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deployment_parser.go
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deployment_parser.go
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package provider
import (
"fmt"
"os"
"strconv"
"github.com/threefoldtech/tfgrid-sdk-go/grid-client/workloads"
"github.com/threefoldtech/zos/pkg/gridtypes/zos"
)
// Disk represents the disk struct
type Disk struct {
Name string `pulumi:"name"`
Size int `pulumi:"size"`
Description string `pulumi:"description,optional"`
}
// Mount represents mounting of disks
type Mount struct {
DiskName string `pulumi:"disk_name"`
MountPoint string `pulumi:"mount_point"`
}
// Zlog logger struct
type Zlog struct {
Zmachine string `pulumi:"zmachine"`
Output string `pulumi:"output"`
}
// ZDBInput is the ZDB workload inputs struct
type ZDBInput struct {
Name string `pulumi:"name"`
Size int `pulumi:"size"`
Password string `pulumi:"password"`
Public bool `pulumi:"public,optional"`
Description string `pulumi:"description,optional"`
Mode string `pulumi:"mode,optional"`
}
// ZDBComputed is the ZDB workload Computed struct
type ZDBComputed struct {
IPs []string `pulumi:"ips"`
Port int32 `pulumi:"port"`
Namespace string `pulumi:"namespace"`
}
// VMInput is a virtual machine inputs struct
type VMInput struct {
Name string `pulumi:"name"`
Flist string `pulumi:"flist"`
NetworkName string `pulumi:"network_name"`
CPU int `pulumi:"cpu"`
Memory int `pulumi:"memory"`
FlistChecksum string `pulumi:"flist_checksum,optional"`
PublicIP bool `pulumi:"public_ip,optional"`
PublicIP6 bool `pulumi:"public_ip6,optional"`
Planetary bool `pulumi:"planetary,optional"`
Description string `pulumi:"description,optional"`
GPUs []zos.GPU `pulumi:"gpus,optional"`
RootfsSize int `pulumi:"rootfs_size,optional"`
Entrypoint string `pulumi:"entrypoint,optional"`
Mounts []Mount `pulumi:"mounts,optional"`
Zlogs []Zlog `pulumi:"zlogs,optional"`
EnvVars map[string]string `pulumi:"env_vars,optional"`
}
// VMComputed is a virtual machine computed struct
type VMComputed struct {
ComputedIP string `pulumi:"computed_ip"`
ComputedIP6 string `pulumi:"computed_ip6"`
YggIP string `pulumi:"ygg_ip"`
ConsoleURL string `pulumi:"console_url"`
IP string `pulumi:"ip,optional"`
}
// QSFSInput is the QSFS input struct
type QSFSInput struct {
Name string `pulumi:"name"`
Description string `pulumi:"description,optional"`
Cache int `pulumi:"cache"`
MinimalShards int32 `pulumi:"minimal_shards"`
ExpectedShards int32 `pulumi:"expected_shards"`
RedundantGroups int32 `pulumi:"redundant_groups"`
RedundantNodes int32 `pulumi:"redundant_nodes"`
MaxZDBDataDirSize int32 `pulumi:"max_zdb_data_dir_size"`
EncryptionAlgorithm string `pulumi:"encryption_algorithm,optional"`
EncryptionKey string `pulumi:"encryption_key"`
CompressionAlgorithm string `pulumi:"compression_algorithm,optional"`
Metadata Metadata `pulumi:"metadata"`
Groups []Group `pulumi:"groups"`
}
// QSFSComputed is the QSFS Computed struct
type QSFSComputed struct {
MetricsEndpoint string `pulumi:"metrics_endpoint"`
}
// Metadata for QSFS
type Metadata struct {
EncryptionKey string `pulumi:"encryption_key"`
Prefix string `pulumi:"prefix"`
EncryptionAlgorithm string `pulumi:"encryption_algorithm,optional"`
Type string `pulumi:"type,optional"`
Backends []Backend `pulumi:"backends,optional"`
}
// Backend is a zos backend
type Backend struct {
Address string `pulumi:"address"`
Namespace string `pulumi:"namespace"`
Password string `pulumi:"password"`
}
// Group is a zos group
type Group struct {
Backends []Backend `pulumi:"backends,optional"`
}
func parseBackendsToState(backends workloads.Backends) []Backend {
var bs []Backend
for _, backend := range backends {
bs = append(bs, Backend{
Address: backend.Address,
Namespace: backend.Namespace,
Password: backend.Password,
})
}
return bs
}
func parseInputsToBackends(backends []Backend) workloads.Backends {
var bs workloads.Backends
for _, backend := range backends {
bs = append(bs, workloads.Backend{
Address: backend.Address,
Namespace: backend.Namespace,
Password: backend.Password,
})
}
return bs
}
func parseInputToDeployment(deploymentArgs DeploymentArgs) (workloads.Deployment, error) {
var solutionProvider *uint64
if deploymentArgs.SolutionProvider != 0 {
solutionProviderUint := uint64(deploymentArgs.SolutionProvider)
solutionProvider = &solutionProviderUint
}
nodeID, err := strconv.Atoi(fmt.Sprint(deploymentArgs.NodeID))
if err != nil {
return workloads.Deployment{}, err
}
var vms []workloads.VM
for _, vm := range deploymentArgs.VmsInputs {
var mounts []workloads.Mount
for _, mount := range vm.Mounts {
mounts = append(mounts, workloads.Mount{
DiskName: mount.DiskName,
MountPoint: mount.MountPoint,
})
}
var zlogs []workloads.Zlog
for _, zlog := range vm.Zlogs {
zlogs = append(zlogs, workloads.Zlog{
Zmachine: zlog.Zmachine,
Output: zlog.Output,
})
}
// for tests
sshKey := os.Getenv("SSH_KEY")
if sshKey != "" {
vm.EnvVars["SSH_KEY"] = sshKey
}
vms = append(vms, workloads.VM{
Name: vm.Name,
Flist: vm.Flist,
NetworkName: vm.NetworkName,
FlistChecksum: vm.FlistChecksum,
PublicIP: vm.PublicIP,
PublicIP6: vm.PublicIP6,
Planetary: vm.Planetary,
Description: vm.Description,
GPUs: vm.GPUs,
CPU: vm.CPU,
Memory: vm.Memory,
RootfsSize: vm.RootfsSize,
Entrypoint: vm.Entrypoint,
Mounts: mounts,
Zlogs: zlogs,
EnvVars: vm.EnvVars,
})
}
var disks []workloads.Disk
for _, disk := range deploymentArgs.Disks {
disks = append(disks, workloads.Disk{
Name: disk.Name,
SizeGB: disk.Size,
Description: disk.Description,
})
}
var zdbs []workloads.ZDB
for _, zdb := range deploymentArgs.ZdbsInputs {
zdbs = append(zdbs, workloads.ZDB{
Name: zdb.Name,
Size: zdb.Size,
Password: zdb.Password,
Public: zdb.Public,
Description: zdb.Description,
Mode: zdb.Mode,
})
}
var qsfss []workloads.QSFS
for _, qsfs := range deploymentArgs.QSFSInputs {
var groups []workloads.Group
for _, group := range qsfs.Groups {
groups = append(groups, workloads.Group{
Backends: parseInputsToBackends(group.Backends),
})
}
qsfss = append(qsfss, workloads.QSFS{
Name: qsfs.Name,
Description: qsfs.Description,
Cache: qsfs.Cache,
MinimalShards: uint32(qsfs.MinimalShards),
ExpectedShards: uint32(qsfs.ExpectedShards),
RedundantGroups: uint32(qsfs.RedundantGroups),
RedundantNodes: uint32(qsfs.RedundantNodes),
MaxZDBDataDirSize: uint32(qsfs.MaxZDBDataDirSize),
EncryptionAlgorithm: qsfs.EncryptionAlgorithm,
EncryptionKey: qsfs.EncryptionKey,
CompressionAlgorithm: qsfs.CompressionAlgorithm,
Metadata: workloads.Metadata{
EncryptionKey: qsfs.Metadata.EncryptionKey,
Prefix: qsfs.Metadata.Prefix,
EncryptionAlgorithm: qsfs.Metadata.EncryptionAlgorithm,
Type: qsfs.Metadata.Type,
Backends: parseInputsToBackends(qsfs.Metadata.Backends),
},
Groups: groups,
})
}
return workloads.Deployment{
NodeID: uint32(nodeID),
Name: deploymentArgs.Name,
SolutionType: deploymentArgs.SolutionType,
SolutionProvider: solutionProvider,
NetworkName: deploymentArgs.NetworkName,
Disks: disks,
Zdbs: zdbs,
Vms: vms,
QSFS: qsfss,
}, nil
}
func parseDeploymentToState(deployment workloads.Deployment) DeploymentState {
var solutionProvider int64
if deployment.SolutionProvider != nil {
solutionProvider = int64(*deployment.SolutionProvider)
}
var disks []Disk
for _, disk := range deployment.Disks {
disks = append(disks, Disk{
Name: disk.Name,
Size: disk.SizeGB,
Description: disk.Description,
})
}
var zdbs []ZDBInput
for _, zdb := range deployment.Zdbs {
zdbs = append(zdbs, ZDBInput{
Name: zdb.Name,
Size: zdb.Size,
Password: zdb.Password,
Public: zdb.Public,
Description: zdb.Description,
Mode: zdb.Mode,
})
}
var vms []VMInput
for _, vm := range deployment.Vms {
var zlogs []Zlog
for _, zlog := range vm.Zlogs {
zlogs = append(zlogs, Zlog{
Zmachine: zlog.Zmachine,
Output: zlog.Output,
})
}
var mounts []Mount
for _, mount := range vm.Mounts {
mounts = append(mounts, Mount{
DiskName: mount.DiskName,
MountPoint: mount.MountPoint,
})
}
vms = append(vms, VMInput{
Name: vm.Name,
Flist: vm.Flist,
NetworkName: vm.NetworkName,
FlistChecksum: vm.FlistChecksum,
PublicIP: vm.PublicIP,
PublicIP6: vm.PublicIP6,
Planetary: vm.Planetary,
Description: vm.Description,
GPUs: vm.GPUs,
CPU: vm.CPU,
Memory: vm.Memory,
RootfsSize: vm.RootfsSize,
Entrypoint: vm.Entrypoint,
Mounts: mounts,
Zlogs: zlogs,
EnvVars: vm.EnvVars,
})
}
var qsfss []QSFSInput
for _, qsfs := range deployment.QSFS {
var groups []Group
for _, group := range qsfs.Groups {
groups = append(groups, Group{
Backends: parseBackendsToState(group.Backends),
})
}
qsfss = append(qsfss, QSFSInput{
Name: qsfs.Name,
Description: qsfs.Description,
Cache: qsfs.Cache,
MinimalShards: int32(qsfs.MinimalShards),
ExpectedShards: int32(qsfs.ExpectedShards),
RedundantGroups: int32(qsfs.RedundantGroups),
RedundantNodes: int32(qsfs.RedundantNodes),
MaxZDBDataDirSize: int32(qsfs.MaxZDBDataDirSize),
EncryptionAlgorithm: qsfs.EncryptionAlgorithm,
EncryptionKey: qsfs.EncryptionKey,
CompressionAlgorithm: qsfs.CompressionAlgorithm,
Metadata: Metadata{
EncryptionKey: qsfs.Metadata.EncryptionKey,
Prefix: qsfs.Metadata.Prefix,
EncryptionAlgorithm: qsfs.Metadata.EncryptionAlgorithm,
Type: qsfs.Metadata.Type,
Backends: parseBackendsToState(qsfs.Metadata.Backends),
},
Groups: groups,
})
}
stateArgs := DeploymentArgs{
NodeID: deployment.NodeID,
Name: deployment.Name,
SolutionType: deployment.SolutionType,
SolutionProvider: solutionProvider,
NetworkName: deployment.NetworkName,
Disks: disks,
ZdbsInputs: zdbs,
VmsInputs: vms,
QSFSInputs: qsfss,
}
nodeDeploymentID := make(map[string]int64)
for nodeID, deploymentID := range deployment.NodeDeploymentID {
nodeDeploymentID[fmt.Sprint(nodeID)] = int64(deploymentID)
}
zdbsComputed := make([]ZDBComputed, 0)
for _, zdb := range deployment.Zdbs {
zdbsComputed = append(zdbsComputed, ZDBComputed{
IPs: zdb.IPs,
Port: int32(zdb.Port),
Namespace: zdb.Namespace,
})
}
vmsComputed := make([]VMComputed, 0)
for _, vm := range deployment.Vms {
vmsComputed = append(vmsComputed, VMComputed{
ComputedIP: vm.ComputedIP,
ComputedIP6: vm.ComputedIP6,
YggIP: vm.YggIP,
ConsoleURL: vm.ConsoleURL,
IP: vm.IP,
})
}
qsfsComputed := make([]QSFSComputed, 0)
for _, qsfs := range deployment.QSFS {
qsfsComputed = append(qsfsComputed, QSFSComputed{
MetricsEndpoint: qsfs.MetricsEndpoint,
})
}
state := DeploymentState{
DeploymentArgs: stateArgs,
NodeDeploymentID: nodeDeploymentID,
ContractID: int64(deployment.ContractID),
IPrange: deployment.IPrange,
ZdbsComputed: zdbsComputed,
VmsComputed: vmsComputed,
QsfsComputed: qsfsComputed,
}
return state
}
func updateDeploymentFromState(deployment *workloads.Deployment, state DeploymentState) error {
nodeDeploymentID := make(map[uint32]uint64)
for nodeID, deploymentID := range state.NodeDeploymentID {
node, err := strconv.ParseUint(nodeID, 10, 32)
if err != nil {
return err
}
nodeDeploymentID[uint32(node)] = uint64(deploymentID)
}
for i, zdb := range state.ZdbsComputed {
deployment.Zdbs[i].IPs = zdb.IPs
deployment.Zdbs[i].Port = uint32(zdb.Port)
deployment.Zdbs[i].Namespace = zdb.Namespace
}
for i, vm := range state.VmsComputed {
deployment.Vms[i].ComputedIP = vm.ComputedIP
deployment.Vms[i].ComputedIP6 = vm.ComputedIP6
deployment.Vms[i].YggIP = vm.YggIP
deployment.Vms[i].ConsoleURL = vm.ConsoleURL
deployment.Vms[i].IP = vm.IP
}
for i, qsfs := range state.QsfsComputed {
deployment.QSFS[i].MetricsEndpoint = qsfs.MetricsEndpoint
}
deployment.NodeDeploymentID = nodeDeploymentID
deployment.ContractID = uint64(state.ContractID)
deployment.IPrange = state.IPrange
return nil
}