radware
4 TopicsRadware config translation
Problem this snippet solves: This is a simple Python script that translates Radware text configuration file and outputs as config snippet and certificate files. $ ./rad2f5 Usage: rad2f5 <filename> [partition] Example: ./rad2f5 radwareconfig.txt MyPartition Using partition /MyPartition/ IP routes:46 Non-floating IP interfaces:26 Floating IP interfaces:19 Monitors:349 Virtual Servers:430 Pools:152 Certificates: 31 SSL profiles: 17 WARNING! Found L7 Regular Expression at "appdirector l7 farm-selection method-table setCreate l7Rule-Redirect" Layer 7 rules:12 Layer 7 policies:4 !! Copy all certificate files to BIG-IP /var/tmp and use load_certs.sh to load !! # Configuration #--------------------------------------# ltm policy /MyPartition/l7rule-Redirect { controls { forwarding } requires { http } rules { Redirect { actions { 0 { forward select pool SORRYPOOL } } ordinal 1 } } net route /MyPartition/10.20.30.40_32 { network 10.20.30.40/32 gateway 10.1.1.1 } How to use this snippet: This includes translation of routes and non-floating self-IPs, monitors, pools, virtual servers, certificates, SSL profiles and some layer 7 rules. To install, either download the file attached here, extract and run it or use pip: pip install rad2f5 To load the configuration to the f5 device, output to a file eg ./rad2f5 filename>newcfg.txt , remove the statistics header from the file with a text editor, upload the file into /var/tmp on the BIG-IP and test loading with tmsh load sys config merge file /var/tmp/<filename> verify . Fix any issues and load with tmsh load sys config merge file /var/tmp/<filename> The script will also output the certificates and keys which should be uploaded to the BIG-IP /var/tmp directory and run file check_certs.sh and load_certs.sh to check and load the certs and keys. Works with Python v2 and v3. If you want something to be added then message me with details of the text and i will try to add it. Feel free to add or change anything Code : #!/usr/bin/env python # v1.1 14/3/2018 Deal with lack of text in monitors ( line 157 ) # v2 3/1/2019 Updated after changes suggested by Avinash Piare # v3 6/11/2019 Updated to deal with \\r\n at the end of the line # v3.1 6/11/2019 Minor changes to handle VS names with spaces # 3.4 18/4/2020 Fixed minor issues # Peter White 6/11/2019 # usage ./rad2f5 [partition] import sys import re import textwrap import ipaddress print ("Running with Python v" + sys.version) # Set debug to true to output the workings of the script ie the arrays etc debug = False def parse_options(options): # Function to split options and return a dict containing option and value # Example: -pl 27 -v 123 -pa 172.28.1.234 # Return: { 'pl':'27', 'v':'123', 'pa':'172.28.1.234' } output = dict() # Deal with non-quotes eg -b 12345 for r in re.finditer(r'-(\w{1,3}) (\S+)',options): output[r.group(1)] = r.group(2) # Deal with quotes eg -u "User Name" for v in re.finditer(r'-(\w{1,3}) (".+")',options): output[v.group(1)] = v.group(2) return output def splitvars(vars): # Split a string on | and then =, return a dict of ABC=XYZ # eg HDR=User-Agent|TKN=Googlebot-Video/1.0|TMATCH=EQ| # Return is { 'HDR':'User-Agent','TKN': 'Googlebot-Video/1.0', 'TMATCH': 'EQ' } vlist = vars.split("|") o = {} for v in vlist: if v == '': continue w = v.split("=") if len(w) > 1: o[w[0]] = w[1] else: o[w[0]] = '' return o def array_add(a,d): # Function to safely add to an array #global a if not len(a): a = [ d ] else: a.append( d ) return a def setup_pools(name): global pools if not name in pools: pools[name] = { 'destinations': [], 'member-disabled': [], 'member-ids': [], 'priority-group': [] } else: if not 'destinations' in pools[name]: pools[name]['destinations'] = [] if not 'member-disabled' in pools[name]: pools[name]['member-disabled'] = [] if not 'member-ids' in pools[name]: pools[name]['member-ids'] = [] if not 'priority-group' in pools[name]: pools[name]['priority-group'] = [] def getVsFromPool(poolname): # This retrieves the names of virtual servers that use a specific pool global farm2vs if poolname in farm2vs: return farm2vs[poolname] else: return False def is_ipv6(ip): if ':' in ip: return True else: return False # Check there is an argument given if not len(sys.argv) > 1: exit("Usage: rad2f5 [partition]") if len(sys.argv) > 2: # Second command-line variable is the partition partition = "/" + sys.argv[2] + "/" print ("Using partition " + partition) else: partition = "/Common/" # Check input file fh = open(sys.argv[1],"r") if not fh: exit("Cannot open file " + argv[1]) rawfile = fh.read() # v2 # Remove any instances of slash at the end of line # eg health-monitoring check create\ # HC_DNS -id 5 -m DNS -p 53 -a \ #HOST=ns.domain.com|ADDR=1.1.1.1| -d 2.2.2.2 #file = re.sub('^security certificate table\\\\\n','',rawfile) file = re.sub('\\\\\n','',rawfile) file = re.sub('\\\\\r\n','',file) ################ LACP trunks ########################## # # # ############################################################# #net linkaggr trunks set T-1 -lap G-13,G-14 -lam Manual -lat Fast -law 3 -laa 32767 trunks = {} for r in re.finditer(r'net linkaggr trunks set (\S+) (.+)',file): name = r.group(1) options = parse_options(r.group(2)) if 'lap' in options: # Manage interfaces ints = options['lap'].split(',') trunks[name] = { 'interfaces': ints } print ("LACP trunks:" + str(len(trunks))) if debug: print('DEBUG LACP trunks: ' + str(trunks)) ################ IP routes ########################## # # # ############################################################# routes = {} for r in re.finditer(r'net route table create (\S+) (\S+) (\S+) (\S+)',file): if r.group(1) == '0.0.0.0': name = 'default' else: name = r.group(1) + "_" + r.group(2) routes[name] = { 'network': r.group(1), 'mask': r.group(2), 'gateway': r.group(3), 'interface': r.group(4)} print ("IP routes:" + str(len(routes))) if debug: print('DEBUG routes: ' + str(routes)) ################ Non-floating self-IPs ############### # # # # ############################################################# selfIpNonFloating = {} for s in re.finditer(r'net ip-interface create (\S+) (\S+) (.+)',file): output = { 'interface': s.group(2) } opts = parse_options(s.group(3)) if 'pl' in opts: output['mask'] = opts['pl'] if 'v' in opts: output['vlan'] = opts['v'] if 'pa' in opts: output['peerAddress'] = opts['pa'] selfIpNonFloating[s.group(1)] = output print ("Non-floating IP interfaces:" + str(len(selfIpNonFloating))) if debug: print("DEBUG non-floating IPs: " + str(selfIpNonFloating)) ################ Floating self-IPs ################### # # # ############################################################# selfIpFloating = {} for s in re.finditer(r'redundancy vrrp virtual-routers create (\S+) (\S+) (\S+) (.+)',file): output = { 'version': s.group(1),'interface': s.group(3), 'ipAddresses': []} opts = parse_options(s.group(4)) #if 'as' in opts: # Enabled - assume all are enabled if 'pip' in opts: output['peerIpAddress'] = opts['pip'] selfIpFloating[s.group(2)] = output # Retrieve IP addresses for Floating self-IPs # for s in re.finditer(r'redundancy vrrp associated-ip create (\S+) (\S+) (\S+) (\S+)',file): selfIpFloating[s.group(2)]['ipAddresses'] = array_add(selfIpFloating[s.group(2)]['ipAddresses'],s.group(4)) print ("Floating IP interfaces:" + str(len(selfIpFloating))) if debug: print("DEBUG Floating IPs: " + str(selfIpFloating)) ################ Monitors ########################### # # -m XYZ is the monitor type may or may not be present ( not present for icmp type ) # -id is the monitor ID, -p is the port, -d is the destination # ############################################################# monitors = {} for m in re.finditer(r'health-monitoring check create (\S+) (.+)',file): output = { 'name': m.group(1) } opts = parse_options(m.group(2)) if 'id' in opts: id = opts['id'] else: print ("No ID for monitor " + m.group(1)) continue if 'm' in opts: output['type'] = opts['m'] else: output['type'] = 'icmp' if 'a' in opts: output['text'] = opts['a'] else: # Added in v2 output['text'] = '' if 'p' in opts: output['port'] = opts['p'] else: output['port'] = '' monitors[id] = output print ("Monitors:" + str(len(monitors))) if debug: print("DEBUG Monitors:" + str(monitors)) ################ Virtual Servers ##################### # # 0 = name, 1= IP, 2=protocol, 3=port, 4=source 5=options # -ta = type, -ht = http policy, -fn = pool name, -sl = ssl profile name, -ipt = translation? # -po = policy name # ############################################################# farm2vs = {} virtuals = {} snatPools = {} for v in re.finditer(r'appdirector l4-policy table create (\S+) (\S+) (\S+) (\S+) (\S+) (.*)',file): # Puke if VS has quotes if v.group(1).startswith('"'): name = v.group(1).strip('"').replace(' ','_') + v.group(2).strip('"').replace(' ','_') address,protocol,port = v.group(3),v.group(4),v.group(5) source = v.group(6).split(' ')[0] options = ' '.join(v.group(6).split(' ')[1:]) else: name,address,protocol,port,source,options = v.group(1),v.group(2),v.group(3),v.group(4),v.group(5),v.group(6) opts = parse_options(options) # Get rid of ICMP virtual servers if protocol == 'ICMP': continue print ("Name " + name + " has quotes, address: " + address + " protocol: " + protocol) if port == 'Any': port = '0' output = {'source': source, 'destination': address + ":" + port, 'protocol': protocol, 'port': port } if 'fn' in opts: output['pool'] = opts['fn'] if not opts['fn'] in farm2vs: farm2vs[opts['fn']] = [] farm2vs[opts['fn']].append(name) output['port'] = port if 'po' in opts: output['policy'] = opts['po'] if 'ipt' in opts: output['snat'] = 'snatpool_' + opts['ipt'] if not 'snatpool_' + opts['ipt'] in snatPools: #Create snatpool snatPools['snatpool_' + opts['ipt']] = { 'members': [opts['ipt']] } # Set the correct profiles profiles = [] # Layer 4 if protocol == "TCP" or protocol == "UDP": profiles.append(protocol.lower()) else: profiles.append('ipother') # http if port == '80' or port == '8080': profiles.append('http') profiles.append('oneconnect') # ftp if port == '21': profiles.append('ftp') # RADIUS if port == '1812' or port == '1813': profiles.append('radius') # SSL if 'sl' in opts: profiles.append(opts['sl']) profiles.append('http') profiles.append('oneconnect') output['profiles'] = profiles # virtuals[name] = output print ("Virtual Servers:" + str(len(virtuals))) if debug: print("DEBUG Virtual Servers:" + str(virtuals)) #print("DEBUG Farm to VS Mapping:" + str(farm2vs)) ################ Pools ############################### # # Pools config options are distributed across multiple tables # This sets the global config such as load balancing algorithm # -dm This sets the distribution method. cyclic = Round Robin, Fewest Number of Users = least conn, Weighted Cyclic = ratio, Response Time = fastest # -as this is the admin state # -cm is the checking method ie monitor # -at is the activation time ############################################################# pools = {} for p in re.finditer(r'appdirector farm table setCreate (\S+) (.*)',file): name = p.group(1) setup_pools(name) opts = parse_options(p.group(2)) output = {} # Admin state output['poolDisabled'] = False if 'as' in opts: if opts['as'] == 'Disabled': output['poolDisabled'] = True # Deal with distribution methods method = 'round-robin' if 'dm' in opts: if opts['dm'] == '"Fewest Number of Users"': method = 'least-conn' elif opts['dm'] == 'Hashing': method = 'hash' else: method = 'round-robin' output['lbMethod'] = method if 'at' in opts: output['slowRamp'] = opts['at'] pools[name] = output # This sets the pool members # 0=name, 1=node, 2=node address, 3=node port, 4=? -id =id -sd ? -as admin state eg Disable, -om operation mode eg Backup ( fallback server ), -rt backup server address 0.0.0.0 for p in re.finditer(r'appdirector farm server table create (\S+) (\S+) (\S+) (\S+) (\S+) (.*)',file): name,node,node_address,node_port,node_hostname = p.group(1),p.group(2),p.group(3),p.group(4),p.group(5) opts = parse_options(p.group(6)) setup_pools(name) if node_port == 'None': node_port = '0' pools[name]['destinations'] = array_add(pools[name]['destinations'],node_address + ":" + node_port) # Manage monitor if node_port == '80' or node_port == '8080': monitor = 'http' elif node_port == '443': monitor = 'https' elif node_port == '53': monitor = 'dns' elif node_port == '21': monitor = 'ftp' elif node_port == '0': monitor = 'gateway-icmp' else: monitor = 'tcp' pools[name]['monitor'] = monitor # Retrieve pool member ID if 'id' in opts: pools[name]['member-ids'] = array_add(pools[name]['member-ids'],opts['id']) else: print ("ID not found for pool " + name) # Check if member is disabled if 'as' in opts and opts['as'] == 'Disabled': # This pool member is disabled pools[name]['member-disabled'] = array_add(pools[name]['member-disabled'],True) else: pools[name]['member-disabled'] = array_add(pools[name]['member-disabled'],False) # Check if member is backup ie Priority Groups if 'om' in opts and opts['om'] == 'Backup': pools[name]['priority-group'] = array_add(pools[name]['priority-group'],20) else: pools[name]['priority-group'] = array_add(pools[name]['priority-group'],0) print ("Pools:" + str(len(pools)) ) if debug: print("DEBUG pools: " + str(pools)) ################ SSL certificates ################### # # #Name: certificate_name \ #Type: certificate \ #-----BEGIN CERTIFICATE----- \ #MIIEcyFCA7agAwIAAgISESFWs9QGF # ############################################################# certs = {} for r in re.finditer(r'Name: (\S+) Type: (\S+) (-----BEGIN CERTIFICATE-----.+?-----END CERTIFICATE-----)',file): name,type,text = r.group(1),r.group(2),r.group(3) certs[name] = { 'type': type,'text': text.replace(' \\\r\n','') } # Print out to file or something print ("SSL Certificates: " + str(len(certs))) if debug: print("DEBUG certs: " + str(certs)) ################ SSL Keys ################### # # #Name: New_Root_Cert Type: key Passphrase: -----BEGIN RSA PRIVATE KEY----- Proc-Type: 4,ENCRYPTED DEK-Info: [key] [key] -----END RSA PRIVATE KEY----- \ # ############################################################# keys = {} # Keys with passphrase for r in re.finditer(r'Name: (\S+) Type: key Passphrase: (\S+) (-----BEGIN RSA PRIVATE KEY-----.+?-----END RSA PRIVATE KEY-----)',file): name,passphrase,text = r.group(1),r.group(2),r.group(3) keys[name] = { 'passphrase': passphrase,'text': text.replace(' \\\r\n','') } # Keys without passphrase for r in re.finditer(r'Name: (\S+) Type: key (-----BEGIN RSA PRIVATE KEY-----.+?-----END RSA PRIVATE KEY-----)',file): name,text = r.group(1),r.group(2) keys[name] = { 'text': text.replace(' \\\r\n','') } print ("SSL Keys: " + str(len(keys))) if debug: print("DEBUG SSL keys: " + str(keys)) ################ SSL profiles ######################## # # -c is cert, -u is ciphers, -t is chain cert, -fv - versions ############################################################## sslProfiles = {} for s in re.finditer(r'^appdirector l4-policy ssl-policy create (\S+) (.+)',file.replace('\\\r\n',''),re.MULTILINE): name = s.group(1) output = {} opts = parse_options(s.group(2)) if 'c' in opts: # Certificate output['certificate'] = opts['c'] if 't' in opts: # Chain cert output['chaincert'] = opts['t'] if 'fv' in opts: # TLS Version output['version'] = opts['fv'] if 'u' in opts: # User-defined Ciphers output['cipher'] = opts['u'] if 'lp' in opts: # ? output['lp'] = opts['lp'] if 'pa' in opts: # ? output['pa'] = opts['pa'] if 'cb' in opts: # ? output['cb'] = opts['cb'] if 'i' in opts: # Backend SSL Cipher -> Values: Low, Medium, High, User Defined output['i'] = opts['i'] if 'bs' in opts: # Backend SSL in use ie serverSSL output['serverssl'] = opts['bs'] sslProfiles[name] = output print ("SSL profiles: " + str(len(sslProfiles))) if debug: print("DEBUG SSL Profiles: " + str(sslProfiles)) ################ SNAT pools ########################## # # Note that this only works for addresses in the same /24 subnet ############################################################# for s in re.finditer(r'appdirector nat client address-range create (\S+) (\S+)',file): name = s.group(1) if sys.version.startswith('2'): start = ipaddress.ip_address(unicode(name,'utf_8')) end = ipaddress.ip_address(unicode(s.group(2),'utf_8')) else: start = ipaddress.ip_address(name) end = ipaddress.ip_address(s.group(2)) current = start ipAddresses = [] while current <= end: ipAddresses.append(str(current)) current += 1 snatPools['snatpool_' + name] = { 'members': ipAddresses } print ("SNAT Pools:" + str(len(snatPools))) if debug: print("DEBUG SNAT Pools: " + str(snatPools)) #################################################################### ################ Layer 7 functions ########################## # # #################################################################### l7rules = { } for r in re.finditer(r'appdirector l7 farm-selection method-table setCreate (\S+) (.+)',file): name = r.group(1) l7rules[name] = { 'match': [], 'action': [] } opts = parse_options(r.group(2)) if 'cm' in opts and opts['cm'] == '"Header Field"' and 'ma' in opts: # This is a rule to insert a header params = splitvars(opts['ma']) if 'HDR' in params and 'TKN' in params: if params['TKN'] == "$Client_IP": params['TKN'] = '[IP::client_addr]' l7rules[name]['action'].append("http-header\ninsert\nname " + params['HDR'] + "\nvalue " + params['TKN']) if 'cm' in opts and opts['cm'] == 'URL' and 'ma' in opts: # This does a match on Host and URL params = splitvars(opts['ma']) if 'HN' in params: l7rules[name]['match'].append("http-host\nhost\nvalues { " + params['HN'] + " }") if 'P' in params: l7rules[name]['match'].append("http-uri\npath\nvalues { " + params['P'] + " }") if 'cm' in opts and opts['cm'] == '"Regular Expression"' and 'ma' in opts: params = splitvars(opts['ma']) if 'EXP' in params and params['EXP'] == '.': # This is a regex which matches everything print ("REGEX: " + name) else: print ("WARNING! Found L7 Regular Expression at \"appdirector l7 farm-selection method-table setCreate " + name + "\". Manually set the match in output config.") # Note that there can be multiple entries ie multiple rules per policy l7policies = {} for p in re.finditer(r'appdirector l7 farm-selection policy-table setCreate (\S+) (\d+) (.+)',file): name = p.group(1) precedence = p.group(2) opts = parse_options(p.group(3)) if 'fn' in opts: farm = opts['fn'] else: farm = '' if 'm1' in opts: rule = opts['m1'] if 'pa' in opts: # Retain HTTP Persistency (PRSST)-If the argument is ON (or undefined), AppDirector maintains HTTP 1.1 # HTTP Redirect To (RDR)-Performs HTTP redirection to the specified name or IP address. # HTTPS Redirect To (RDRS)-AppDirector redirects the HTTP request to the specified name or IP address and modifies the request to a HTTPS request. # Redirection Code (RDRC)-Defines the code to be used for redirection. # RDRC=PRMN stand for Permanent I assume , as in HTTP 301 # SIP Redirect To (RDRSIP)-Performs SIP redirection to the specified name or IP address. params = splitvars(opts['pa']) if 'RDR' in params: url = 'http://' + params['RDR'] elif 'RDRS' in params: url = 'https://' + params['RDRS'] else: url = '' if not name in l7policies: l7policies[name] = [] if rule in l7rules: if farm != '': l7rules[rule]['action'].append("forward\nselect\npool " + farm) elif url != '': l7rules[rule]['action'].append("http-redirect\nhost " + url) l7policies[name].append({ 'precedence': precedence, 'farm': farm, 'rule': rule }) print ("Layer 7 rules:" + str(len(l7rules))) print ("Layer 7 policies:" + str(len(l7policies))) if debug: print("DEBUG L7 rules: " + str(l7rules)) print("DEBUG L7 policies: " + str(l7policies)) # # We have retrieved the required configuration from the input file # Now start outputting the config ################# output SSL certificates import script ###################### # # ######################################################################## if len(certs): print ("-- Creating SSL certs and keys --") with open("load_certs.sh",'w') as loadScript: loadScript.write("#!/bin/bash\n# Script to load SSL certs and keys from /var/tmp\n") ##### Manage Certificates ######## for cert in certs: # Write certs to load_certs.sh if certs[cert]['type'] == 'certificate' or certs[cert]['type'] == 'interm': loadScript.write("tmsh install sys crypto cert " + partition + cert + ".crt from-local-file /var/tmp/" + cert + ".crt\n") # Create the certificate files with open(cert + ".crt","w") as certFile: for m in re.finditer(r'(-----BEGIN CERTIFICATE-----)\s?(.+)\s?(-----END CERTIFICATE-----)',certs[cert]['text']): certFile.write(m.group(1) + "\n") certFile.write(textwrap.fill(m.group(2),64) + "\n") certFile.write(m.group(3) + "\n") print ("Created SSL certificate file " + cert + ".crt") ##### Manage Keys ################# for key in keys: # Write keys to load_certs.sh loadScript.write("tmsh install sys crypto key " + partition + key + ".key") if 'passphrase' in keys[key]: loadScript.write(" passphrase " + keys[key]['passphrase']) loadScript.write(" from-local-file /var/tmp/" + key + ".key\n") # Create the key files with open(key + ".key","w") as keyFile: for n in re.finditer(r'(-----BEGIN RSA PRIVATE KEY-----)(.+)(-----END RSA PRIVATE KEY-----)',keys[key]['text']): keyFile.write(n.group(1) + "\n") if 'Proc-Type:' in n.group(2) and 'DEK-Info:' in n.group(2): # File is encrypted, separate the first lines for o in re.finditer(r'(Proc-Type: \S+) (DEK-Info: \S+) (.+)',n.group(2)): keyFile.write(o.group(1) + "\n") keyFile.write(o.group(2) + "\n\n") keyFile.write(textwrap.fill(o.group(3),64) + "\n") else: # File is not encrypted, output as it is keyFile.write(textwrap.fill(n.group(2),64) + "\n") keyFile.write(n.group(3) + "\n") print ("Created SSL key file " + key + ".key") print ("-- Finished creating SSL certs and keys --") print ("!! Copy all .crt and .key SSL files to BIG-IP /var/tmp and use load_certs.sh to load !!" ) ####################################################################### ################# output SSL certificates checking script ###################### # # ######################################################################## with open("check_certs.sh",'w') as checkScript: checkScript.write("#!/bin/bash\n# Script to check SSL certs and keys\n") checkScript.write("\n# Check SSL Certs\n") for cert in certs: if certs[cert]['type'] == 'certificate' or certs[cert]['type'] == 'interm': checkScript.write("openssl x509 -in " + cert + ".crt -noout || echo \"Error with file " + cert + ".crt\"\n") checkScript.write("\n# Check SSL Keys\n") for key in keys: checkScript.write("openssl rsa -in " + key + ".key -check || echo \"Error with file " + key + ".key\"\n") print ("!! Run the check_certs.sh script to check the certificates are valid !!" ) ####################################################################### # # # # # # # # print ("\n\n\n\n\n\n# Configuration \n#--------------------------------------#") ################# output policy config ##################### # # ############################################################# #print ("L7 rules: " + str(l7rules)) for i in l7policies.keys(): output = "ltm policy " + partition + i + " {\n\tcontrols { forwarding }\n\trequires { http }\n\t" output += "rules {\n\t" ordinal = 1 for j in l7policies[i]: output += "\t" + j['rule'] + " { \n" if len(l7rules[j['rule']]['match']): # Deal with conditions output += "\t\t\tconditions { \n" l = 0 for k in l7rules[j['rule']]['match']: output += "\t\t\t\t" + str(l) + " { \n\t\t\t\t\t" + k.replace('\n','\n\t\t\t\t\t') l += 1 output += "\n\t\t\t\t }\n" output += "\n\t\t\t }\n" if len(l7rules[j['rule']]['action']): # Deal with actions output += "\t\t\tactions { \n" m = 0 for n in l7rules[j['rule']]['action']: output += "\t\t\t\t" + str(m) + " { \n\t\t\t\t\t" + n.replace('\n','\n\t\t\t\t\t') m += 1 output += "\n\t\t\t\t }\n" output += "\n\t\t\t }\n" output += "\t\tordinal " + str(ordinal) output += "\n\t\t}\n\t" ordinal += 1 output += "\n\t}\n}\n" print (output) ################# output LACP trunk config ############## # # ############################################################# for trunk in trunks.keys(): output = "net trunk " + partition + trunk + " {\n" if 'interfaces' in trunks[trunk]: output += "\tinterfaces {\n" for int in trunks[trunk]['interfaces']: output += "\t\t" + int + "\n" output += "\t}\n" output += "}\n" print (output) ################# output vlan config ############## # # ############################################################# for ip in selfIpNonFloating.keys(): output = "" if 'vlan' in selfIpNonFloating[ip]: vlanName = "VLAN-" + selfIpNonFloating[ip]['vlan'] output += "net vlan " + partition + vlanName + " {\n" if 'interface' in selfIpNonFloating[ip]: output += "\tinterfaces {\n" output += "\t\t" + selfIpNonFloating[ip]['interface'] + " {\n" output += "\t\t\ttagged\n\t\t}\n" output += "\t}\n" output += "\ttag " + selfIpNonFloating[ip]['vlan'] + "\n}\n" print(output) ################# output non-floating self-ip config ####### # # ############################################################# for ip in selfIpNonFloating.keys(): output = "" if 'mask' in selfIpNonFloating[ip]: mask = "/" + selfIpNonFloating[ip]['mask'] else: if is_ipv6(ip): mask = "/64" else: mask = "/32" if 'vlan' in selfIpNonFloating[ip]: vlanName = "VLAN-" + selfIpNonFloating[ip]['vlan'] else: continue output += "net self " + partition + "selfip_" + ip + " {\n\taddress " + ip + mask + "\n\t" output += "allow-service none\n\t" output += "traffic-group traffic-group-local-only\n" output += "\tvlan " + vlanName + "\n" output += "}\n" print (output) ################# output network route config ############## # # ############################################################# for route in routes.keys(): network,mask,gateway = routes[route]['network'],routes[route]['mask'],routes[route]['gateway'] output = "net route " + partition + route + " {\n\tnetwork " + network + "/" + mask + "\n\t" output += "gateway " + gateway + "\n}" print (output) ################# output SSL profiles config ########################## # # ######################################################################## for s in sslProfiles: #print (str(sslProfiles[s])) output = "ltm profile client-ssl " + partition + s + " {\n" output += "\tcert-key-chain { " + s + " { cert " output += sslProfiles[s]['certificate'] + ".crt " output += " key " output += sslProfiles[s]['certificate'] + ".key " if 'chaincert' in sslProfiles[s]: output += "chain " + sslProfiles[s]['chaincert'] output += " }\n\tdefaults-from /Common/clientssl\n}\n" print (output) if 'serverssl' in sslProfiles[s]: print("WARNING: VSs using Client SSL profile " + s + " should have Server SSL profile assigned") ################# output monitor config #################### # # ############################################################# for m in monitors.keys(): if monitors[m]['type'] == '"TCP Port"': output = "ltm monitor tcp " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/tcp\n}\n" if monitors[m]['type'] == '"UDP Port"': output = "ltm monitor udp " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/udp\n}\n" if monitors[m]['type'] == 'HTTP': ''' https://webhelp.radware.com/AppDirector/v214/214Traffic%20Management%20and%20Application%20Acceleration.03.001.htm https://webhelp.radware.com/AppDirector/v214/HM_Checks_Table.htm Arguments: Host name - HOST=10.10.10.53 path - PATH=/hc.htm HTTP Header HTTP method - MTD=G (G/H/P) send HTTP standard request or proxy request - PRX=N use of no-cache - NOCACHE=N text for search within a HTTP header and body, and an indication whether the text appears Username and Password for basic authentication NTLM authentication option - AUTH=B Up to four valid HTTP return codes - C1=200 -a PATH=/hc.htm|C1=200|MEXIST=Y|MTD=G|PRX=N|NOCACHE=N|AUTH=B| ''' output = "ltm monitor http " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/http\n" vars = splitvars(monitors[m]['text']) output += "\tsend \"" if 'MTD' in vars: if vars['MTD'] == 'G': output += "GET " elif vars['MTD'] == 'P': output += "POST " elif vars['MTD'] == 'H': output += "HEAD " else: output += "GET " if 'PATH' in vars: output += vars['PATH'] + ' HTTP/1.0\\r\\n\\r\\n"\n' if 'C1' in vars: output += "\trecv \"^HTTP/1\.. " + vars['C1'] + "\"\n" output += "}\n" if monitors[m]['type'] == 'HTTPS': output = "ltm monitor https " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/https\n" vars = splitvars(monitors[m]['text']) output += "\tsend \"" if 'MTD' in vars: if vars['MTD'] == 'G': output += "GET " elif vars['MTD'] == 'P': output += "POST " elif vars['MTD'] == 'H': output += "HEAD " else: output += "GET " if 'PATH' in vars: output += vars['PATH'] + ' HTTP/1.0\\r\\n\\r\\n"\n' output += "}\n" if monitors[m]['type'] == 'LDAP': ''' The Health Monitoring module enhances the health checks for LDAP servers by allowing performing searches in the LDAP server. Before Health Monitoring performs the search, it issues a Bind request command to the LDAP server. After performing the search, it closes the connection with the Unbind command. A successful search receives an answer from the server that includes a "searchResultEntry" message. An unsuccessful search receives an answer that only includes only a "searchResultDone" message. Arguments: Username A user with privileges to search the LDAP server. Password The password of the user. Base Object The location in the directory from which the LDAP search begins. Attribute Name The attribute to look for. For example, CN - Common Name. Search Value The value to search for. Search scope baseObject, singleLevel, wholeSubtree Search Deref Aliases neverDerefAliases, dereflnSearching, derefFindingBaseObj, derefAlways USER=cn=healthcheck,dc=domain|PASS=1234|BASE=dc=domain|ATTR=cn|VAL=healthcheck|SCP=1|DEREF=3| ''' output = "ltm monitor ldap " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/ldap\n" vars = splitvars(monitors[m]['text']) if 'BASE' in vars: output += "\tbase \"" + vars['BASE'] + "\"\n" if 'USER' in vars: output += "\tusername \"" + vars['USER'] + "\"\n" if 'PASS' in vars: output += "\tpassword \"" + vars['PASS'] + "\"\n" output += "}\n" if monitors[m]['type'] == 'icmp': output = "ltm monitor gateway-icmp " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/gateway-icmp\n}\n" if monitors[m]['type'] == 'DNS': output = "ltm monitor dns " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/dns\n" vars = splitvars(monitors[m]['text']) if 'HOST' in vars: output += "\tqname \"" + vars['HOST'] + "\"\n" if 'ADDR' in vars: output += "\trecv \"" + vars['ADDR'] + "\"\n" output += "}\n" if monitors[m]['type'] == '"Radius Accounting"': output = "ltm monitor radius-accounting " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/radius-accounting\n" vars = splitvars(monitors[m]['text']) if 'USER' in vars: output += "\tusername \"" + vars['USER'] + "\"\n" #if 'PASS' in vars: if 'SECRET' in vars: output += "\tsecret \"" + vars['SECRET'] + "\"\n" output += "}\n" if monitors[m]['type'] == '"Radius Authentication"': output = "ltm monitor radius " + partition + monitors[m]['name'] + " {\n\tdefaults-from /Common/radius\n" vars = splitvars(monitors[m]['text']) if 'USER' in vars: output += "\tusername \"" + vars['USER'] + "\"\n" #if 'PASS' in vars: if 'SECRET' in vars: output += "\tsecret \"" + vars['SECRET'] + "\"\n" output += "}\n" print (output) ################# output SNAT pool config ###################### # # ############################################################# for s in snatPools.keys(): output = "ltm snatpool " + partition + s + " {\n\t" output += "members {\n" #run through pool range and add members as individual IP addresses below each other for member in snatPools[s]['members']: output += "\t " + member + "\n" output += "\t}" output += "\n}" print (output) ################# output pool config ###################### # # ############################################################# for p in pools.keys(): output = "ltm pool " + partition + p + " {\n\t" if 'monitor' in pools[p]: output += "monitor min 1 of { " + pools[p]['monitor'] + " }\n\t" if 'lbMethod' in pools[p]: output += "load-balancing-mode " + pools[p]['lbMethod'] + "\n\t" output += "members {\n" if 'destinations' in pools[p] and len(pools[p]['destinations']): for i,v in enumerate(pools[p]['destinations']): d = re.sub(':\d+$','',v) output += "\t\t" + v + " {\n\t\t\taddress " + d + "\n" if pools[p]['member-disabled'][i]: output += "\t\t\tstate down\n" output += "\t\t\tpriority-group " + str(pools[p]['priority-group'][i]) + "\n" output += "\t\t}\n" output += "\t}\n}" print (output) ################# output virtual server config ###################### # # ###################################################################### for v in virtuals: output = "ltm virtual " + partition + v + " {\n" output += "\tdestination " + virtuals[v]['destination'] + "\n" output += "\tip-protocol " + virtuals[v]['protocol'].lower() + "\n" if 'pool' in virtuals[v] and virtuals[v]['pool']: output += "\tpool " + virtuals[v]['pool'] + "\n" if 'profiles' in virtuals[v] and len(virtuals[v]['profiles']): output += "\tprofiles {\n" for p in virtuals[v]['profiles']: output += "\t\t" + p + " { }\n" output += "\t}\n" if 'snat' in virtuals[v]: output += "\tsource-address-translation {\n\t" if virtuals[v]['snat'] == 'automap': output += "\ttype automap\n\t" else: output += "\ttype snat\n\t" output += "\tpool " + virtuals[v]['snat'] + "\n\t" output += "}\n" if 'policy' in virtuals[v]: output += "\tpolicies {\n\t" output += "\t" + virtuals[v]['policy'] + " { }\n\t}\n" output += "}" print (output) Tested this on version: 12.02KViews0likes30CommentsHow to use migration tool from Radware AppDirector to BIG-IP LTM
Hi everyone!! Please show me how to perform Radware AppDirector to BIG-IP LTM migration tool. I'm going to migrate configuration from Radware AppDirector device to BIG-IP LTM device. I read below DevCentral article and performed migration tool. But no configu setting was migrated. https://devcentral.f5.com/wiki/advdesignconfig.radware.ashx I performed downloading config file on AppDirector device and got a config file below. download configuration file format is like --> ------------------------------------------------------------------------- Format: ASCII-1.0 Date: DD-MM-2016 HH:MM:SS System: AppDirector with Cookie Persistency Software Version: 1.02.04 Base Mac Address: xx:xx:xx:xx:xx:xx Set //1 { rsIpAdEntIfIndex.192.168.1.1 = 17 ------------------------------------------------------------------------- (<-- omitting after setting) Operation on AppDirector device was File -> Configuration Recieve from Device Type is ASCII Isn't it correct format? Radware AppDirector v1.02 BIG-IP LTM v11.4.1469Views0likes1CommentF5 equivalent of Alteon's buddy helthchecks
Hi all, I'm in the process of migrating old Radware Alteon load balancers onto F5 kit. On the Alteons they have what's known as a "buddy health check". Basically what it does is monitor a second node, and if that goes down then the first node is marked as down too. For example, Server A is configured to have Server B as its buddy. If the health check for Server B fails, the load balancer will mark Server A as down. I'm aware this could be done using Priority Group Activation, however in this case Server A is being health checked on port 3000 whilst Server B is health checked on port 3001. Data for both is on port 7021. Is this setup achievable on an F5? Thanks!437Views0likes1CommentRadware to F5 BIG-IP via tmsh
Problem this snippet solves: This script only converts WSD text file. It does not convert ".ber" files. We may add AppDirector support at some point. Here is an explanation of the different file from one of our radware experts "Harry Kleinbourg": For some years, wsd has been replaced by AppDirector product. WSD config files could be saved in a specific format .ber. Then with an external tool, the ber file could be transform into an ascii file. Now, with AppDirector, there's only one format which is a text file. The system config-immediate isn't a config file. It's a command which shows the running config but it doesn't replace the config file. An easy way to check if you have a wsd or an appdirector is to run the command system device-info or to look into the system config-immediate : if the lines begin with "wsd" then it is a wsd, if the lines begin with appdirector then it's an appdirector. Obvious, isn't it ? How to use this snippet: The script dumps to stdout, to capture in a file, use: perl rad2f5.pl radwareconfigfile > /var/tmp/bigipconf.txt345Views0likes0Comments