I'm trying to do some IP-lookup on Python Google Appengine like this:

import pygeoip
gi = pygeoip.GeoIP('GeoIP.dat')
Location = gi.country_code_by_addr(self.request.remote_addr)

(pygeoip can be found here: http://code.google.com/p/pygeoip/)

The above code executes fine locally but when I push it to the live server I get the following error:

<type 'exceptions.ImportError'>: No module named mmap
Traceback (most recent call last):
  File "/base/data/home/apps/tomcritchlow1/geoip.347423765058502279/main.py", line 28, in <module>
    import pygeoip
  File "/base/data/home/apps/tomcritchlow1/geoip.347423765058502279/pygeoip/__init__.py", line 34, in <module>
    import mmap

I'm using Python 2.5 locally so it should be the same as the live server I think?

The Pygeoip page says the following:

Supported Flags:
STANDARD (do all reads from disk, slowest) 
MEMORY_CACHE
MMAP_CACHE (map the whole file to memory, fastest)

I'm not sure exactly what "supported flags" means - if mmap is the problem could I use Pygeoip using memory cache instead of mmap? How would I do that?

Thanks!

Tom

PS - still a coding a n00b so please go easy :)

EDIT:

The solution outlined below works, first use this code:

gi = pygeoip.GeoIP('GeoIP.dat', flags=pygeoip.const.MEMORY_CACHE)

Then modify the init.py file within pygeoip like follows (warning! I've just commented out bits of code, not done anything fancy!!)

"""
Pure Python GeoIP API. The API is based off of U{MaxMind's C-based Python API<http://www.maxmind.com/app/python>},
but the code itself is based on the U{pure PHP5 API<http://pear.php.net/package/Net_GeoIP/>}
by Jim Winstead and Hans Lellelid.

It is mostly a drop-in replacement, except the
C{new} and C{open} methods are gone. You should instantiate the L{GeoIP} class yourself:

C{gi = GeoIP('/path/to/GeoIP.dat', pygeoip.MEMORY_CACHE)}

@author: Jennifer Ennis <zaylea at gmail dot com>

@license:
Copyright(C) 2004 MaxMind LLC

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU Lesser General Public License
along with this program.  If not, see <http://www.gnu.org/licenses/lgpl.txt>.
"""

from __future__ import with_statement
import os
import math
import socket
#import mmap

from const import *
from util import ip2long

class GeoIPError(Exception):
    pass

class GeoIPMetaclass(type):

    def __new__(cls, *args, **kwargs):
        """
        Singleton method to gets an instance without reparsing the db. Unique
        instances are instantiated based on the filename of the db. Flags are
        ignored for this, i.e. if you initialize one with STANDARD flag (default)
        and then try later to initialize with MEMORY_CACHE, it will still
        return the STANDARD one.
        """

        if not hasattr(cls, '_instances'):
            cls._instances = {}

        if len(args) > 0:
            filename = args[0]
        elif 'filename' in kwargs:
            filename = kwargs['filename']

        if not filename in cls._instances:
            cls._instances[filename] = type.__new__(cls, *args, **kwargs)

        return cls._instances[filename]

GeoIPBase = GeoIPMetaclass('GeoIPBase', (object,), {})

class GeoIP(GeoIPBase):

    def __init__(self, filename, flags=0):
        """
        Initialize the class.

        @param filename: path to a geoip database
        @type filename: str
        @param flags: flags that affect how the database is processed.
            Currently the only supported flags are STANDARD, MEMORY_CACHE, and
            MMAP_CACHE.
        @type flags: int
        """
        self._filename = filename
        self._flags = flags

        #tom:
        #if self._flags & MMAP_CACHE:
        if '2' == '3':
            with open(filename, 'rb') as f:
                self._filehandle = mmap.mmap(f.fileno(), 0, access=mmap.ACCESS_READ)

        else:
            self._filehandle = open(filename, 'rb')

            #tom:
            #if self._flags & MEMORY_CACHE:
            #    self._memoryBuffer = self._filehandle.read()

        self._setup_segments()

    def _setup_segments(self):
        """
        Parses the database file to determine what kind of database is being used and setup
        segment sizes and start points that will be used by the seek*() methods later.
        """
        self._databaseType = COUNTRY_EDITION
        self._recordLength = STANDARD_RECORD_LENGTH

        filepos = self._filehandle.tell()
        self._filehandle.seek(-3, os.SEEK_END)

        for i in range(STRUCTURE_INFO_MAX_SIZE):
            delim = self._filehandle.read(3)

            if delim == (chr(255) * 3):
                self._databaseType = ord(self._filehandle.read(1))

                if (self._databaseType >= 106):
                    # backwards compatibility with databases from April 2003 and earlier
                    self._databaseType -= 105

                if self._databaseType == REGION_EDITION_REV0:
                    self._databaseSegments = STATE_BEGIN_REV0

                elif self._databaseType == REGION_EDITION_REV1:
                    self._databaseSegments = STATE_BEGIN_REV1

                elif self._databaseType in (CITY_EDITION_REV0,
                                            CITY_EDITION_REV1,
                                            ORG_EDITION,
                                            ISP_EDITION,
                                            ASNUM_EDITION):
                    self._databaseSegments = 0
                    buf = self._filehandle.read(SEGMENT_RECORD_LENGTH)

                    for j in range(SEGMENT_RECORD_LENGTH):
                        self._databaseSegments += (ord(buf[j]) << (j * 8))

                    if self._databaseType in (ORG_EDITION, ISP_EDITION):
                        self._recordLength = ORG_RECORD_LENGTH

                break
            else:
                self._filehandle.seek(-4, os.SEEK_CUR)

        if self._databaseType == COUNTRY_EDITION:
            self._databaseSegments = COUNTRY_BEGIN

        self._filehandle.seek(filepos, os.SEEK_SET)

    def _lookup_country_id(self, addr):
        """
        Get the country index.

        This method is called by the _lookupCountryCode and _lookupCountryName
        methods. It looks up the index ('id') for the country which is the key
        for the code and name.

        @param addr: The IP address
        @type addr: str
        @return: network byte order 32-bit integer
        @rtype: int
        """

        ipnum = ip2long(addr)

        if not ipnum:
            raise ValueError("Invalid IP address: %s" % addr)

        if self._databaseType != COUNTRY_EDITION:
            raise GeoIPError('Invalid database type; country_* methods expect '\
                             'Country database')

        return self._seek_country(ipnum) - COUNTRY_BEGIN

    def _seek_country(self, ipnum):
        """
        Using the record length and appropriate start points, seek to the
        country that corresponds to the converted IP address integer.

        @param ipnum: result of ip2long conversion
        @type ipnum: int
        @return: offset of start of record
        @rtype: int
        """
        offset = 0

        for depth in range(31, -1, -1):

            #tom:
            #if self._flags & MEMORY_CACHE:
            if '2' == '3':
                startIndex = 2 * self._recordLength * offset
                length = 2 * self._recordLength
                endIndex = startIndex + length
                buf = self._memoryBuffer[startIndex:endIndex]
            else:
                self._filehandle.seek(2 * self._recordLength * offset, os.SEEK_SET)
                buf = self._filehandle.read(2 * self._recordLength)

            x = [0,0]

            for i in range(2):        
                for j in range(self._recordLength):
                    x[i] += ord(buf[self._recordLength * i + j]) << (j * 8)    

            if ipnum & (1 << depth):

                if x[1] >= self._databaseSegments:
                    return x[1]

                offset = x[1]

            else:

                if x[0] >= self._databaseSegments:
                    return x[0]

                offset = x[0]


        raise Exception('Error traversing database - perhaps it is corrupt?')

    def _get_org(self, ipnum):
        """
        Seek and return organization (or ISP) name for converted IP addr.
        @param ipnum: Converted IP address
        @type ipnum: int
        @return: org/isp name
        @rtype: str
        """

        seek_org = self._seek_country(ipnum)
        if seek_org == self._databaseSegments:
            return None

        record_pointer = seek_org + (2 * self._recordLength - 1) * self._databaseSegments

        self._filehandle.seek(record_pointer, os.SEEK_SET)

        org_buf = self._filehandle.read(MAX_ORG_RECORD_LENGTH)

        return org_buf[:org_buf.index(chr(0))]

    def _get_region(self, ipnum):
        """
        Seek and return the region info (dict containing country_code and region_name).

        @param ipnum: converted IP address
        @type ipnum: int
        @return: dict containing country_code and region_name
        @rtype: dict
        """
        country_code = ''
        region = ''

        if self._databaseType == REGION_EDITION_REV0:
            seek_country = self._seek_country(ipnum)
            seek_region = seek_country - STATE_BEGIN_REV0
            if seek_region >= 1000:
                country_code = 'US'
                region = ''.join([chr((seek_region / 1000) / 26 + 65), chr((seek_region / 1000) % 26 + 65)])
            else:
                country_code = COUNTRY_CODES[seek_region]
                region = ''
        elif self._databaseType == REGION_EDITION_REV1:
            seek_country = self._seek_country(ipnum)
            seek_region = seek_country - STATE_BEGIN_REV1
            if seek_region < US_OFFSET:
                country_code = '';
                region = ''
            elif seek_region < CANADA_OFFSET:
                country_code = 'US'
                region = ''.join([chr((seek_region - US_OFFSET) / 26 + 65), chr((seek_region - US_OFFSET) % 26 + 65)])
            elif seek_region  < WORLD_OFFSET:
                country_code = 'CA'
                region = ''.join([chr((seek_region - CANADA_OFFSET) / 26 + 65), chr((seek_region - CANADA_OFFSET) % 26 + 65)])
            else:
                i = (seek_region - WORLD_OFFSET) / FIPS_RANGE
                if i in COUNTRY_CODES:
                    country_code = COUNTRY_CODES[(seek_region - WORLD_OFFSET) / FIPS_RANGE]
                else:
                    country_code = ''
                region = ''

        elif self._databaseType in (CITY_EDITION_REV0, CITY_EDITION_REV1):
            rec = self._get_record(ipnum)
            country_code = rec['country_code'] 
            region = rec['region_name']

        return {'country_code' : country_code, 'region_name' : region }  

    def _get_record(self, ipnum):
        """
        Populate location dict for converted IP.

        @param ipnum: converted IP address
        @type ipnum: int
        @return: dict with country_code, country_code3, country_name,
            region, city, postal_code, latitude, longitude,
            dma_code, metro_code, area_code, region_name, time_zone
        @rtype: dict
        """
        seek_country = self._seek_country(ipnum)
        if seek_country == self._databaseSegments:
            return None

        record_pointer = seek_country + (2 * self._recordLength - 1) * self._databaseSegments

        self._filehandle.seek(record_pointer, os.SEEK_SET)
        record_buf = self._filehandle.read(FULL_RECORD_LENGTH)

        record = {}

        record_buf_pos = 0
        char = ord(record_buf[record_buf_pos])
        record['country_code'] = COUNTRY_CODES[char]
        record['country_code3'] = COUNTRY_CODES3[char]
        record['country_name'] = COUNTRY_NAMES[char]
        record_buf_pos += 1
        str_length = 0

        # get region
        char = ord(record_buf[record_buf_pos+str_length])
        while (char != 0):
            str_length += 1
            char = ord(record_buf[record_buf_pos+str_length])

        if str_length > 0:
            record['region_name'] = record_buf[record_buf_pos:record_buf_pos+str_length]

        record_buf_pos += str_length + 1
        str_length = 0

        # get city
        char = ord(record_buf[record_buf_pos+str_length])
        while (char != 0):
            str_length += 1
            char = ord(record_buf[record_buf_pos+str_length])

        if str_length > 0:
            record['city'] = record_buf[record_buf_pos:record_buf_pos+str_length]

        record_buf_pos += str_length + 1
        str_length = 0

        # get the postal code
        char = ord(record_buf[record_buf_pos+str_length])
        while (char != 0):
            str_length += 1
            char = ord(record_buf[record_buf_pos+str_length])

        if str_length > 0:
            record['postal_code'] = record_buf[record_buf_pos:record_buf_pos+str_length]
        else:
            record['postal_code'] = None

        record_buf_pos += str_length + 1
        str_length = 0

        latitude = 0
        longitude = 0
        for j in range(3):
            char = ord(record_buf[record_buf_pos])
            record_buf_pos += 1
            latitude += (char << (j * 8))

        record['latitude'] = (latitude/10000.0) - 180.0

        for j in range(3):
            char = ord(record_buf[record_buf_pos])
            record_buf_pos += 1
            longitude += (char << (j * 8))

        record['longitude'] = (longitude/10000.0) - 180.0

        if self._databaseType == CITY_EDITION_REV1:
            dmaarea_combo = 0
            if record['country_code'] == 'US':
                for j in range(3):
                    char = ord(record_buf[record_buf_pos])
                    record_buf_pos += 1
                    dmaarea_combo += (char << (j*8))

                record['dma_code'] = int(math.floor(dmaarea_combo/1000))
                record['area_code'] = dmaarea_combo%1000
        else:
            record['dma_code'] = 0
            record['area_code'] = 0

        return record

    def country_code_by_addr(self, addr):
        """
        Returns 2-letter country code (e.g. 'US') for specified IP address.
        Use this method if you have a Country, Region, or City database.

        @param addr: IP address
        @type addr: str
        @return: 2-letter country code
        @rtype: str
        """
        try:
            if self._databaseType == COUNTRY_EDITION:
                country_id = self._lookup_country_id(addr)   
                return COUNTRY_CODES[country_id]
            elif self._databaseType in (REGION_EDITION_REV0, REGION_EDITION_REV1,
                                          CITY_EDITION_REV0, CITY_EDITION_REV1):
                return self.region_by_addr(addr)['country_code']
            else:
                raise GeoIPError('Invalid database type; country_* methods expect '\
                                 'Country, City, or Region database')

        except ValueError:
            raise GeoIPError('*_by_addr methods only accept IP addresses. Use *_by_name for hostnames. (Address: %s)' % addr)

    def country_code_by_name(self, hostname):
        """
        Returns 2-letter country code (e.g. 'US') for specified hostname.
        Use this method if you have a Country, Region, or City database.

        @param hostname: host name
        @type hostname: str
        @return: 2-letter country code
        @rtype: str
        """
        addr = socket.gethostbyname(hostname)

        return self.country_code_by_addr(addr)

    def country_name_by_addr(self, addr):
        """
        Returns full country name for specified IP address.
        Use this method if you have a Country or City database.

        @param addr: IP address
        @type addr: str
        @return: country name
        @rtype: str
        """
        try:
            if self._databaseType == COUNTRY_EDITION:
                country_id = self._lookup_country_id(addr)
                return COUNTRY_NAMES[country_id]
            elif self._databaseType in (CITY_EDITION_REV0, CITY_EDITION_REV1):
                return self.record_by_addr(addr)['country_name']
            else:
                raise GeoIPError('Invalid database type; country_* methods expect '\
                                 'Country or City database')
        except ValueError:
            raise GeoIPError('*_by_addr methods only accept IP addresses. Use *_by_name for hostnames. (Address: %s)' % addr)

    def country_name_by_name(self, hostname):
        """
        Returns full country name for specified hostname.
        Use this method if you have a Country database.

        @param hostname: host name
        @type hostname: str
        @return: country name
        @rtype: str
        """
        addr = socket.gethostbyname(hostname)
        return self.country_name_by_addr(addr)

    def org_by_addr(self, addr):
        """
        Lookup the organization (or ISP) for given IP address.
        Use this method if you have an Organization/ISP database.

        @param addr: IP address
        @type addr: str
        @return: organization or ISP name
        @rtype: str
        """
        try:
            ipnum = ip2long(addr)

            if not ipnum:
                raise ValueError("Invalid IP address: %s" % addr)

            if self._databaseType not in (ORG_EDITION, ISP_EDITION):
                raise GeoIPError('Invalid database type; org_* methods expect '\
                                 'Org/ISP database')

            return self._get_org(ipnum)
        except ValueError:
            raise GeoIPError('*_by_addr methods only accept IP addresses. Use *_by_name for hostnames. (Address: %s)' % addr)

    def org_by_name(self, hostname):
        """
        Lookup the organization (or ISP) for hostname.
        Use this method if you have an Organization/ISP database.

        @param hostname: host name
        @type hostname: str
        @return: organization or ISP name
        @rtype: str
        """
        addr = socket.gethostbyname(hostname)

        return self.org_by_addr(addr)

    def record_by_addr(self, addr):
        """
        Look up the record for a given IP address.
        Use this method if you have a City database.

        @param addr: IP address
        @type addr: str
        @return: dict with country_code, country_code3, country_name,
            region, city, postal_code, latitude, longitude,
            dma_code, metro_code, area_code, region_name, time_zone
        @rtype: dict
        """
        try:
            ipnum = ip2long(addr)

            if not ipnum:
                raise ValueError("Invalid IP address: %s" % addr)

            if not self._databaseType in (CITY_EDITION_REV0, CITY_EDITION_REV1):
                raise GeoIPError('Invalid database type; record_* methods expect City database')

            return self._get_record(ipnum)
        except ValueError:
            raise GeoIPError('*_by_addr methods only accept IP addresses. Use *_by_name for hostnames. (Address: %s)' % addr)

    def record_by_name(self, hostname):
        """
        Look up the record for a given hostname.
        Use this method if you have a City database.

        @param hostname: host name
        @type hostname: str
        @return: dict with country_code, country_code3, country_name,
            region, city, postal_code, latitude, longitude,
            dma_code, metro_code, area_code, region_name, time_zone
        @rtype: dict
        """
        addr = socket.gethostbyname(hostname)

        return self.record_by_addr(addr)

    def region_by_addr(self, addr):
        """
        Lookup the region for given IP address.
        Use this method if you have a Region database.

        @param addr: IP address
        @type addr: str
        @return: dict containing country_code, region,
            and region_name
        @rtype: dict
        """
        try:
            ipnum = ip2long(addr)

            if not ipnum:
                raise ValueError("Invalid IP address: %s" % addr)

            if not self._databaseType in (REGION_EDITION_REV0, REGION_EDITION_REV1,
                                          CITY_EDITION_REV0, CITY_EDITION_REV1):
                raise GeoIPError('Invalid database type; region_* methods expect '\
                                 'Region or City database')

            return self._get_region(ipnum)
        except ValueError:
            raise GeoIPError('*_by_addr methods only accept IP addresses. Use *_by_name for hostnames. (Address: %s)' % addr)

    def region_by_name(self, hostname):
        """
        Lookup the region for given hostname.
        Use this method if you have a Region database.

        @param hostname: host name
        @type hostname: str
        @return: dict containing country_code, region,
            and region_name
        @rtype: dict
        """
        addr = socket.gethostbyname(hostname)
        return self.region_by_addr(addr)
up vote 3 down vote accepted

Looks like App Engine doesn't support mmap, which isn't surprising. You can try using one of the other flags as follows:

import pygeoip
gi = pygeoip.GeoIP('GeoIP.dat', flags=pygeoip.const.MEMORY_CACHE)
Location = gi.country_code_by_addr(self.request.remote_addr)

Try replacing MEMORY_CACHE with STANDARD if that also doesn't work.

  • Thanks - I'll try giving this a go. Would you mind explaining what pygeoip.const.MEMORY_CACHE is doing? I'm a coding n00b and I'm always keen to learn new things. – tomcritchlow Jan 5 '11 at 19:24
  • mmap is a system call which causes the operating system to allocate an address space and create a mapping which can be used to access a file on disk. This is a great way access large files with automatic caching. However, allowing App Engine users to do this could cause security concerns. Specifying MEMORY_CACHE will cause pygeoip to allocate it's own block of memory which will be used to cache requests made to files on disk. – Michael Mior Jan 5 '11 at 19:29
  • Thanks - I'm more asking what the .const value sets. I'm looking at the code and I'm unfamiliar with a separate constants file, is this what the flag is setting? – tomcritchlow Jan 5 '11 at 19:31
  • pygeoip is the name of the module, and const is a submodule within pygeoip. MEMORY_CACHE is a constant defined within the submodule. This concept is known as namespacing and gives you several advantages including the ability to write more understandable code and avoid conflicts from variables with similar names. – Michael Mior Jan 5 '11 at 19:46
  • Thanks Michael, I think that makes sense. Your code works (after you also remove the mmap references within the pygeoip code) so thank you very much! :) – tomcritchlow Jan 5 '11 at 19:47

This seems to be GAE specific and have been fixed in pygeoip 0.2.7. MMAP_CACHE will now give a warning if the mmap module can't be imported and fallback to MEMORY_CACHE.

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