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#!/usr/bin/python
import os, re, db, sys, datetime
import common
from autotest_lib.client.common_lib import kernel_versions
MAX_RECORDS = 50000L
MAX_CELLS = 500000L
tko = os.path.dirname(os.path.realpath(os.path.abspath(__file__)))
root_url_file = os.path.join(tko, '.root_url')
if os.path.exists(root_url_file):
html_root = open(root_url_file, 'r').readline().rstrip()
else:
html_root = '/results/'
class status_cell:
# One cell in the matrix of status data.
def __init__(self):
# Count is a dictionary: status -> count of tests with status
self.status_count = {}
self.reasons_list = []
self.job_tag = None
self.job_tag_count = 0
def add(self, status, count, job_tags, reasons = None):
assert count > 0
self.job_tag = job_tags
self.job_tag_count += count
if self.job_tag_count > 1:
self.job_tag = None
self.status_count[status] = count
### status == 6 means 'GOOD'
if status != 6:
## None implies sorting problems and extra CRs in a cell
if reasons:
self.reasons_list.append(reasons)
class status_data:
def __init__(self, sql_rows, x_field, y_field, query_reasons = False):
data = {}
y_values = set()
# Walk through the query, filing all results by x, y info
for row in sql_rows:
if query_reasons:
(x,y, status, count, job_tags, reasons) = row
else:
(x,y, status, count, job_tags) = row
reasons = None
if not data.has_key(x):
data[x] = {}
if not data[x].has_key(y):
y_values.add(y)
data[x][y] = status_cell()
data[x][y].add(status, count, job_tags, reasons)
# 2-d hash of data - [x-value][y-value]
self.data = data
# List of possible columns (x-values)
self.x_values = smart_sort(data.keys(), x_field)
# List of rows columns (y-values)
self.y_values = smart_sort(list(y_values), y_field)
nCells = len(self.y_values)*len(self.x_values)
if nCells > MAX_CELLS:
msg = 'Exceeded allowed number of cells in a table'
raise db.MySQLTooManyRows(msg)
def get_matrix_data(db_obj, x_axis, y_axis, where = None,
query_reasons = False):
# Searches on the test_view table - x_axis and y_axis must both be
# column names in that table.
x_field = test_view_field_dict[x_axis]
y_field = test_view_field_dict[y_axis]
query_fields_list = [x_field, y_field, 'status','COUNT(status)']
query_fields_list.append("LEFT(GROUP_CONCAT(job_tag),100)")
if query_reasons:
query_fields_list.append(
"LEFT(GROUP_CONCAT(DISTINCT reason SEPARATOR '|'),500)"
)
fields = ','.join(query_fields_list)
group_by = '%s, %s, status' % (x_field, y_field)
rows = db_obj.select(fields, 'test_view',
where=where, group_by=group_by, max_rows = MAX_RECORDS)
return status_data(rows, x_field, y_field, query_reasons)
# Dictionary used simply for fast lookups from short reference names for users
# to fieldnames in test_view
test_view_field_dict = {
'kernel' : 'kernel_printable',
'hostname' : 'machine_hostname',
'test' : 'test',
'label' : 'job_label',
'machine_group' : 'machine_group',
'reason' : 'reason',
'tag' : 'job_tag',
'user' : 'job_username',
'status' : 'status_word',
'time' : 'test_finished_time',
'start_time' : 'test_started_time',
'time_daily' : 'DATE(test_finished_time)'
}
def smart_sort(list, field):
if field == 'kernel_printable':
def kernel_encode(kernel):
return kernel_versions.version_encode(kernel)
list.sort(key = kernel_encode, reverse = True)
return list
## old records may contain time=None
## make None comparable with timestamp datetime or date
elif field == 'test_finished_time':
def convert_None_to_datetime(date_time):
if not date_time:
return datetime.datetime(1970, 1, 1, 0, 0, 0)
else:
return date_time
list = map(convert_None_to_datetime, list)
elif field == 'DATE(test_finished_time)':
def convert_None_to_date(date):
if not date:
return datetime.date(1970, 1, 1)
else:
return date
list = map(convert_None_to_date, list)
list.sort()
return list
class group:
@classmethod
def select(klass, db):
"""Return all possible machine groups"""
rows = db.select('distinct machine_group', 'machines',
'machine_group is not null')
groupnames = sorted([row[0] for row in rows])
return [klass(db, groupname) for groupname in groupnames]
def __init__(self, db, name):
self.name = name
self.db = db
def machines(self):
return machine.select(self.db, { 'machine_group' : self.name })
def tests(self, where = {}):
values = [self.name]
sql = 't inner join machines m on m.machine_idx=t.machine_idx'
sql += ' where m.machine_group=%s'
for key in where.keys():
sql += ' and %s=%%s' % key
values.append(where[key])
return test.select_sql(self.db, sql, values)
class machine:
@classmethod
def select(klass, db, where = {}):
fields = ['machine_idx', 'hostname', 'machine_group', 'owner']
machines = []
for row in db.select(','.join(fields), 'machines', where):
machines.append(klass(db, *row))
return machines
def __init__(self, db, idx, hostname, group, owner):
self.db = db
self.idx = idx
self.hostname = hostname
self.group = group
self.owner = owner
class kernel:
@classmethod
def select(klass, db, where = {}):
fields = ['kernel_idx', 'kernel_hash', 'base', 'printable']
rows = db.select(','.join(fields), 'kernels', where)
return [klass(db, *row) for row in rows]
def __init__(self, db, idx, hash, base, printable):
self.db = db
self.idx = idx
self.hash = hash
self.base = base
self.printable = printable
self.patches = [] # THIS SHOULD PULL IN PATCHES!
class test:
@classmethod
def select(klass, db, where = {}, wherein = {}, distinct = False):
fields = ['test_idx', 'job_idx', 'test', 'subdir',
'kernel_idx', 'status', 'reason', 'machine_idx']
tests = []
for row in db.select(','.join(fields), 'tests', where,
wherein,distinct):
tests.append(klass(db, *row))
return tests
@classmethod
def select_sql(klass, db, sql, values):
fields = ['test_idx', 'job_idx', 'test', 'subdir',
'kernel_idx', 'status', 'reason', 'machine_idx']
fields = ['t.'+field for field in fields]
rows = db.select_sql(','.join(fields), 'tests', sql, values)
return [klass(db, *row) for row in rows]
def __init__(self, db, test_idx, job_idx, testname, subdir, kernel_idx,
status_num, reason, machine_idx):
self.idx = test_idx
self.job = job(db, job_idx)
self.testname = testname
self.subdir = subdir
self.kernel_idx = kernel_idx
self.__kernel = None
self.__iterations = None
self.machine_idx = machine_idx
self.__machine = None
self.status_num = status_num
self.status_word = db.status_word[status_num]
self.reason = reason
self.db = db
if self.subdir:
self.url = html_root + self.job.tag + '/' + self.subdir
else:
self.url = None
def iterations(self):
"""
Caching function for iterations
"""
if not self.__iterations:
self.__iterations = {}
# A dictionary - dict{key} = [value1, value2, ....]
where = {'test_idx' : self.idx}
for i in iteration.select(self.db, where):
if self.__iterations.has_key(i.key):
self.__iterations[i.key].append(i.value)
else:
self.__iterations[i.key] = [i.value]
return self.__iterations
def kernel(self):
"""
Caching function for kernels
"""
if not self.__kernel:
where = {'kernel_idx' : self.kernel_idx}
self.__kernel = kernel.select(self.db, where)[0]
return self.__kernel
def machine(self):
"""
Caching function for kernels
"""
if not self.__machine:
where = {'machine_idx' : self.machine_idx}
self.__machine = machine.select(self.db, where)[0]
return self.__machine
class job:
def __init__(self, db, job_idx):
where = {'job_idx' : job_idx}
rows = db.select('tag, machine_idx', 'jobs', where)
if rows:
self.tag, self.machine_idx = rows[0]
self.job_idx = job_idx
class iteration:
@classmethod
def select(klass, db, where):
fields = ['iteration', 'attribute', 'value']
iterations = []
rows = db.select(','.join(fields), 'iteration_result', where)
for row in rows:
iterations.append(klass(*row))
return iterations
def __init__(self, iteration, key, value):
self.iteration = iteration
self.key = key
self.value = value
# class patch:
# def __init__(self):
# self.spec = None
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