Copyright | (c) 2010 Grant Monroe (c) 2011 Leon P Smith |
---|---|
License | BSD3 |
Maintainer | leon@melding-monads.com |
Stability | experimental |
Safe Haskell | None |
Language | Haskell98 |
- Database Connection Control Functions
- Connection Status Functions
- Command Execution Functions
- Retrieving Query Result Information
- Escaping Strings for Inclusion in SQL Commands
- Escaping Binary Strings for Inclusion in SQL Commands
- Escaping Identifiers for Inclusion in SQL Commands
- Using COPY
- Asynchronous Command Processing
- Cancelling Queries in Progress
- Asynchronous Notification
- Control Functions
- Nonfatal Error Reporting
- Large Objects
This is a binding to libpq: the C application programmer's interface to PostgreSQL. libpq is a set of library functions that allow client programs to pass queries to the PostgreSQL backend server and to receive the results of these queries.
This is intended to be a very low-level interface to libpq. It provides memory management and a somewhat more consistent interface to error conditions. Application code should typically use a higher-level PostgreSQL binding.
This interface is not safe, because libpq unfortunately conflates
explicit disconnects with memory management. A use-after-free memory
fault will result if a connection is used in any way after finish
is
called. This will likely cause a segfault, or return an error if memory
has not yet been reused. Other more bizarre behaviors are possible,
though unlikely by chance. Higher-level bindings need to be aware of
this issue and need to ensure that application code cannot cause the
functions in this module to be called on an finish
ed connection.
One possibility is to represent a connection in a higher-level interface
as MVar (Maybe Connection)
, using Nothing
to represent an explicitly
disconnected state. This was done in an earlier incarnation of this
library, however this was removed because a higher level binding is
likely to use a similar construct to deal with other issues. Thus
incorporating that in this module results in extra layers of indirection
for relatively little functionality.
Synopsis
- data Connection
- connectdb :: ByteString -> IO Connection
- connectStart :: ByteString -> IO Connection
- connectPoll :: Connection -> IO PollingStatus
- newNullConnection :: IO Connection
- isNullConnection :: Connection -> Bool
- reset :: Connection -> IO ()
- resetStart :: Connection -> IO Bool
- resetPoll :: Connection -> IO PollingStatus
- data PollingStatus
- finish :: Connection -> IO ()
- db :: Connection -> IO (Maybe ByteString)
- user :: Connection -> IO (Maybe ByteString)
- pass :: Connection -> IO (Maybe ByteString)
- host :: Connection -> IO (Maybe ByteString)
- port :: Connection -> IO (Maybe ByteString)
- options :: Connection -> IO (Maybe ByteString)
- data ConnStatus
- status :: Connection -> IO ConnStatus
- data TransactionStatus
- transactionStatus :: Connection -> IO TransactionStatus
- parameterStatus :: Connection -> ByteString -> IO (Maybe ByteString)
- protocolVersion :: Connection -> IO Int
- serverVersion :: Connection -> IO Int
- libpqVersion :: IO Int
- errorMessage :: Connection -> IO (Maybe ByteString)
- socket :: Connection -> IO (Maybe Fd)
- backendPID :: Connection -> IO CPid
- connectionNeedsPassword :: Connection -> IO Bool
- connectionUsedPassword :: Connection -> IO Bool
- data Result
- exec :: Connection -> ByteString -> IO (Maybe Result)
- data Format
- newtype Oid = Oid CUInt
- invalidOid :: Oid
- execParams :: Connection -> ByteString -> [Maybe (Oid, ByteString, Format)] -> Format -> IO (Maybe Result)
- prepare :: Connection -> ByteString -> ByteString -> Maybe [Oid] -> IO (Maybe Result)
- execPrepared :: Connection -> ByteString -> [Maybe (ByteString, Format)] -> Format -> IO (Maybe Result)
- describePrepared :: Connection -> ByteString -> IO (Maybe Result)
- describePortal :: Connection -> ByteString -> IO (Maybe Result)
- data ExecStatus
- resultStatus :: Result -> IO ExecStatus
- resStatus :: ExecStatus -> IO ByteString
- resultErrorMessage :: Result -> IO (Maybe ByteString)
- data FieldCode
- resultErrorField :: Result -> FieldCode -> IO (Maybe ByteString)
- unsafeFreeResult :: Result -> IO ()
- ntuples :: Result -> IO Row
- nfields :: Result -> IO Column
- newtype Row = Row CInt
- newtype Column = Col CInt
- toRow :: Integral a => a -> Row
- toColumn :: Integral a => a -> Column
- fname :: Result -> Column -> IO (Maybe ByteString)
- fnumber :: Result -> ByteString -> IO (Maybe Column)
- ftable :: Result -> Column -> IO Oid
- ftablecol :: Result -> Column -> IO Column
- fformat :: Result -> Column -> IO Format
- ftype :: Result -> Column -> IO Oid
- fmod :: Result -> Column -> IO Int
- fsize :: Result -> Column -> IO Int
- getvalue :: Result -> Row -> Column -> IO (Maybe ByteString)
- getvalue' :: Result -> Row -> Column -> IO (Maybe ByteString)
- getisnull :: Result -> Row -> Column -> IO Bool
- getlength :: Result -> Row -> Column -> IO Int
- nparams :: Result -> IO Int
- paramtype :: Result -> Int -> IO Oid
- cmdStatus :: Result -> IO (Maybe ByteString)
- cmdTuples :: Result -> IO (Maybe ByteString)
- escapeStringConn :: Connection -> ByteString -> IO (Maybe ByteString)
- escapeByteaConn :: Connection -> ByteString -> IO (Maybe ByteString)
- unescapeBytea :: ByteString -> IO (Maybe ByteString)
- escapeIdentifier :: Connection -> ByteString -> IO (Maybe ByteString)
- data CopyInResult
- putCopyData :: Connection -> ByteString -> IO CopyInResult
- putCopyEnd :: Connection -> Maybe ByteString -> IO CopyInResult
- data CopyOutResult
- getCopyData :: Connection -> Bool -> IO CopyOutResult
- sendQuery :: Connection -> ByteString -> IO Bool
- sendQueryParams :: Connection -> ByteString -> [Maybe (Oid, ByteString, Format)] -> Format -> IO Bool
- sendPrepare :: Connection -> ByteString -> ByteString -> Maybe [Oid] -> IO Bool
- sendQueryPrepared :: Connection -> ByteString -> [Maybe (ByteString, Format)] -> Format -> IO Bool
- sendDescribePrepared :: Connection -> ByteString -> IO Bool
- sendDescribePortal :: Connection -> ByteString -> IO Bool
- getResult :: Connection -> IO (Maybe Result)
- consumeInput :: Connection -> IO Bool
- isBusy :: Connection -> IO Bool
- setnonblocking :: Connection -> Bool -> IO Bool
- isnonblocking :: Connection -> IO Bool
- setSingleRowMode :: Connection -> IO Bool
- data FlushStatus
- flush :: Connection -> IO FlushStatus
- data Cancel
- getCancel :: Connection -> IO (Maybe Cancel)
- cancel :: Cancel -> IO (Either ByteString ())
- data Notify = Notify {
- notifyRelname :: !ByteString
- notifyBePid :: !CPid
- notifyExtra :: !ByteString
- notifies :: Connection -> IO (Maybe Notify)
- clientEncoding :: Connection -> IO ByteString
- setClientEncoding :: Connection -> ByteString -> IO Bool
- data Verbosity
- setErrorVerbosity :: Connection -> Verbosity -> IO Verbosity
- disableNoticeReporting :: Connection -> IO ()
- enableNoticeReporting :: Connection -> IO ()
- getNotice :: Connection -> IO (Maybe ByteString)
- newtype LoFd = LoFd CInt
- loCreat :: Connection -> IO (Maybe Oid)
- loCreate :: Connection -> Oid -> IO (Maybe Oid)
- loImport :: Connection -> FilePath -> IO (Maybe Oid)
- loImportWithOid :: Connection -> FilePath -> Oid -> IO (Maybe Oid)
- loExport :: Connection -> Oid -> FilePath -> IO (Maybe ())
- loOpen :: Connection -> Oid -> IOMode -> IO (Maybe LoFd)
- loWrite :: Connection -> LoFd -> ByteString -> IO (Maybe Int)
- loRead :: Connection -> LoFd -> Int -> IO (Maybe ByteString)
- loSeek :: Connection -> LoFd -> SeekMode -> Int -> IO (Maybe Int)
- loTell :: Connection -> LoFd -> IO (Maybe Int)
- loTruncate :: Connection -> LoFd -> Int -> IO (Maybe ())
- loClose :: Connection -> LoFd -> IO (Maybe ())
- loUnlink :: Connection -> Oid -> IO (Maybe ())
Database Connection Control Functions
The following functions deal with making a connection to a
PostgreSQL backend server. An application program can have several
backend connections open at one time. (One reason to do that is to
access more than one database.) Each connection is represented by a
Connection
, which is obtained from the function connectdb
, or
connectStart
. The status
function should be called to check
whether a connection was successfully made before queries are sent
via the connection object.
data Connection Source #
Connection
encapsulates a connection to the backend.
Instances
Eq Connection Source # | |
Defined in Database.PostgreSQL.LibPQ.Internal (==) :: Connection -> Connection -> Bool # (/=) :: Connection -> Connection -> Bool # |
:: ByteString | Connection Info |
-> IO Connection |
Makes a new connection to the database server.
This function opens a new database connection using the parameters
taken from the string conninfo. Its nonblocking analogues are
connectStart
and connectPoll
.
The passed string can be empty to use all default parameters, or it can contain one or more parameter settings separated by whitespace. Each parameter setting is in the form keyword = value. Spaces around the equal sign are optional. To write an empty value or a value containing spaces, surround it with single quotes, e.g., keyword = 'a value'. Single quotes and backslashes within the value must be escaped with a backslash, i.e., ' and \.
:: ByteString | Connection Info |
-> IO Connection |
Make a connection to the database server in a nonblocking manner.
connectPoll :: Connection -> IO PollingStatus Source #
If connectStart
succeeds, the next stage is to poll libpq so
that it can proceed with the connection sequence. Use socket
to
obtain the Fd
of the socket underlying the database
connection. Loop thus: If connectPoll
last returned
PollingReading
, wait until the socket is ready to read (as
indicated by select(), poll(), or similar system function). Then
call connectPoll
again. Conversely, if connectPoll
last
returned PollingWriting
, wait until the socket is ready to write,
then call connectPoll
again. If you have yet to call
connectPoll
, i.e., just after the call to connectStart
, behave
as if it last returned PollingWriting
. Continue this loop until
connectPoll
returns PollingFailed
, indicating the connection
procedure has failed, or PollingOk
, indicating the connection has
been successfully made.
newNullConnection :: IO Connection Source #
Allocate a Null Connection, which all libpq functions should safely fail on.
isNullConnection :: Connection -> Bool Source #
Test if a connection is the Null Connection.
reset :: Connection -> IO () Source #
Resets the communication channel to the server.
This function will close the connection to the server and attempt to reestablish a new connection to the same server, using all the same parameters previously used. This might be useful for error recovery if a working connection is lost.
resetStart :: Connection -> IO Bool Source #
Reset the communication channel to the server, in a nonblocking manner.
resetPoll :: Connection -> IO PollingStatus Source #
To initiate a connection reset, call resetStart
. If it returns
False
, the reset has failed. If it returns True
, poll the reset
using resetPoll
in exactly the same way as you would create the
connection using connectPoll
.
data PollingStatus Source #
Instances
Eq PollingStatus Source # | |
Defined in Database.PostgreSQL.LibPQ (==) :: PollingStatus -> PollingStatus -> Bool # (/=) :: PollingStatus -> PollingStatus -> Bool # | |
Show PollingStatus Source # | |
Defined in Database.PostgreSQL.LibPQ showsPrec :: Int -> PollingStatus -> ShowS # show :: PollingStatus -> String # showList :: [PollingStatus] -> ShowS # |
finish :: Connection -> IO () Source #
Closes the connection to the server.
Note that the Connection
must not be used again after finish
has been called.
Connection Status Functions
These functions can be used to interrogate the status of an existing database connection object.
db :: Connection -> IO (Maybe ByteString) Source #
Returns the database name of the connection.
user :: Connection -> IO (Maybe ByteString) Source #
Returns the user name of the connection.
pass :: Connection -> IO (Maybe ByteString) Source #
Returns the password of the connection.
host :: Connection -> IO (Maybe ByteString) Source #
Returns the server host name of the connection.
port :: Connection -> IO (Maybe ByteString) Source #
Returns the port of the connection.
options :: Connection -> IO (Maybe ByteString) Source #
Returns the command-line options passed in the connection request.
data ConnStatus Source #
ConnectionOk | The |
ConnectionBad | The connection procedure has failed. |
ConnectionStarted | Waiting for connection to be made. |
ConnectionMade | Connection OK; waiting to send. |
ConnectionAwaitingResponse | Waiting for a response from the server. |
ConnectionAuthOk | Received authentication; waiting for backend start-up to finish. |
ConnectionSetEnv | Negotiating environment-driven parameter settings. |
ConnectionSSLStartup | Negotiating SSL encryption. |
Instances
Eq ConnStatus Source # | |
Defined in Database.PostgreSQL.LibPQ (==) :: ConnStatus -> ConnStatus -> Bool # (/=) :: ConnStatus -> ConnStatus -> Bool # | |
Show ConnStatus Source # | |
Defined in Database.PostgreSQL.LibPQ showsPrec :: Int -> ConnStatus -> ShowS # show :: ConnStatus -> String # showList :: [ConnStatus] -> ShowS # |
status :: Connection -> IO ConnStatus Source #
Returns the status of the connection.
The status can be one of a number of values. However, only two of
these are seen outside of an asynchronous connection procedure:
ConnectionOk
and ConnectionBad
. A good connection to the
database has the status ConnectionOk
. A failed connection attempt
is signaled by status ConnectionBad
. Ordinarily, an OK status
will remain so until finish
, but a communications failure might
result in the status changing to ConnectionBad
prematurely. In
that case the application could try to recover by calling reset
.
See the entry for connectStart
and connectPoll
with regards to
other status codes that might be seen.
data TransactionStatus Source #
TransIdle | currently idle |
TransActive | a command is in progress |
TransInTrans | idle, in a valid transaction block |
TransInError | idle, in a failed transaction block |
TransUnknown | the connection is bad |
Instances
Eq TransactionStatus Source # | |
Defined in Database.PostgreSQL.LibPQ (==) :: TransactionStatus -> TransactionStatus -> Bool # (/=) :: TransactionStatus -> TransactionStatus -> Bool # | |
Show TransactionStatus Source # | |
Defined in Database.PostgreSQL.LibPQ showsPrec :: Int -> TransactionStatus -> ShowS # show :: TransactionStatus -> String # showList :: [TransactionStatus] -> ShowS # |
transactionStatus :: Connection -> IO TransactionStatus Source #
Returns the current in-transaction status of the server.
TransActive
is reported only when a query has been sent to the
server and not yet completed.
:: Connection | |
-> ByteString | paramName |
-> IO (Maybe ByteString) |
Looks up a current parameter setting of the server.
Certain parameter values are reported by the server automatically
at connection startup or whenever their values
change. parameterStatus
can be used to interrogate these
settings. It returns the current value of a parameter if known, or
Nothing
if the parameter is not known.
protocolVersion :: Connection -> IO Int Source #
Interrogates the frontend/backend protocol being used.
Applications might wish to use this to determine whether certain features are supported. Currently, the possible values are 2 (2.0 protocol), 3 (3.0 protocol), or zero (connection bad). This will not change after connection startup is complete, but it could theoretically change during a connection reset. The 3.0 protocol will normally be used when communicating with PostgreSQL 7.4 or later servers; pre-7.4 servers support only protocol 2.0. (Protocol 1.0 is obsolete and not supported by libpq.)
serverVersion :: Connection -> IO Int Source #
Returns an integer representing the backend version.
Applications might use this to determine the version of the database server they are connected to. The number is formed by converting the major, minor, and revision numbers into two-decimal-digit numbers and appending them together. For example, version 8.1.5 will be returned as 80105, and version 8.2 will be returned as 80200 (leading zeroes are not shown). Zero is returned if the connection is bad.
libpqVersion :: IO Int Source #
Return the version of libpq that is being used.
The result of this function can be used to determine, at run time, if specific functionality is available in the currently loaded version of libpq. The function can be used, for example, to determine which connection options are available for PQconnectdb or if the hex bytea output added in PostgreSQL 9.0 is supported.
This function appeared in PostgreSQL version 9.1, so it cannot be used to detect required functionality in earlier versions, since linking to it will create a link dependency on version 9.1.
errorMessage :: Connection -> IO (Maybe ByteString) Source #
Returns the error message most recently generated by an operation on the connection.
Nearly all libpq functions will set a message for errorMessage
if
they fail. Note that by libpq convention, a nonempty errorMessage
result can be multiple lines, and will include a trailing
newline. The result string should not be expected to remain the
same across operations on the Connection
.
socket :: Connection -> IO (Maybe Fd) Source #
Obtains the file descriptor number of the connection socket to the server. (This will not change during normal operation, but could change during connection setup or reset.)
backendPID :: Connection -> IO CPid Source #
Returns the process CPid
of the backend server process
handling this connection.
The backend PID is useful for debugging purposes and for comparison to NOTIFY messages (which include the PID of the notifying backend process). Note that the PID belongs to a process executing on the database server host, not the local host!
Command Execution Functions
Once a connection to a database server has been successfully established, the functions described here are used to perform SQL queries and commands.
:: Connection | connection |
-> ByteString | statement |
-> IO (Maybe Result) | result |
Submits a command to the server and waits for the result.
Returns a Result
or possibly Nothing
. A Result
will generally
be returned except in out-of-memory conditions or serious errors
such as inability to send the command to the server. If a Nothing
is returned, it should be treated like a FatalError
result. Use
errorMessage
to get more information about such errors.
It is allowed to include multiple SQL commands (separated by
semicolons) in the command string. Multiple queries sent in a
single exec
call are processed in a single transaction, unless
there are explicit BEGIN/COMMIT commands included in the query
string to divide it into multiple transactions. Note however that
the returned Result
structure describes only the result of the
last command executed from the string. Should one of the commands
fail, processing of the string stops with it and the returned
Result
describes the error condition.
invalidOid :: Oid Source #
:: Connection | connection |
-> ByteString | statement |
-> [Maybe (Oid, ByteString, Format)] | parameters |
-> Format | result format |
-> IO (Maybe Result) | result |
Submits a command to the server and waits for the result, with the ability to pass parameters separately from the SQL command text.
execParams
is like exec
, but offers additional functionality:
parameter values can be specified separately from the command
string proper, and query results can be requested in either text or
binary format. execParams
is supported only in protocol 3.0 and
later connections; it will fail when using protocol 2.0.
The primary advantage of execParams
over exec
is that parameter
values can be separated from the command string, thus avoiding the
need for tedious and error-prone quoting and escaping.
Unlike exec
, execParams
allows at most one SQL command in the
given string. (There can be semicolons in it, but not more than one
nonempty command.) This is a limitation of the underlying protocol,
but has some usefulness as an extra defense against SQL-injection
attacks.
Tip: Specifying parameter types via OIDs is tedious, particularly if you prefer not to hard-wire particular OID values into your program. However, you can avoid doing so even in cases where the server by itself cannot determine the type of the parameter, or chooses a different type than you want. In the SQL command text, attach an explicit cast to the parameter symbol to show what data type you will send. For example: SELECT * FROM mytable WHERE x = $1::bigint; This forces parameter $1 to be treated as bigint, whereas by default it would be assigned the same type as x. Forcing the parameter type decision, either this way or by specifying a numeric type OID, is strongly recommended when sending parameter values in binary format, because binary format has less redundancy than text format and so there is less chance that the server will detect a type mismatch mistake for you.
:: Connection | connection |
-> ByteString | stmtName |
-> ByteString | query |
-> Maybe [Oid] | paramTypes |
-> IO (Maybe Result) | result |
Submits a request to create a prepared statement with the given parameters, and waits for completion.
prepare
creates a prepared statement for later execution with
execPrepared
. This feature allows commands that will be used
repeatedly to be parsed and planned just once, rather than each
time they are executed. prepare
is supported only in protocol 3.0
and later connections; it will fail when using protocol 2.0.
The function creates a prepared statement named stmtName from the
query string, which must contain a single SQL command. stmtName can
be "" to create an unnamed statement, in which case any
pre-existing unnamed statement is automatically replaced; otherwise
it is an error if the statement name is already defined in the
current session. If any parameters are used, they are referred to
in the query as $1, $2, etc. paramTypes specifies, by Oid
, the
data types to be assigned to the parameter symbols. If paramTypes
is Nothing
, or any particular element in the array is zero, the
server assigns a data type to the parameter symbol in the same way
it would do for an untyped literal string. Also, the query can use
parameter symbols with numbers higher than the length of
paramTypes; data types will be inferred for these symbols as
well. (See describePrepared
for a means to find out what data
types were inferred.)
As with exec
, the result is normally a Result
whose contents
indicate server-side success or failure. A Nothing
result
indicates out-of-memory or inability to send the command at
all. Use errorMessage
to get more information about such errors.
Prepared statements for use with execPrepared
can also be created
by executing SQL PREPARE statements. (But prepare
is more
flexible since it does not require parameter types to be
pre-specified.) Also, although there is no libpq function for
deleting a prepared statement, the SQL DEALLOCATE statement can be
used for that purpose.
:: Connection | connection |
-> ByteString | stmtName |
-> [Maybe (ByteString, Format)] | parameters |
-> Format | result format |
-> IO (Maybe Result) | result |
Sends a request to execute a prepared statement with given parameters, and waits for the result.
execPrepared
is like execParams
, but the command to be executed
is specified by naming a previously-prepared statement, instead of
giving a query string. This feature allows commands that will be
used repeatedly to be parsed and planned just once, rather than
each time they are executed. The statement must have been prepared
previously in the current session. execPrepared
is supported only
in protocol 3.0 and later connections; it will fail when using
protocol 2.0.
The parameters are identical to execParams
, except that the name
of a prepared statement is given instead of a query string, and the
paramTypes parameter is not present (it is not needed since the
prepared statement's parameter types were determined when it was
created).
:: Connection | |
-> ByteString | stmtName |
-> IO (Maybe Result) |
Submits a request to obtain information about the specified prepared statement, and waits for completion.
describePrepared
allows an application to obtain information
about a previously prepared statement. describePrepared
is
supported only in protocol 3.0 and later connections; it will fail
when using protocol 2.0.
stmtName can be empty to reference the unnamed statement, otherwise
it must be the name of an existing prepared statement. On success,
a Result
with status CommandOk
is returned. The functions
nparams
and paramtype
can be applied to this Result
to obtain
information about the parameters of the prepared statement, and the
functions nfields
, fname
, ftype
, etc provide information
about the result columns (if any) of the statement.
:: Connection | |
-> ByteString | portalName |
-> IO (Maybe Result) |
Submits a request to obtain information about the specified portal, and waits for completion.
describePortal
allows an application to obtain information about
a previously created portal. (libpq does not provide any direct
access to portals, but you can use this function to inspect the
properties of a cursor created with a DECLARE CURSOR SQL command.)
describePortal
is supported only in protocol 3.0 and later
connections; it will fail when using protocol 2.0.
portalName can be empty to reference the unnamed portal, otherwise
it must be the name of an existing portal. On success, a Result
with status CommandOk
is returned. The functions nfields
,
fname
, ftype
, etc can be applied to the Result
to obtain
information about the result columns (if any) of the portal.
data ExecStatus Source #
EmptyQuery | The string sent to the server was empty. |
CommandOk | Successful completion of a command returning no data. |
TuplesOk | Successful completion of a command returning data (such as a SELECT or SHOW). |
CopyOut | Copy Out (from server) data transfer started. |
CopyIn | Copy In (to server) data transfer started. |
CopyBoth | Copy In/Out data transfer started. |
BadResponse | The server's response was not understood. |
NonfatalError | A nonfatal error (a notice or warning) occurred. |
FatalError | A fatal error occurred. |
SingleTuple | The PGresult contains a single result tuple from the current command. This status occurs only when single-row mode has been selected for the query. |
Instances
Enum ExecStatus Source # | |
Defined in Database.PostgreSQL.LibPQ succ :: ExecStatus -> ExecStatus # pred :: ExecStatus -> ExecStatus # toEnum :: Int -> ExecStatus # fromEnum :: ExecStatus -> Int # enumFrom :: ExecStatus -> [ExecStatus] # enumFromThen :: ExecStatus -> ExecStatus -> [ExecStatus] # enumFromTo :: ExecStatus -> ExecStatus -> [ExecStatus] # enumFromThenTo :: ExecStatus -> ExecStatus -> ExecStatus -> [ExecStatus] # | |
Eq ExecStatus Source # | |
Defined in Database.PostgreSQL.LibPQ (==) :: ExecStatus -> ExecStatus -> Bool # (/=) :: ExecStatus -> ExecStatus -> Bool # | |
Show ExecStatus Source # | |
Defined in Database.PostgreSQL.LibPQ showsPrec :: Int -> ExecStatus -> ShowS # show :: ExecStatus -> String # showList :: [ExecStatus] -> ShowS # |
resultStatus :: Result -> IO ExecStatus Source #
Returns the result status of the command.
resStatus :: ExecStatus -> IO ByteString Source #
Converts the ExecStatus
returned by resultStatus
into a
string describing the status code. The caller should not
free the result.
resultErrorMessage :: Result -> IO (Maybe ByteString) Source #
Returns the error message most recently generated by an operation on the connection.
DiagSeverity | The severity; the field contents are ERROR, FATAL, or PANIC (in an error message), or WARNING, NOTICE, DEBUG, INFO, or LOG (in a notice message), or a localized translation of one of these. Always present. |
DiagSqlstate | The SQLSTATE code for the error. The SQLSTATE code identifies the type of error that has occurred; it can be used by front-end applications to perform specific operations (such as error handling) in response to a particular database error. For a list of the possible SQLSTATE codes, see Appendix A. This field is not localizable, and is always present. |
DiagMessagePrimary | The primary human-readable error message (typically one line). Always present. |
DiagMessageDetail | Detail: an optional secondary error message carrying more detail about the problem. Might run to multiple lines. |
DiagMessageHint | Hint: an optional suggestion what to do about the problem. This is intended to differ from detail in that it offers advice (potentially inappropriate) rather than hard facts. Might run to multiple lines. |
DiagStatementPosition | A string containing a decimal integer indicating an error cursor position as an index into the original statement string. The first character has index 1, and positions are measured in characters not bytes. |
DiagInternalPosition | This is defined the same as the
|
DiagInternalQuery | The text of a failed internally-generated command. This could be, for example, a SQL query issued by a PL/pgSQL function. |
DiagContext | An indication of the context in which the error occurred. Presently this includes a call stack traceback of active procedural language functions and internally-generated queries. The trace is one entry per line, most recent first. |
DiagSourceFile | The file name of the source-code location where the error was reported. |
DiagSourceLine | The line number of the source-code location where the error was reported. |
DiagSourceFunction | The name of the source-code function reporting the error. |
Instances
Enum FieldCode Source # | |
Defined in Database.PostgreSQL.LibPQ succ :: FieldCode -> FieldCode # pred :: FieldCode -> FieldCode # fromEnum :: FieldCode -> Int # enumFrom :: FieldCode -> [FieldCode] # enumFromThen :: FieldCode -> FieldCode -> [FieldCode] # enumFromTo :: FieldCode -> FieldCode -> [FieldCode] # enumFromThenTo :: FieldCode -> FieldCode -> FieldCode -> [FieldCode] # | |
Eq FieldCode Source # | |
Show FieldCode Source # | |
resultErrorField :: Result -> FieldCode -> IO (Maybe ByteString) Source #
Returns an individual field of an error report.
fieldcode is an error field identifier; see the symbols listed
below. Nothing
is returned if the PGresult is not an error or
warning result, or does not include the specified field. Field
values will normally not include a trailing newline.
The client is responsible for formatting displayed information to meet its needs; in particular it should break long lines as needed. Newline characters appearing in the error message fields should be treated as paragraph breaks, not line breaks.
Errors generated internally by libpq will have severity and primary message, but typically no other fields. Errors returned by a pre-3.0-protocol server will include severity and primary message, and sometimes a detail message, but no other fields.
Note that error fields are only available from Result
objects,
not Connection
objects; there is no errorField function.
unsafeFreeResult :: Result -> IO () Source #
Frees the memory associated with a result. Note that using this
function correctly is especially tricky; you need to ensure that
no references to the result. This means no references to a value
returned by getvalue
, no references hiding inside an unevaluated
thunk, etc. Improper use of this function is likely to cause a
segfault. Also, the use of this function is not strictly necessary;
the memory will get freed by the garbage collector when there are no
more references to the result.
Retrieving Query Result Information
These functions are used to extract information from a Result
that represents a successful query result (that is, one that has
status TuplesOk
). They can also be used to extract information
from a successful Describe operation: a Describe's result has all
the same column information that actual execution of the query
would provide, but it has zero rows. For objects with other status
values, these functions will act as though the result has zero rows
and zero columns.
ntuples :: Result -> IO Row Source #
Returns the number of rows (tuples) in the query result. Because it returns an integer result, large result sets might overflow the return value on 32-bit operating systems.
nfields :: Result -> IO Column Source #
Returns the number of columns (fields) in each row of the query result.
fname :: Result -> Column -> IO (Maybe ByteString) Source #
Returns the column name associated with the given Column
number. Column numbers start at 0.
fnumber :: Result -> ByteString -> IO (Maybe Column) Source #
Returns the column number associated with the given column name.
ftable :: Result -> Column -> IO Oid Source #
Returns the OID of the table from which the given column was fetched. Column numbers start at 0.
ftablecol :: Result -> Column -> IO Column Source #
Returns the column number (within its table) of the column making up the specified query result column. Query-result column numbers start at 0, but table columns have nonzero numbers.
fformat :: Result -> Column -> IO Format Source #
Returns the Format
of the given column. Column numbers start at
0.
ftype :: Result -> Column -> IO Oid Source #
Returns the data type associated with the given column
number. The Oid
returned is the internal OID number of the
type. Column numbers start at 0.
You can query the system table pg_type to obtain the names and properties of the various data types. The OIDs of the built-in data types are defined in the file srcincludecatalog/pg_type.h in the source tree.
fmod :: Result -> Column -> IO Int Source #
Returns the type modifier of the column associated with the given column number. Column numbers start at 0.
The interpretation of modifier values is type-specific; they typically indicate precision or size limits. The value -1 is used to indicate "no information available". Most data types do not use modifiers, in which case the value is always -1.
fsize :: Result -> Column -> IO Int Source #
Returns the size in bytes of the column associated with the given column number. Column numbers start at 0.
fsize
returns the space allocated for this column in a database
row, in other words the size of the server's internal
representation of the data type. (Accordingly, it is not really
very useful to clients.) A negative value indicates the data type
is variable-length.
getvalue :: Result -> Row -> Column -> IO (Maybe ByteString) Source #
Returns a single field value of one row of a PGresult. Row and column numbers start at 0.
For convenience, this binding uses getisnull
and getlength
to
help construct the result.
Note: The ByteString
returned holds a reference to the Result. As
long as ByteString is live, the Result will not be garbage
collected. getvalue'
returns a copy of the data.
getisnull :: Result -> Row -> Column -> IO Bool Source #
Tests a field for a null value. Row and column numbers start at 0.
getlength :: Result -> Row -> Column -> IO Int Source #
Returns the actual length of a field value in bytes. Row and column numbers start at 0.
This is the actual data length for the particular data value, that
is, the size of the object pointed to by getvalue
. For text data
format this is the same as strlen(). For binary format this is
essential information. Note that one should not rely on fsize
to
obtain the actual data length.
nparams :: Result -> IO Int Source #
Returns the number of parameters of a prepared statement.
This function is only useful when inspecting the result of PQdescribePrepared. For other types of queries it will return zero.
Returns the data type of the indicated statement parameter. Parameter numbers start at 0.
This function is only useful when inspecting the result of
describePrepared
. For other types of queries it will return zero.
These functions are used to extract other information from PGresult objects.
cmdStatus :: Result -> IO (Maybe ByteString) Source #
Returns the command status tag from the SQL command that generated the PGresult.
Commonly this is just the name of the command, but it might include additional data such as the number of rows processed.
cmdTuples :: Result -> IO (Maybe ByteString) Source #
Returns the number of rows affected by the SQL command.
This function returns a string containing the number of rows
affected by the SQL statement that generated the Result
. This
function can only be used following the execution of a SELECT,
CREATE TABLE AS, INSERT, UPDATE, DELETE, MOVE, FETCH, or COPY
statement, or an EXECUTE of a prepared query that contains an
INSERT, UPDATE, or DELETE statement. If the command that generated
the Result
was anything else, cmdTuples
returns an empty
string.
Escaping Strings for Inclusion in SQL Commands
escapeStringConn :: Connection -> ByteString -> IO (Maybe ByteString) Source #
Escapes a string for use within an SQL command. This is useful when inserting data values as literal constants in SQL commands. Certain characters (such as quotes and backslashes) must be escaped to prevent them from being interpreted specially by the SQL parser.
Escaping Binary Strings for Inclusion in SQL Commands
escapeByteaConn :: Connection -> ByteString -> IO (Maybe ByteString) Source #
Escapes binary data for use within an SQL command with the type
bytea. As with escapeStringConn
, this is only used when inserting
data directly into an SQL command string.
unescapeBytea :: ByteString -> IO (Maybe ByteString) Source #
Converts a ByteString
representation of binary data into binary
data - the reverse of PQescapeByteaConn
. This is needed when
retrieving bytea data in text format, but not when retrieving it in
binary format.
The parameter points to a string such as might be returned by
getvalue
when applied to a bytea column. unescapeBytea
converts
this string representation into its binary representation. It
returns a ByteString
, or Nothing
on error.
This conversion is not exactly the inverse of escapeByteaConn
,
because the string is not expected to be "escaped" when received
from getvalue
. In particular this means there is no need for
string quoting considerations, and so no need for a Connection
parameter.
Escaping Identifiers for Inclusion in SQL Commands
escapeIdentifier :: Connection -> ByteString -> IO (Maybe ByteString) Source #
escapeIdentifier
escapes a string for use as an SQL identifier, such
as a table, column, or function name. This is useful when a user-supplied
identifier might contain special characters that would otherwise not be
interpreted as part of the identifier by the SQL parser, or when the
identifier might contain upper case characters whose case should be
preserved.
The return string has all special characters replaced so that it will be properly processed as an SQL identifier. The return string will also be surrounded by double quotes.
On error, escapeIdentifier
returns Nothing
and a suitable message
is stored in the conn object.
Using COPY
This provides support for PostgreSQL's COPY FROM
facility.
For more information, see:
data CopyInResult Source #
CopyInOk | The data was sent. |
CopyInError | An error occurred (use |
CopyInWouldBlock | The data was not sent because the
attempt would block (this case is only
possible if the connection is in
nonblocking mode) Wait for
write-ready (e.g. by using
|
Instances
Eq CopyInResult Source # | |
Defined in Database.PostgreSQL.LibPQ (==) :: CopyInResult -> CopyInResult -> Bool # (/=) :: CopyInResult -> CopyInResult -> Bool # | |
Show CopyInResult Source # | |
Defined in Database.PostgreSQL.LibPQ showsPrec :: Int -> CopyInResult -> ShowS # show :: CopyInResult -> String # showList :: [CopyInResult] -> ShowS # |
putCopyData :: Connection -> ByteString -> IO CopyInResult Source #
Send raw COPY
data to the server during the CopyIn
state.
putCopyEnd :: Connection -> Maybe ByteString -> IO CopyInResult Source #
Send end-of-data indication to the server during the CopyIn
state.
putCopyEnd conn Nothing
ends theCopyIn
operation successfully.putCopyEnd conn (Just errormsg)
forces theCOPY
to fail, witherrormsg
used as the error message.
After putCopyEnd
returns CopyOk
, call getResult
to obtain the final
result status of the COPY
command. Then return to normal operation.
data CopyOutResult Source #
CopyOutRow !ByteString | Data representing a single row of the result |
CopyOutWouldBlock | A complete row is not yet available. This
case is only possible when |
CopyOutDone | No more rows are available |
CopyOutError | An error occurred (e.g. the connection is
not in the |
Instances
Show CopyOutResult Source # | |
Defined in Database.PostgreSQL.LibPQ showsPrec :: Int -> CopyOutResult -> ShowS # show :: CopyOutResult -> String # showList :: [CopyOutResult] -> ShowS # |
getCopyData :: Connection -> Bool -> IO CopyOutResult Source #
Receive raw COPY
data from the server during the CopyOut
state.
The boolean parameter determines whether or not the call will block
while waiting for data.
Asynchronous Command Processing
The exec
function is adequate for submitting commands in normal,
synchronous applications. It has a couple of deficiencies, however,
that can be of importance to some users:
exec
waits for the command to be completed. The application might have other work to do (such as maintaining a user interface), in which case it won't want to block waiting for the response.- Since the execution of the client application is suspended while it waits for the result, it is hard for the application to decide that it would like to try to cancel the ongoing command. (It can be done from a signal handler, but not otherwise.)
exec
can return only oneResult
. If the submitted command string contains multiple SQL commands, all but the lastResult
are discarded byexec
.
Applications that do not like these limitations can instead use the
underlying functions that exec
is built from: sendQuery
and
getResult
. There are also sendQueryParams
, sendPrepare
,
sendQueryPrepared
, sendDescribePrepared
, and
sendDescribePortal
, which can be used with getResult
to
duplicate the functionality of execParams
, prepare
,
execPrepared
, describePrepared
, and describePortal
respectively.
sendQuery :: Connection -> ByteString -> IO Bool Source #
Submits a command to the server without waiting for the
result(s). True
is returned if the command was successfully
dispatched and False
if not (in which case, use errorMessage
to
get more information about the failure).
sendQueryParams :: Connection -> ByteString -> [Maybe (Oid, ByteString, Format)] -> Format -> IO Bool Source #
Submits a command and separate parameters to the server without waiting for the result(s).
sendPrepare :: Connection -> ByteString -> ByteString -> Maybe [Oid] -> IO Bool Source #
Sends a request to create a prepared statement with the given parameters, without waiting for completion.
sendQueryPrepared :: Connection -> ByteString -> [Maybe (ByteString, Format)] -> Format -> IO Bool Source #
Sends a request to execute a prepared statement with given parameters, without waiting for the result(s).
:: Connection | |
-> ByteString | stmtName |
-> IO Bool |
Submits a request to obtain information about the specified prepared statement, without waiting for completion.
This is an asynchronous version of describePrepared
: it returns
True
if it was able to dispatch the request, and False
if
not. After a successful call, call getResult
to obtain the
results. The function's parameters are handled identically to
describePrepared
. Like describePrepared
, it will not work on
2.0-protocol connections.
:: Connection | |
-> ByteString | portalName |
-> IO Bool |
Submits a request to obtain information about the specified portal, without waiting for completion.
This is an asynchronous version of describePortal
: it returns
True
if it was able to dispatch the request, and False
if
not. After a successful call, call getResult
to obtain the
results. The function's parameters are handled identically to
describePortal
. Like describePortal
, it will not work on
2.0-protocol connections.
getResult :: Connection -> IO (Maybe Result) Source #
Waits for the next result from a prior sendQuery
,
sendQueryParams
, sendPrepare
, or sendQueryPrepared
call, and
returns it. A null pointer is returned when the command is complete
and there will be no more results.
consumeInput :: Connection -> IO Bool Source #
If input is available from the server, consume it.
consumeInput
normally returns True
indicating "no error", but
returns False
if there was some kind of trouble (in which case
errorMessage
can be consulted). Note that the result does not say
whether any input data was actually collected. After calling
consumeInput
, the application can check isBusy
and/or
notifies
to see if their state has changed.
isBusy :: Connection -> IO Bool Source #
Returns True if a command is busy, that is, getResult would block waiting for input. A False return indicates that getResult can be called with assurance of not blocking.
isBusy
will not itself attempt to read data from the server;
therefore consumeInput
must be invoked first, or the busy state
will never end.
setnonblocking :: Connection -> Bool -> IO Bool Source #
Sets the nonblocking status of the connection.
isnonblocking :: Connection -> IO Bool Source #
Returns the blocking status of the database connection.
setSingleRowMode :: Connection -> IO Bool Source #
Select single-row mode for the currently-executing query.
This function can only be called immediately after PQsendQuery or one of its sibling functions, before any other operation on the connection such as PQconsumeInput or PQgetResult. If called at the correct time, the function activates single-row mode for the current query and returns 1. Otherwise the mode stays unchanged and the function returns 0. In any case, the mode reverts to normal after completion of the current query.
data FlushStatus Source #
Instances
Eq FlushStatus Source # | |
Defined in Database.PostgreSQL.LibPQ (==) :: FlushStatus -> FlushStatus -> Bool # (/=) :: FlushStatus -> FlushStatus -> Bool # | |
Show FlushStatus Source # | |
Defined in Database.PostgreSQL.LibPQ showsPrec :: Int -> FlushStatus -> ShowS # show :: FlushStatus -> String # showList :: [FlushStatus] -> ShowS # |
flush :: Connection -> IO FlushStatus Source #
Attempts to flush any queued output data to the server. Returns
FlushOk
if successful (or if the send queue is empty),
FlushFailed
if it failed for some reason, or FlushWriting
if it
was unable to send all the data in the send queue yet (this case
can only occur if the connection is nonblocking).
Cancelling Queries in Progress
A client application can request cancellation of a command that is still being processed by the server, using the functions described in this section.
Contains the information needed to cancel a command issued through a particular database connection.
getCancel :: Connection -> IO (Maybe Cancel) Source #
Creates a data structure containing the information needed to cancel a command issued through a particular database connection.
getCancel
creates a Cancel
object given a Connection
. It will
return Nothing
if the given conn is an invalid connection.
cancel :: Cancel -> IO (Either ByteString ()) Source #
Requests that the server abandon processing of the current command.
The return value is 'Right ()' if the cancel request was successfully dispatched and if not, 'Left B.ByteString' containing an error message explaining why not.
Successful dispatch is no guarantee that the request will have any effect, however. If the cancellation is effective, the current command will terminate early and return an error result. If the cancellation fails (say, because the server was already done processing the command), then there will be no visible result at all.
Asynchronous Notification
PostgreSQL offers asynchronous notification via the LISTEN and NOTIFY commands. A client session registers its interest in a particular notification channel with the LISTEN command (and can stop listening with the UNLISTEN command). All sessions listening on a particular channel will be notified asynchronously when a NOTIFY command with that channel name is executed by any session. A "payload" string can be passed to communicate additional data to the listeners.
libpq applications submit LISTEN, UNLISTEN, and NOTIFY commands as
ordinary SQL commands. The arrival of NOTIFY messages can
subsequently be detected by calling notifies
.
Notify | |
|
Instances
Show Notify Source # | |
Storable Notify Source # | |
notifies :: Connection -> IO (Maybe Notify) Source #
Returns the next notification from a list of unhandled
notification messages received from the server. It returns a
Nothing
if there are no pending notifications. Once a
notification is returned from notifies, it is considered handled
and will be removed from the list of notifications.
Control Functions
These functions control miscellaneous details of libpq's behavior.
clientEncoding :: Connection -> IO ByteString Source #
Returns the client encoding.
setClientEncoding :: Connection -> ByteString -> IO Bool Source #
Sets the client encoding.
Instances
Enum Verbosity Source # | |
Defined in Database.PostgreSQL.LibPQ succ :: Verbosity -> Verbosity # pred :: Verbosity -> Verbosity # fromEnum :: Verbosity -> Int # enumFrom :: Verbosity -> [Verbosity] # enumFromThen :: Verbosity -> Verbosity -> [Verbosity] # enumFromTo :: Verbosity -> Verbosity -> [Verbosity] # enumFromThenTo :: Verbosity -> Verbosity -> Verbosity -> [Verbosity] # | |
Eq Verbosity Source # | |
Show Verbosity Source # | |
setErrorVerbosity :: Connection -> Verbosity -> IO Verbosity Source #
Determines the verbosity of messages returned by errorMessage
and resultErrorMessage
.
setErrorVerbosity
sets the verbosity mode, returning the
connection's previous setting. In ErrorsTerse
mode, returned
messages include severity, primary text, and position only; this
will normally fit on a single line. The default mode produces
messages that include the above plus any detail, hint, or context
fields (these might span multiple lines). The ErrorsVerbose
mode
includes all available fields. Changing the verbosity does not
affect the messages available from already-existing Result
objects, only subsequently-created ones.
Nonfatal Error Reporting
disableNoticeReporting :: Connection -> IO () Source #
Upon connection initialization, any notices received from the server are
normally written to the console. Notices are akin to warnings, and
are distinct from notifications. This function suppresses notices.
You may later call enableNoticeReporting
after calling this function.
enableNoticeReporting :: Connection -> IO () Source #
Upon connection initialization, any notices received from the server are
normally written to the console. Notices are akin to warnings, and
are distinct from notifications. This function enables notices to be
programmatically retreived using the getNotice
function. You may
later call disableNoticeReporting
after calling this function.
getNotice :: Connection -> IO (Maybe ByteString) Source #
This function retrieves any notices received from the backend.
Because multiple notices can be received at a time, you will
typically want to call this function in a loop until you get
back a Nothing
.
Large Objects
LoFd is a Large Object (pseudo) File Descriptor. It is understood by libpq but not by operating system calls.
loCreat :: Connection -> IO (Maybe Oid) Source #
Creates a new large object, returns the Object ID of the newly created object.
loCreate :: Connection -> Oid -> IO (Maybe Oid) Source #
Creates a new large object with a particular Object ID. Returns
Nothing
if the requested Object ID is already in use by some other
large object or other failure. If invalidOid
is used as a parameter,
then loCreate
will assign an unused Oid
.
loImport :: Connection -> FilePath -> IO (Maybe Oid) Source #
Imports an operating system file as a large object. Note that the file is read by the client interface library, not by the server; so it must exist in the client file system and be readable by the client application.
loImportWithOid :: Connection -> FilePath -> Oid -> IO (Maybe Oid) Source #
loExport :: Connection -> Oid -> FilePath -> IO (Maybe ()) Source #
Exports a large object into a operating system file. Note that
the file is written by the client interface library, not the server.
Returns 'Just ()' on success, Nothing
on failure.
loOpen :: Connection -> Oid -> IOMode -> IO (Maybe LoFd) Source #
Opens an existing large object for reading or writing. The Oid specifies
the large object to open. A large object cannot be opened before it is
created. A large object descriptor is returned for later use in loRead
,
loWrite
, loSeek
, loTell
, and loClose
. The descriptor is only valid
for the duration of the current transation. On failure, Nothing
is
returned.
The server currently does not distinguish between WriteMode
and
ReadWriteMode
; write-only modes are not enforced. However there
is a significant difference between ReadMode
and the other modes:
with ReadMode
you cannot write on the descriptor, and the data read
from it will reflect the contents of the large object at the time of
the transaction snapshot that was active when loOpen
was executed,
regardless of later writes by this or other transactions. Reading from
a descriptor opened in WriteMode
, ReadWriteMode
, or AppendMode
returns data that reflects all writes of other committed transactions
as well as the writes of the current transaction. This is similar to
the behavior of REPEATABLE READ
versus READ COMMITTED
transaction
modes for ordinary SQL SELECT
commands.
loWrite :: Connection -> LoFd -> ByteString -> IO (Maybe Int) Source #
loWrite conn fd buf
writes the bytestring buf
to the large object
descriptor fd
. The number of bytes actually written is returned.
In the event of an error, Nothing
is returned.
loRead :: Connection -> LoFd -> Int -> IO (Maybe ByteString) Source #
loRead conn fd len
reads up to len
bytes from the large object
descriptor fd
. In the event of an error, Nothing
is returned.
loSeek :: Connection -> LoFd -> SeekMode -> Int -> IO (Maybe Int) Source #
Changes the current read or write location associated with
a large object descriptor. The return value is the new location
pointer, or Nothing
on error.
loTell :: Connection -> LoFd -> IO (Maybe Int) Source #
Obtains the current read or write location of a large object descriptor.
loTruncate :: Connection -> LoFd -> Int -> IO (Maybe ()) Source #
Truncates a large object to a given length. If the length is greater than the current large object, then the large object is extended with null bytes. ('\x00')
The file offest is not changed.
loTruncate
is new as of PostgreSQL 8.3; if this function is run against
an older server version, it will fail and return Nothing