Base class for a connection to an SQL database.

This class is the base class for connections to SQL servers. It is a generic interface on top of which the DB server specific implement their specifics.

This class thus serves as an interface guideline for the DB server specific connection classes.

Untyped and typed mode

The query results are returned in different ways depending on the query functions used: The ..typed_query functions select typed mode, while the other query functions uses the older untyped mode.

• In untyped mode, all values except SQL NULL are returned as strings in their display representation, and SQL NULL is returned as zero.

• In typed mode, values are returned in pike native form where it works well. That means at least that SQL integer fields are returned as pike integers, floats as floats, SQL NULL as Val.null, and of course strings still as strings. The representation of other SQL types depends on the capabilities of the server specific backends. It's also possible that floats in some cases are represented in other ways if too much precision is lost in the conversion to pike floats.

For historical reasons, there may be server specific backends that operate differently from what is described here, e.g. some that return a bit of typed data in untyped mode.

Typed operation was not supported at all prior to Pike 7.8.363, and may not be supported for all databases.

Sql.Connection, Sql.Sql(), Result

Convert all field names in mappings to lower_case. Only relevant to databases which only implement big_query(), and use upper/mixed-case fieldnames (eg Oracle).

Compatibility interface.

This used to be a variable containing the server specific connection object used for the actual SQL queries.

As the wrapper no longer exists, this symbol now just evaluates to the object.

Read only

Send an SQL query synchronously to the SQL-server and return the results in untyped mode.

Query to send to the SQL-server. This can either be a string with the query, or a previously compiled query (see compile_query()).

An Sql.Result object in untyped mode. This allows for having some more info about the result as well as processing the result in a streaming fashion, although the result itself wasn't obtained streamingly from the server.

Might throw an exception if the query fails. In some cases, the exception is delayed, because the database reports the error a (little) while after the query has already been started.

This prototype function is the base variant and is intended to be overloaded by actual drivers.

Despite the name, this function is not only useful for "big" queries. It typically has less overhead than query also for ones that return only a few rows.

query, streaming_query, big_typed_query, streaming_typed_query

Send an SQL query synchronously to the SQL-server and return the results in untyped mode.

Query to send to the SQL-server. This can either be a string with the query, or a previously compiled query (see compile_query()).

A mapping containing bindings of variables used in the query. A variable is identified by a colon (':') followed by a name or number. Each index in the mapping corresponds to one such variable, and the value for that index is substituted (quoted) into the query wherever the variable is used.

res = big_query("SELECT foo FROM bar WHERE gazonk=:baz",
                ([":baz":"value"]));

Binary values (BLOBs) may need to be placed in multisets.

Mapping entries prefixed with an asterisk ('*') are reserved for for database-specific query options (like eg QUERY_OPTION_CHARSET).

An Sql.Result object in untyped mode. This allows for having some more info about the result as well as processing the result in a streaming fashion, although the result itself wasn't obtained streamingly from the server.

Might throw an exception if the query fails. In some cases, the exception is delayed, because the database reports the error a (little) while after the query has already been started.

Calls the base variant of big_query() after having inserted the bindings into the query (using emulate_bindings()).

Drivers that actually support bindings should overload this variant in addition to the base variant.

Despite the name, this function is not only useful for "big" queries. It typically has less overhead than query also for ones that return only a few rows.

Support for database-specific query options was added in Pike 9.0.

query, emulate_bindings, streaming_query, big_typed_query, streaming_typed_query

Send an SQL query synchronously to the SQL-server and return the results in untyped mode.

Query to send to the SQL-server. This can either be a string with the query, or a previously compiled query (see compile_query()).

Arguments as you would use in sprintf. They are automatically quoted. After the sprintf-style options a mapping with options may be specified.

res = query("select foo from bar where gazonk=%s","value");

An Sql.Result object in untyped mode. This allows for having some more info about the result as well as processing the result in a streaming fashion, although the result itself wasn't obtained streamingly from the server.

The default implementation normalizes q and extraargs to use the bindings mapping (via handle_extraargs()), and calls one of the other variants of big_query() with the result.

Despite the name, this function is not only useful for "big" queries. It typically has less overhead than query also for ones that return only a few rows.

Support for specifying an options mapping was added in Pike 9.0.

query, handle_extraargs, streaming_query

Send an SQL query synchronously to the SQL-server and return the results in typed mode.

For the argument, please see the big_query() function.

An Sql.Result object in typed mode. This allows for having some more info about the result as well as processing the result in a streaming fashion, although the result itself wasn't obtained streamingly from the server.

Typed mode support varies per database and per datatype. SQL datatypes which the current database cannot return as a native Pike type, will be returned as (untyped) strings.

Despite the name, this function is not only useful for "big" queries. It typically has less overhead than typed_query also for ones that return only a few rows.

Drivers should override this prototype function.

query, typed_query, big_query, streaming_query

Send an SQL query synchronously to the SQL-server and return the results in typed mode.

For the arguments, please see the big_query() function.

The result is returned as an Sql.Result object in typed mode. This allows for having some more info about the result as well as processing the result in a streaming fashion, although the result itself wasn't obtained streamingly from the server.

Typed mode support varies per database and per datatype. SQL datatypes which the current database cannot return as a native Pike type, will be returned as (untyped) strings.

Despite the name, this function is not only useful for "big" queries. It typically has less overhead than typed_query also for ones that return only a few rows.

Drivers that actually support bindings should overload this variant in addition to the base variant.

query, typed_query, big_query, streaming_query

Send an SQL query synchronously to the SQL-server and return the results in typed mode.

For the arguments, please see the big_query() function.

The result is returned as an Sql.Result object in typed mode. This allows for having some more info about the result as well as processing the result in a streaming fashion, although the result itself wasn't obtained streamingly from the server.

Typed mode support varies per database and per datatype. SQL datatypes which the current database cannot return as a native Pike type, will be returned as (untyped) strings.

Despite the name, this function is not only useful for "big" queries. It typically has less overhead than typed_query also for ones that return only a few rows.

query, typed_query, big_query, streaming_query

Compiles the query (if possible). Otherwise returns it as is. The resulting object can be used multiple times to the query functions.

SQL-query to compile.

The default implementation just returns q unmodified.

query, typed_query, big_query, big_typed_query, streaming_query, streaming_typed_query

Create a new SQL connection.

Select this database.

User name to access the database as.

Password to access the database.

Optional mapping of options. See the SQL-database documentation for the supported options. (eg Mysql.mysql()->create()).

This function is typically called via Sql.Sql().

Support for options was added in Pike 7.3.

The base class (__builtin.Sql.Connection) only has a prototype.

Sql.Sql()

Create a new database.

Name of database to create.

Converts a database date-only spec to a system time value.

Date spec to decode.

Returns the number of seconds since 1970-01-01T00:00:00 UTC to 00:00:00 at the specified date in the current timezone.

Converts a database date and time spec to a system time value.

Date and time spec to decode.

Returns the number of seconds since 1970-01-01T00:00:00 UTC to the specified date and time in the current timezone.

The default implementation decodes an ISO 9601 timestamp.

Converts a database time spec to a system time value.

Time spec to decode.

Take the date part from this system time value. If zero, a seconds-since-midnight value is returned.

Returns the number of seconds since midnight.

Drop database

Name of database to drop.

Build a raw SQL query, given the cooked query and the variable bindings It's meant to be used as an emulation engine for those drivers that do not provide such behaviour directly (like eg Oracle). The raw query can contain some variables (identified by prefixing a colon to a name or a number (eg ":var" or ":2")). They will be replaced by the corresponding value in the mapping.

The query.

Mapping containing the variable bindings. Make sure that no confusion is possible in the query. If necessary, change the variables' names.

Query charset. Compatibility with Pike 8.0 Mysql API. Use the QUERY_OPTION_CHARSET entry in bindings instead.

Converts a system time value to an appropriately formatted date-only spec for the database.

Time to encode.

The default implementation returns an ISO 9601 date.

Converts a system time value to an appropriately formatted date and time spec for the database.

Time to encode.

The default implementation returns an ISO 9601 timestamp.

Converts a system time value to an appropriately formatted time spec for the database.

Time to encode.

If nonzero then time is taken as a "full" unix time spec (where the date part is ignored), otherwise it's converted as a seconds-since-midnight value.

The default implementation returns a colon-separated ISO 9601 time.

The textual description of the last server-related error. Returns 0 if no error has occurred yet. It is not cleared upon reading (can be invoked multiple times, will return the same result until a new error occurs).

The string returned is not newline-terminated.

To clear the error, set it to 1.

Returns the (database dependent) name of the charset used for (at least) query strings. Returns zero if the connection doesn't support charsets this way (typically means that a call to set_charset will throw an error).

set_charset, Sql.mysql.get_charset

Handle sprintf-based quoted arguments

The query as sent to one of the query functions.

The arguments following the query. The last element of the array may be a bindings mapping.

Returns an array with up to two elements:

Support for specifying an initial options mapping was added in Pike 9.0.

Return info about the connection to the SQL-server.

Returns true if the connection seems to be open.

This function only checks that there's an open connection, and that the other end hasn't closed it yet. No data is sent over the connection.

For a more reliable check of whether the connection is alive, please use ping().

The default implementation just returns the value 1.

ping()

List available databases on this SQL-server.

Optional wildcard to match against.

This function calls low_list_dbs() and optionally performs wildcard filtering.

low_list_dbs()

List fields available in the specified table

Table to list the fields of.

Optional wildcard to match against.

The default implementation calls low_list_fields() and applies the wild-card filter on the result.

List tables available in the current database.

Optional wildcard to match against.

The default implementation calls low_list_tables().

List available databases on this SQL-server.

Returns an array with database names on success and 0 (zero) on failure.

Called by list_dbs().

This function is intended for overriding by drivers not supporting wildcard filtering of database names.

The default implementation attempts the query "SHOW DATABASES".

list_dbs()

List fields available in the specified table

Table to list the fields of.

Returns an array of mappings with at least the fields:

Typically there are also entries for the field types, field widths and nullability.

This function is intended for overriding by drivers not supporting wildcard filtering of field names.

The default implementation attempts the query "SHOW FIELDS FROM 'table'", and then performs some normalization of the result.

list_fields()

List tables available in the current database.

This function is intended for overriding by drivers not supporting wildcard filtering of table names.

The default implementation attempts the query "SHOW TABLES".

list_tables()

Check whether the connection is alive.

Returns one of the following:

The default implementation performs a trivial select to check the connection.

is_open()

Sends a typed query to the database asynchronously.

An Sql.Promise object which can be used to obtain an Sql.FutureResult object to evaluate the query.

streaming_typed_query(), Sql.Promise, Sql.FutureResult

Callback function which is called for every row returned. First parameter is the row, second parameter is the result object being processed, and the third parameter is the array of result rows already collected so far. The function should return the modified version of the row that needs to be stored, or it should return 0 to discard the row.

This is an experimental API, and is likely to be changed to return other objects in future releases of Pike.

Send an SQL query synchronously to the SQL-server and return the results in untyped mode.

For the arguments, please see the big_query() function.

Returns one of the following on success:

Throws an exception if the query fails.

The default implementation calls big_query() and converts its result.

typed_query, big_query, streaming_query

Query current database.

Returns the currently selected database.

select_db()

Quote a string s so that it can safely be put in a query.

All input that is used in SQL-querys should be quoted to prevent SQL injections.

Consider this harmfull code:

string my_input = "rob' OR name!='rob";
  string my_query = "DELETE FROM tblUsers WHERE name='"+my_input+"'";
  my_db->query(my_query);

This type of problems can be avoided by quoting my_input. my_input would then probably read something like rob\' OR name!=\'rob

Usually this is done - not by calling quote explicitly - but through using a sprintf like syntax:

string my_input = "rob' OR name!='rob";
  my_db->query("DELETE FROM tblUsers WHERE name=%s", my_input);

The default implementation quotes single quotes by doubling them.

Reload the tables.

Reset connection state.

Select database to access.

query_db()

Return info about the current SQL-server.

Changes the charset that the connection uses for queries and returned text strings.

The charset to use. The valid values and their meanings depends on the database brand. However, the special value "unicode" (if supported) selects a mode where the query and result strings are unencoded (and possibly wide) unicode strings.

An error is thrown if the connection doesn't support the specified charset, or doesn't support charsets being set this way at all.

See the set_charset functions for each database connection type for further details about the effects on the connection.

get_charset, Sql.mysql.set_charset

Shutdown a database server.

Return last SQLSTATE.

The SQLSTATE error codes are specified in ANSI SQL.

Send an SQL query synchronously to the SQL-server and return the results streaming in untyped mode.

For the arguments, please see the big_query() function.

A streaming Sql.Result object in untyped mode. This allows for having results larger than the available memory, and returning some more info about the result.

Drivers should override this prototype function.

Typed mode support varies per database and per datatype. SQL datatypes which the current database cannot return as a native Pike type, will be returned as (untyped) strings.

big_query, streaming_typed_query

Send an SQL query synchronously to the SQL-server and return the results streaming in untyped mode.

For the arguments, please see the big_query() function.

A streaming Sql.Result object in untyped mode. This allows for having results larger than the available memory, and returning some more info about the result.

Drivers that implement bindings should override this prototype function.

big_query, streaming_typed_query

Send an SQL query synchronously to the SQL-server and return the results streaming in untyped mode.

For the arguments, please see the big_query() function.

A streaming Sql.Result object in untyped mode. This allows for having results larger than the available memory, and returning some more info about the result.

big_query, streaming_typed_query

Send an SQL query synchronously to the SQL-server and return the results streaming in typed mode.

For the arguments, please see the big_query() function.

A streaming Sql.Result object in typed mode. This allows for having results larger than the available memory, and returning some more info about the result.

Drivers should override this prototype function.

big_query, streaming_query, big_typed_query

Send an SQL query synchronously to the SQL-server and return the results streaming in typed mode.

For the arguments, please see the big_query() function.

A streaming Sql.Result object in typed mode. This allows for having results larger than the available memory, and returning some more info about the result.

Drivers should override this prototype function.

big_query, streaming_query, big_typed_query

Send an SQL query synchronously to the SQL-server and return the results streaming in typed mode.

For the arguments, please see the query() function.

A streaming Sql.Result object in typed mode. This allows for having results larger than the available memory, and returning some more info about the result.

big_query, streaming_query, big_typed_query

Send an SQL query synchronously to the SQL-server and return the results in typed mode.

For the arguments, please see the query() function.

Returns one of the following on success:

Typed mode support varies per database and per datatype. SQL datatypes which the current database cannot return as a native Pike type, will be returned as (untyped) strings.

The default implementation calls big_typed_query() and converts its result.

query, big_typed_query

Base class for the result from Connection.big_query() et al.

Base class for results for the SQL-interface.

Used for return results from Sql.Connection->big_query().

This is the number of the current row. The actual semantics differs between different databases.

Getter for the actual result object.

Returns the current object.

Obsoleted in Pike 8.1 due to the wrapper class no longer existing, and this symbol thus essentially being a noop..

Replaced by __builtin.Sql.Result..

Read only

The number of affected rows by this query.

status_command_complete(), num_rows()

Create a new Sql.Result object

Result to use as base.

Non-zero if there are no more rows.

Not reliable! Some drivers have no support for checking whether there are more rows without also fetching them.

Information about the available fields.

Fetch remaining result as JSON-encoded data.

Fetch the next row from the result.

Returns an array with one element per field in the same order as reported by fetch_fields(). See the Sql.Connection class documentation for more details on how different data types are represented.

On EOF it returns 0.

fetch_row_array(), set_result_callback(), set_result_array_callback()

Multiple result rows at a time (at least one). Every result row with one element per field in the same order as reported by fetch_fields(). See the Sql.Connection class documentation for more details on how different data types are represented.

On EOF it returns 0.

fetch_row(), set_result_callback(), set_result_array_callback()

Increment the index.

Value to increment the index with. Defaults to 1.

Returns the new value of the index.

This is a helper function for implementations to update the index.

It is typically called from fetch_row().

Switch to the next set of results.

Some databases support returning more than one set of results. This function terminates the current result and switches to the next (if any).

Returns the Result object if there were more results, and 0 (zero) otherwise.

May throw the same errors as Sql.Connection()->big_query() et al.

The number of fields in the result.

The number of rows in the result.

Depending on the database implementation, this number can still increase between subsequent calls if the results from the query are not complete yet. This function is only guaranteed to return the correct count after EOF has been reached.

affected_rows(), eof()

Skip past a number of rows.

Number of rows to skip.

Sets up a callback for sets of rows returned from the database. First argument passed is the resultobject itself, second argument is the array of result rows (zero on EOF).

fetch_row_array(), set_result_callback()

Sets up a callback for every row returned from the database. First argument passed is the resultobject itself, second argument is the result row (zero on EOF).

fetch_row(), set_result_array_callback()

The command-complete status for this query.

affected_rows()

This class encapsulates a connection to a MySQL server, and implements the glue needed to access the Mysql module from the generic SQL module.

Typed mode

When query results are returned in typed mode, the MySQL data types are represented like this:

The NULL value

Returned as Val.null.

BIT, TINYINT, BOOL, SMALLINT, MEDIUMINT, INT, BIGINT

Returned as pike integers.

FLOAT, DOUBLE

Returned as pike floats.

DECIMAL

Returned as pike integers for fields that are declared to contain zero decimals, otherwise returned as Gmp.mpq objects.

DATE, DATETIME, TIME, YEAR

Returned as strings in their display representation (see the MySQL manual).

Calendar objects are not used partly because they always represent a specific point or range in time, which these MySQL types do not.

TIMESTAMP

Also returned as strings in the display representation.

The reason is that it's both more efficient and more robust (wrt time zone interpretations) to convert these to unix timestamps on the MySQL side rather than in the client glue. I.e. use the UNIX_TIMESTAMP function in the queries to retrieve them as unix timestamps on integer form.

String types

All string types are returned as pike strings. The MySQL glue can handle charset conversions for text strings - see set_charset and set_unicode_decode_mode.

Sql.Connection, Sql.Sql()

Sends a query to the server.

The SQL query.

An optional bindings mapping. See Sql.query for details about this. The mapping may contain a QUERY_OPTION_CHARSET entry with the same semantics as the deprecated charset parameter below.

DEPRECATED An optional charset that will be used temporarily while sending query to the server. If necessary, a query

SET character_set_client=charset

is sent to the server first, then query is sent as-is, and then the connection charset is restored again (if necessary).

Primarily useful with charset set to "latin1" if unicode encode mode (see set_unicode_encode_mode) is enabled (the default) and you have some large queries (typically blob inserts) where you want to avoid the query parsing overhead.

Deprecated; use the entry QUERY_OPTION_CHARSET in bindings instead.

A Result object is returned if the query is of a kind that returns a result. Zero is returned otherwise.

The individual fields are returned as strings except for NULL, which is returned as UNDEFINED.

Sql.big_query(), big_typed_query(), streaming_query()

Makes a typed SQL query.

This function sends the SQL query query to the MySQL server and returns a result object in typed mode, which means that the types of the result fields depend on the corresponding SQL types. See the class docs for details.

In all other respects, it behaves like big_query.

big_query(), streaming_typed_query()

Converts a system time value to an appropriately formatted date-only spec for the database.

Time to encode.

Converts a system time value to an appropriately formatted date and time spec for the database.

Time to encode.

Converts a system time value to an appropriately formatted time spec for the database.

Time to encode.

If nonzero then time is taken as a "full" unix time spec (where the date part is ignored), otherwise it's converted as a seconds-since-midnight value.

Returns the MySQL name for the current connection charset.

Returns "unicode" if unicode encode mode is enabled and UTF-8 is used on the server side (i.e. in character_set_connection).

In servers with full charset support (i.e. MySQL 4.1.0 or later), this corresponds to the MySQL system variable character_set_client (with one exception - see next note) and thus controls the charset in which queries are sent. The charset used for text strings in results might be something else (and typically is if unicode decode mode is enabled; see set_unicode_decode_mode).

If the returned charset is latin1 or unicode and unicode encode mode is enabled (the default) then character_set_client in the server might be either latin1 or utf8, depending on the last sent query. See set_unicode_encode_mode for more info.

set_charset

Returns nonzero if unicode decode mode is enabled, zero otherwise.

set_unicode_decode_mode

Returns nonzero if unicode encode mode is enabled, zero otherwise.

set_unicode_encode_mode

Return 1 if the argument name is a mysql keyword that needs to be quoted in a query. The list is currently up-to-date with MySQL 5.1.

Converts a string in MySQL latin1 format to UTF-8.

Quote a string so that it can safely be put in a query.

String to quote.

Changes the connection charset. Works similar to sending the query SET NAMES charset but also records the charset on the client side so that various client functions work correctly.

charset is a MySQL charset name or the special value "unicode" (see below). You can use SHOW CHARACTER  SET to get a list of valid charsets.

Specifying "unicode" as charset is the same as "utf8" except that unicode encode and decode modes are enabled too. Briefly, this means that you can send queries as unencoded unicode strings and will get back non-binary text results as unencoded unicode strings. See set_unicode_encode_mode and set_unicode_decode_mode for further details.

Throws an exception if the server doesn't support this, i.e. if the statement SET NAMES fails. Support for it was added in MySQL 4.1.0.

If charset is "latin1" and unicode encode mode is enabled (the default) then big_query can send wide unicode queries transparently if the server supports UTF-8. See set_unicode_encode_mode.

If unicode decode mode is already enabled (see set_unicode_decode_mode) then this function won't affect the result charset (i.e. the MySQL system variable character_set_results).

Actually, a query SET character_set_results = utf8 will be sent immediately after setting the charset as above if unicode decode mode is enabled and charset isn't "utf8".

You should always use either this function or the "mysql_charset_name" option to create to set the connection charset, or more specifically the charset that the server expects queries to have (i.e. the MySQL system variable character_set_client). Otherwise big_query might not work correctly.

Afterwards you may change the system variable character_set_connection, and also character_set_results if unicode decode mode isn't enabled.

The MySQL latin1 charset is close to Windows cp1252. The difference from ISO-8859-1 is a bunch of printable chars in the range 0x80..0x9f (which contains control chars in ISO-8859-1). For instance, the euro currency sign is 0x80.

You can use the mysql-latin1 encoding in the Charset module to do conversions, or just use the special "unicode" charset instead.

get_charset, set_unicode_encode_mode, set_unicode_decode_mode

Enable or disable unicode decode mode.

In this mode, if the server supports UTF-8 then non-binary text strings in results are automatically decoded to (possibly wide) unicode strings. Not enabled by default.

The statement "SET character_set_results = utf8" is sent to the server to enable the mode. When the mode is disabled, "SET character_set_results = xxx" is sent, where xxx is the connection charset that get_charset returns.

Nonzero enables this feature, zero disables it.

Throws an exception if the server doesn't support this, i.e. if the statement above fails. The MySQL system variable character_set_results was added in MySQL 4.1.1.

An error is also thrown if Pike has been compiled with a MySQL client library older than 4.1.0, which lack the necessary support for this.

set_unicode_encode_mode

Enables or disables unicode encode mode.

In this mode, if the server supports UTF-8 and the connection charset is latin1 (the default) or unicode then big_query handles wide unicode queries. Enabled by default.

Unicode encode mode works as follows: Eight bit strings are sent as latin1 and wide strings are sent using utf8. big_query sends SET character_set_client statements as necessary to update the charset on the server side. If the server doesn't support that then it fails, but the wide string query would fail anyway.

To make this transparent, string literals with introducers (e.g. _binary 'foo') are excluded from the UTF-8 encoding. This means that big_query needs to do some superficial parsing of the query when it is a wide string.

Note that this mode doesn't affect the MySQL system variable character_set_connection, i.e. it will still be set to latin1 by default which means server functions like UPPER() won't handle non-latin1 characters correctly in all cases.

To fix that, do set_charset("unicode"). That will allow unicode encode mode to work while utf8 is fully enabled at the server side.

Tip: If you enable utf8 on the server side, you need to send raw binary strings as _binary'...'. Otherwise they will get UTF-8 encoded by the server.

When unicode encode mode is enabled and the connection charset is latin1, the charset accepted by big_query is not quite Unicode since latin1 is based on cp1252. The differences are in the range 0x80..0x9f where Unicode has control chars.

This small discrepancy is not present when the connection charset is unicode.

set_unicode_decode_mode, set_charset

Makes a streaming SQL query.

This function sends the SQL query query to the Mysql-server. The result of the query is streamed through the returned Result object. Note that the involved database tables are locked until all the results has been read.

In all other respects, it behaves like big_query.

big_query(), streaming_typed_query()

Makes a streaming typed SQL query.

This function acts as the combination of streaming_query() and big_typed_query().

big_typed_query(), streaming_typed_query()

Encodes the appropriate sections of the query with encode_fn. Everything except strings prefixed by an introducer (i.e. _something or N) is encoded.

Implements SQL-urls for mysqls://[user[:password]@][hostname][:port][/database]

Sets the connection to SSL-mode, and sets the default configuration file to "/etc/my.cnf".

This connection method only exists if the Mysql-module has been compiled with SSL-support.

This module enables access to the Mysql database from within Pike.

You typically don't want to access this module directly, instead use Sql.Sql() with an "mysql://" URL.

Mysql.mysql, Mysql.mysql()->Result, Sql.Sql

Get some information about the Mysql-server client library.

mysql()->statistics(), mysql()->server_info(), mysql()->protocol_info(), mysql()->info()

Implements the glue needed to access the Msql-module from the generic SQL module.

This is an interface to the mSQL database server. This module may or may not be available on your Pike, depending whether the appropriate include and library files (msql.h and libmsql.a respectively) could be found at compile-time. Note that you do not need to have a mSQL server running on your host to use this module: you can connect to the database over a TCP/IP socket

Please notice that unless you wish to specifically connect to a mSQL server, you'd better use the Sql.Sql program instead. Using Sql.Sql ensures that your Pike applications will run with any supported SQL server without changing a single line of code.

Also notice that some functions may be mSQL/2.0-specific, and thus missing on hosts running mSQL/1.0.*

The mSQL C API has some extermal dependencies. They take the form of certain environment variables which, if defined in the environment of the pike interpreter, influence the interface's behavior. Those are "MSQL_TCP_PORT" which forces the server to connect to a port other than the default, "MSQL_UNIX_PORT", same as above, only referring to the UNIX domain sockets. If you built your mSQL server with the default setttings, you shouldn't worry about these. The variable MINERVA_DEBUG can be used to debug the mSQL API (you shouldn't worry about this either). Refer to the mSQL documentation for further details.

Also note that THIS MODULE USES BLOCKING I/O to connect to the server. mSQL should be reasonably fast, but you might want to consider this particular aspect. It is thread-safe, and so it can be used in a multithread environment.

Sql.Sql

Should you need to report a bug to the author, please submit along with the report the driver version number, as returned by this call.

This is an interface to the PostgreSQL database server. This module is independent of any external libraries. Note that you do not need to have a PostgreSQL server running on your host to use this module: you can connect to the database over a TCP/IP socket on a different host.

This module replaces the functionality of the older Sql.postgres and Postgres.postgres modules.

This module supports the following features:

• PostgreSQL network protocol version 3, authentication methods currently supported are: cleartext, md5 and scram (recommended).

• Optional asynchronous query interface through callbacks.

• Streaming queries which do not buffer the whole resultset in memory.

• Automatic binary transfers to and from the database for most common datatypes (amongst others: integer, text and bytea types).

• Automatic character set conversion and native wide string support. Supports UTF8/Unicode for multibyte characters, and all single-byte character sets supported by the database.

• SQL-injection protection by allowing just one statement per query and ignoring anything after the first (unquoted) semicolon in the query.

• COPY support for streaming up- and download.

• Accurate error messages.

• Automatic precompilation of complex queries (session cache).

• Multiple simultaneous queries on the same database connection.

• Cancelling of long running queries by force or by timeout.

• Event driven NOTIFY.

• SSL encrypted connections (optional or forced).

Check the PostgreSQL documentation for further details.

Multiple simultaneous queries on the same database connection are a feature that none of the other database drivers for Pike support. So, although it's efficient, its use will make switching database drivers difficult.

Sql.Connection, Sql.postgres, https://www.postgresql.org/docs/current/static/

This is the only provided direct interface which allows you to query the database. A simpler synchronous interface can be used through query().

Bindings are supported natively straight across the network. Special bindings supported are:

The parameters referenced via the bindings-parameter-mapping passed to this function must remain unaltered until the parameters have been sent to the database. The driver currently does not expose this moment, but to avoid a race condition it is sufficient to keep them unaltered until the first resultrow has been fetched (or EOF is reached, in case of no resultrows).

A Sql.pgsql_util.Result object (which conforms to the Sql.Result standard interface for accessing data). It is recommended to use query() for simpler queries (because it is easier to handle, but stores all the result in memory), and big_query() for queries you expect to return huge amounts of data (it's harder to handle, but fetches results on demand).

This function can raise exceptions.

This function supports multiple simultaneous queries (portals) on a single database connection. This is a feature not commonly supported by other database backends.

This function, by default, does not support multiple queries in one querystring. I.e. it allows for but does not require a trailing semicolon, but it simply ignores any commands after the first unquoted semicolon. This can be viewed as a limited protection against SQL-injection attacks. To make it support multiple queries in one querystring, use the :_text option (not recommended).

big_typed_query(), Sql.Connection, Sql.Result, query(), Sql.pgsql_util.Result

This function returns an object that allows streaming and typed results.

big_query(), Sql.Connection, Sql.Result

Cancels all currently running queries in this session.

reload(), resync()

This function is PostgreSQL-specific.

Closes the connection to the database, any running queries are terminated instantly.

This function is PostgreSQL-specific.

With no arguments, this function initialises a connection to the PostgreSQL backend. Since PostgreSQL requires a database to be selected, it will try to connect to the default database. The connection may fail however, for a variety of reasons; in this case the most likely reason is because you don't have sufficient privileges to connect to that database. So use of this particular syntax is discouraged.

Should either contain "hostname" or "hostname:portname". This allows you to specify the TCP/IP port to connect to. If the parameter is 0 or "", it will try to connect to localhost, default port.

Specifies the database to connect to. Not specifying this is only supported if the PostgreSQL backend has a default database configured. If you do not want to connect to any live database, you can use "template1".

Currently supports at least the following:

For the numerous other options please check the PostgreSQL manual.

You need to have a database selected before using the SQL-object, otherwise you'll get exceptions when you try to query it. Also notice that this function can raise exceptions if the db server doesn't respond, if the database doesn't exist or is not accessible to you.

It is possible that the exception from a failed connect will not be triggered on this call (because the connect proceeds asynchronously in the background), but on the first attempt to actually use the database instead.

Postgres.postgres, Sql.Connection, select_db(), https://www.postgresql.org/docs/current/static/runtime-config-client.html

This function creates a new database (assuming we have sufficient privileges to do this).

Name of the new database.

drop_db()

This function destroys a database and all the data it contains (assuming we have sufficient privileges to do so). It is not possible to delete the database you're currently connected to. You can connect to database "template1" to avoid connecting to any live database.

Name of the database to be deleted.

create_db()

The textual description of the last server-related error. Returns 0 if no error has occurred yet. It is not cleared upon reading (can be invoked multiple times, will return the same result until a new error occurs).

During the execution of a statement, this function accumulates all non-error messages (notices, warnings, etc.). If a statement does not generate any errors, this function will return all collected messages since the last statement.

The string returned is not newline-terminated.

To clear the error, set it to 1.

big_query()

The PostgreSQL name for the current connection charset.

set_charset(), getruntimeparameters(), https://www.postgresql.org/docs/current/static/multibyte.html

Currently active runtimeparameters for the open session; these are initialised by the options parameter during session creation, and then processed and returned by the server. Common values are:

The values can be changed during a session using SET commands to the database. For other runtimeparameters check the PostgreSQL documentation.

https://www.postgresql.org/docs/current/static/runtime-config-client.html

This function is PostgreSQL-specific.

A set of statistics for the current session:

This function is PostgreSQL-specific.

This function returns a string describing what host are we talking to, and how (TCP/IP or UNIX socket).

server_info()