manifest { name = 'check_disk_space' mainScript = 'main.nf' nextflowVersion = '!>=20.12.1-edge' version = 'main' description = 'Check for available disk space on the system.\n\nThis component is only useful when working with persistent storage environments\nwhere all workflow steps execute on the same instance or share the same\nstorage volume. That is, running thus component on e.g. AWS Batch or\nother cloud-based systems will not work as expected, since each step\ncan run on a different instance and resources will not be shared.\n\nFor distributed environments, consider integrating resource checks directly\ninto the components that will actually consume the storage, rather than\nusing this standalone check.\n' } process.container = 'nextflow/bash:latest' // detect tempdir tempDir = java.nio.file.Paths.get( System.getenv('NXF_TEMP') ?: System.getenv('VIASH_TEMP') ?: System.getenv('TEMPDIR') ?: System.getenv('TMPDIR') ?: '/tmp' ).toAbsolutePath() profiles { no_publish { process { withName: '.*' { publishDir = [ enabled: false ] } } } mount_temp { docker.temp = tempDir podman.temp = tempDir charliecloud.temp = tempDir } docker { docker.enabled = true // docker.userEmulation = true singularity.enabled = false podman.enabled = false shifter.enabled = false charliecloud.enabled = false } singularity { singularity.enabled = true singularity.autoMounts = true docker.enabled = false podman.enabled = false shifter.enabled = false charliecloud.enabled = false } podman { podman.enabled = true docker.enabled = false singularity.enabled = false shifter.enabled = false charliecloud.enabled = false } shifter { shifter.enabled = true docker.enabled = false singularity.enabled = false podman.enabled = false charliecloud.enabled = false } charliecloud { charliecloud.enabled = true docker.enabled = false singularity.enabled = false podman.enabled = false shifter.enabled = false } } process{ withLabel: mem1gb { memory = 1000000000.B } withLabel: mem2gb { memory = 2000000000.B } withLabel: mem5gb { memory = 5000000000.B } withLabel: mem10gb { memory = 10000000000.B } withLabel: mem20gb { memory = 20000000000.B } withLabel: mem50gb { memory = 50000000000.B } withLabel: mem100gb { memory = 100000000000.B } withLabel: mem200gb { memory = 200000000000.B } withLabel: mem500gb { memory = 500000000000.B } withLabel: mem1tb { memory = 1000000000000.B } withLabel: mem2tb { memory = 2000000000000.B } withLabel: mem5tb { memory = 5000000000000.B } withLabel: mem10tb { memory = 10000000000000.B } withLabel: mem20tb { memory = 20000000000000.B } withLabel: mem50tb { memory = 50000000000000.B } withLabel: mem100tb { memory = 100000000000000.B } withLabel: mem200tb { memory = 200000000000000.B } withLabel: mem500tb { memory = 500000000000000.B } withLabel: mem1gib { memory = 1073741824.B } withLabel: mem2gib { memory = 2147483648.B } withLabel: mem4gib { memory = 4294967296.B } withLabel: mem8gib { memory = 8589934592.B } withLabel: mem16gib { memory = 17179869184.B } withLabel: mem32gib { memory = 34359738368.B } withLabel: mem64gib { memory = 68719476736.B } withLabel: mem128gib { memory = 137438953472.B } withLabel: mem256gib { memory = 274877906944.B } withLabel: mem512gib { memory = 549755813888.B } withLabel: mem1tib { memory = 1099511627776.B } withLabel: mem2tib { memory = 2199023255552.B } withLabel: mem4tib { memory = 4398046511104.B } withLabel: mem8tib { memory = 8796093022208.B } withLabel: mem16tib { memory = 17592186044416.B } withLabel: mem32tib { memory = 35184372088832.B } withLabel: mem64tib { memory = 70368744177664.B } withLabel: mem128tib { memory = 140737488355328.B } withLabel: mem256tib { memory = 281474976710656.B } withLabel: mem512tib { memory = 562949953421312.B } withLabel: cpu1 { cpus = 1 } withLabel: cpu2 { cpus = 2 } withLabel: cpu5 { cpus = 5 } withLabel: cpu10 { cpus = 10 } withLabel: cpu20 { cpus = 20 } withLabel: cpu50 { cpus = 50 } withLabel: cpu100 { cpus = 100 } withLabel: cpu200 { cpus = 200 } withLabel: cpu500 { cpus = 500 } withLabel: cpu1000 { cpus = 1000 } }