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diff --git a/moonv4/tests/performance/README.md b/moonv4/tests/performance/README.md deleted file mode 100644 index 52613d2c..00000000 --- a/moonv4/tests/performance/README.md +++ /dev/null @@ -1,69 +0,0 @@ -# Moon Yardstick and Bottlenecks Performance Tests - -The main objective of this document is to describe the performance tests for the Moon project/module. -Moon is a security managment platform which provides a set of security functions to project the underlying OPNFV infrastructure and/or VNFs. -Moon is consisted of 2 parts: a master and a set of slaves. The master holds all security-related information and each slave only fetches and holds -related informations for its local usage from master. - -## Moon Master Performance Tests -In this test, we should: -- setup a Moon master service on a physical server -- create a tenant/scope through the Moon master service -- create a MSL security policy with 4 subject security levels and 4 object security levels for this tenant - -- increase N to find the limit of the security policy (implemented in format of a Docker) - - create N users and N resources (VMs in our case) in this tenant - - simulate 2 operation requests per user per second to Moon's authorization endpoint - - gather performance metrics like CPU, memory, network usages - - throught the iteration, determine the capacity limit for one Docker - -- setup 20 user and 20 resources (VMs in our case) for one tenant - - increase the number of tenants to test the maximal number of tenants on the server - -- setup 5 tenants of N users and N resources (VMs in our case) in each tenant - - increase N by simulating 2 operation requests per user per second to the Moon's authorization endpoint - - gather performance metrics like CPU, memory, network usages - - throught the iteration, dermine the maximal user/resource number of these 5 tenants/Dockers on the server - -- setup 10 tenants of N users and N resources (VMs in our case) in each tenant - - increase N by simulating 2 operation requests per user per second to the Moon's authorization endpoint - - gather performance metrics like CPU, memory, network usages - - throught the iteration, dermine the maximal user/resource number of these 10 tenants/Dockers on the server - -- setup 20 tenants of N users and N resources (VMs in our case) in each tenant - - increase N by simulating 2 operation requests per user per second to the Moon's authorization endpoint - - gather performance metrics like CPU, memory, network usages - - throught the iteration, dermine the maximal user/resource number of these 20 tenants/Dockers on the server - -## Moon Slave Performace Tests -In this test, we should: -- setup a Moon master service on a physical server -- setup a Moon slave service on a physical server -- create a tenant/scope through the Moon master service -- create a MSL security policy with 4 subject security levels and 4 object security levels for this tenant through the Moon master service - -- increase N to find the limit of the security policy (implemented in format of a Docker) - - create N users and N resources (VMs in our case) in this tenant - - simulate 2 operation requests per user per second to Moon slave's authorizatoin endpoint - - gather performance metrics like CPU, memory, network usages of Moon slave - - throught the iteration, dermine the capacity limit for one Docker of Moon slave - -- setup 20 user and 20 resources (VMs in our case) for one tenant through the Moon slave service - - increate the number of tenants to test the maximal number of tenants on the server of the Moon slave - -- setup 5 tenants of N users and N resources (VMs in our case) in each tenant through the Moon master service - - increate N by simulating 2 operation requests per user per second to the Moon slave's authorization endpoint - - gather performance metrics like CPU, memory, network usages of both Moon master and Moon slave - - throught the iteration, dermine the maximal user/resource number of these 5 tenants/Dockers on the server of Moon slave - -- setup 10 tenants of N users and N resources (VMs in our case) in each tenant through the Moon master service - - increate N by simulating 2 operation requests per user per second to the Moon slave's authorization endpoint - - gather performance metrics like CPU, memory, network usages of both Moon master and slave - - throught the iteration, dermine the maximal user/resource number of these 10 tenants/Dockers on the server of the Moon slave - -- setup 20 tenants of N users and N resources (VMs in our case) in each tenant through the Moon master service - - increate N by simulating 2 operation requests per user per second to the Moon slave's authorization endpoint - - gather performance metrics like CPU, memory, network usages of both Moon master and slave - - throught the iteration, dermine the maximal user/resource number of these 20 tenants/Dockers on the server of the Moon slave - - |