minio/mint/run/core/aws-sdk-ruby/aws-stub-tests.rb
Krishnan Parthasarathi c829e3a13b Support for remote tier management (#12090)
With this change, MinIO's ILM supports transitioning objects to a remote tier.
This change includes support for Azure Blob Storage, AWS S3 compatible object
storage incl. MinIO and Google Cloud Storage as remote tier storage backends.

Some new additions include:

 - Admin APIs remote tier configuration management

 - Simple journal to track remote objects to be 'collected'
   This is used by object API handlers which 'mutate' object versions by
   overwriting/replacing content (Put/CopyObject) or removing the version
   itself (e.g DeleteObjectVersion).

 - Rework of previous ILM transition to fit the new model
   In the new model, a storage class (a.k.a remote tier) is defined by the
   'remote' object storage type (one of s3, azure, GCS), bucket name and a
   prefix.

* Fixed bugs, review comments, and more unit-tests

- Leverage inline small object feature
- Migrate legacy objects to the latest object format before transitioning
- Fix restore to particular version if specified
- Extend SharedDataDirCount to handle transitioned and restored objects
- Restore-object should accept version-id for version-suspended bucket (#12091)
- Check if remote tier creds have sufficient permissions
- Bonus minor fixes to existing error messages

Co-authored-by: Poorna Krishnamoorthy <poorna@minio.io>
Co-authored-by: Krishna Srinivas <krishna@minio.io>
Signed-off-by: Harshavardhana <harsha@minio.io>
2021-04-23 11:58:53 -07:00

852 lines
28 KiB
Ruby
Executable File

#!/usr/bin/env ruby
#
#
require 'aws-sdk'
require 'securerandom'
require 'net/http'
require 'multipart_body'
# For aws-sdk ruby tests to run, setting the following
# environment variables is mandatory.
# SERVER_ENDPOINT: <ip:port> address of the minio server tests will run against
# ACCESS_KEY: access key for the minio server
# SECRET_KEY: secreet key for the minio server
# SERVER_REGION: region minio server is setup to run
# ENABLE_HTTPS: (1|0) turn on/off to specify https or
# http services minio server is running on
# MINT_DATA_DIR: Data directory where test data files are stored
class AwsSdkRubyTest
# Set variables necessary to create an s3 client instance.
# Get them from the environment variables
# Region information, eg. "us-east-1"
region = ENV['SERVER_REGION'] ||= 'SERVER_REGION is not set'
# Minio server, eg. "play.minio.io:9000"
access_key_id = ENV['ACCESS_KEY'] ||= 'ACCESS_KEY is not set'
secret_access_key = ENV['SECRET_KEY'] ||= 'SECRET_KEY is not set'
enable_https = ENV['ENABLE_HTTPS']
end_point = ENV['SERVER_ENDPOINT'] ||= 'SERVER_ENDPOINT is not set'
endpoint = enable_https == '1' ? 'https://' + end_point : 'http://' + end_point
# Create s3 resource instance,"s3"
@@s3 = Aws::S3::Resource.new(
region: region,
endpoint: endpoint,
access_key_id: access_key_id,
secret_access_key: secret_access_key,
force_path_style: true)
def initialize_log_output(meth, alert = nil)
# Initialize and return log content in log_output hash table
# Collect args in args_arr
args_arr = method(meth).parameters.flatten.map(&:to_s)
.reject { |x| x == 'req' || x == 'opt' }
# Create and return log output content
{ name: 'aws-sdk-ruby',
function: "#{meth}(#{args_arr.join(',')})", # method name and arguments
args: args_arr, # array of arg names. This'll be replaced with a
# a arg/value pairs insdie the caller method
duration: 0, # test runtime duration in seconds
alert: alert,
message: nil,
error: nil }
end
def random_bucket_name
'aws-sdk-ruby-bucket-' + SecureRandom.hex(6)
end
def calculate_duration(t2, t1)
# Durations are in miliseconds, with precision of 2 decimal places
((t2 - t1) * 1000).round(2)
end
def print_log(log_output, start_time)
# Calculate duration in miliseconds
log_output[:duration] = calculate_duration(Time.now, start_time)
# Get rid of the log_output fields if nil
puts log_output.delete_if{|k, value| value == nil}.to_json
# Exit at the first failure
exit 1 if log_output[:status] == 'FAIL'
end
def cleanUp(buckets, log_output)
# Removes objects and bucket if bucket exists
bucket_name = ''
buckets.each do |b|
bucket_name = b
if bucketExistsWrapper(b, log_output)
removeObjectsWrapper(b, log_output)
removeBucketWrapper(b, log_output)
end
end
rescue => e
raise "Failed to clean-up bucket '#{bucket_name}', #{e}"
end
#
# API commands/methods
#
def makeBucket(bucket_name)
# Creates a bucket, "bucket_name"
# on S3 client , "s3".
# Returns bucket_name if already exists
@@s3.bucket(bucket_name).exists? ? @@s3.bucket(bucket_name) : @@s3.create_bucket(bucket: bucket_name)
rescue => e
raise e
end
def makeBucketWrapper(bucket_name, log_output)
makeBucket(bucket_name)
rescue => e
log_output[:function] = "makeBucket(bucket_name)"
log_output[:args] = {'bucket_name': bucket_name}
raise e
end
def removeBucket(bucket_name)
# Deletes/removes bucket, "bucket_name" on S3 client, "s3"
@@s3.bucket(bucket_name).delete
rescue => e
raise e
end
def removeBucketWrapper(bucket_name, log_output)
removeBucket(bucket_name)
rescue => e
log_output[:function] = "removeBucket(bucket_name)"
log_output[:args] = {'bucket_name': bucket_name}
raise e
end
def putObject(bucket_name, file)
# Creates "file" (full path) in bucket, "bucket_name",
# on S3 client, "s3"
file_name = File.basename(file)
@@s3.bucket(bucket_name).object(file_name).upload_file(file)
rescue => e
raise e
end
def putObjectWrapper(bucket_name, file, log_output)
putObject(bucket_name, file)
rescue => e
log_output[:function] = "putObject(bucket_name, file)"
log_output[:args] = {'bucket_name': bucket_name,
'file': file}
raise e
end
def getObject(bucket_name, file, destination)
# Gets/Downloads file, "file",
# from bucket, "bucket_name", of S3 client, "s3"
file_name = File.basename(file)
dest = File.join(destination, file_name)
@@s3.bucket(bucket_name).object(file_name).get(response_target: dest)
rescue => e
raise e
end
def getObjectWrapper(bucket_name, file, destination, log_output)
getObject(bucket_name, file, destination)
rescue => e
log_output[:function] = "getObject(bucket_name, file)"
log_output[:args] = {'bucket_name': bucket_name,
'file': file,
'destination': destination}
raise e
end
def copyObject(source_bucket_name, target_bucket_name, source_file_name, target_file_name = '')
# Copies file, "file_name", from source bucket,
# "source_bucket_name", to target bucket,
# "target_bucket_name", on S3 client, "s3"
target_file_name = source_file_name if target_file_name.empty?
source = @@s3.bucket(source_bucket_name)
target = @@s3.bucket(target_bucket_name)
source_obj = source.object(source_file_name)
target_obj = target.object(target_file_name)
source_obj.copy_to(target_obj)
rescue => e
raise e
end
def copyObjectWrapper(source_bucket_name, target_bucket_name, source_file_name, target_file_name = '', log_output)
copyObject(source_bucket_name, target_bucket_name, source_file_name, target_file_name)
rescue => e
log_output[:function] = 'copyObject(source_bucket_name, target_bucket_name, source_file_name, target_file_name = '')'
log_output[:args] = {'source_bucket_name': source_bucket_name,
'target_bucket_name': target_bucket_name,
'source_file_name': source_file_name,
'target_file_name': target_file_name}
raise e
end
def removeObject(bucket_name, file)
# Deletes file in bucket,
# "bucket_name", on S3 client, "s3".
# If file, "file_name" does not exist,
# it quietly returns without any error message
@@s3.bucket(bucket_name).object(file).delete
rescue => e
raise e
end
def removeObjectWrapper(bucket_name, file_name, log_output)
removeObject(bucket_name, file_name)
rescue => e
log_output[:function] = "removeObject(bucket_name, file_name)"
log_output[:args] = {'bucket_name': bucket_name,
'file_name': file_name}
raise e
end
def removeObjects(bucket_name)
# Deletes all files in bucket, "bucket_name"
# on S3 client, "s3"
file_name = ''
@@s3.bucket(bucket_name).objects.each do |obj|
file_name = obj.key
obj.delete
end
rescue => e
raise "File name: '#{file_name}', #{e}"
end
def removeObjectsWrapper(bucket_name, log_output)
removeObjects(bucket_name)
rescue => e
log_output[:function] = 'removeObjects(bucket_name)'
log_output[:args] = {'bucket_name': bucket_name}
raise e
end
def listBuckets
# Returns an array of bucket names on S3 client, "s3"
bucket_name_list = []
@@s3.buckets.each do |b|
bucket_name_list.push(b.name)
end
return bucket_name_list
rescue => e
raise e
end
def listBucketsWrapper(log_output)
listBuckets
rescue => e
log_output[:function] = 'listBuckets'
log_output[:args] = {}
raise e
end
def listObjects(bucket_name)
# Returns an array of object/file names
# in bucket, "bucket_name", on S3 client, "s3"
object_list = []
@@s3.bucket(bucket_name).objects.each do |obj|
object_list.push(obj.key)
end
return object_list
rescue => e
raise e
end
def listObjectsWrapper(bucket_name, log_output)
listObjects(bucket_name)
rescue => e
log_output[:function] = 'listObjects(bucket_name)'
log_output[:args] = {'bucket_name': bucket_name}
raise e
end
def statObject(bucket_name, file_name)
return @@s3.bucket(bucket_name).object(file_name).exists?
rescue => e
raise e
end
def statObjectWrapper(bucket_name, file_name, log_output)
statObject(bucket_name, file_name)
rescue => e
log_output[:function] = 'statObject(bucket_name, file_name)'
log_output[:args] = {'bucket_name': bucket_name,
'file_name': file_name}
raise e
end
def bucketExists?(bucket_name)
# Returns true if bucket, "bucket_name", exists,
# false otherwise
return @@s3.bucket(bucket_name).exists?
rescue => e
raise e
end
def bucketExistsWrapper(bucket_name, log_output)
bucketExists?(bucket_name)
rescue => e
log_output[:function] = 'bucketExists?(bucket_name)'
log_output[:args] = {'bucket_name': bucket_name}
raise e
end
def presignedGet(bucket_name, file_name)
# Returns download/get url
obj = @@s3.bucket(bucket_name).object(file_name)
return obj.presigned_url(:get, expires_in: 600)
rescue => e
raise e
end
def presignedGetWrapper(bucket_name, file_name, log_output)
presignedGet(bucket_name, file_name)
rescue => e
log_output[:function] = 'presignedGet(bucket_name, file_name)'
log_output[:args] = {'bucket_name': bucket_name,
'file_name': file_name}
raise e
end
def presignedPut(bucket_name, file_name)
# Returns put url
obj = @@s3.bucket(bucket_name).object(file_name)
return obj.presigned_url(:put, expires_in: 600)
rescue => e
raise e
end
def presignedPutWrapper(bucket_name, file_name, log_output)
presignedPut(bucket_name, file_name)
rescue => e
log_output[:function] = 'presignedPut(bucket_name, file_name)'
log_output[:args] = {'bucket_name': bucket_name,
'file_name': file_name}
raise e
end
def presignedPost(bucket_name, file_name, expires_in_sec, max_byte_size)
# Returns upload/post url
obj = @@s3.bucket(bucket_name).object(file_name)
return obj.presigned_post(expires: Time.now + expires_in_sec,
content_length_range: 1..max_byte_size)
rescue => e
raise e
end
def presignedPostWrapper(bucket_name, file_name, expires_in_sec, max_byte_size, log_output)
presignedPost(bucket_name, file_name, expires_in_sec, max_byte_size)
rescue => e
log_output[:function] = 'presignedPost(bucket_name, file_name, expires_in_sec, max_byte_size)'
log_output[:args] = {'bucket_name': bucket_name,
'file_name': file_name,
'expires_in_sec': expires_in_sec,
'max_byte_size': max_byte_size}
raise e
end
# To be addressed. S3 API 'get_bucket_policy' does not work!
# def getBucketPolicy(bucket_name)
# # Returns bucket policy
# return @@s3.bucket(bucket_name).get_bucket_policy
# rescue => e
# raise e
# end
#
# Test case methods
#
def listBucketsTest
# Tests listBuckets api command by creating
# new buckets from bucket_name_list
# get 2 different random bucket names and create a list
bucket_name_list = [random_bucket_name, random_bucket_name]
# Initialize hash table, 'log_output'
log_output = initialize_log_output('listBuckets')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
prev_total_buckets = listBucketsWrapper(log_output).length
new_buckets = bucket_name_list.length
bucket_name_list.each do |b|
makeBucketWrapper(b, log_output)
end
new_total_buckets = prev_total_buckets + new_buckets
if new_total_buckets >= prev_total_buckets + new_buckets
log_output[:status] = 'PASS'
else
log_output[:error] = 'Could not find expected number of buckets'
log_output[:status] = 'FAIL'
end
cleanUp(bucket_name_list, log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def makeBucketTest
# Tests makeBucket api command.
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('makeBucket')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
if bucketExistsWrapper(bucket_name, log_output)
log_output[:status] = 'PASS'
else
log_output[:error] = 'Bucket expected to be created does not exist'
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def bucketExistsNegativeTest
# Tests bucketExists api command.
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('bucketExists?')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
if !bucketExistsWrapper(bucket_name, log_output)
log_output[:status] = 'PASS'
else
log_output[:error] = "Failed to return 'false' for a non-existing bucket"
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def removeBucketTest
# Tests removeBucket api command.
# get a random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('removeBucket')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
removeBucketWrapper(bucket_name, log_output)
if !bucketExistsWrapper(bucket_name, log_output)
log_output[:status] = 'PASS'
else
log_output[:error] = 'Bucket expected to be removed still exists'
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def putObjectTest(file)
# Tests putObject api command by uploading a file
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('putObject')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
putObjectWrapper(bucket_name, file, log_output)
if statObjectWrapper(bucket_name, File.basename(file), log_output)
log_output[:status] = 'PASS'
else
log_output[:error] = "Status for the created object returned 'false'"
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def removeObjectTest(file)
# Tests removeObject api command by uploading and removing a file
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('removeObject')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
putObjectWrapper(bucket_name, file, log_output)
removeObjectWrapper(bucket_name, File.basename(file), log_output)
if !statObjectWrapper(bucket_name, File.basename(file), log_output)
log_output[:status] = 'PASS'
else
log_output[:error] = "Status for the removed object returned 'true'"
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def getObjectTest(file, destination)
# Tests getObject api command
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('getObject')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
putObjectWrapper(bucket_name, file, log_output)
getObjectWrapper(bucket_name, file, destination, log_output)
if system("ls -l #{destination} > /dev/null")
log_output[:status] = 'PASS'
else
log_output[:error] = "Downloaded object does not exist at #{destination}"
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def listObjectsTest(file_list)
# Tests listObjects api command
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('listObjects')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
# Put all objects into the bucket
file_list.each do |f|
putObjectWrapper(bucket_name, f, log_output)
end
# Total number of files uploaded
expected_no = file_list.length
# Actual number is what api returns
actual_no = listObjectsWrapper(bucket_name, log_output).length
# Compare expected and actual values
if expected_no == actual_no
log_output[:status] = 'PASS'
else
log_output[:error] = 'Expected and actual number of listed files/objects do not match!'
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def copyObjectTest(data_dir, source_file_name, target_file_name = '')
# Tests copyObject api command
# get random bucket names
source_bucket_name = random_bucket_name
target_bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('copyObject')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
target_file_name = source_file_name if target_file_name.empty?
makeBucketWrapper(source_bucket_name, log_output)
makeBucketWrapper(target_bucket_name, log_output)
putObjectWrapper(source_bucket_name,
File.join(data_dir, source_file_name), log_output)
copyObjectWrapper(source_bucket_name, target_bucket_name,
source_file_name, target_file_name, log_output)
# Check if copy worked fine
if statObjectWrapper(target_bucket_name, target_file_name, log_output)
log_output[:status] = 'PASS'
else
log_output[:error] = 'Copied file could not be found in the expected location'
log_output[:status] = 'FAIL'
end
cleanUp([source_bucket_name, target_bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def presignedGetObjectTest(data_dir, file_name)
# Tests presignedGetObject api command
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('presignedGet')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
file = File.join(data_dir, file_name)
# Get check sum value without the file name
cksum_orig = `cksum #{file}`.split[0..1]
putObjectWrapper(bucket_name, file, log_output)
get_url = presignedGetWrapper(bucket_name, file_name, log_output)
# Download the file using the URL
# generated by presignedGet api command
`wget -O /tmp/#{file_name} '#{get_url}' > /dev/null 2>&1`
# Get check sum value for the downloaded file
# Split to get rid of the file name
cksum_new = `cksum /tmp/#{file_name}`.split[0..1]
# Check if check sum values for the orig file
# and the downloaded file match
if cksum_orig == cksum_new
log_output[:status] = 'PASS'
else
log_output[:error] = 'Check sum values do NOT match'
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def presignedPutObjectTest(data_dir, file_name)
# Tests presignedPutObject api command
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('presignedPut')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
file = File.join(data_dir, file_name)
# Get check sum value and
# split to get rid of the file name
cksum_orig = `cksum #{file}`.split[0..1]
# Generate presigned Put URL and parse it
uri = URI.parse(presignedPutWrapper(bucket_name, file_name, log_output))
request = Net::HTTP::Put.new(uri.request_uri, 'x-amz-acl' => 'public-read')
request.body = IO.read(File.join(data_dir, file_name))
http = Net::HTTP.new(uri.host, uri.port)
http.use_ssl = true if ENV['ENABLE_HTTPS'] == '1'
http.request(request)
if statObjectWrapper(bucket_name, file_name, log_output)
getObjectWrapper(bucket_name, file_name, '/tmp', log_output)
cksum_new = `cksum /tmp/#{file_name}`.split[0..1]
# Check if check sum values of the orig file
# and the downloaded file match
if cksum_orig == cksum_new
log_output[:status] = 'PASS'
else
log_output[:error] = 'Check sum values do NOT match'
log_output[:status] = 'FAIL'
end
else
log_output[:error] = 'Expected to be created object does NOT exist'
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
def presignedPostObjectTest(data_dir, file_name,
expires_in_sec, max_byte_size)
# Tests presignedPostObject api command
# get random bucket name
bucket_name = random_bucket_name
# Initialize hash table, 'log_output'
log_output = initialize_log_output('presignedPost')
# Prepare arg/value hash table and set it in log_output
arg_value_hash = {}
log_output[:args].each { |x| arg_value_hash[:"#{x}"] = eval x.to_s }
log_output[:args] = arg_value_hash
begin
start_time = Time.now
makeBucketWrapper(bucket_name, log_output)
file = File.join(data_dir, file_name)
# Get check sum value and split it
# into parts to get rid of the file name
cksum_orig = `cksum #{file}`.split[0..1]
# Create the presigned POST url
post = presignedPostWrapper(bucket_name, file_name,
expires_in_sec, max_byte_size, log_output)
# Prepare multi parts array for POST command request
file_part = Part.new name: 'file',
body: IO.read(File.join(data_dir, file_name)),
filename: file_name,
content_type: 'application/octet-stream'
parts = [file_part]
# Add POST fields into parts array
post.fields.each do |field, value|
parts.push(Part.new(field, value))
end
boundary = "---------------------------#{rand(10_000_000_000_000_000)}"
body_parts = MultipartBody.new parts, boundary
# Parse presigned Post URL
uri = URI.parse(post.url)
# Create the HTTP objects
http = Net::HTTP.new(uri.host, uri.port)
http.use_ssl = true if ENV['ENABLE_HTTPS'] == '1'
request = Net::HTTP::Post.new(uri.request_uri)
request.body = body_parts.to_s
request.content_type = "multipart/form-data; boundary=#{boundary}"
# Send the request
log_output[:error] = http.request(request)
if statObjectWrapper(bucket_name, file_name, log_output)
getObjectWrapper(bucket_name, file_name, '/tmp', log_output)
cksum_new = `cksum /tmp/#{file_name}`.split[0..1]
# Check if check sum values of the orig file
# and the downloaded file match
if cksum_orig == cksum_new
log_output[:status] = 'PASS'
# FIXME: HTTP No Content error, status code=204 is returned as error
log_output[:error] = nil
else
log_output[:error] = 'Check sum values do NOT match'
log_output[:status] = 'FAIL'
end
else
log_output[:error] = 'Expected to be created object does NOT exist'
log_output[:status] = 'FAIL'
end
cleanUp([bucket_name], log_output)
rescue => log_output[:error]
log_output[:status] = 'FAIL'
end
print_log(log_output, start_time)
end
end
# MAIN CODE
# Create test Class instance and call the tests
aws = AwsSdkRubyTest.new
file_name1 = 'datafile-1-kB'
file_new_name = 'datafile-1-kB-copy'
file_name_list = ['datafile-1-kB', 'datafile-1-b', 'datafile-6-MB']
# Add data_dir in front of each file name in file_name_list
# The location where the bucket and file
# objects are going to be created.
data_dir = ENV['MINT_DATA_DIR'] ||= 'MINT_DATA_DIR is not set'
file_list = file_name_list.map { |f| File.join(data_dir, f) }
destination = '/tmp'
aws.listBucketsTest
aws.listObjectsTest(file_list)
aws.makeBucketTest
aws.bucketExistsNegativeTest
aws.removeBucketTest
aws.putObjectTest(File.join(data_dir, file_name1))
aws.removeObjectTest(File.join(data_dir, file_name1))
aws.getObjectTest(File.join(data_dir, file_name1), destination)
aws.copyObjectTest(data_dir, file_name1)
aws.copyObjectTest(data_dir, file_name1, file_new_name)
aws.presignedGetObjectTest(data_dir, file_name1)
aws.presignedPutObjectTest(data_dir, file_name1)
aws.presignedPostObjectTest(data_dir, file_name1, 60, 3*1024*1024)