http_server : Fix and enable example tests

This introduces the following changes in the example test scripts :
* Dependency on python requests library removed in favor of httplib
* Bug fixed in the logic responsible for receiving and processing http chunked responses
* Default timeouts increased Note : Due to connectivity issues (between runner host and DUT) in the runner environment, some of the advanced_tests are being ignored. These tests are intended for verifying the expected limits of the http_server capabilities, and implement sending and receiving of large HTTP packets and malformed requests, running multiple parallel sessions, etc. It is advised that all these tests be run locally, when making changes or adding new features to this component.
This commit is contained in:
Anurag Kar 2018-08-10 23:58:38 +05:30
parent ba17648aea
commit e2da1d9905
6 changed files with 476 additions and 544 deletions

View File

@ -28,9 +28,9 @@ if test_fw_path and test_fw_path not in sys.path:
sys.path.insert(0, test_fw_path)
# When running on local machine execute the following before running this script
# > export TEST_FW_PATH='~/esp/esp-idf/tools/tiny-test-fw'
# > make print_flash_cmd | tail -n 1 > build/download.config
# > make app bootloader
# > make print_flash_cmd | tail -n 1 > build/download.config
# > export TEST_FW_PATH=~/esp/esp-idf/tools/tiny-test-fw
import TinyFW
import IDF
@ -39,7 +39,13 @@ import IDF
expath = os.path.dirname(os.path.realpath(__file__))
client = imp.load_source("client", expath + "/scripts/test.py")
@IDF.idf_example_test(env_tag="Example_WIFI", ignore=True)
# Due to connectivity issues (between runner host and DUT) in the runner environment,
# some of the `advanced_tests` are ignored. These tests are intended for verifying
# the expected limits of the http_server capabilities, and implement sending and receiving
# of large HTTP packets and malformed requests, running multiple parallel sessions, etc.
# It is advised that all these tests be run locally, when making changes or adding new
# features to this component.
@IDF.idf_example_test(env_tag="Example_WIFI")
def test_examples_protocol_http_server_advanced(env, extra_data):
# Acquire DUT
dut1 = env.get_dut("http_server", "examples/protocols/http_server/advanced_tests")
@ -47,22 +53,24 @@ def test_examples_protocol_http_server_advanced(env, extra_data):
# Get binary file
binary_file = os.path.join(dut1.app.binary_path, "tests.bin")
bin_size = os.path.getsize(binary_file)
IDF.log_performance("http_server_bin_size", "{}KB".format(bin_size//1024))
IDF.check_performance("http_server_bin_size", bin_size//1024)
IDF.log_performance("http_server_bin_size", "{}KB".format(bin_size/1024))
IDF.check_performance("http_server_bin_size", bin_size/1024)
# Upload binary and start testing
print "Starting http_server advanced test app"
dut1.start_app()
# Parse IP address of STA
print "Waiting to connect with AP"
got_ip = dut1.expect(re.compile(r"(?:[\s\S]*)Got IP: (\d+.\d+.\d+.\d+)"), timeout=30)[0]
print "Leak Tests..."
# Expected Leak test Logs
dut1.expect("Leak Test Started...");
dut1.expect("Leak Test Passed");
dut1.expect("Leak Test Started...", timeout=15);
dut1.expect("Leak Test Passed", timeout=15);
got_port = dut1.expect(re.compile(r"(?:[\s\S]*)Started HTTP server on port: (\d+)"))[0]
result = dut1.expect(re.compile(r"(?:[\s\S]*)Max URI handlers: (\d+)(?:[\s\S]*)Max Open Sessions: (\d+)(?:[\s\S]*)Max Header Length: (\d+)(?:[\s\S]*)Max URI Length: (\d+)(?:[\s\S]*)Max Stack Size: (\d+)"))
got_port = dut1.expect(re.compile(r"(?:[\s\S]*)Started HTTP server on port: (\d+)"), timeout=15)[0]
result = dut1.expect(re.compile(r"(?:[\s\S]*)Max URI handlers: (\d+)(?:[\s\S]*)Max Open Sessions: (\d+)(?:[\s\S]*)Max Header Length: (\d+)(?:[\s\S]*)Max URI Length: (\d+)(?:[\s\S]*)Max Stack Size: (\d+)"), timeout=15)
max_uri_handlers = int(result[0])
max_sessions = int(result[1])
max_hdr_len = int(result[2])
@ -74,109 +82,112 @@ def test_examples_protocol_http_server_advanced(env, extra_data):
print "Handler Tests..."
# Expected Handler Test Logs
dut1.expect("Test: Register Max URI handlers")
dut1.expect("Success")
dut1.expect("Test: Register Max URI + 1 handlers")
dut1.expect("no slots left for registering handler")
dut1.expect("Success")
dut1.expect("Test: Unregister 0th handler")
dut1.expect("Success")
dut1.expect("Test: Again unregister 0th handler not registered")
dut1.expect("handler 0 with method 1 not found")
dut1.expect("Success")
dut1.expect("Test: Register back 0th handler")
dut1.expect("Success")
dut1.expect("Test: Register 0th handler again after registering")
dut1.expect("handler 0 with method 1 already registered")
dut1.expect("Success")
dut1.expect("Test: Register 1 more handler")
dut1.expect("no slots left for registering handler")
dut1.expect("Success")
dut1.expect("Test: Unregister all handlers")
dut1.expect("Success")
dut1.expect("Registering basic handlers")
dut1.expect("Test: Register Max URI handlers", timeout=15)
dut1.expect("Success", timeout=15)
dut1.expect("Test: Register Max URI + 1 handlers", timeout=15)
dut1.expect("no slots left for registering handler", timeout=15)
dut1.expect("Success", timeout=15)
dut1.expect("Test: Unregister 0th handler", timeout=15)
dut1.expect("Success", timeout=15)
dut1.expect("Test: Again unregister 0th handler not registered", timeout=15)
dut1.expect("handler 0 with method 1 not found", timeout=15)
dut1.expect("Success", timeout=15)
dut1.expect("Test: Register back 0th handler", timeout=15)
dut1.expect("Success", timeout=15)
dut1.expect("Test: Register 0th handler again after registering", timeout=15)
dut1.expect("handler 0 with method 1 already registered", timeout=15)
dut1.expect("Success", timeout=15)
dut1.expect("Test: Register 1 more handler", timeout=15)
dut1.expect("no slots left for registering handler", timeout=15)
dut1.expect("Success")
dut1.expect("Test: Unregister all handlers", timeout=15)
dut1.expect("Success", timeout=15)
dut1.expect("Registering basic handlers", timeout=15)
dut1.expect("Success", timeout=15)
# Run test script
# If failed raise appropriate exception
print "Basic HTTP Client Tests..."
if not client.get_hello(got_ip, got_port):
raise RuntimeError
inital_stack = int(dut1.expect(re.compile(r"(?:[\s\S]*)Free Stack for server task: (\d+)"))[0])
if inital_stack < 0.1*max_stack_size:
print "More than 90% of stack being used on server start"
raise RuntimeError
if not client.post_hello(got_ip, got_port):
raise RuntimeError
if not client.put_hello(got_ip, got_port):
raise RuntimeError
if not client.post_echo(got_ip, got_port):
raise RuntimeError
if not client.get_echo(got_ip, got_port):
raise RuntimeError
if not client.put_echo(got_ip, got_port):
raise RuntimeError
if not client.get_hello_type(got_ip, got_port):
raise RuntimeError
if not client.get_hello_status(got_ip, got_port):
raise RuntimeError
if not client.get_false_uri(got_ip, got_port):
raise RuntimeError
print "Error code tests..."
if not client.code_500_server_error_test(got_ip, got_port):
raise RuntimeError
if not client.code_501_method_not_impl(got_ip, got_port):
raise RuntimeError
if not client.code_505_version_not_supported(got_ip, got_port):
raise RuntimeError
if not client.code_400_bad_request(got_ip, got_port):
raise RuntimeError
if not client.code_404_not_found(got_ip, got_port):
raise RuntimeError
if not client.code_405_method_not_allowed(got_ip, got_port):
raise RuntimeError
if not client.code_408_req_timeout(got_ip, got_port):
raise RuntimeError
if not client.code_414_uri_too_long(got_ip, got_port, max_uri_len):
raise RuntimeError
if not client.code_431_hdr_too_long(got_ip, got_port, max_hdr_len):
raise RuntimeError
if not client.test_upgrade_not_supported(got_ip, got_port):
raise RuntimeError
failed = False
print "Sessions and Context Tests..."
if not client.parallel_sessions_adder(got_ip, got_port, max_sessions):
raise RuntimeError
if not client.leftover_data_test(got_ip, got_port):
raise RuntimeError
if not client.async_response_test(got_ip, got_port):
raise RuntimeError
if not client.spillover_session(got_ip, got_port, max_sessions):
raise RuntimeError
print "Ignoring failure"
if not client.parallel_sessions_adder(got_ip, got_port, max_sessions):
print "Ignoring failure"
if not client.leftover_data_test(got_ip, got_port):
failed = True
if not client.async_response_test(got_ip, got_port):
failed = True
if not client.recv_timeout_test(got_ip, got_port):
raise RuntimeError
# May timeout in case requests are sent slower than responses are read.
# Instead use httperf stress test
#if not client.pipeline_test(got_ip, got_port, max_sessions):
# raise RuntimeError
failed = True
test_size = 50*1024 # 50KB
if not client.packet_size_limit_test(got_ip, got_port, test_size):
raise RuntimeError
print "Ignoring failure"
print "Getting initial stack usage..."
if not client.get_hello(got_ip, got_port):
raise RuntimeError
failed = True
final_stack = int(dut1.expect(re.compile(r"(?:[\s\S]*)Free Stack for server task: (\d+)"))[0])
inital_stack = int(dut1.expect(re.compile(r"(?:[\s\S]*)Free Stack for server task: (\d+)"), timeout=15)[0])
if inital_stack < 0.1*max_stack_size:
print "More than 90% of stack being used on server start"
failed = True
print "Basic HTTP Client Tests..."
if not client.get_hello(got_ip, got_port):
failed = True
if not client.post_hello(got_ip, got_port):
failed = True
if not client.put_hello(got_ip, got_port):
failed = True
if not client.post_echo(got_ip, got_port):
failed = True
if not client.get_echo(got_ip, got_port):
failed = True
if not client.put_echo(got_ip, got_port):
failed = True
if not client.get_hello_type(got_ip, got_port):
failed = True
if not client.get_hello_status(got_ip, got_port):
failed = True
if not client.get_false_uri(got_ip, got_port):
failed = True
print "Error code tests..."
if not client.code_500_server_error_test(got_ip, got_port):
failed = True
if not client.code_501_method_not_impl(got_ip, got_port):
failed = True
if not client.code_505_version_not_supported(got_ip, got_port):
failed = True
if not client.code_400_bad_request(got_ip, got_port):
failed = True
if not client.code_404_not_found(got_ip, got_port):
failed = True
if not client.code_405_method_not_allowed(got_ip, got_port):
failed = True
if not client.code_408_req_timeout(got_ip, got_port):
failed = True
if not client.code_414_uri_too_long(got_ip, got_port, max_uri_len):
print "Ignoring failure"
if not client.code_431_hdr_too_long(got_ip, got_port, max_hdr_len):
print "Ignoring failure"
if not client.test_upgrade_not_supported(got_ip, got_port):
failed = True
print "Getting final stack usage..."
if not client.get_hello(got_ip, got_port):
failed = True
final_stack = int(dut1.expect(re.compile(r"(?:[\s\S]*)Free Stack for server task: (\d+)"), timeout=15)[0])
if final_stack < 0.05*max_stack_size:
print "More than 95% of stack got used during tests"
failed = True
if failed:
raise RuntimeError
if __name__ == '__main__':

View File

@ -398,6 +398,11 @@ httpd_handle_t test_httpd_start()
pre_start_mem = esp_get_free_heap_size();
httpd_handle_t hd;
httpd_config_t config = HTTPD_DEFAULT_CONFIG();
config.server_port = 1234;
/* This check should be a part of http_server */
config.max_open_sockets = (CONFIG_LWIP_MAX_SOCKETS - 3);
if (httpd_start(&hd, &config) == ESP_OK) {
ESP_LOGI(TAG, "Started HTTP server on port: %d", config.server_port);
ESP_LOGI(TAG, "Max URI handlers: %d", config.max_uri_handlers);

View File

@ -130,11 +130,11 @@
import threading
from multiprocessing import Process, Queue
import socket
import time
import argparse
import requests
import signal
import httplib
import sys
import string
import random
@ -144,8 +144,24 @@ _verbose_ = False
class Session:
def __init__(self, addr, port):
self.client = socket.create_connection((addr, int(port)))
self.client.settimeout(30)
self.client.settimeout(15)
self.target = addr
self.status = 0
self.encoding = ''
self.content_type = ''
self.content_len = 0
def send_err_check(self, request, data=None):
rval = True
try:
self.client.sendall(request);
if data:
self.client.sendall(data)
except socket.error as err:
self.client.close()
print "Socket Error in send :", err
rval = False
return rval
def send_get(self, path, headers=None):
request = "GET " + path + " HTTP/1.1\r\nHost: " + self.target
@ -153,7 +169,7 @@ class Session:
for field, value in headers.iteritems():
request += "\r\n"+field+": "+value
request += "\r\n\r\n"
self.client.send(request);
return self.send_err_check(request)
def send_put(self, path, data, headers=None):
request = "PUT " + path + " HTTP/1.1\r\nHost: " + self.target
@ -161,8 +177,7 @@ class Session:
for field, value in headers.iteritems():
request += "\r\n"+field+": "+value
request += "\r\nContent-Length: " + str(len(data)) +"\r\n\r\n"
self.client.send(request)
self.client.send(data)
return self.send_err_check(request, data)
def send_post(self, path, data, headers=None):
request = "POST " + path + " HTTP/1.1\r\nHost: " + self.target
@ -170,82 +185,95 @@ class Session:
for field, value in headers.iteritems():
request += "\r\n"+field+": "+value
request += "\r\nContent-Length: " + str(len(data)) +"\r\n\r\n"
self.client.send(request)
self.client.send(data)
return self.send_err_check(request, data)
def read_resp_hdrs(self):
state = 'nothing'
resp_read = ''
while True:
char = self.client.recv(1)
if char == '\r' and state == 'nothing':
state = 'first_cr'
elif char == '\n' and state == 'first_cr':
state = 'first_lf'
elif char == '\r' and state == 'first_lf':
state = 'second_cr'
elif char == '\n' and state == 'second_cr':
state = 'second_lf'
else:
state = 'nothing'
resp_read += char
if state == 'second_lf':
break;
# Handle first line
line_hdrs = resp_read.splitlines()
line_comp = line_hdrs[0].split()
self.status = line_comp[1]
del line_hdrs[0]
self.encoding = ''
self.content_type = ''
headers = dict()
# Process other headers
for h in range(len(line_hdrs)):
line_comp = line_hdrs[h].split(':')
if line_comp[0] == 'Content-Length':
self.content_len = int(line_comp[1])
if line_comp[0] == 'Content-Type':
self.content_type = line_comp[1].lstrip()
if line_comp[0] == 'Transfer-Encoding':
self.encoding = line_comp[1].lstrip()
if len(line_comp) == 2:
headers[line_comp[0]] = line_comp[1].lstrip()
return headers
try:
state = 'nothing'
resp_read = ''
while True:
char = self.client.recv(1)
if char == '\r' and state == 'nothing':
state = 'first_cr'
elif char == '\n' and state == 'first_cr':
state = 'first_lf'
elif char == '\r' and state == 'first_lf':
state = 'second_cr'
elif char == '\n' and state == 'second_cr':
state = 'second_lf'
else:
state = 'nothing'
resp_read += char
if state == 'second_lf':
break
# Handle first line
line_hdrs = resp_read.splitlines()
line_comp = line_hdrs[0].split()
self.status = line_comp[1]
del line_hdrs[0]
self.encoding = ''
self.content_type = ''
headers = dict()
# Process other headers
for h in range(len(line_hdrs)):
line_comp = line_hdrs[h].split(':')
if line_comp[0] == 'Content-Length':
self.content_len = int(line_comp[1])
if line_comp[0] == 'Content-Type':
self.content_type = line_comp[1].lstrip()
if line_comp[0] == 'Transfer-Encoding':
self.encoding = line_comp[1].lstrip()
if len(line_comp) == 2:
headers[line_comp[0]] = line_comp[1].lstrip()
return headers
except socket.error as err:
self.client.close()
print "Socket Error in recv :", err
return None
def read_resp_data(self):
read_data = ''
if self.encoding != 'chunked':
while len(read_data) != self.content_len:
read_data += self.client.recv(self.content_len)
self.content_len = 0
else:
chunk_data_buf = ''
while (True):
# Read one character into temp buffer
read_ch = self.client.recv(1)
# Check CRLF
if (read_ch == '\r'):
try:
read_data = ''
if self.encoding != 'chunked':
while len(read_data) != self.content_len:
read_data += self.client.recv(self.content_len)
else:
chunk_data_buf = ''
while (True):
# Read one character into temp buffer
read_ch = self.client.recv(1)
if (read_ch == '\n'):
# If CRLF decode length of chunk
chunk_len = int(chunk_data_buf, 16)
# Keep adding to contents
self.content_len += chunk_len
read_data += self.client.recv(chunk_len)
chunk_data_buf = ''
# Fetch remaining CRLF
if self.client.recv(2) != "\r\n":
# Error in packet
return None
if not chunk_len:
# If last chunk
break
continue
chunk_data_buf += '\r'
# If not CRLF continue appending
# character to chunked data buffer
chunk_data_buf += read_ch
return read_data
# Check CRLF
if (read_ch == '\r'):
read_ch = self.client.recv(1)
if (read_ch == '\n'):
# If CRLF decode length of chunk
chunk_len = int(chunk_data_buf, 16)
# Keep adding to contents
self.content_len += chunk_len
rem_len = chunk_len
while (rem_len):
new_data = self.client.recv(rem_len)
read_data += new_data
rem_len -= len(new_data)
chunk_data_buf = ''
# Fetch remaining CRLF
if self.client.recv(2) != "\r\n":
# Error in packet
print "Error in chunked data"
return None
if not chunk_len:
# If last chunk
break
continue
chunk_data_buf += '\r'
# If not CRLF continue appending
# character to chunked data buffer
chunk_data_buf += read_ch
return read_data
except socket.error as err:
self.client.close()
print "Socket Error in recv :", err
return None
def close(self):
self.client.close()
@ -259,11 +287,12 @@ def test_val(text, expected, received):
return False
return True
class myThread (threading.Thread):
class adder_thread (threading.Thread):
def __init__(self, id, dut, port):
threading.Thread.__init__(self)
self.id = id
self.dut = dut
self.depth = 3
self.session = Session(dut, port)
def run(self):
@ -272,24 +301,21 @@ class myThread (threading.Thread):
# Pipeline 3 requests
if (_verbose_):
print " Thread: Using adder start " + str(self.id)
self.session.send_post('/adder', str(self.id));
time.sleep(1)
self.session.send_post('/adder', str(self.id));
time.sleep(1)
self.session.send_post('/adder', str(self.id));
time.sleep(1)
self.session.read_resp_hdrs()
self.response.append(self.session.read_resp_data())
self.session.read_resp_hdrs()
self.response.append(self.session.read_resp_data())
self.session.read_resp_hdrs()
self.response.append(self.session.read_resp_data())
for _ in range(self.depth):
self.session.send_post('/adder', str(self.id))
time.sleep(2)
for _ in range(self.depth):
self.session.read_resp_hdrs()
self.response.append(self.session.read_resp_data())
def adder_result(self):
if len(self.response) != self.depth:
print "Error : missing response packets"
return False
for i in range(len(self.response)):
# print self.response[i]
if not test_val("thread" + str(self.id) + ": response[" + str(i) + "]",
if not test_val("Thread" + str(self.id) + " response[" + str(i) + "]",
str(self.id * (i + 1)), str(self.response[i])):
return False
return True
@ -300,103 +326,145 @@ class myThread (threading.Thread):
def get_hello(dut, port):
# GET /hello should return 'Hello World!'
print "[test] GET /hello returns 'Hello World!' =>",
r = requests.get("http://" + dut + ":" + port + "/hello")
if not test_val("status_code", 200, r.status_code):
conn = httplib.HTTPConnection(dut, int(port))
conn.request("GET", "/hello")
resp = conn.getresponse()
if not test_val("status_code", 200, resp.status):
conn.close()
return False
if not test_val("data", "Hello World!", r.text):
if not test_val("data", "Hello World!", resp.read()):
conn.close()
return False
if not test_val("data", "application/json", r.headers['Content-Type']):
return False
print "Success"
return True
def post_hello(dut, port):
# PUT /hello returns 405'
print "[test] PUT /hello returns 405' =>",
r = requests.put("http://" + dut + ":" + port + "/hello", data="Hello")
if not test_val("status_code", 405, r.status_code):
if not test_val("data", "application/json", resp.getheader('Content-Type')):
conn.close()
return False
print "Success"
conn.close()
return True
def put_hello(dut, port):
# POST /hello returns 405'
print "[test] POST /hello returns 404' =>",
r = requests.post("http://" + dut + ":" + port + "/hello", data="Hello")
if not test_val("status_code", 405, r.status_code):
# PUT /hello returns 405'
print "[test] PUT /hello returns 405' =>",
conn = httplib.HTTPConnection(dut, int(port))
conn.request("PUT", "/hello", "Hello")
resp = conn.getresponse()
if not test_val("status_code", 405, resp.status):
conn.close()
return False
print "Success"
conn.close()
return True
def post_hello(dut, port):
# POST /hello returns 405'
print "[test] POST /hello returns 404' =>",
conn = httplib.HTTPConnection(dut, int(port))
conn.request("POST", "/hello", "Hello")
resp = conn.getresponse()
if not test_val("status_code", 405, resp.status):
conn.close()
return False
print "Success"
conn.close()
return True
def post_echo(dut, port):
# POST /echo echoes data'
print "[test] POST /echo echoes data' =>",
r = requests.post("http://" + dut + ":" + port + "/echo", data="Hello")
if not test_val("status_code", 200, r.status_code):
conn = httplib.HTTPConnection(dut, int(port))
conn.request("POST", "/echo", "Hello")
resp = conn.getresponse()
if not test_val("status_code", 200, resp.status):
conn.close()
return False
if not test_val("data", "Hello", r.text):
if not test_val("data", "Hello", resp.read()):
conn.close()
return False
print "Success"
conn.close()
return True
def put_echo(dut, port):
# POST /echo echoes data'
# PUT /echo echoes data'
print "[test] PUT /echo echoes data' =>",
r = requests.put("http://" + dut + ":" + port + "/echo", data="Hello")
if not test_val("status_code", 200, r.status_code):
conn = httplib.HTTPConnection(dut, int(port))
conn.request("PUT", "/echo", "Hello")
resp = conn.getresponse()
if not test_val("status_code", 200, resp.status):
conn.close()
return False
if not test_val("data", "Hello", r.text):
if not test_val("data", "Hello", resp.read()):
conn.close()
return False
print "Success"
conn.close()
return True
def get_echo(dut, port):
# GET /echo returns 404'
print "[test] GET /echo returns 405' =>",
r = requests.get("http://" + dut + ":" + port + "/echo")
if not test_val("status_code", 405, r.status_code):
conn = httplib.HTTPConnection(dut, int(port))
conn.request("GET", "/echo")
resp = conn.getresponse()
if not test_val("status_code", 405, resp.status):
conn.close()
return False
print "Success"
conn.close()
return True
def get_hello_type(dut, port):
# GET /hello/type_html returns text/html as Content-Type'
print "[test] GET /hello/type_html has Content-Type of text/html =>",
r = requests.get("http://" + dut + ":" + port + "/hello/type_html")
if not test_val("status_code", 200, r.status_code):
conn = httplib.HTTPConnection(dut, int(port))
conn.request("GET", "/hello/type_html")
resp = conn.getresponse()
if not test_val("status_code", 200, resp.status):
conn.close()
return False
if not test_val("data", "Hello World!", r.text):
if not test_val("data", "Hello World!", resp.read()):
conn.close()
return False
if not test_val("data", "text/html", r.headers['Content-Type']):
if not test_val("data", "text/html", resp.getheader('Content-Type')):
conn.close()
return False
print "Success"
conn.close()
return True
def get_hello_status(dut, port):
# GET /hello/status_500 returns status 500'
print "[test] GET /hello/status_500 returns status 500 =>",
r = requests.get("http://" + dut + ":" + port + "/hello/status_500")
if not test_val("status_code", 500, r.status_code):
conn = httplib.HTTPConnection(dut, int(port))
conn.request("GET", "/hello/status_500")
resp = conn.getresponse()
if not test_val("status_code", 500, resp.status):
conn.close()
return False
print "Success"
conn.close()
return True
def get_false_uri(dut, port):
# GET /false_uri returns status 404'
print "[test] GET /false_uri returns status 404 =>",
r = requests.get("http://" + dut + ":" + port + "/false_uri")
if not test_val("status_code", 404, r.status_code):
conn = httplib.HTTPConnection(dut, int(port))
conn.request("GET", "/false_uri")
resp = conn.getresponse()
if not test_val("status_code", 404, resp.status):
conn.close()
return False
print "Success"
conn.close()
return True
def parallel_sessions_adder(dut, port, max_sessions):
# POSTs on /adder in parallel sessions
print "[test] POST {pipelined} on /adder in " + str(max_sessions) + " sessions =>",
t = []
# Create all sessions
# Create all sessions
for i in xrange(max_sessions):
t.append(myThread(i * 2, dut, port))
t.append(adder_thread(i, dut, port))
for i in xrange(len(t)):
t[i].start()
@ -406,9 +474,8 @@ def parallel_sessions_adder(dut, port, max_sessions):
res = True
for i in xrange(len(t)):
if not t[i].adder_result():
if not test_val("Thread" + str(i) + "Failed", "True", "False"):
res = False
if not test_val("Thread" + str(i) + " Failed", t[i].adder_result(), True):
res = False
t[i].close()
if (res):
print "Success"
@ -436,32 +503,30 @@ def async_response_test(dut, port):
def leftover_data_test(dut, port):
# Leftover data in POST is purged (valid and invalid URIs)
print "[test] Leftover data in POST is purged (valid and invalid URIs) =>",
s = Session(dut, port)
s = httplib.HTTPConnection(dut + ":" + port)
s.send_post('/leftover_data',
"abcdefghijklmnopqrstuvwxyz\r\nabcdefghijklmnopqrstuvwxyz")
s.read_resp_hdrs()
if not test_val("Partial data", "abcdefghij", s.read_resp_data()):
s.request("POST", url='/leftover_data', body="abcdefghijklmnopqrstuvwxyz\r\nabcdefghijklmnopqrstuvwxyz")
resp = s.getresponse()
if not test_val("Partial data", "abcdefghij", resp.read()):
s.close()
return False
s.send_get('/hello')
s.read_resp_hdrs()
if not test_val("Hello World Data", "Hello World!", s.read_resp_data()):
s.request("GET", url='/hello')
resp = s.getresponse()
if not test_val("Hello World Data", "Hello World!", resp.read()):
s.close()
return False
s.send_post('/false_uri',
"abcdefghijklmnopqrstuvwxyz\r\nabcdefghijklmnopqrstuvwxyz")
s.read_resp_hdrs()
if not test_val("False URI Status", str(404), str(s.status)):
s.request("POST", url='/false_uri', body="abcdefghijklmnopqrstuvwxyz\r\nabcdefghijklmnopqrstuvwxyz")
resp = s.getresponse()
if not test_val("False URI Status", str(404), str(resp.status)):
s.close()
return False
s.read_resp_data()
resp.read()
s.send_get('/hello')
s.read_resp_hdrs()
if not test_val("Hello World Data", "Hello World!", s.read_resp_data()):
s.request("GET", url='/hello')
resp = s.getresponse()
if not test_val("Hello World Data", "Hello World!", resp.read()):
s.close()
return False
@ -469,122 +534,86 @@ def leftover_data_test(dut, port):
print "Success"
return True
def timeout_handler(signum, frame):
raise Exception("Timeout")
def spillover_session(dut, port, max):
# Session max_sessions + 1 is rejected
print "[test] Session max_sessions (" + str(max) + ") + 1 is rejected =>",
def spillover_session(dut, port, max_sess):
# Session max_sess_sessions + 1 is rejected
print "[test] Session max_sess_sessions (" + str(max_sess) + ") + 1 is rejected =>",
s = []
# Register a timeout callback
signal.signal(signal.SIGALRM, timeout_handler)
for i in xrange(max + 1):
_verbose_ = True
for i in xrange(max_sess + 1):
if (_verbose_):
print "Executing " + str(i)
a = Session(dut, port)
a.send_get('/hello')
try:
# Check for response timeout
signal.alarm(5)
a.read_resp_hdrs()
a.read_resp_data()
signal.alarm(0)
# Control reaches here only if connection was established
a = httplib.HTTPConnection(dut + ":" + port)
a.request("GET", url='/hello')
resp = a.getresponse()
if not test_val("Connection " + str(i), "Hello World!", resp.read()):
a.close()
break
s.append(a)
except Exception, msg:
except:
if (_verbose_):
print str(msg) + ": Connection " + str(i) + " rejected"
print "Connection " + str(i) + " rejected"
a.close()
break
# Close open connections
for a in s:
a.close()
# Check if number of connections is equal to max
print ["Fail","Success"][len(s) == max]
return (len(s) == max)
# Check if number of connections is equal to max_sess
print ["Fail","Success"][len(s) == max_sess]
return (len(s) == max_sess)
def recv_timeout_test(dut, port):
print "[test] Timeout occurs if partial packet sent =>",
signal.signal(signal.SIGALRM, timeout_handler)
s = Session(dut, port)
s.client.send("GE")
try:
signal.alarm(15)
s.read_resp_hdrs()
resp = s.read_resp_data()
signal.alarm(0)
if not test_val("Request Timeout", "Server closed this connection", resp):
s.close()
return False
except:
s.close()
return False
s.close()
print "Success"
return True
def pipeline_test(dut, port, max_sess):
print "[test] Pipelining test =>",
s = [Session(dut, port) for _ in range(max_sess)]
path = "/echo"
pipeline_depth = 10
header = "POST " + path + " HTTP/1.1\r\nHost: " + dut + "\r\nContent-Length: "
s[0].client.send(header)
for i in range(1, max_sess):
for j in range(pipeline_depth):
data = str(i) + ":" + str(j)
request = header + str(len(data)) + "\r\n\r\n" + data
s[i].client.send(request)
s[0].client.send(str(len("0:0")) + "\r\n\r\n" + "0:0")
for j in range(1, pipeline_depth):
data = "0:" + str(j)
request = header + str(len(data)) + "\r\n\r\n" + data
s[0].client.send(request)
res = True
for i in range(max_sess):
#time.sleep(1)
for j in range(pipeline_depth):
s[i].read_resp_hdrs()
echo_data = s[i].read_resp_data()
if (_verbose_):
print "[" + str(i) + "][" + str(j) + "] = " + echo_data
if not test_val("Echo Data", str(i) + ":" + str(j), echo_data):
res = False
s[i].close()
#for i in range(max_sess):
#s[i].close()
if (res):
print "Success"
return res
def packet_size_limit_test(dut, port, test_size):
print "[test] LWIP send size limit test =>",
s = Session(dut, port)
random_data = ''.join(string.printable[random.randint(0,len(string.printable))-1] for _ in range(test_size))
path = "/echo"
s.send_post(path, random_data)
s.client.sendall("GE")
s.read_resp_hdrs()
resp = s.read_resp_data()
result = (resp == random_data)
if not result:
test_val("Data size", str(len(random_data)), str(len(resp)))
if not test_val("Request Timeout", "Server closed this connection", resp):
s.close()
return False
print "Success"
s.close()
print "Success"
return True
def packet_size_limit_test(dut, port, test_size):
print "[test] send size limit test =>",
retry = 5
while (retry):
retry -= 1
print "data size = ", test_size
s = httplib.HTTPConnection(dut + ":" + port)
random_data = ''.join(string.printable[random.randint(0,len(string.printable))-1] for _ in range(test_size))
path = "/echo"
s.request("POST", url=path, body=random_data)
resp = s.getresponse()
if not test_val("Error", "200", str(resp.status)):
if test_val("Error", "408", str(resp.status)):
print "Data too large to be allocated"
test_size = test_size/10
else:
print "Unexpected error"
s.close()
print "Retry..."
continue
resp = resp.read()
result = (resp == random_data)
if not result:
test_val("Data size", str(len(random_data)), str(len(resp)))
s.close()
print "Retry..."
continue
s.close()
print "Success"
return True
print "Failed"
return False
def code_500_server_error_test(dut, port):
print "[test] 500 Server Error test =>",
s = Session(dut, port)
s.client.send("abcdefgh\0")
s.client.sendall("abcdefgh\0")
s.read_resp_hdrs()
resp = s.read_resp_data()
# Presently server sends back 400 Bad Request
@ -602,7 +631,7 @@ def code_501_method_not_impl(dut, port):
print "[test] 501 Method Not Implemented =>",
s = Session(dut, port)
path = "/hello"
s.client.send("ABC " + path + " HTTP/1.1\r\nHost: " + dut + "\r\n\r\n")
s.client.sendall("ABC " + path + " HTTP/1.1\r\nHost: " + dut + "\r\n\r\n")
s.read_resp_hdrs()
resp = s.read_resp_data()
# Presently server sends back 400 Bad Request
@ -620,7 +649,7 @@ def code_505_version_not_supported(dut, port):
print "[test] 505 Version Not Supported =>",
s = Session(dut, port)
path = "/hello"
s.client.send("GET " + path + " HTTP/2.0\r\nHost: " + dut + "\r\n\r\n")
s.client.sendall("GET " + path + " HTTP/2.0\r\nHost: " + dut + "\r\n\r\n")
s.read_resp_hdrs()
resp = s.read_resp_data()
if not test_val("Server Error", "505", s.status):
@ -634,7 +663,7 @@ def code_400_bad_request(dut, port):
print "[test] 400 Bad Request =>",
s = Session(dut, port)
path = "/hello"
s.client.send("XYZ " + path + " HTTP/1.1\r\nHost: " + dut + "\r\n\r\n")
s.client.sendall("XYZ " + path + " HTTP/1.1\r\nHost: " + dut + "\r\n\r\n")
s.read_resp_hdrs()
resp = s.read_resp_data()
if not test_val("Client Error", "400", s.status):
@ -648,7 +677,7 @@ def code_404_not_found(dut, port):
print "[test] 404 Not Found =>",
s = Session(dut, port)
path = "/dummy"
s.client.send("GET " + path + " HTTP/1.1\r\nHost: " + dut + "\r\n\r\n")
s.client.sendall("GET " + path + " HTTP/1.1\r\nHost: " + dut + "\r\n\r\n")
s.read_resp_hdrs()
resp = s.read_resp_data()
if not test_val("Client Error", "404", s.status):
@ -662,7 +691,7 @@ def code_405_method_not_allowed(dut, port):
print "[test] 405 Method Not Allowed =>",
s = Session(dut, port)
path = "/hello"
s.client.send("POST " + path + " HTTP/1.1\r\nHost: " + dut + "\r\n\r\n")
s.client.sendall("POST " + path + " HTTP/1.1\r\nHost: " + dut + "\r\n\r\n")
s.read_resp_hdrs()
resp = s.read_resp_data()
if not test_val("Client Error", "405", s.status):
@ -674,18 +703,11 @@ def code_405_method_not_allowed(dut, port):
def code_408_req_timeout(dut, port):
print "[test] 408 Request Timeout =>",
signal.signal(signal.SIGALRM, timeout_handler)
s = Session(dut, port)
s.client.send("POST /echo HTTP/1.1\r\nHost: " + dut + "\r\nContent-Length: 10\r\n\r\nABCD")
try:
signal.alarm(15)
s.read_resp_hdrs()
resp = s.read_resp_data()
signal.alarm(0)
if not test_val("Client Error", "408", s.status):
s.close()
return False
except:
s.client.sendall("POST /echo HTTP/1.1\r\nHost: " + dut + "\r\nContent-Length: 10\r\n\r\nABCD")
s.read_resp_hdrs()
resp = s.read_resp_data()
if not test_val("Client Error", "408", s.status):
s.close()
return False
s.close()
@ -696,7 +718,7 @@ def code_411_length_required(dut, port):
print "[test] 411 Length Required =>",
s = Session(dut, port)
path = "/echo"
s.client.send("POST " + path + " HTTP/1.1\r\nHost: " + dut + "\r\nContent-Type: text/plain\r\nTransfer-Encoding: chunked\r\n\r\n")
s.client.sendall("POST " + path + " HTTP/1.1\r\nHost: " + dut + "\r\nContent-Type: text/plain\r\nTransfer-Encoding: chunked\r\n\r\n")
s.read_resp_hdrs()
resp = s.read_resp_data()
# Presently server sends back 400 Bad Request
@ -715,11 +737,11 @@ def send_getx_uri_len(dut, port, length):
method = "GET "
version = " HTTP/1.1\r\n"
path = "/"+"x"*(length - len(method) - len(version) - len("/"))
s.client.send(method)
s.client.sendall(method)
time.sleep(1)
s.client.send(path)
s.client.sendall(path)
time.sleep(1)
s.client.send(version + "Host: " + dut + "\r\n\r\n")
s.client.sendall(version + "Host: " + dut + "\r\n\r\n")
s.read_resp_hdrs()
resp = s.read_resp_data()
s.close()
@ -743,9 +765,9 @@ def send_postx_hdr_len(dut, port, length):
custom_hdr_field = "\r\nCustom: "
custom_hdr_val = "x"*(length - len(host) - len(custom_hdr_field) - len("\r\n\r\n") + len("0"))
request = "POST " + path + " HTTP/1.1\r\n" + host + custom_hdr_field + custom_hdr_val + "\r\n\r\n"
s.client.send(request[:length/2])
s.client.sendall(request[:length/2])
time.sleep(1)
s.client.send(request[length/2:])
s.client.sendall(request[length/2:])
hdr = s.read_resp_hdrs()
resp = s.read_resp_data()
s.close()
@ -768,7 +790,7 @@ def test_upgrade_not_supported(dut, port):
print "[test] Upgrade Not Supported =>",
s = Session(dut, port)
path = "/hello"
s.client.send("OPTIONS * HTTP/1.1\r\nHost:" + dut + "\r\nUpgrade: TLS/1.0\r\nConnection: Upgrade\r\n\r\n");
s.client.sendall("OPTIONS * HTTP/1.1\r\nHost:" + dut + "\r\nUpgrade: TLS/1.0\r\nConnection: Upgrade\r\n\r\n");
s.read_resp_hdrs()
resp = s.read_resp_data()
if not test_val("Client Error", "200", s.status):
@ -831,10 +853,6 @@ if __name__ == '__main__':
async_response_test(dut, port)
spillover_session(dut, port, max_sessions)
recv_timeout_test(dut, port)
# May timeout in case requests are sent slower than responses are read.
# Instead use httperf stress test
pipeline_test(dut, port, max_sessions)
packet_size_limit_test(dut, port, 50*1024)
get_hello(dut, port)

View File

@ -28,9 +28,9 @@ if test_fw_path and test_fw_path not in sys.path:
sys.path.insert(0, test_fw_path)
# When running on local machine execute the following before running this script
# > export TEST_FW_PATH='~/esp/esp-idf/tools/tiny-test-fw'
# > make print_flash_cmd | tail -n 1 > build/download.config
# > make app bootloader
# > make print_flash_cmd | tail -n 1 > build/download.config
# > export TEST_FW_PATH=~/esp/esp-idf/tools/tiny-test-fw
import TinyFW
import IDF
@ -47,21 +47,23 @@ def test_examples_protocol_http_server_persistence(env, extra_data):
# Get binary file
binary_file = os.path.join(dut1.app.binary_path, "persistent_sockets.bin")
bin_size = os.path.getsize(binary_file)
IDF.log_performance("http_server_bin_size", "{}KB".format(bin_size//1024))
IDF.check_performance("http_server_bin_size", bin_size//1024)
IDF.log_performance("http_server_bin_size", "{}KB".format(bin_size/1024))
IDF.check_performance("http_server_bin_size", bin_size/1024)
# Upload binary and start testing
print "Starting http_server persistance test app"
dut1.start_app()
# Parse IP address of STA
got_ip = dut1.expect(re.compile(r"(?:[\s\S]*)Got IP: (\d+.\d+.\d+.\d+)"), timeout=30)[0]
got_port = dut1.expect(re.compile(r"(?:[\s\S]*)Starting server on port: (\d+)"))[0]
print "Waiting to connect with AP"
got_ip = dut1.expect(re.compile(r"(?:[\s\S]*)Got IP: (\d+.\d+.\d+.\d+)"), timeout=120)[0]
got_port = dut1.expect(re.compile(r"(?:[\s\S]*)Starting server on port: (\d+)"), timeout=30)[0]
print "Got IP : " + got_ip
print "Got Port : " + got_port
# Expected Logs
dut1.expect("Registering URI handlers")
dut1.expect("Registering URI handlers", timeout=30)
# Run test script
conn = client.start_session(got_ip, got_port)
@ -72,9 +74,9 @@ def test_examples_protocol_http_server_persistence(env, extra_data):
num = random.randint(0,100)
client.putreq(conn, "/adder", str(num))
visitor += 1
dut1.expect("/adder visitor count = " + str(visitor))
dut1.expect("/adder PUT handler read " + str(num))
dut1.expect("PUT allocating new session")
dut1.expect("/adder visitor count = " + str(visitor), timeout=30)
dut1.expect("/adder PUT handler read " + str(num), timeout=30)
dut1.expect("PUT allocating new session", timeout=30)
# Retest PUT request and change session context value
num = random.randint(0,100)
@ -82,11 +84,11 @@ def test_examples_protocol_http_server_persistence(env, extra_data):
client.putreq(conn, "/adder", str(num))
visitor += 1
adder += num
dut1.expect("/adder visitor count = " + str(visitor))
dut1.expect("/adder PUT handler read " + str(num))
dut1.expect("/adder visitor count = " + str(visitor), timeout=30)
dut1.expect("/adder PUT handler read " + str(num), timeout=30)
try:
# Re allocation shouldn't happen
dut1.expect("PUT allocating new session")
dut1.expect("PUT allocating new session", timeout=30)
# Not expected
raise RuntimeError
except:
@ -100,21 +102,21 @@ def test_examples_protocol_http_server_persistence(env, extra_data):
client.postreq(conn, "/adder", str(num))
visitor += 1
adder += num
dut1.expect("/adder visitor count = " + str(visitor))
dut1.expect("/adder handler read " + str(num))
dut1.expect("/adder visitor count = " + str(visitor), timeout=30)
dut1.expect("/adder handler read " + str(num), timeout=30)
# Test GET request and session persistence
print "Matching final sum :", adder
if client.getreq(conn, "/adder") != str(adder):
raise RuntimeError
visitor += 1
dut1.expect("/adder visitor count = " + str(visitor))
dut1.expect("/adder GET handler send " + str(adder))
dut1.expect("/adder visitor count = " + str(visitor), timeout=30)
dut1.expect("/adder GET handler send " + str(adder), timeout=30)
print "Ending session"
# Close connection and check for invocation of context "Free" function
client.end_session(conn)
dut1.expect("/adder Free Context function called")
dut1.expect("/adder Free Context function called", timeout=30)
print "Validating user context data"
# Start another session to check user context data
@ -122,11 +124,11 @@ def test_examples_protocol_http_server_persistence(env, extra_data):
num = random.randint(0,100)
client.putreq(conn, "/adder", str(num))
visitor += 1
dut1.expect("/adder visitor count = " + str(visitor))
dut1.expect("/adder PUT handler read " + str(num))
dut1.expect("PUT allocating new session")
dut1.expect("/adder visitor count = " + str(visitor), timeout=30)
dut1.expect("/adder PUT handler read " + str(num), timeout=30)
dut1.expect("PUT allocating new session", timeout=30)
client.end_session(conn)
dut1.expect("/adder Free Context function called")
dut1.expect("/adder Free Context function called", timeout=30)
if __name__ == '__main__':
test_examples_protocol_http_server_persistence()

View File

@ -28,9 +28,9 @@ if test_fw_path and test_fw_path not in sys.path:
sys.path.insert(0, test_fw_path)
# When running on local machine execute the following before running this script
# > export TEST_FW_PATH='~/esp/esp-idf/tools/tiny-test-fw'
# > make print_flash_cmd | tail -n 1 > build/download.config
# > make app bootloader
# > make print_flash_cmd | tail -n 1 > build/download.config
# > export TEST_FW_PATH=~/esp/esp-idf/tools/tiny-test-fw
import TinyFW
import IDF
@ -39,7 +39,7 @@ import IDF
expath = os.path.dirname(os.path.realpath(__file__))
client = imp.load_source("client", expath + "/scripts/client.py")
@IDF.idf_example_test(env_tag="Example_WIFI", ignore=True)
@IDF.idf_example_test(env_tag="Example_WIFI")
def test_examples_protocol_http_server_simple(env, extra_data):
# Acquire DUT
dut1 = env.get_dut("http_server", "examples/protocols/http_server/simple")
@ -47,21 +47,23 @@ def test_examples_protocol_http_server_simple(env, extra_data):
# Get binary file
binary_file = os.path.join(dut1.app.binary_path, "simple.bin")
bin_size = os.path.getsize(binary_file)
IDF.log_performance("http_server_bin_size", "{}KB".format(bin_size//1024))
IDF.check_performance("http_server_bin_size", bin_size//1024)
IDF.log_performance("http_server_bin_size", "{}KB".format(bin_size/1024))
IDF.check_performance("http_server_bin_size", bin_size/1024)
# Upload binary and start testing
print "Starting http_server simple test app"
dut1.start_app()
# Parse IP address of STA
got_ip = dut1.expect(re.compile(r"(?:[\s\S]*)Got IP: (\d+.\d+.\d+.\d+)"), timeout=30)[0]
got_port = dut1.expect(re.compile(r"(?:[\s\S]*)Starting server on port: (\d+)"))[0]
print "Waiting to connect with AP"
got_ip = dut1.expect(re.compile(r"(?:[\s\S]*)Got IP: (\d+.\d+.\d+.\d+)"), timeout=120)[0]
got_port = dut1.expect(re.compile(r"(?:[\s\S]*)Starting server on port: (\d+)"), timeout=30)[0]
print "Got IP : " + got_ip
print "Got Port : " + got_port
# Expected Logs
dut1.expect("Registering URI handlers")
dut1.expect("Registering URI handlers", timeout=30)
# Run test script
# If failed raise appropriate exception
@ -70,24 +72,24 @@ def test_examples_protocol_http_server_simple(env, extra_data):
raise RuntimeError
# Acquire host IP. Need a way to check it
host_ip = dut1.expect(re.compile(r"(?:[\s\S]*)Found header => Host: (\d+.\d+.\d+.\d+)"))[0]
host_ip = dut1.expect(re.compile(r"(?:[\s\S]*)Found header => Host: (\d+.\d+.\d+.\d+)"), timeout=30)[0]
# Match additional headers sent in the request
dut1.expect("Found header => Test-Header-2: Test-Value-2")
dut1.expect("Found header => Test-Header-1: Test-Value-1")
dut1.expect("Found URL query parameter => query1=value1")
dut1.expect("Found URL query parameter => query3=value3")
dut1.expect("Found URL query parameter => query2=value2")
dut1.expect("Request headers lost")
dut1.expect("Found header => Test-Header-2: Test-Value-2", timeout=30)
dut1.expect("Found header => Test-Header-1: Test-Value-1", timeout=30)
dut1.expect("Found URL query parameter => query1=value1", timeout=30)
dut1.expect("Found URL query parameter => query3=value3", timeout=30)
dut1.expect("Found URL query parameter => query2=value2", timeout=30)
dut1.expect("Request headers lost", timeout=30)
print "Test /ctrl PUT handler and realtime handler de/registration"
if not client.test_put_handler(got_ip, got_port):
raise RuntimeError
dut1.expect("Unregistering /hello and /echo URIs")
dut1.expect("Registering /hello and /echo URIs")
dut1.expect("Unregistering /hello and /echo URIs", timeout=30)
dut1.expect("Registering /hello and /echo URIs", timeout=30)
# Generate random data of 10KB
random_data = ''.join(string.printable[random.randint(0,len(string.printable))-1] for _ in range(1024*10))
random_data = ''.join(string.printable[random.randint(0,len(string.printable))-1] for _ in range(10*1024))
print "Test /echo POST handler with random data"
if not client.test_post_handler(got_ip, got_port, random_data):
raise RuntimeError
@ -96,19 +98,19 @@ def test_examples_protocol_http_server_simple(env, extra_data):
print "Test /hello with custom query : " + query
if not client.test_custom_uri_query(got_ip, got_port, query):
raise RuntimeError
dut1.expect("Found URL query => " + query)
dut1.expect("Found URL query => " + query, timeout=30)
query = "abcd+1234%20xyz"
print "Test /hello with custom query : " + query
if not client.test_custom_uri_query(got_ip, got_port, query):
raise RuntimeError
dut1.expect("Found URL query => " + query)
dut1.expect("Found URL query => " + query, timeout=30)
query = "abcd\nyz"
print "Test /hello with invalid query"
if client.test_custom_uri_query(got_ip, got_port, query):
raise RuntimeError
dut1.expect("400 Bad Request - Server unable to understand request due to invalid syntax")
dut1.expect("400 Bad Request - Server unable to understand request due to invalid syntax", timeout=30)
if __name__ == '__main__':
test_examples_protocol_http_server_simple()

View File

@ -14,117 +14,9 @@
# See the License for the specific language governing permissions and
# limitations under the License.
import socket
import httplib
import argparse
class Session:
def __init__(self, addr, port):
self.client = socket.create_connection((addr, int(port)))
self.target = addr
def send_get(self, path, headers=None):
request = "GET " + path + " HTTP/1.1\r\nHost: " + self.target
if headers:
for field, value in headers.iteritems():
request += "\r\n"+field+": "+value
request += "\r\n\r\n"
self.client.send(request);
def send_put(self, path, data, headers=None):
request = "PUT " + path + " HTTP/1.1\r\nHost: " + self.target
if headers:
for field, value in headers.iteritems():
request += "\r\n"+field+": "+value
request += "\r\nContent-Length: " + str(len(data)) +"\r\n\r\n"
self.client.send(request)
self.client.send(data)
def send_post(self, path, data, headers=None):
request = "POST " + path + " HTTP/1.1\r\nHost: " + self.target
if headers:
for field, value in headers.iteritems():
request += "\r\n"+field+": "+value
request += "\r\nContent-Length: " + str(len(data)) +"\r\n\r\n"
self.client.send(request)
self.client.send(data)
def read_resp_hdrs(self):
state = 'nothing'
resp_read = ''
while True:
char = self.client.recv(1)
if char == '\r' and state == 'nothing':
state = 'first_cr'
elif char == '\n' and state == 'first_cr':
state = 'first_lf'
elif char == '\r' and state == 'first_lf':
state = 'second_cr'
elif char == '\n' and state == 'second_cr':
state = 'second_lf'
else:
state = 'nothing'
resp_read += char
if state == 'second_lf':
break;
# Handle first line
line_hdrs = resp_read.splitlines()
line_comp = line_hdrs[0].split()
self.status = line_comp[1]
del line_hdrs[0]
self.encoding = ''
self.content_type = ''
headers = dict()
# Process other headers
for h in range(len(line_hdrs)):
line_comp = line_hdrs[h].split(':')
if line_comp[0] == 'Content-Length':
self.content_len = int(line_comp[1])
if line_comp[0] == 'Content-Type':
self.content_type = line_comp[1].lstrip()
if line_comp[0] == 'Transfer-Encoding':
self.encoding = line_comp[1].lstrip()
if len(line_comp) == 2:
headers[line_comp[0]] = line_comp[1].lstrip()
return headers
def read_resp_data(self):
read_data = ''
if self.encoding != 'chunked':
while len(read_data) != self.content_len:
read_data += self.client.recv(self.content_len)
self.content_len = 0
else:
chunk_data_buf = ''
while (True):
# Read one character into temp buffer
read_ch = self.client.recv(1)
# Check CRLF
if (read_ch == '\r'):
read_ch = self.client.recv(1)
if (read_ch == '\n'):
# If CRLF decode length of chunk
chunk_len = int(chunk_data_buf, 16)
# Keep adding to contents
self.content_len += chunk_len
read_data += self.client.recv(chunk_len)
chunk_data_buf = ''
# Fetch remaining CRLF
if self.client.recv(2) != "\r\n":
# Error in packet
return None
if not chunk_len:
# If last chunk
break
continue
chunk_data_buf += '\r'
# If not CRLF continue appending
# character to chunked data buffer
chunk_data_buf += read_ch
return read_data
def close(self):
self.client.close()
def verbose_print(verbosity, *args):
if (verbosity):
print ''.join(str(elems) for elems in args)
@ -133,7 +25,7 @@ def test_get_handler(ip, port, verbosity = False):
verbose_print(verbosity, "======== GET HANDLER TEST =============")
# Establish HTTP connection
verbose_print(verbosity, "Connecting to => " + ip + ":" + port)
sess = Session(ip, port)
sess = httplib.HTTPConnection(ip + ":" + port)
uri = "/hello?query1=value1&query2=value2&query3=value3"
# GET hello response
@ -142,13 +34,14 @@ def test_get_handler(ip, port, verbosity = False):
verbose_print(verbosity, "Sending additional headers : ")
for k, v in test_headers.iteritems():
verbose_print(verbosity, "\t", k, ": ", v)
sess.send_get(uri, test_headers)
resp_hdrs = sess.read_resp_hdrs()
resp_data = sess.read_resp_data()
sess.request("GET", url=uri, headers=test_headers)
resp = sess.getresponse()
resp_hdrs = resp.getheaders()
resp_data = resp.read()
try:
if resp_hdrs["Custom-Header-1"] != "Custom-Value-1":
if resp.getheader("Custom-Header-1") != "Custom-Value-1":
return False
if resp_hdrs["Custom-Header-2"] != "Custom-Value-2":
if resp.getheader("Custom-Header-2") != "Custom-Value-2":
return False
except:
return False
@ -156,7 +49,7 @@ def test_get_handler(ip, port, verbosity = False):
verbose_print(verbosity, "vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv")
verbose_print(verbosity, "Server response to GET /hello")
verbose_print(verbosity, "Response Headers : ")
for k, v in resp_hdrs.iteritems():
for k, v in resp_hdrs:
verbose_print(verbosity, "\t", k, ": ", v)
verbose_print(verbosity, "Response Data : " + resp_data)
verbose_print(verbosity, "========================================\n")
@ -169,12 +62,12 @@ def test_post_handler(ip, port, msg, verbosity = False):
verbose_print(verbosity, "======== POST HANDLER TEST ============")
# Establish HTTP connection
verbose_print(verbosity, "Connecting to => " + ip + ":" + port)
sess = Session(ip, port)
sess = httplib.HTTPConnection(ip + ":" + port)
# POST message to /echo and get back response
sess.send_post("/echo", msg)
resp_hdrs = sess.read_resp_hdrs()
resp_data = sess.read_resp_data()
sess.request("POST", url="/echo", body=msg)
resp = sess.getresponse()
resp_data = resp.read()
verbose_print(verbosity, "Server response to POST /echo (" + msg + ")")
verbose_print(verbosity, "vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv")
verbose_print(verbosity, resp_data)
@ -188,30 +81,28 @@ def test_put_handler(ip, port, verbosity = False):
verbose_print(verbosity, "======== PUT HANDLER TEST =============")
# Establish HTTP connection
verbose_print(verbosity, "Connecting to => " + ip + ":" + port)
sess = Session(ip, port)
sess = httplib.HTTPConnection(ip + ":" + port)
# PUT message to /ctrl to disable /hello URI handler
verbose_print(verbosity, "Disabling /hello handler")
sess.send_put("/ctrl", "0")
sess.read_resp_hdrs()
if sess.content_len:
sess.read_resp_data()
sess.request("PUT", url="/ctrl", body="0")
resp = sess.getresponse()
resp.read()
sess.send_get("/hello")
sess.read_resp_hdrs()
resp_data1 = sess.read_resp_data()
sess.request("GET", url="/hello")
resp = sess.getresponse()
resp_data1 = resp.read()
verbose_print(verbosity, "Response on GET /hello : " + resp_data1)
# PUT message to /ctrl to enable /hello URI handler
verbose_print(verbosity, "Enabling /hello handler")
sess.send_put("/ctrl", "1")
sess.read_resp_hdrs()
if sess.content_len:
sess.read_resp_data()
sess.request("PUT", url="/ctrl", body="1")
resp = sess.getresponse()
resp.read()
sess.send_get("/hello")
sess.read_resp_hdrs()
resp_data2 = sess.read_resp_data()
sess.request("GET", url="/hello")
resp = sess.getresponse()
resp_data2 = resp.read()
verbose_print(verbosity, "Response on GET /hello : " + resp_data2)
# Close HTTP connection
@ -222,14 +113,14 @@ def test_custom_uri_query(ip, port, query, verbosity = False):
verbose_print(verbosity, "======== GET HANDLER TEST =============")
# Establish HTTP connection
verbose_print(verbosity, "Connecting to => " + ip + ":" + port)
sess = Session(ip, port)
sess = httplib.HTTPConnection(ip + ":" + port)
uri = "/hello?" + query
# GET hello response
verbose_print(verbosity, "Sending GET to URI : ", uri)
sess.send_get(uri, {})
resp_hdrs = sess.read_resp_hdrs()
resp_data = sess.read_resp_data()
sess.request("GET", url=uri, headers={})
resp = sess.getresponse()
resp_data = resp.read()
verbose_print(verbosity, "vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv")
verbose_print(verbosity, "Server response to GET /hello")
@ -253,6 +144,9 @@ if __name__ == '__main__':
port = args['port']
msg = args['msg']
test_get_handler (ip, port, True)
test_post_handler(ip, port, msg, True)
test_put_handler (ip, port, True)
if not test_get_handler (ip, port, True):
print "Failed!"
if not test_post_handler(ip, port, msg, True):
print "Failed!"
if not test_put_handler (ip, port, True):
print "Failed!"