Documentation
¶
Index ¶
- func EngineNames() []string
- func IsValidEngine(e Engine) bool
- func IsValidPublisher(publisherType Publisher) bool
- func IsValidStorageSourceType(sourceType StorageSourceType) bool
- func PublisherNames() []string
- func StorageSourceNames() []string
- type Deal
- type Engine
- type EngineSpec
- type ExecutionDesiredState
- type ExecutionID
- type ExecutionState
- type ExecutionStateType
- func (s ExecutionStateType) IsActive() bool
- func (s ExecutionStateType) IsDiscarded() bool
- func (s ExecutionStateType) IsPending() bool
- func (s ExecutionStateType) IsTerminal() bool
- func (s ExecutionStateType) IsUndefined() bool
- func (s ExecutionStateType) MarshalText() ([]byte, error)
- func (i ExecutionStateType) String() string
- func (s *ExecutionStateType) UnmarshalText(text []byte) (err error)
- type Job
- type JobRequester
- type JobSpecDocker
- type JobSpecWasm
- type JobState
- type JobStateType
- type JobWithInfo
- type LabelSelectorRequirement
- type Metadata
- type Network
- type NetworkConfig
- type PublicKey
- type Publisher
- type PublisherSpec
- type ResourceUsageConfig
- type RunCommandResult
- type S3StorageSpec
- type Spec
- type StorageSourceType
- type StorageSpec
- type TargetingMode
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func EngineNames ¶
func EngineNames() []string
func IsValidEngine ¶
func IsValidPublisher ¶
func IsValidStorageSourceType ¶
func IsValidStorageSourceType(sourceType StorageSourceType) bool
func PublisherNames ¶
func PublisherNames() []string
func StorageSourceNames ¶
func StorageSourceNames() []string
Types ¶
type Deal ¶
type Deal struct {
// Whether the job should be run on any matching node (false) or all
// matching nodes (true). If true, other fields in this struct are ignored.
TargetingMode TargetingMode `json:"TargetingMode,omitempty"`
// The maximum number of concurrent compute node bids that will be
// accepted by the requester node on behalf of the client.
Concurrency int `json:"Concurrency,omitempty"`
}
type Engine ¶
type Engine int
const ( EngineNoop Engine EngineDocker EngineWasm )
func EngineTypes ¶
func EngineTypes() []Engine
func ParseEngine ¶
ParseEngine will either return a valid engine type or `engineUnknown`
func (Engine) MarshalText ¶
func (*Engine) UnmarshalText ¶
type EngineSpec ¶
type ExecutionDesiredState ¶
type ExecutionDesiredState int
const ( ExecutionDesiredStatePending ExecutionDesiredState = iota ExecutionDesiredStateRunning ExecutionDesiredStateStopped )
type ExecutionID ¶
type ExecutionID struct {
JobID string `json:"JobID,omitempty"`
NodeID string `json:"NodeID,omitempty"`
ExecutionID string `json:"ExecutionID,omitempty"`
}
ExecutionID a globally unique identifier for an execution
func (ExecutionID) String ¶
func (e ExecutionID) String() string
String returns a string representation of the execution id
type ExecutionState ¶
type ExecutionState struct {
// JobID the job id
JobID string `json:"JobID"`
// which node is running this execution
NodeID string `json:"NodeId"`
// Compute node reference for this job execution
ComputeReference string `json:"ComputeReference"`
// State is the current state of the execution
State ExecutionStateType `json:"State"`
// an arbitrary status message
Status string `json:"Status,omitempty"`
// DesiredState is the desired state of the execution
DesiredState ExecutionDesiredState `json:"DesiredState,omitempty"`
// the published results for this execution
PublishedResult StorageSpec `json:"PublishedResults,omitempty"`
// RunOutput of the job
RunOutput *RunCommandResult `json:"RunOutput,omitempty"`
// Version is the version of the job state. It is incremented every time the job state is updated.
Version int `json:"Version"`
// CreateTime is the time when the job was created.
CreateTime time.Time `json:"CreateTime"`
// UpdateTime is the time when the job state was last updated.
UpdateTime time.Time `json:"UpdateTime"`
}
func (ExecutionState) ID ¶
func (e ExecutionState) ID() ExecutionID
ID returns the ID for this execution
func (ExecutionState) String ¶
func (e ExecutionState) String() string
String returns a string representation of the execution
type ExecutionStateType ¶
type ExecutionStateType int
ExecutionStateType The state of an execution. An execution represents a single attempt to execute a job on a node. A compute node can have multiple executions for the same job due to retries, but there can only be a single active execution per node at any given time.
const ( ExecutionStateUndefined ExecutionStateType = iota // ExecutionStateNew The execution has been created, but not pushed to a compute node yet. ExecutionStateNew ExecutionStateType = iota // ExecutionStateAskForBid A node has been selected to execute a job, and is being asked to bid on the job. ExecutionStateAskForBid // ExecutionStateAskForBidAccepted compute node has rejected the ask for bid. ExecutionStateAskForBidAccepted // ExecutionStateAskForBidRejected compute node has rejected the ask for bid. ExecutionStateAskForBidRejected // ExecutionStateBidAccepted requester has accepted the bid, and the execution is expected to be running on the compute node. ExecutionStateBidAccepted // aka running // ExecutionStateBidRejected requester has rejected the bid. ExecutionStateBidRejected // ExecutionStateCompleted The execution has been completed, and the result has been published. ExecutionStateCompleted // ExecutionStateFailed The execution has failed. ExecutionStateFailed // ExecutionStateCancelled The execution has been canceled by the user ExecutionStateCancelled )
func ExecutionStateTypes ¶
func ExecutionStateTypes() []ExecutionStateType
func (ExecutionStateType) IsActive ¶
func (s ExecutionStateType) IsActive() bool
IsActive returns true if the execution is running or has completed
func (ExecutionStateType) IsDiscarded ¶
func (s ExecutionStateType) IsDiscarded() bool
IsDiscarded returns true if the execution has been discarded due to a failure, rejection or cancellation
func (ExecutionStateType) IsPending ¶
func (s ExecutionStateType) IsPending() bool
IsPending returns true if the execution is still pending approval and did not yet start running or has been discarded
func (ExecutionStateType) IsTerminal ¶
func (s ExecutionStateType) IsTerminal() bool
IsTerminal returns true if the execution is in a terminal state where no further state changes are possible
func (ExecutionStateType) IsUndefined ¶
func (s ExecutionStateType) IsUndefined() bool
IsUndefined returns true if the execution state is undefined
func (ExecutionStateType) MarshalText ¶
func (s ExecutionStateType) MarshalText() ([]byte, error)
func (ExecutionStateType) String ¶
func (i ExecutionStateType) String() string
func (*ExecutionStateType) UnmarshalText ¶
func (s *ExecutionStateType) UnmarshalText(text []byte) (err error)
type Job ¶
type Job struct {
APIVersion string `json:"APIVersion" example:"V1beta1"`
// TODO this doesn't seem like it should be a part of the job as it cannot be known by a client ahead of time.
Metadata Metadata `json:"Metadata,omitempty"`
// The specification of this job.
Spec Spec `json:"Spec,omitempty"`
}
type JobRequester ¶
type JobRequester struct {
// The ID of the requester node that owns this job.
RequesterNodeID string `json:"RequesterNodeID,omitempty" example:"QmXaXu9N5GNetatsvwnTfQqNtSeKAD6uCmarbh3LMRYAcF"`
// The public key of the Requester node that created this job
// This can be used to encrypt messages back to the creator
RequesterPublicKey PublicKey `json:"RequesterPublicKey,omitempty"`
}
type JobSpecDocker ¶
type JobSpecDocker struct {
// this should be pullable by docker
Image string `json:"Image,omitempty"`
// optionally override the default entrypoint
Entrypoint []string `json:"Entrypoint,omitempty"`
// Parameters holds additional commandline arguments
Parameters []string `json:"Parameters,omitempty"`
// a map of env to run the container with
EnvironmentVariables []string `json:"EnvironmentVariables,omitempty"`
// working directory inside the container
WorkingDirectory string `json:"WorkingDirectory,omitempty"`
}
for VM style executors
type JobSpecWasm ¶
type JobSpecWasm struct {
// The module that contains the WASM code to start running.
EntryModule StorageSpec `json:"EntryModule,omitempty"`
// The name of the function in the EntryModule to call to run the job. For
// WASI jobs, this will always be `_start`, but jobs can choose to call
// other WASM functions instead. The EntryPoint must be a zero-parameter
// zero-result function.
EntryPoint string `json:"EntryPoint,omitempty"`
// The arguments supplied to the program (i.e. as ARGV).
Parameters []string `json:"Parameters,omitempty"`
// The variables available in the environment of the running program.
EnvironmentVariables map[string]string `json:"EnvironmentVariables,omitempty"`
// TODO #880: Other WASM modules whose exports will be available as imports
// to the EntryModule.
ImportModules []StorageSpec `json:"ImportModules,omitempty"`
}
Describes a raw WASM job
type JobState ¶
type JobState struct {
// JobID is the unique identifier for the job
JobID string `json:"JobID"`
// Executions is a list of executions of the job across the nodes.
// A new execution is created when a node is selected to execute the job, and a node can have multiple executions for the same
// job due to retries, but there can only be a single active execution per node at any given time.
Executions []ExecutionState `json:"Executions"`
// State is the current state of the job
State JobStateType `json:"State"`
// Version is the version of the job state. It is incremented every time the job state is updated.
Version int `json:"Version"`
// CreateTime is the time when the job was created.
CreateTime time.Time `json:"CreateTime"`
// UpdateTime is the time when the job state was last updated.
UpdateTime time.Time `json:"UpdateTime"`
// TimeoutAt is the time when the job will be timed out if it is not completed.
TimeoutAt time.Time `json:"TimeoutAt,omitempty"`
}
JobState The state of a job across the whole network that represents an aggregate view across the executions and nodes.
func (*JobState) GroupExecutionsByState ¶
func (s *JobState) GroupExecutionsByState() map[ExecutionStateType][]ExecutionState
GroupExecutionsByState groups the executions by state
func (*JobState) NonTerminalExecutions ¶
func (s *JobState) NonTerminalExecutions() []*ExecutionState
NonTerminalExecutions returns the executions that are not in a terminal state.
type JobStateType ¶
type JobStateType int
JobStateType The state of a job across the whole network that represents an aggregate view across the executions and nodes.
const ( JobStateUndefined JobStateType = iota JobStateNew JobStateInProgress // Job is canceled by the user. JobStateCancelled // Job have failed JobStateError // Job completed successfully JobStateCompleted // Job is waiting to be scheduled. JobStateQueued )
these are the states a job can be in against a single node
func JobStateTypes ¶
func JobStateTypes() []JobStateType
func (JobStateType) IsTerminal ¶
func (s JobStateType) IsTerminal() bool
IsTerminal returns true if the given job type signals the end of the lifecycle of that job and that no change in the state can be expected.
func (JobStateType) IsUndefined ¶
func (s JobStateType) IsUndefined() bool
IsUndefined returns true if the job state is undefined
func (JobStateType) MarshalText ¶
func (s JobStateType) MarshalText() ([]byte, error)
func (JobStateType) String ¶
func (i JobStateType) String() string
func (*JobStateType) UnmarshalText ¶
func (s *JobStateType) UnmarshalText(text []byte) (err error)
type JobWithInfo ¶
type JobWithInfo struct {
// Job info
Job Job `json:"Job"`
// The current state of the job
State JobState `json:"State"`
}
JobWithInfo is the job request + the result of attempting to run it on the network
type LabelSelectorRequirement ¶
type LabelSelectorRequirement struct {
// key is the label key that the selector applies to.
Key string `json:"Key"`
// operator represents a key's relationship to a set of values.
// Valid operators are In, NotIn, Exists and DoesNotExist.
Operator selection.Operator `json:"Operator"`
// values is an array of string values. If the operator is In or NotIn,
// the values array must be non-empty. If the operator is Exists or DoesNotExist,
// the values array must be empty. This array is replaced during a strategic
Values []string `json:"Values,omitempty"`
}
type Metadata ¶
type Metadata struct {
// The unique global ID of this job in the bacalhau network.
ID string `json:"ID,omitempty" example:"92d5d4ee-3765-4f78-8353-623f5f26df08"`
// Time the job was submitted to the bacalhau network.
CreatedAt time.Time `json:"CreatedAt,omitempty" example:"2022-11-17T13:29:01.871140291Z"`
// The ID of the client that created this job.
ClientID string `json:"ClientID,omitempty" example:"ac13188e93c97a9c2e7cf8e86c7313156a73436036f30da1ececc2ce79f9ea51"`
Requester JobRequester `json:"Requester,omitempty"`
}
type Network ¶
type Network int
const ( // NetworkNone specifies that the job does not require networking. NetworkNone Network = iota // NetworkFull specifies that the job requires unfiltered raw IP networking. NetworkFull // NetworkHTTP specifies that the job requires HTTP networking to certain domains. // // The model is: the job specifier submits a job with the domain(s) it will // need to communicate with, the compute provider uses this to make some // decision about the risk of the job and bids accordingly, and then at run // time the traffic is limited to only the domain(s) specified. // // As a command, something like: // // bacalhau docker run —network=http —domain=crates.io —domain=github.com -i ipfs://Qmy1234myd4t4,dst=/code rust/compile // // The “risk” for the compute provider is that the job does something that // violates its terms, the terms of its hosting provider or ISP, or even the // law in its jurisdiction (e.g. accessing and spreading illegal content, // performing cyberattacks). So the same sort of risk as operating a Tor // exit node. // // The risk for the job specifier is that we are operating in an environment // they are paying for, so there is an incentive to hijack that environment // (e.g. via a compromised package download that runs a crypto miner on // install, and uses up all the paid-for job time). Having the traffic // enforced to only domains specified makes those sorts of attacks much // trickier and less valuable. // // The compute provider might well enforce its limits by other means, but // having the domains specified up front allows it to skip bidding on jobs // it knows will fail in its executor. So this is hopefully a better UX for // job specifiers who can have their job picked up only by someone who will // run it successfully. NetworkHTTP )
func ParseNetwork ¶
func (Network) MarshalText ¶
func (*Network) UnmarshalText ¶
type NetworkConfig ¶
type PublicKey ¶
type PublicKey []byte
func (PublicKey) MarshalText ¶
func (*PublicKey) UnmarshalText ¶
type Publisher ¶
type Publisher int
const ( PublisherNoop Publisher PublisherIpfs PublisherEstuary PublisherS3 )
func ParsePublisher ¶
func PublisherTypes ¶
func PublisherTypes() []Publisher
func (Publisher) MarshalText ¶
func (*Publisher) UnmarshalText ¶
type PublisherSpec ¶
type ResourceUsageConfig ¶
type ResourceUsageConfig struct {
// https://github.com/BTBurke/k8sresource string
CPU string `json:"CPU,omitempty"`
// github.com/c2h5oh/datasize string
Memory string `json:"Memory,omitempty"`
Disk string `json:"Disk,omitempty"`
GPU string `json:"GPU"` // unsigned integer string
}
type RunCommandResult ¶
type RunCommandResult struct {
// stdout of the run. Yaml provided for `describe` output
STDOUT string `json:"stdout"`
// bool describing if stdout was truncated
StdoutTruncated bool `json:"stdouttruncated"`
// stderr of the run.
STDERR string `json:"stderr"`
// bool describing if stderr was truncated
StderrTruncated bool `json:"stderrtruncated"`
// exit code of the run.
ExitCode int `json:"exitCode"`
// Runner error
ErrorMsg string `json:"runnerError"`
}
type S3StorageSpec ¶
type Spec ¶
type Spec struct {
// Deprecated: use EngineSpec.
Engine Engine `json:"Engine,omitempty"`
EngineSpec EngineSpec `json:"EngineSpec,omitempty"`
// Deprecated: use PublisherSpec instead
Publisher Publisher `json:"Publisher,omitempty"`
PublisherSpec PublisherSpec `json:"PublisherSpec,omitempty"`
// Deprecated: use EngineSpec.
Docker JobSpecDocker `json:"Docker,omitempty"`
// Deprecated: use EngineSpec.
Wasm JobSpecWasm `json:"Wasm,omitempty"`
// the compute (cpu, ram) resources this job requires
Resources ResourceUsageConfig `json:"Resources,omitempty"`
// The type of networking access that the job needs
Network NetworkConfig `json:"Network,omitempty"`
// How long a job can run in seconds before it is killed.
// This includes the time required to run, verify and publish results
Timeout int64 `json:"Timeout,omitempty"`
// the data volumes we will read in the job
// for example "read this ipfs cid"
Inputs []StorageSpec `json:"Inputs,omitempty"`
// the data volumes we will write in the job
// for example "write the results to ipfs"
Outputs []StorageSpec `json:"Outputs,omitempty"`
// Annotations on the job - could be user or machine assigned
Annotations []string `json:"Annotations,omitempty"`
// NodeSelectors is a selector which must be true for the compute node to run this job.
NodeSelectors []LabelSelectorRequirement `json:"NodeSelectors,omitempty"`
// Do not track specified by the client
DoNotTrack bool `json:"DoNotTrack,omitempty"`
// The deal the client has made, such as which job bids they have accepted.
Deal Deal `json:"Deal,omitempty"`
}
Spec is a complete specification of a job that can be run on some execution provider.
type StorageSourceType ¶
type StorageSourceType int
StorageSourceType is somewhere we can get data from e.g. ipfs / S3 are storage sources there can be multiple drivers for the same source e.g. ipfs fuse vs ipfs api copy
const ( StorageSourceIPFS StorageSourceType StorageSourceRepoClone StorageSourceRepoCloneLFS StorageSourceURLDownload StorageSourceEstuary StorageSourceInline StorageSourceLocalDirectory StorageSourceS3 )
func ParseStorageSourceType ¶
func ParseStorageSourceType(str string) (StorageSourceType, error)
func StorageSourceTypes ¶
func StorageSourceTypes() []StorageSourceType
func (StorageSourceType) MarshalText ¶
func (ss StorageSourceType) MarshalText() ([]byte, error)
func (StorageSourceType) String ¶
func (i StorageSourceType) String() string
func (*StorageSourceType) UnmarshalText ¶
func (ss *StorageSourceType) UnmarshalText(text []byte) (err error)
type StorageSpec ¶
type StorageSpec struct {
// StorageSource is the abstract source of the data. E.g. a storage source
// might be a URL download, but doesn't specify how the execution engine
// does the download or what it will do with the downloaded data.
StorageSource StorageSourceType `json:"StorageSource,omitempty"`
// Name of the spec's data, for reference.
Name string `json:"Name,omitempty" example:"job-9304c616-291f-41ad-b862-54e133c0149e-host-QmdZQ7ZbhnvWY1J12XYKGHApJ6aufKyLNSvf8jZBrBaAVL"` //nolint:lll
// The unique ID of the data, where it makes sense (for example, in an
// IPFS storage spec this will be the data's CID).
// NOTE: The below is capitalized to match IPFS & IPLD (even though it's out of golang fmt)
CID string `json:"CID,omitempty" example:"QmTVmC7JBD2ES2qGPqBNVWnX1KeEPNrPGb7rJ8cpFgtefe"`
// Source URL of the data
URL string `json:"URL,omitempty"`
S3 *S3StorageSpec `json:"S3,omitempty"`
// URL of the git Repo to clone
Repo string `json:"Repo,omitempty"`
// The path of the host data if we are using local directory paths
SourcePath string `json:"SourcePath,omitempty"`
// Allow write access for locally mounted inputs
ReadWrite bool `json:"ReadWrite,omitempty"`
// The path that the spec's data should be mounted on, where it makes
// sense (for example, in a Docker storage spec this will be a filesystem
// path).
Path string `json:"Path,omitempty"`
// Additional properties specific to each driver
Metadata map[string]string `json:"Metadata,omitempty"`
}
StorageSpec represents some data on a storage engine. Storage engines are specific to particular execution engines, as different execution engines will mount data in different ways.
type TargetingMode ¶
type TargetingMode bool
const ( TargetAny TargetingMode = false TargetAll TargetingMode = true )
func ParseTargetingMode ¶
func ParseTargetingMode(s string) (TargetingMode, error)
func (TargetingMode) String ¶
func (t TargetingMode) String() string
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