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[KVM-AUTOTEST,v2,3/5,RFC] KVM test: add whql_submission test

Message ID 1279793659-22486-3-git-send-email-mgoldish@redhat.com (mailing list archive)
State New, archived
Headers show

Commit Message

Michael Goldish July 22, 2010, 10:14 a.m. UTC
None
diff mbox

Patch

diff --git a/client/tests/kvm/tests/whql_submission.py b/client/tests/kvm/tests/whql_submission.py
new file mode 100644
index 0000000..1fe27c9
--- /dev/null
+++ b/client/tests/kvm/tests/whql_submission.py
@@ -0,0 +1,188 @@ 
+import logging, time, os, re
+from autotest_lib.client.common_lib import error
+import kvm_subprocess, kvm_test_utils, kvm_utils, rss_file_transfer
+
+
+def run_whql_submission(test, params, env):
+    """
+    WHQL submission test:
+    1) Log into the guest (the client machine) and into a DTM server machine
+    2) Copy the automation program binary (dsso_test_binary) to the server machine
+    3) Run the automation program
+    4) Pass the program all relevant parameters (e.g. device_data)
+    5) Wait for the program to terminate
+    6) Parse and report job results
+    (logs and HTML reports are placed in test.bindir)
+
+    @param test: kvm test object
+    @param params: Dictionary with the test parameters
+    @param env: Dictionary with test environment.
+    """
+    vm = kvm_test_utils.get_living_vm(env, params.get("main_vm"))
+    session = kvm_test_utils.wait_for_login(vm, 0, 240)
+
+    # Collect parameters
+    server_address = params.get("server_address")
+    server_shell_port = int(params.get("server_shell_port"))
+    server_file_transfer_port = int(params.get("server_file_transfer_port"))
+    server_studio_path = params.get("server_studio_path", "%programfiles%\\ "
+                                    "Microsoft Driver Test Manager\\Studio")
+    dsso_test_binary = params.get("dsso_test_binary",
+                                  "deps/whql_submission_15.exe")
+    dsso_test_binary = kvm_utils.get_path(test.bindir, dsso_test_binary)
+    test_device = params.get("test_device")
+    job_filter = params.get("job_filter", ".*")
+    test_timeout = float(params.get("test_timeout", 600))
+    wtt_services = params.get("wtt_services")
+
+    # Restart WTT service(s) on the client
+    logging.info("Restarting WTT services on client")
+    for svc in wtt_services.split():
+        kvm_test_utils.stop_windows_service(session, svc)
+    for svc in wtt_services.split():
+        kvm_test_utils.start_windows_service(session, svc)
+
+    # Copy dsso_test_binary to the server
+    rss_file_transfer.upload(server_address, server_file_transfer_port,
+                             dsso_test_binary, server_studio_path, timeout=60)
+
+    # Open a shell session with the server
+    server_session = kvm_utils.remote_login("nc", server_address,
+                                            server_shell_port, "", "",
+                                            session.prompt, session.linesep)
+
+    # Get the computer names of the server and client
+    cmd = "echo %computername%"
+    server_name = server_session.get_command_output(cmd).strip()
+    client_name = session.get_command_output(cmd).strip()
+    session.close()
+
+    # Run the automation program on the server
+    server_session.get_command_output("cd %s" % server_studio_path)
+    cmd = "%s %s %s %s %s %s" % (os.path.basename(dsso_test_binary),
+                                 server_name,
+                                 client_name,
+                                 "%s_pool" % client_name,
+                                 "%s_submission" % client_name,
+                                 test_timeout)
+    server_session.sendline(cmd)
+
+    # Helper function: wait for a given prompt and raise an exception if an
+    # error occurs
+    def find_prompt(prompt):
+        m, o = server_session.read_until_last_line_matches(
+            [prompt, server_session.prompt], print_func=logging.info,
+            timeout=600)
+        if m != 0:
+            errors = re.findall("^Error:.*$", o, re.I | re.M)
+            if errors:
+                raise error.TestError(errors[0])
+            else:
+                raise error.TestError("Error running automation program: could "
+                                      "not find '%s' prompt" % prompt)
+
+    # Tell the automation program which device to test
+    find_prompt("Device to test:")
+    server_session.sendline(test_device)
+
+    # Tell the automation program which jobs to run
+    find_prompt("Jobs to run:")
+    server_session.sendline(job_filter)
+
+    # Give the automation program all the device data supplied by the user
+    find_prompt("DeviceData name:")
+    for dd in kvm_utils.get_sub_dict_names(params, "device_data"):
+        dd_params = kvm_utils.get_sub_dict(params, dd)
+        if dd_params.get("dd_name") and dd_params.get("dd_data"):
+            server_session.sendline(dd_params.get("dd_name"))
+            server_session.sendline(dd_params.get("dd_data"))
+    server_session.sendline()
+
+    # Give the automation program all the descriptor information supplied by
+    # the user
+    find_prompt("Descriptor path:")
+    for desc in kvm_utils.get_sub_dict_names(params, "descriptors"):
+        desc_params = kvm_utils.get_sub_dict(params, desc)
+        if desc_params.get("desc_path"):
+            server_session.sendline(desc_params.get("desc_path"))
+    server_session.sendline()
+
+    # Wait for the automation program to terminate
+    m, o = server_session.read_up_to_prompt(print_func=logging.info,
+                                            timeout=test_timeout + 300)
+    # (test_timeout + 300 is used here because the automation program is
+    # supposed to terminate cleanly on its own when test_timeout expires)
+    server_session.close()
+
+    # Look for test results in the automation program's output
+    result_summaries = re.findall(r"---- \[.*?\] ----", o, re.DOTALL)
+    if not result_summaries:
+        raise error.TestError("The automation program did not return any "
+                              "results")
+    results = result_summaries[-1].strip("-")
+    results = eval("".join(results.splitlines()))
+
+    # Download logs and HTML reports from the server
+    for i, r in enumerate(results):
+        if "report" in r:
+            try:
+                rss_file_transfer.download(server_address,
+                                           server_file_transfer_port,
+                                           r["report"], test.debugdir)
+            except rss_file_transfer.FileTransferNotFoundError:
+                pass
+        if "logs" in r:
+            try:
+                rss_file_transfer.download(server_address,
+                                           server_file_transfer_port,
+                                           r["logs"], test.debugdir)
+            except rss_file_transfer.FileTransferNotFoundError:
+                pass
+            else:
+                try:
+                    # Create symlinks to test log dirs to make it easier
+                    # to access them (their original names are not human
+                    # readable)
+                    link_name = "logs_%s" % r["report"].split("\\")[-1]
+                    link_name = link_name.replace(" ", "_")
+                    link_name = link_name.replace("/", "_")
+                    os.symlink(r["logs"].split("\\")[-1],
+                               os.path.join(test.debugdir, link_name))
+                except (KeyError, OSError):
+                    pass
+
+    # Print result summary
+    logging.info("")
+    logging.info("Result summary:")
+    name_length = max(len(r.get("job", "")) for r in results)
+    fmt = "%%-6s %%-%ds %%-15s %%-8s %%-8s %%-8s %%-15s" % name_length
+    logging.info(fmt % ("ID", "Job", "Status", "Pass", "Fail", "NotRun",
+                        "NotApplicable"))
+    logging.info(fmt % ("--", "---", "------", "----", "----", "------",
+                        "-------------"))
+    for r in results:
+        logging.info(fmt % (r.get("id"), r.get("job"), r.get("status"),
+                            r.get("pass"), r.get("fail"), r.get("notrun"),
+                            r.get("notapplicable")))
+    logging.info("(see logs and HTML reports in %s)" % test.debugdir)
+
+    # Kill the VM and fail if the automation program did not terminate on time
+    if not m:
+        vm.destroy()
+        raise error.TestFail("The automation program did not terminate "
+                             "on time")
+
+    # Fail if there are failed or incomplete jobs (kill the VM if there are
+    # incomplete jobs)
+    failed_jobs = [r.get("job") for r in results
+                   if r.get("status", "").lower() == "investigate"]
+    running_jobs = [r.get("job") for r in results
+                    if r.get("status", "").lower() == "inprogress"]
+    errors = []
+    if failed_jobs:
+        errors += ["Jobs failed: %s." % failed_jobs]
+    if running_jobs:
+        vm.destroy()
+        errors += ["Jobs did not complete on time: %s." % running_jobs]
+    if errors:
+        raise error.TestFail(" ".join(errors))