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redshift.py
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redshift.py
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#!/usr/bin/env python
import requests
import json
from json import encoder
import sys
from lxml import etree
from six.moves.urllib import request as urllib2
import six
from tqdm import tqdm
import ec2
def add_pretty_names(instances):
family_names = {
"dc2": "Dense Compute DC2",
"ra3": "Managed Storage",
"dc1": "Dense Compute",
"ds1": "Dense Storage",
"ds2": "Dense Storage DS2",
}
for k in instances:
i = instances[k]
# instance type format looks like "dc1.large"
pieces = i["instance_type"].split(".")
family = pieces[0]
short = pieces[1]
prefix = family_names.get(family, family.upper())
extra = None
if short.startswith("8x"):
extra = "Eight"
elif short.startswith("4x"):
extra = "Quadruple"
elif short.startswith("16x"):
extra = "16xlarge"
elif short.startswith("x"):
extra = ""
bits = [prefix]
if extra is not None:
bits.extend([extra, "Extra"])
short = "Large"
bits.append(short.capitalize())
i["pretty_name"] = " ".join([b for b in bits if b])
def add_node_parameters(instances):
cluster_url = (
"https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-clusters.html"
)
tree = etree.parse(urllib2.urlopen(cluster_url), etree.HTMLParser())
for table_cnt in [0, 1]:
table = tree.xpath('//div[@class="table-contents"]//table')[table_cnt]
rows = table.xpath(".//tr[./td]")
for r in rows:
etree.strip_elements(r, "sup")
instance_type = etree.tounicode(r[0], method="text").strip()
slices = etree.tounicode(r[3], method="text").strip()
per_node_storage = etree.tounicode(r[4], method="text").strip()
node_range = etree.tounicode(r[5], method="text").strip()
storage_cap = etree.tounicode(r[6], method="text").strip()
if "single-node" in instance_type:
instance_type = "ra3.xlplus"
elif "multi-node" in instance_type:
instances["ra3.xlplus"][
"multi-node_storage_per_node"
] = per_node_storage
instances["ra3.xlplus"]["multi-node_node_range"] = node_range
instances["ra3.xlplus"]["multi-node_storage_capacity"] = storage_cap
continue
instances[instance_type]["slices_per_node"] = slices
instances[instance_type]["storage_per_node"] = per_node_storage
instances[instance_type]["node_range"] = node_range
instances[instance_type]["storage_capacity"] = storage_cap
def scrape(output_file, input_file=None):
# if an argument is given, use that as the path for the json file
if input_file:
with open(input_file) as json_data:
data = json.load(json_data)
else:
price_index = "https://pricing.us-east-1.amazonaws.com/offers/v1.0/aws/AmazonRedshift/current/index.json"
index = requests.get(price_index)
data = index.json()
caches_instances = {}
instances = {}
# region mapping, someone thought it was handy not to include the region id's :(
regions = ec2.get_region_descriptions()
# loop through products, and only fetch available instances for now
for sku, product in tqdm(six.iteritems(data["products"])):
if product.get("productFamily", None) == "Compute Instance":
attributes = product["attributes"]
# map the region
location = ec2.canonicalize_location(attributes["location"])
instance_type = attributes["instanceType"]
if location == "Any":
region = "us-east-1"
elif location == "Asia Pacific (Osaka-Local)":
# at one point this region was local but was upgraded to a standard region
# however some SKUs still reference the old region
region = "ap-northeast-3"
regions[location] = region
elif location not in regions.values():
region = attributes["regionCode"]
regions[location] = region
else:
region = regions[location]
# set the attributes in line with the ec2 index
attributes["region"] = region
attributes["memory"] = attributes["memory"].split(" ")[0]
attributes["family"] = attributes["usageFamily"]
attributes["instance_type"] = instance_type
attributes["pricing"] = {}
attributes["pricing"][region] = {}
caches_instances[sku] = attributes
if instance_type not in instances.keys():
# delete some attributes that are inconsistent among skus
new_attributes = (
attributes.copy()
) # make copy so we can keep these attributes with the sku
new_attributes.pop("location", None)
new_attributes.pop("locationType", None)
new_attributes.pop("operation", None)
new_attributes.pop("region", None)
new_attributes.pop("usagetype", None)
new_attributes["pricing"] = attributes["pricing"]
new_attributes["regions"] = {}
instances[instance_type] = new_attributes
# Parse ondemand pricing
for sku, offers in six.iteritems(data["terms"]["OnDemand"]):
for code, offer in six.iteritems(offers):
for key, dimension in six.iteritems(offer["priceDimensions"]):
# skip these types of charges
if any(
descr in dimension["description"].lower()
for descr in [
"transfer",
"global",
"iops",
"requests",
"multi-az",
]
):
continue
instance = caches_instances.get(sku)
if not instance:
# print(f"WARNING: Received on demand pricing info for unknown sku={sku}")
continue
region = instance["region"]
instance_type = instance["instance_type"]
if region not in instances[instance_type]["pricing"]:
# Initialise pricing for the instance_type
instances[instance_type]["pricing"][region] = {}
instances[instance_type]["pricing"][region] = {
"ondemand": float(dimension["pricePerUnit"]["USD"])
}
# build the list of regions where each instance is available
# we have to do a reverse lookup from the regions list
l = ""
for l, r in regions.items():
if instance["region"] == r:
location = l
break
instances[instance["instance_type"]]["regions"][instance["region"]] = l
reserved_mapping = {
"1yr All Upfront": "yrTerm1.allUpfront",
"1yr Partial Upfront": "yrTerm1.partialUpfront",
"1yr No Upfront": "yrTerm1.noUpfront",
"3yr All Upfront": "yrTerm3.allUpfront",
"3yr Partial Upfront": "yrTerm3.partialUpfront",
"3yr No Upfront": "yrTerm3.noUpfront",
}
# Parse reserved pricing
for sku, offers in six.iteritems(data["terms"]["Reserved"]):
for code, offer in six.iteritems(offers):
for key, dimension in six.iteritems(offer["priceDimensions"]):
# print()
# print()
instance = caches_instances.get(sku)
if not instance:
print(
f"WARNING: Received reserved pricing info for unknown sku={sku}"
)
continue
region = instance["region"]
instance_type = instance["instance_type"]
# create a regional hash
if region not in instance["pricing"]:
instance["pricing"][region] = {}
# create a reserved hash
if "reserved" not in instances[instance_type]["pricing"][region]:
instances[instance_type]["pricing"][region]["reserved"] = {}
reserved_type = f"%s %s" % (
offer["termAttributes"]["LeaseContractLength"],
offer["termAttributes"]["PurchaseOption"],
)
instances[instance_type]["pricing"][region]["reserved"][
"%s-%s"
% (reserved_mapping[reserved_type], dimension["unit"].lower())
] = float(dimension["pricePerUnit"]["USD"])
# Calculate all reserved effective pricings (upfront hourly + hourly price)
# Since Light, Medium and Heavy utilization are from previous generations and are not available for choosing
# anymore in AWS console, we are not calculating it
for instance_type, instance in six.iteritems(instances):
for region, pricing in six.iteritems(instance["pricing"]):
for engine, prices in six.iteritems(pricing):
if "reserved" not in engine:
continue
try:
# no multi-az here
reserved_prices = {}
if "yrTerm3.partialUpfront-quantity" in prices:
reserved_prices["yrTerm3Standard.partialUpfront"] = (
prices["yrTerm3.partialUpfront-quantity"] / (365 * 3) / 24
) + prices["yrTerm3.partialUpfront-hrs"]
if "yrTerm1.partialUpfront-quantity" in prices:
reserved_prices["yrTerm1Standard.partialUpfront"] = (
prices["yrTerm1.partialUpfront-quantity"] / 365 / 24
) + prices["yrTerm1.partialUpfront-hrs"]
if "yrTerm3.allUpfront-quantity" in prices:
reserved_prices["yrTerm3Standard.allUpfront"] = (
prices["yrTerm3.allUpfront-quantity"] / (365 * 3) / 24
) + prices["yrTerm3.allUpfront-hrs"]
if "yrTerm1.allUpfront-quantity" in prices:
reserved_prices["yrTerm1Standard.allUpfront"] = (
prices["yrTerm1.allUpfront-quantity"] / 365 / 24
) + prices["yrTerm1.allUpfront-hrs"]
if "yrTerm1.noUpfront-hrs" in prices:
reserved_prices["yrTerm1Standard.noUpfront"] = prices[
"yrTerm1.noUpfront-hrs"
]
if "yrTerm3.noUpfront-hrs" in prices:
reserved_prices["yrTerm3Standard.noUpfront"] = prices[
"yrTerm3.noUpfront-hrs"
]
instances[instance_type]["pricing"][region][
"reserved"
] = reserved_prices
except Exception as e:
print(
"ERROR: Trouble generating Cache reserved price for {}: {!r}".format(
instance_type, e
)
)
add_pretty_names(instances)
add_node_parameters(instances)
# write output to file
encoder.FLOAT_REPR = lambda o: format(o, ".5f")
with open(output_file, "w+") as outfile:
json.dump(list(instances.values()), outfile, indent=1)
if __name__ == "__main__":
input_file = None
if len(sys.argv) > 1:
input_file = sys.argv[1]
output_file = "./www/redshift/instances.json"
scrape(output_file, input_file)