*** Settings ***
+Documentation General Utils library. This library has broad scope, it can be used by any robot system tests.
Library SSHLibrary
+Library HttpLibrary.HTTP
Library String
Library DateTime
-Library ./UtilLibrary.py
-Resource KarafKeywords.robot
-Variables ../variables/Variables.py
+Library Process
+Library Collections
+Library RequestsLibrary
+Library OperatingSystem
+Library ${CURDIR}/UtilLibrary.py
+Resource ${CURDIR}/SSHKeywords.robot
+Resource ${CURDIR}/TemplatedRequests.robot
+Variables ${CURDIR}/../variables/Variables.py
*** Variables ***
# TODO: Introduce ${tree_size} and use instead of 1 in the next line.
-${start} sudo mn --controller=remote,ip=${CONTROLLER} --topo tree,1 --switch ovsk,protocols=OpenFlow13
-${controller_index} -1
+${start} sudo mn --controller=remote,ip=${ODL_SYSTEM_IP} --topo tree,1 --switch ovsk,protocols=OpenFlow13
*** Keywords ***
-Start Suite
+Start Mininet
+ [Arguments] ${system}=${TOOLS_SYSTEM_IP} ${user}=${TOOLS_SYSTEM_USER} ${password}=${TOOLS_SYSTEM_PASSWORD} ${prompt}=${DEFAULT_LINUX_PROMPT} ${timeout}=30s
[Documentation] Basic setup/cleanup work that can be done safely before any system
... is run.
- [Arguments] ${system}=${MININET} ${user}=${MININET_USER} ${password}=${MININET_PASSWORD} ${prompt}=${DEFAULT_LINUX_PROMPT} ${timeout}=30s
Log Start the test on the base edition
Clean Mininet System
- ${mininet_conn_id}= Open Connection ${system} prompt=${DEFAULT_LINUX_PROMPT} timeout=${timeout}
+ ${mininet_conn_id}= Open Connection ${system} prompt=${prompt} timeout=${timeout}
Set Suite Variable ${mininet_conn_id}
- Flexible Mininet Login user=${user} password=${password}
+ SSHKeywords.Flexible Mininet Login user=${user} password=${password}
Execute Command sudo ovs-vsctl set-manager ptcp:6644
Write ${start}
Read Until mininet>
-Start Mininet
- [Arguments] ${system}=${MININET} ${cmd}=${start} ${custom}=${OVSDB_CONFIG_DIR}/ovsdb.py ${user}=${MININET_USER} ${password}=${MININET_PASSWORD} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
- [Documentation] Basic setup to start mininet with custom topology
- Log Start the test on the base edition
- Clean Mininet System
- ${mininet_conn_id}= Open Connection ${system} prompt=${prompt} timeout=${prompt_timeout}
- Set Suite Variable ${mininet_conn_id}
- Flexible Mininet Login user=${user} password=${password}
- Put File ${custom}
- Write ${cmd}
- Read Until mininet>
- [Return] ${mininet_conn_id}
-
-Connect To Controller Karaf
- [Documentation] Connect to the controller's karaf console.
- ${esc}= BuiltIn.Evaluate chr(int(27))
- ${prompt}= Builtin.Set Variable @${esc}[0m${esc}[34mroot${esc}[0m>
- ${connection}= SSHLibrary.Open_Connection ${CONTROLLER} port=${KARAF_SHELL_PORT} prompt=${prompt}
- Set Suite Variable ${controller_index} ${connection}
- SSHLibrary.Login ${KARAF_USER} ${KARAF_PASSWORD}
-
-Log Message To Controller Karaf
- [Arguments] ${message}
- [Documentation] Send a message into the controller's karaf log file.
- # Background info: If there was no previous SSH connection, the "Get
- # Connection" returns an information structure whose "index" field
- # resolves to "None", and the "Switch Connection" below does not
- # complain.
- ${current}= Get_Connection
- ${connection}= Set Variable ${current.index}
- BuiltIn.Run Keyword If ${controller_index} <> -1 Switch Connection ${controller_index}
- BuiltIn.Run Keyword If ${controller_index} == -1 Connect to Controller Karaf
- SSHLibrary.Write log:log "ROBOT MESSAGE: ${message}"
- SSHLibrary.Read_Until_Prompt
- Switch Connection ${connection}
-
Stop Mininet
- [Arguments] ${mininet_conn_id} ${prompt}=${DEFAULT_LINUX_PROMPT}
- [Documentation] Basic setup to stop/clean mininet
- Switch Connection ${mininet_conn_id}
- SSHLibrary.Write exit
- Read Until ${prompt}
- Close Connection
-
-Stop Suite
[Arguments] ${prompt}=${DEFAULT_LINUX_PROMPT}
[Documentation] Cleanup/Shutdown work that should be done at the completion of all
... tests
Read Until ${prompt}
Close Connection
-Ensure All Nodes Are In Response
- [Arguments] ${URI} ${node_list}
- [Documentation] A GET is made to the supplied ${URI} and every item in the ${node_list}
- ... is verified to exist in the repsonse. This keyword currently implies that it's node
- ... specific but any list of strings can be given in ${node_list}. Refactoring of this
- ... to make it more generic should be done. (see keyword "Check For Elements At URI")
- : FOR ${node} IN @{node_list}
- \ ${resp} RequestsLibrary.Get session ${URI}
- \ Should Be Equal As Strings ${resp.status_code} 200
- \ Should Contain ${resp.content} ${node}
+Report_Failure_Due_To_Bug
+ [Arguments] ${number} ${include_bug_in_tags}=True
+ [Documentation] Report that a test failed due to a known Bugzilla bug whose
+ ... number is provided as an argument.
+ ... Not FAILED (incl. SKIPPED) test are not reported.
+ ... This keyword must be used in the [Teardown] setting of the affected test
+ ... or as the first line of the test if FastFail module is not being
+ ... used. It reports the URL of the bug on console and also puts it
+ ... into the Robot log file.
+ ${test_skipped}= BuiltIn.Evaluate len(re.findall('SKIPPED', """${TEST_MESSAGE}""")) > 0 modules=re
+ BuiltIn.Return From Keyword If ('${TEST_STATUS}' != 'FAIL') or ${test_skipped}
+ ${bug_url}= BuiltIn.Set_Variable https://bugs.opendaylight.org/show_bug.cgi?id=${number}
+ ${msg}= BuiltIn.Set_Variable This test fails due to ${bug_url}
+ ${newline}= BuiltIn.Evaluate chr(10)
+ BuiltIn.Set Test Message ${msg}${newline}${newline}${TEST_MESSAGE}
+ BuiltIn.Log ${msg}
+ BuiltIn.Run_Keyword_If "${include_bug_in_tags}"=="True" Set Tags ${bug_url}
+
+Report_Failure_And_Point_To_Linked_Bugs
+ [Documentation] Report that a test failed and point to linked Bugzilla bug(s).
+ ... Linked bugs must contain the ${reference} inside comments (workaround
+ ... becasue of currently missing suitable field for external references and
+ ... not correctly working the CONTENT MATCHES filter).
+ ... Not FAILED (incl. SKIPPED) test are not reported.
+ ... This keyword must be used in the [Teardown] setting of the affected test
+ ... or as the first line of the test if FastFail module is not being
+ ... used. It reports the URL of the bug on console and also puts it
+ ... into the Robot log file.
+ ${test_skipped}= BuiltIn.Evaluate len(re.findall('SKIPPED', """${TEST_MESSAGE}""")) > 0 modules=re
+ BuiltIn.Return From Keyword If ('${TEST_STATUS}' != 'FAIL') or ${test_skipped}
+ ${newline}= BuiltIn.Evaluate chr(10)
+ ${reference}= String.Replace_String_Using_Regexp ${SUITE_NAME}_${TEST_NAME} [ /\.-] _
+ ${reference}= String.Convert_To_Lowercase ${reference}
+ ${msg}= BuiltIn.Set_Variable ... click for list of related bugs or create a new one if needed (with the${newline}"${reference}"${newline}reference somewhere inside)
+ ${bugs}= BuiltIn.Set_Variable "https://bugs.opendaylight.org/buglist.cgi?f1=cf_external_ref&o1=substring&v1=${reference}&order=bug_status"
+ BuiltIn.Set Test Message ${msg}${newline}${bugs}${newline}${newline}${TEST_MESSAGE}
+ BuiltIn.Log ${msg}${newline}${bugs}
Check Nodes Stats
- [Arguments] ${node}
+ [Arguments] ${node} ${session}=session
[Documentation] A GET on the /node/${node} API is made and specific flow stat
... strings are checked for existence.
- ${resp} RequestsLibrary.Get session ${OPERATIONAL_NODES_API}/node/${node}
+ ${resp} RequestsLibrary.Get Request ${session} ${OPERATIONAL_NODES_API}/node/${node}
Should Be Equal As Strings ${resp.status_code} 200
Should Contain ${resp.content} flow-capable-node-connector-statistics
Should Contain ${resp.content} flow-table-statistics
-Check That Port Count Is Ok
- [Arguments] ${node} ${count}
- [Documentation] A GET on the /port API is made and the specified port ${count} is
- ... verified. A more generic Keyword "Check For Specific Number Of Elements At URI"
- ... also does this work and further consolidation should be done.
- ${resp} RequestsLibrary.Get session ${REST_CONTEXT}/${CONTAINER}/port
- Log ${resp.content}
- Should Be Equal As Strings ${resp.status_code} 200
- Should Contain X Times ${resp.content} ${node} ${count}
-
Check For Specific Number Of Elements At URI
- [Arguments] ${uri} ${element} ${expected_count}
+ [Arguments] ${uri} ${element} ${expected_count} ${session}=session
[Documentation] A GET is made to the specified ${URI} and the specific count of a
... given element is done (as supplied by ${element} and ${expected_count})
- ${resp} RequestsLibrary.Get session ${uri}
+ ${resp} RequestsLibrary.Get Request ${session} ${uri}
Log ${resp.content}
Should Be Equal As Strings ${resp.status_code} 200
Should Contain X Times ${resp.content} ${element} ${expected_count}
Check For Elements At URI
- [Arguments] ${uri} ${elements}
+ [Arguments] ${uri} ${elements} ${session}=session
[Documentation] A GET is made at the supplied ${URI} and every item in the list of
... ${elements} is verified to exist in the response
- ${resp} RequestsLibrary.Get session ${uri}
+ ${resp} RequestsLibrary.Get Request ${session} ${uri}
Log ${resp.content}
Should Be Equal As Strings ${resp.status_code} 200
: FOR ${i} IN @{elements}
\ Should Contain ${resp.content} ${i}
Check For Elements Not At URI
- [Arguments] ${uri} ${elements}
+ [Arguments] ${uri} ${elements} ${session}=session
[Documentation] A GET is made at the supplied ${URI} and every item in the list of
... ${elements} is verified to NOT exist in the response
- ${resp} RequestsLibrary.Get session ${uri}
+ ${resp} RequestsLibrary.Get Request ${session} ${uri}
Log ${resp.content}
Should Be Equal As Strings ${resp.status_code} 200
: FOR ${i} IN @{elements}
\ Should Not Contain ${resp.content} ${i}
Clean Mininet System
- [Arguments] ${system}=${MININET}
+ [Arguments] ${system}=${TOOLS_SYSTEM_IP}
Run Command On Mininet ${system} sudo mn -c
Run Command On Mininet ${system} sudo ps -elf | egrep 'usr/local/bin/mn' | egrep python | awk '{print "sudo kill -9",$4}' | sh
Clean Up Ovs
- [Arguments] ${system}=${MININET}
+ [Arguments] ${system}=${TOOLS_SYSTEM_IP}
[Documentation] Cleans up the OVS instance and remove any existing common known bridges.
${output}= Run Command On Mininet ${system} sudo ovs-vsctl list-br
Log ${output}
[Return] ${value}
Get Process ID Based On Regex On Remote System
- [Arguments] ${system} ${regex_string_to_match_on} ${user}=${MININET_USER} ${password}=${EMPTY} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
+ [Arguments] ${system} ${regex_string_to_match_on} ${user}=${TOOLS_SYSTEM_USER} ${password}=${EMPTY} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
[Documentation] Uses ps to find a process that matches the supplied regex. Returns the PID of that process
... The ${regex_string_to_match_on} should produce a unique process otherwise the PID returned may not be
... the expected PID
# doing the extra -v grep in this command to exclude the grep process itself from the output
${cmd}= Set Variable ps -elf | grep -v grep | grep ${regex_string_to_match_on} | awk '{print $4}'
- ${output}= Run Command On Remote System ${system} ${cmd} user=${user} password=${password} prompt=${prompt} prompt_timeout=${prompt_timeout}
+ ${output}= Run Command On Remote System ${system} ${cmd} user=${user} password=${password} prompt=${prompt}
+ ... prompt_timeout=${prompt_timeout}
# ${output} contains the system prompt and all we want is the value of the number
${pid}= Fetch From Left ${output} \r
- [Return] ${pid}
# TODO: Get Process * keywords have perhaps non-standard default credentials.
# ... Should there be * On Mininet and * On Controller specializations?
+ [Return] ${pid}
Get Process Thread Count On Remote System
- [Arguments] ${system} ${pid} ${user}=${MININET_USER} ${password}=${EMPTY} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
+ [Arguments] ${system} ${pid} ${user}=${TOOLS_SYSTEM_USER} ${password}=${EMPTY} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
[Documentation] Executes the ps command to retrieve the lightweight process (aka thread) count.
- ${cmd}= ps --no-headers -o nlwp ${pid}
- ${output}= Run Command On Remote System ${system} ${cmd} user=${user} password=${password} prompt=${prompt} prompt_timeout=${prompt_timeout}
+ ${cmd}= Set Variable ps --no-headers -o nlwp ${pid}
+ ${output}= Run Command On Remote System ${system} ${cmd} user=${user} password=${password} prompt=${prompt}
+ ... prompt_timeout=${prompt_timeout}
# ${output} contains the system prompt and all we want is the value of the number
${thread_count}= Fetch From Left ${output} \r
[Return] ${thread_count}
${string_to_return}= Replace String ${string_to_strip} " \ count=-1
[Return] ${string_to_return}
-Flexible SSH Login
- [Arguments] ${user} ${password}=${EMPTY} ${delay}=0.5s
- [Documentation] On active SSH session: if given non-empty password, do Login, else do Login With Public Key.
- ${pwd_length} = BuiltIn.Get Length ${password}
- # ${pwd_length} is guaranteed to be an integer, so we are safe to evaluate it as Python expression.
- BuiltIn.Run Keyword And Return If ${pwd_length} > 0 SSHLibrary.Login ${user} ${password} delay=${delay}
- BuiltIn.Run Keyword And Return SSHLibrary.Login With Public Key ${user} ${USER_HOME}/.ssh/${SSH_KEY} ${KEYFILE_PASS} delay=${delay}
-
-Flexible Mininet Login
- [Arguments] ${user}=${MININET_USER} ${password}=${MININET_PASSWORD} ${delay}=0.5s
- [Documentation] Call Flexible SSH Login, but with default values suitable for Mininet machine.
- BuiltIn.Run Keyword And Return Flexible SSH Login user=${user} password=${password} delay=${delay}
-
-Flexible Controller Login
- [Arguments] ${user}=${CONTROLLER_USER} ${password}=${CONTROLLER_PASSWORD} ${delay}=0.5s
- [Documentation] Call Flexible SSH Login, but with default values suitable for Controller machine.
- BuiltIn.Run Keyword And Return Flexible SSH Login user=${user} password=${password} delay=${delay}
-
Run Command On Remote System
- [Arguments] ${system} ${cmd} ${user}=${MININET_USER} ${password}=${EMPTY} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
+ [Arguments] ${system} ${cmd} ${user}=${DEFAULT_USER} ${password}=${EMPTY} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=${DEFAULT_TIMEOUT}
+ ... ${return_stdout}=True ${return_stderr}=False
[Documentation] Reduces the common work of running a command on a remote system to a single higher level
- ... robot keyword, taking care to log in with a public key and. The command given is written
- ... and the output returned. No test conditions are checked.
- Log Attempting to execute ${cmd} on ${system} by ${user} with ${keyfile_pass} and ${prompt}
+ ... robot keyword, taking care to log in with a public key and. The command given is written and the return value
+ ... depends on the passed argument values of return_stdout (default: True) and return_stderr (default: False).
+ ... At least one should be True, or the keyword will exit and FAIL. If both are True, the resulting return value
+ ... will be a two element list containing both. Otherwise the resulting return value is a string.
+ ... No test conditions are checked.
+ Run Keyword If "${return_stdout}"!="True" and "${return_stderr}"!="True" Fail At least one of {return_stdout} or {return_stderr} args should be set to True
+ ${current_ssh_connection}= SSHLibrary.Get Connection
+ BuiltIn.Log Attempting to execute command "${cmd}" on remote system "${system}" by user "${user}" with keyfile pass "${keyfile_pass}" and prompt "${prompt}" and password "${password}"
${conn_id}= SSHLibrary.Open Connection ${system} prompt=${prompt} timeout=${prompt_timeout}
- Flexible SSH Login ${user} ${password}
- SSHLibrary.Write ${cmd}
- ${output}= SSHLibrary.Read Until ${prompt}
+ SSHKeywords.Flexible SSH Login ${user} ${password}
+ ${stdout} ${stderr} SSHLibrary.Execute Command ${cmd} return_stderr=True
SSHLibrary.Close Connection
+ Log ${stderr}
+ Run Keyword If "${return_stdout}"!="True" Return From Keyword ${stderr}
+ Run Keyword If "${return_stderr}"!="True" Return From Keyword ${stdout}
+ [Teardown] SSHKeywords.Restore_Current_SSH_Connection_From_Index ${current_ssh_connection.index}
+ [Return] ${stdout} ${stderr}
+
+Run Command On Remote System And Log
+ [Arguments] ${system} ${cmd} ${user}=${DEFAULT_USER} ${password}=${EMPTY} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=${DEFAULT_TIMEOUT}
+ [Documentation] Reduces the common work of running a command on a remote system to a single higher level
+ ... robot keyword, taking care to log in with a public key and. The command given is written
+ ... and the output returned. No test conditions are checked.
+ ${output} = Run Command On Remote System ${system} ${cmd} ${user} ${password} ${prompt}
+ ... ${prompt_timeout}
Log ${output}
[Return] ${output}
Run Command On Mininet
- [Arguments] ${system}=${MININET} ${cmd}=echo ${user}=${MININET_USER} ${password}=${MININET_PASSWORD} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
+ [Arguments] ${system}=${TOOLS_SYSTEM_IP} ${cmd}=echo ${user}=${TOOLS_SYSTEM_USER} ${password}=${TOOLS_SYSTEM_PASSWORD} ${prompt}=${TOOLS_SYSTEM_PROMPT}
[Documentation] Call Run Comand On Remote System, but with default values suitable for Mininet machine.
- BuiltIn.Run Keyword And Return Run Command On Remote System ${system} ${cmd} user=${user} password=${password} prompt=${prompt} prompt_timeout=${prompt_timeout}
+ BuiltIn.Run Keyword And Return Run Command On Remote System ${system} ${cmd} ${user} ${password} prompt=${prompt}
Run Command On Controller
- [Arguments] ${system}=${CONTROLLER} ${cmd}=echo ${user}=${CONTROLLER_USER} ${password}=${CONTROLLER_PASSWORD} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
+ [Arguments] ${system}=${ODL_SYSTEM_IP} ${cmd}=echo ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT}
[Documentation] Call Run Comand On Remote System, but with default values suitable for Controller machine.
- BuiltIn.Run Keyword And Return Run Command On Remote System ${system} ${cmd} user=${user} password=${password} prompt=${prompt} prompt_timeout=${prompt_timeout}
+ BuiltIn.Run Keyword And Return Run Command On Remote System ${system} ${cmd} ${user} ${password} prompt=${prompt}
Verify File Exists On Remote System
- [Arguments] ${system} ${file} ${user}=${MININET_USER} ${password}=${MININET_PASSWORD} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=5s
+ [Arguments] ${system} ${file} ${user}=${TOOLS_SYSTEM_USER} ${password}=${TOOLS_SYSTEM_PASSWORD} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=5s
[Documentation] Will create connection with public key and will PASS if the given ${file} exists,
... otherwise will FAIL
${conn_id}= Open Connection ${system} prompt=${prompt} timeout=${prompt_timeout}
- Flexible SSH Login ${user} ${password}
+ SSHKeywords.Flexible SSH Login ${user} ${password}
SSHLibrary.File Should Exist ${file}
Close Connection
+Check Karaf Log File Does Not Have Messages
+ [Arguments] ${ip} ${message} ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT} ${log_file}=${WORKSPACE}/${BUNDLEFOLDER}/data/log/karaf.log
+ [Documentation] Fails if the provided ${message} is found in the karaf.log file. Uses grep to search. The
+ ... karaf.log file can be overridden with ${log_file} to be any file on the given system @ ${ip}
+ ${output}= Run Command On Controller ${ip} grep -c '${message}' ${log_file} user=${user} password=${password} prompt=${prompt}
+ Should Be Equal As Strings ${output} 0
+
Verify Controller Is Not Dead
- [Arguments] ${controller_ip}=${CONTROLLER}
+ [Arguments] ${controller_ip}=${ODL_SYSTEM_IP}
[Documentation] Will execute any tests to verify the controller is not dead. Some checks are
... Out Of Memory Execptions.
Check Karaf Log File Does Not Have Messages ${controller_ip} java.lang.OutOfMemoryError
# TODO: Should Verify Controller * keywords also accept user, password, prompt and karaf_log arguments?
Verify Controller Has No Null Pointer Exceptions
- [Arguments] ${controller_ip}=${CONTROLLER}
+ [Arguments] ${controller_ip}=${ODL_SYSTEM_IP}
[Documentation] Will execute any tests to verify the controller is not having any null pointer eceptions.
Check Karaf Log File Does Not Have Messages ${controller_ip} java.lang.NullPointerException
${output}= Catenate ${str1} ${str2}
[Return] ${output}
+Post Elements To URI
+ [Arguments] ${rest_uri} ${data} ${headers}=${headers} ${session}=session
+ [Documentation] Perform a POST rest operation, using the URL and data provided
+ ${resp} = RequestsLibrary.Post Request ${session} ${rest_uri} data=${data} headers=${headers}
+ Log ${resp.content}
+ Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
Remove All Elements At URI
- [Arguments] ${uri}
- ${resp} RequestsLibrary.Delete session ${uri}
- Should Be Equal As Strings ${resp.status_code} 200
+ [Arguments] ${uri} ${session}=session
+ ${resp} RequestsLibrary.Delete Request ${session} ${uri}
+ Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
+Remove All Elements At URI And Verify
+ [Arguments] ${uri} ${session}=session
+ ${resp} RequestsLibrary.Delete Request ${session} ${uri}
+ Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+ ${resp} RequestsLibrary.Get Request ${session} ${uri}
+ Should Be Equal As Strings ${resp.status_code} 404
+
+Remove All Elements If Exist
+ [Arguments] ${uri} ${session}=session
+ [Documentation] Delete all elements from an URI if the configuration was not empty
+ ${resp} RequestsLibrary.Get Request ${session} ${uri}
+ Run Keyword If '${resp.status_code}'!='404' Remove All Elements At URI ${uri} ${session}
Add Elements To URI From File
- [Arguments] ${dest_uri} ${data_file}
+ [Arguments] ${dest_uri} ${data_file} ${headers}=${headers} ${session}=session
${body} OperatingSystem.Get File ${data_file}
- ${resp} RequestsLibrary.Put session ${dest_uri} data=${body} headers=${headers}
- Should Be Equal As Strings ${resp.status_code} 200
+ ${resp} RequestsLibrary.Put Request ${session} ${dest_uri} data=${body} headers=${headers}
+ Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
+Add Elements To URI From File And Verify
+ [Arguments] ${dest_uri} ${data_file} ${headers}=${headers} ${session}=session
+ ${body} OperatingSystem.Get File ${data_file}
+ ${resp} RequestsLibrary.Put Request ${session} ${dest_uri} data=${body} headers=${headers}
+ Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+ ${resp} RequestsLibrary.Get Request ${session} ${dest_uri}
+ Should Not Be Equal ${resp.status_code} 404
+
+Add Elements To URI And Verify
+ [Arguments] ${dest_uri} ${data_file} ${headers}=${headers} ${session}=session
+ ${resp} RequestsLibrary.Put Request ${session} ${dest_uri} ${data_file} headers=${headers}
+ Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+ ${resp} RequestsLibrary.Get Request ${session} ${dest_uri}
+ Should Not Be Equal ${resp.status_code} 404
+
+Add Elements To URI From File And Check Validation Error
+ [Arguments] ${dest_uri} ${data_file} ${headers}=${headers} ${session}=session
+ [Documentation] Shorthand for PUTting data from file and expecting status code 400.
+ BuiltIn.Comment TODO: Does this have any benefits, considering TemplatedRequests can also do this in one line?
+ ${body} OperatingSystem.Get File ${data_file}
+ ${resp} RequestsLibrary.Put Request ${session} ${dest_uri} data=${body} headers=${headers}
+ Should Contain ${DATA_VALIDATION_ERROR} ${resp.status_code}
+
+Add Elements To URI From File And Check Server Error
+ [Arguments] ${dest_uri} ${data_file} ${headers}=${headers} ${session}=session
+ [Documentation] Shorthand for PUTting data from file and expecting status code 500.
+ ... Consider opening a Bug against ODL, as in most test cases, 400 is the http code to expect.
+ BuiltIn.Comment TODO: Does this have any benefits, considering TemplatedRequests can also do this in one line?
+ ${body} OperatingSystem.Get File ${data_file}
+ ${resp} RequestsLibrary.Put Request ${session} ${dest_uri} data=${body} headers=${headers}
+ Should Contain ${INTERNAL_SERVER_ERROR} ${resp.status_code}
Post Elements To URI From File
- [Arguments] ${dest_uri} ${data_file}
+ [Arguments] ${dest_uri} ${data_file} ${headers}=${headers} ${session}=session
${body} OperatingSystem.Get File ${data_file}
- ${resp} RequestsLibrary.Post session ${dest_uri} data=${body} headers=${headers}
- Should Be Equal As Strings ${resp.status_code} 200
+ ${resp} RequestsLibrary.Post Request ${session} ${dest_uri} data=${body} headers=${headers}
+ Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
+Run Process With Logging And Status Check
+ [Arguments] @{proc_args}
+ [Documentation] Execute an OS command, log STDOUT and STDERR output and check exit code to be 0
+ ${result}= Run Process @{proc_args}
+ Log ${result.stdout}
+ Log ${result.stderr}
+ Should Be Equal As Integers ${result.rc} 0
+ [Return] ${result}
+
+Get Data From URI
+ [Arguments] ${session} ${uri} ${headers}=${NONE}
+ [Documentation] Issue a GET request and return the data obtained or on error log the error and fail.
+ ... Issues a GET request for ${uri} in ${session} using headers from
+ ... ${headers}. If the request returns a HTTP error, fails. Otherwise
+ ... returns the data obtained by the request.
+ ${response}= RequestsLibrary.Get Request ${session} ${uri} ${headers}
+ Builtin.Return_From_Keyword_If ${response.status_code} == 200 ${response.text}
+ Builtin.Log ${response.text}
+ Builtin.Fail The request failed with code ${response.status_code}
+
+No Content From URI
+ [Arguments] ${session} ${uri} ${headers}=${NONE}
+ [Documentation] Issue a GET request and return on error 404 (No content) or will fail and log the content.
+ ... Issues a GET request for ${uri} in ${session} using headers from
+ ... ${headers}. If the request returns a HTTP error, fails. Otherwise
+ ... returns the data obtained by the request.
+ ${response}= RequestsLibrary.Get Request ${session} ${uri} ${headers}
+ Builtin.Return_From_Keyword_If ${response.status_code} == 404
+ Builtin.Log ${response.text}
+ Builtin.Fail The request failed with code ${response.status_code}
+
+Get Index From List Of Dictionaries
+ [Arguments] ${dictionary_list} ${key} ${value}
+ [Documentation] Extract index for the dictionary in a list that contains a key-value pair. Returns -1 if key-value is not found.
+ ${length}= Get Length ${dictionary_list}
+ ${index}= Set Variable -1
+ : FOR ${i} IN RANGE ${length}
+ \ ${dictionary}= Get From List ${dictionary_list} ${i}
+ \ Run Keyword If """&{dictionary}[${key}]""" == """${value}""" Set Test Variable ${index} ${i}
+ [Return] ${index}
+
+Check Item Occurrence
+ [Arguments] ${string} ${dictionary_item_occurrence}
+ [Documentation] Check string for occurrences of items expressed in a list of dictionaries {item=occurrences}. 0 occurences means item is not present.
+ : FOR ${item} IN @{dictionary_item_occurrence}
+ \ Should Contain X Times ${string} ${item} &{dictionary_item_occurrence}[${item}]
+
+Post Log Check
+ [Arguments] ${uri} ${body} ${status_code}=200 ${session}=session
+ [Documentation] Post body to ${uri}, log response content, and check status
+ ${resp}= RequestsLibrary.Post Request ${session} ${uri} ${body}
+ Log ${resp.content}
+ Should Be Equal As Strings ${resp.status_code} ${status_code}
+ [Return] ${resp}
+
+Get Log File Name
+ [Arguments] ${testtool} ${testcase}=${EMPTY}
+ [Documentation] Get the name of the suite sanitized to be usable as a part of filename.
+ ... These names are used to constructs names of the log files produced
+ ... by the testing tools so two suites using a tool wont overwrite the
+ ... log files if they happen to run in one job.
+ ${name}= BuiltIn.Evaluate """${SUITE_NAME}""".replace(" ","-").replace("/","-").replace(".","-")
+ ${suffix}= BuiltIn.Set_Variable_If '${testcase}' != '' --${testcase} ${EMPTY}
+ [Return] ${testtool}--${name}${suffix}.log
+
+Set_User_Configurable_Variable_Default
+ [Arguments] ${name} ${value}
+ [Documentation] Set a default value for an user configurable variable.
+ ... This keyword is needed if your default value is calculated using
+ ... a complex expression which needs BuiltIn.Evaluate or even more
+ ... complex keywords. It sets the variable ${name} (the name of the
+ ... variable MUST be specified WITHOUT the ${} syntactic sugar due
+ ... to limitations of Robot Framework) to ${value} but only if the
+ ... variable ${name} was not set previously. This keyword is intended
+ ... for user configurable variables which are supposed to be set only
+ ... with pybot -v; calling this keyword on a variable that was already
+ ... set by another keyword will silently turn the call into a NOP and
+ ... thus is a bug in the suite or resource trying to call this
+ ... keyword.
+ # TODO: Figure out how to make the ${value} evaluation "lazy" (meaning
+ # evaluating it only when the user did not set anything and thus the
+ # default is needed). This might be needed to avoid potentially costly
+ # keyword invocations when they are not needed. Currently no need for
+ # this was identified, thus leaving it here as a TODO. Based on
+ # comments the best approach would be to create another keyword that
+ # expects a ScalarClosure in the place of ${value} and calls the
+ # closure to get the value but only if the value is needed).
+ # The best idea how to implement this "laziness" would be to have the
+ # used to define another keyword that will be responsible for getting
+ # the default value and then passing the name of this getter keyword
+ # to this keyword. Then this keyword would call the getter (to obtain
+ # the expensive default value) only if it discovers that this value
+ # is really needed (because the variable is not set yet).
+ # TODO: Is the above TODO really necessary? Right now we don't have any
+ # examples of "expensive default values" where to obtain the default
+ # value is so expensive on resources (e.g. need to SSH somewhere to
+ # check something) that we would want to skip the calculation if the
+ # variable for which it is needed has a value already provided by the
+ # user using "pybot -v" or something. One example would be
+ # JAVA_HOME if it would be designed as user-configurable variable
+ # (currently it is not; users can specify "use jdk7" or "use jdk8"
+ # but not "use the jdk over there"; and there actually is no JAVA_HOME
+ # present in the resource, rather the Java invocation command uses the
+ # Java invocation with a full path). The default value of JAVA_HOME
+ # has to be obtained by issuing commands on the SSH connection where
+ # the resulting Java invocation command will be used (to check
+ # multiple candidate paths until one that fits is found) and we could
+ # skip all this checking if a JAVA_HOME was supplied by the user using
+ # "pybot -v".
+ ${value}= BuiltIn.Get_Variable_Value \${${name}} ${value}
+ BuiltIn.Set_Suite_Variable \${${name}} ${value}
+
+Convert_To_Minutes
+ [Arguments] ${time}
+ [Documentation] Convert a Robot time string to an integer expressing the time in minutes, rounded up
+ ... This is a wrapper around DateTime.Convert_Time which does not
+ ... provide this functionality directly nor is even able to produce
+ ... an integer directly. It is needed for RestPerfClient which
+ ... cannot accept floats for its --timeout parameter and interprets
+ ... the value supplied in this parameter in minutes.
+ ${seconds}= DateTime.Convert_Time ${time} result_format=number
+ ${minutes}= BuiltIn.Evaluate int(math.ceil(${seconds}/60.0)) modules=math
+ [Return] ${minutes}
+
+Write Commands Until Expected Prompt
+ [Arguments] ${cmd} ${prompt} ${timeout}=30s
+ [Documentation] quick wrapper for Write and Read Until Prompt Keywords to make test cases more readable
+ SSHLibrary.Set Client Configuration timeout=${timeout}
+ SSHLibrary.Read
+ SSHLibrary.Write ${cmd}
+ ${output}= SSHLibrary.Read Until ${prompt}
+ [Return] ${output}
+
+Install Package On Ubuntu System
+ [Arguments] ${package_name} ${system}=${TOOLS_SYSTEM_IP} ${user}=${TOOLS_SYSTEM_USER} ${password}=${TOOLS_SYSTEM_PASSWORD} ${prompt}=${DEFAULT_LINUX_PROMPT} ${prompt_timeout}=30s
+ [Documentation] Keyword to install packages for testing to Ubuntu Mininet VM
+ Log Keyword to install package to Mininet Ubuntu VM
+ Open Connection ${system} prompt=${prompt} timeout=${prompt_timeout}
+ SSHKeywords.Flexible Mininet Login user=${user} password=${password}
+ Write sudo apt-get install -y ${package_name}
+ Read Until ${prompt}
+
+Json Parse From String
+ [Arguments] ${plain_string_with_json}
+ [Documentation] Parse given plain string into json (dictionary)
+ ${json_data} Evaluate json.loads('''${plain_string_with_json}''') json
+ [Return] ${json_data}
+
+Json Parse From File
+ [Arguments] ${json_file}
+ [Documentation] Parse given file content into json (dictionary)
+ ${json_plain_string} OperatingSystem.Get file ${json_file}
+ ${json_data} Json Parse From String ${json_plain_string}
+ [Return] ${json_data}
+
+Modify Iptables On Remote System
+ [Arguments] ${remote_system_ip} ${iptables_rule} ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT}
+ [Documentation] Wrapper keyword to run iptables with any given ${iptables_rule} string on the remote system given
+ ... by ${remote_system_ip}. The iptables listing will be output before and after the command is run
+ ${list_iptables_command} = BuiltIn.Set Variable sudo /sbin/iptables -L -n
+ ${output} = Utils.Run Command On Remote System ${remote_system_ip} ${list_iptables_command} ${user} ${password} prompt=${prompt}
+ BuiltIn.Log ${output}
+ Utils.Run Command On Remote System ${remote_system_ip} sudo /sbin/iptables ${iptables_rule} ${user} ${password} prompt=${prompt}
+ ${output} = Utils.Run Command On Remote System ${remote_system_ip} ${list_iptables_command} ${user} ${password} prompt=${prompt}
+ BuiltIn.Log ${output}