package tests import ( "fmt" "github.com/stretchr/testify/require" "github.com/zrepl/zrepl/platformtest" "github.com/zrepl/zrepl/zfs" ) func SendArgsValidationEncryptedSendOfUnencryptedDatasetForbidden(ctx *platformtest.Context) { supported, err := zfs.EncryptionCLISupported(ctx) check(err) expectNotSupportedErr := !supported platformtest.Run(ctx, platformtest.PanicErr, ctx.RootDataset, ` DESTROYROOT CREATEROOT + "send er" + "send er@a snap" `) fs := fmt.Sprintf("%s/send er", ctx.RootDataset) props := mustGetFilesystemVersion(ctx, fs+"@a snap") sendArgs, err := zfs.ZFSSendArgsUnvalidated{ FS: fs, To: &zfs.ZFSSendArgVersion{ RelName: "@a snap", GUID: props.Guid, }, Encrypted: &zfs.NilBool{B: true}, ResumeToken: "", }.Validate(ctx) var stream *zfs.SendStream if err == nil { stream, err = zfs.ZFSSend(ctx, sendArgs) // no shadow if err == nil { defer stream.Close() } // fallthrough } if expectNotSupportedErr { require.Error(ctx, err) require.Equal(ctx, zfs.ErrEncryptedSendNotSupported, err) return } require.Error(ctx, err) ctx.Logf("send err: %T %s", err, err) validationErr, ok := err.(*zfs.ZFSSendArgsValidationError) require.True(ctx, ok) require.True(ctx, validationErr.What == zfs.ZFSSendArgsEncryptedSendRequestedButFSUnencrypted) } func SendArgsValidationResumeTokenEncryptionMismatchForbidden(ctx *platformtest.Context) { supported, err := zfs.EncryptionCLISupported(ctx) check(err) if !supported { ctx.SkipNow() } supported, err = zfs.ResumeSendSupported(ctx) check(err) if !supported { ctx.SkipNow() } platformtest.Run(ctx, platformtest.PanicErr, ctx.RootDataset, ` DESTROYROOT CREATEROOT + "send er" encrypted `) sendFS := fmt.Sprintf("%s/send er", ctx.RootDataset) unencRecvFS := fmt.Sprintf("%s/unenc recv", ctx.RootDataset) encRecvFS := fmt.Sprintf("%s/enc recv", ctx.RootDataset) src := makeDummyDataSnapshots(ctx, sendFS) unencS := makeResumeSituation(ctx, src, unencRecvFS, zfs.ZFSSendArgsUnvalidated{ FS: sendFS, To: src.snapA, Encrypted: &zfs.NilBool{B: false}, // ! }, zfs.RecvOptions{ RollbackAndForceRecv: false, SavePartialRecvState: true, }) encS := makeResumeSituation(ctx, src, encRecvFS, zfs.ZFSSendArgsUnvalidated{ FS: sendFS, To: src.snapA, Encrypted: &zfs.NilBool{B: true}, // ! }, zfs.RecvOptions{ RollbackAndForceRecv: false, SavePartialRecvState: true, }) // threat model: use of a crafted resume token that requests an unencrypted send // but send args require encrypted send { var maliciousSend zfs.ZFSSendArgsUnvalidated = encS.sendArgs maliciousSend.ResumeToken = unencS.recvErrDecoded.ResumeTokenRaw _, err := maliciousSend.Validate(ctx) validationErr, ok := err.(*zfs.ZFSSendArgsValidationError) require.True(ctx, ok) require.Equal(ctx, validationErr.What, zfs.ZFSSendArgsResumeTokenMismatch) ctx.Logf("%s", validationErr) mismatchError, ok := validationErr.Msg.(*zfs.ZFSSendArgsResumeTokenMismatchError) require.True(ctx, ok) require.Equal(ctx, mismatchError.What, zfs.ZFSSendArgsResumeTokenMismatchEncryptionNotSet) } // threat model: use of a crafted resume token that requests an encrypted send // but send args require unencrypted send { var maliciousSend zfs.ZFSSendArgsUnvalidated = unencS.sendArgs maliciousSend.ResumeToken = encS.recvErrDecoded.ResumeTokenRaw _, err := maliciousSend.Validate(ctx) require.Error(ctx, err) ctx.Logf("send err: %T %s", err, err) validationErr, ok := err.(*zfs.ZFSSendArgsValidationError) require.True(ctx, ok) require.Equal(ctx, validationErr.What, zfs.ZFSSendArgsResumeTokenMismatch) ctx.Logf("%s", validationErr) mismatchError, ok := validationErr.Msg.(*zfs.ZFSSendArgsResumeTokenMismatchError) require.True(ctx, ok) require.Equal(ctx, mismatchError.What, zfs.ZFSSendArgsResumeTokenMismatchEncryptionSet) } } func SendArgsValidationResumeTokenDifferentFilesystemForbidden(ctx *platformtest.Context) { supported, err := zfs.EncryptionCLISupported(ctx) check(err) if !supported { ctx.SkipNow() } supported, err = zfs.ResumeSendSupported(ctx) check(err) if !supported { ctx.SkipNow() } platformtest.Run(ctx, platformtest.PanicErr, ctx.RootDataset, ` DESTROYROOT CREATEROOT + "send er1" + "send er2" `) sendFS1 := fmt.Sprintf("%s/send er1", ctx.RootDataset) sendFS2 := fmt.Sprintf("%s/send er2", ctx.RootDataset) recvFS := fmt.Sprintf("%s/unenc recv", ctx.RootDataset) src1 := makeDummyDataSnapshots(ctx, sendFS1) src2 := makeDummyDataSnapshots(ctx, sendFS2) rs := makeResumeSituation(ctx, src1, recvFS, zfs.ZFSSendArgsUnvalidated{ FS: sendFS1, To: src1.snapA, Encrypted: &zfs.NilBool{B: false}, }, zfs.RecvOptions{ RollbackAndForceRecv: false, SavePartialRecvState: true, }) // threat model: forged resume token tries to steal a full send of snapA on fs2 by // presenting a resume token for full send of snapA on fs1 var maliciousSend zfs.ZFSSendArgsUnvalidated = zfs.ZFSSendArgsUnvalidated{ FS: sendFS2, To: &zfs.ZFSSendArgVersion{ RelName: src2.snapA.RelName, GUID: src2.snapA.GUID, }, Encrypted: &zfs.NilBool{B: false}, ResumeToken: rs.recvErrDecoded.ResumeTokenRaw, } _, err = maliciousSend.Validate(ctx) require.Error(ctx, err) ctx.Logf("send err: %T %s", err, err) validationErr, ok := err.(*zfs.ZFSSendArgsValidationError) require.True(ctx, ok) require.Equal(ctx, validationErr.What, zfs.ZFSSendArgsResumeTokenMismatch) ctx.Logf("%s", validationErr) mismatchError, ok := validationErr.Msg.(*zfs.ZFSSendArgsResumeTokenMismatchError) require.True(ctx, ok) require.Equal(ctx, mismatchError.What, zfs.ZFSSendArgsResumeTokenMismatchFilesystem) }