + virtual void Free(SQLfieldList* fl) = 0; +}; + + +/** SQLHost represents a <database> config line and is useful + * for storing in a map and iterating on rehash to see which + * <database> tags was added/removed/unchanged. + */ +class SQLhost +{ + public: + std::string id; /* Database handle id */ + std::string host; /* Database server hostname */ + std::string ip; /* resolved IP, needed for at least pgsql.so */ + unsigned int port; /* Database server port */ + std::string name; /* Database name */ + std::string user; /* Database username */ + std::string pass; /* Database password */ + bool ssl; /* If we should require SSL */ + + SQLhost() + : id(""), host(""), ip(""), port(0), name(""), user(""), pass(""), ssl(0) + { + } + + SQLhost(const std::string& i, const std::string& h, unsigned int p, const std::string& n, const std::string& u, const std::string& pa, bool s) + : id(i), host(h), ip(""), port(p), name(n), user(u), pass(pa), ssl(s) + { + } + + /** Overload this to return a correct Data source Name (DSN) for + * the current SQL module. + */ + std::string GetDSN(); +}; + +/** Overload operator== for two SQLhost objects for easy comparison. + */ +bool operator== (const SQLhost& l, const SQLhost& r) +{ + return (l.id == r.id && l.host == r.host && l.port == r.port && l.name == r.name && l.user == r.user && l.pass == r.pass && l.ssl == r.ssl); +} +/** Overload operator!= for two SQLhost objects for easy comparison. + */ +bool operator!= (const SQLhost& l, const SQLhost& r) +{ + return (l.id != r.id || l.host != r.host || l.port != r.port || l.name != r.name || l.user != r.user || l.pass != r.pass || l.ssl != r.ssl); +} + + +/** QueryQueue, a queue of queries waiting to be executed. + * This maintains two queues internally, one for 'priority' + * queries and one for less important ones. Each queue has + * new queries appended to it and ones to execute are popped + * off the front. This keeps them flowing round nicely and no + * query should ever get 'stuck' for too long. If there are + * queries in the priority queue they will be executed first, + * 'unimportant' queries will only be executed when the + * priority queue is empty. + * + * We store lists of SQLrequest's here, by value as we want to avoid storing + * any data allocated inside the client module (in case that module is unloaded + * while the query is in progress). + * + * Because we want to work on the current SQLrequest in-situ, we need a way + * of accessing the request we are currently processing, QueryQueue::front(), + * but that call needs to always return the same request until that request + * is removed from the queue, this is what the 'which' variable is. New queries are + * always added to the back of one of the two queues, but if when front() + * is first called then the priority queue is empty then front() will return + * a query from the normal queue, but if a query is then added to the priority + * queue then front() must continue to return the front of the *normal* queue + * until pop() is called. + */ + +class QueryQueue : public classbase +{ +private: + typedef std::deque<SQLrequest> ReqDeque; + + ReqDeque priority; /* The priority queue */ + ReqDeque normal; /* The 'normal' queue */ + enum { PRI, NOR, NON } which; /* Which queue the currently active element is at the front of */ + +public: + QueryQueue() + : which(NON) + { + } + + void push(const SQLrequest &q) + { + if(q.pri) + priority.push_back(q); + else + normal.push_back(q); + } + + void pop() + { + if((which == PRI) && priority.size()) + { + priority.pop_front(); + } + else if((which == NOR) && normal.size()) + { + normal.pop_front(); + } + + /* Reset this */ + which = NON; + + /* Silently do nothing if there was no element to pop() */ + } + + SQLrequest& front() + { + switch(which) + { + case PRI: + return priority.front(); + case NOR: + return normal.front(); + default: + if(priority.size()) + { + which = PRI; + return priority.front(); + } + + if(normal.size()) + { + which = NOR; + return normal.front(); + } + + /* This will probably result in a segfault, + * but the caller should have checked totalsize() + * first so..meh - moron :p + */ + + return priority.front(); + } + } + + std::pair<int, int> size() + { + return std::make_pair(priority.size(), normal.size()); + } + + int totalsize() + { + return priority.size() + normal.size(); + } + + void PurgeModule(Module* mod) + { + DoPurgeModule(mod, priority); + DoPurgeModule(mod, normal); + } + +private: + void DoPurgeModule(Module* mod, ReqDeque& q) + { + for(ReqDeque::iterator iter = q.begin(); iter != q.end(); iter++) + { + if(iter->GetSource() == mod) + { + if(iter->id == front().id) + { + /* It's the currently active query.. :x */ + iter->SetSource(NULL); + } + else + { + /* It hasn't been executed yet..just remove it */ + iter = q.erase(iter); + } + } + } + } +}; + + +#endif |