mirror of
https://github.com/containers/podman.git
synced 2025-12-01 02:27:13 +08:00
0dac214f56
with libhvee, we are able to do the basics of podman machine management on hyperv. The basic functions like init, rm, stop, and start are all functional. Start and stop will periodically throw a benign error processing the hyperv message being returned from the action. The error is described in the todo's below. notable items: * no podman commands will work (like ps, images, etc) * the machine must be initialized with --image-path and fed a custom image. * disk size is set to 100GB statically. * the vm joins the default hyperv network which is TCP/IP network based. * podman machine ssh does not work * podman machine set does not work * you can grab the ip address from hyperv and fake a machine connection with `podman system connection`. * when booting, use the hyperv console to know the boot is complete. TODOs: * podman machine ssh * podman machine set * podman machine rm needs force bool * disk size in NewMachine is set to 100GB * podman start needs to wait until fully booted * establish a boot complete signal from guest * implement gvproxy like user networking * fix benign failures in stop/start -> Error: error 2147749890 (FormatMessage failed with: The system cannot find message text for message number 0x%1 in the message file for %2.) [NO NEW TESTS NEEDED] Signed-off-by: Brent Baude <bbaude@redhat.com>
285 lines
7.9 KiB
Go
285 lines
7.9 KiB
Go
package ole
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var (
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// IID_NULL is null Interface ID, used when no other Interface ID is known.
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IID_NULL = NewGUID("{00000000-0000-0000-0000-000000000000}")
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// IID_IUnknown is for IUnknown interfaces.
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IID_IUnknown = NewGUID("{00000000-0000-0000-C000-000000000046}")
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// IID_IDispatch is for IDispatch interfaces.
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IID_IDispatch = NewGUID("{00020400-0000-0000-C000-000000000046}")
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// IID_IEnumVariant is for IEnumVariant interfaces
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IID_IEnumVariant = NewGUID("{00020404-0000-0000-C000-000000000046}")
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// IID_IConnectionPointContainer is for IConnectionPointContainer interfaces.
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IID_IConnectionPointContainer = NewGUID("{B196B284-BAB4-101A-B69C-00AA00341D07}")
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// IID_IConnectionPoint is for IConnectionPoint interfaces.
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IID_IConnectionPoint = NewGUID("{B196B286-BAB4-101A-B69C-00AA00341D07}")
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// IID_IInspectable is for IInspectable interfaces.
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IID_IInspectable = NewGUID("{AF86E2E0-B12D-4C6A-9C5A-D7AA65101E90}")
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// IID_IProvideClassInfo is for IProvideClassInfo interfaces.
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IID_IProvideClassInfo = NewGUID("{B196B283-BAB4-101A-B69C-00AA00341D07}")
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)
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// These are for testing and not part of any library.
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var (
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// IID_ICOMTestString is for ICOMTestString interfaces.
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//
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// {E0133EB4-C36F-469A-9D3D-C66B84BE19ED}
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IID_ICOMTestString = NewGUID("{E0133EB4-C36F-469A-9D3D-C66B84BE19ED}")
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// IID_ICOMTestInt8 is for ICOMTestInt8 interfaces.
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//
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// {BEB06610-EB84-4155-AF58-E2BFF53680B4}
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IID_ICOMTestInt8 = NewGUID("{BEB06610-EB84-4155-AF58-E2BFF53680B4}")
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// IID_ICOMTestInt16 is for ICOMTestInt16 interfaces.
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//
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// {DAA3F9FA-761E-4976-A860-8364CE55F6FC}
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IID_ICOMTestInt16 = NewGUID("{DAA3F9FA-761E-4976-A860-8364CE55F6FC}")
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// IID_ICOMTestInt32 is for ICOMTestInt32 interfaces.
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//
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// {E3DEDEE7-38A2-4540-91D1-2EEF1D8891B0}
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IID_ICOMTestInt32 = NewGUID("{E3DEDEE7-38A2-4540-91D1-2EEF1D8891B0}")
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// IID_ICOMTestInt64 is for ICOMTestInt64 interfaces.
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//
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// {8D437CBC-B3ED-485C-BC32-C336432A1623}
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IID_ICOMTestInt64 = NewGUID("{8D437CBC-B3ED-485C-BC32-C336432A1623}")
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// IID_ICOMTestFloat is for ICOMTestFloat interfaces.
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//
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// {BF1ED004-EA02-456A-AA55-2AC8AC6B054C}
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IID_ICOMTestFloat = NewGUID("{BF1ED004-EA02-456A-AA55-2AC8AC6B054C}")
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// IID_ICOMTestDouble is for ICOMTestDouble interfaces.
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//
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// {BF908A81-8687-4E93-999F-D86FAB284BA0}
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IID_ICOMTestDouble = NewGUID("{BF908A81-8687-4E93-999F-D86FAB284BA0}")
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// IID_ICOMTestBoolean is for ICOMTestBoolean interfaces.
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//
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// {D530E7A6-4EE8-40D1-8931-3D63B8605010}
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IID_ICOMTestBoolean = NewGUID("{D530E7A6-4EE8-40D1-8931-3D63B8605010}")
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// IID_ICOMEchoTestObject is for ICOMEchoTestObject interfaces.
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//
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// {6485B1EF-D780-4834-A4FE-1EBB51746CA3}
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IID_ICOMEchoTestObject = NewGUID("{6485B1EF-D780-4834-A4FE-1EBB51746CA3}")
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// IID_ICOMTestTypes is for ICOMTestTypes interfaces.
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//
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// {CCA8D7AE-91C0-4277-A8B3-FF4EDF28D3C0}
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IID_ICOMTestTypes = NewGUID("{CCA8D7AE-91C0-4277-A8B3-FF4EDF28D3C0}")
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// CLSID_COMEchoTestObject is for COMEchoTestObject class.
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//
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// {3C24506A-AE9E-4D50-9157-EF317281F1B0}
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CLSID_COMEchoTestObject = NewGUID("{3C24506A-AE9E-4D50-9157-EF317281F1B0}")
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// CLSID_COMTestScalarClass is for COMTestScalarClass class.
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//
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// {865B85C5-0334-4AC6-9EF6-AACEC8FC5E86}
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CLSID_COMTestScalarClass = NewGUID("{865B85C5-0334-4AC6-9EF6-AACEC8FC5E86}")
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)
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const hextable = "0123456789ABCDEF"
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const emptyGUID = "{00000000-0000-0000-0000-000000000000}"
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// GUID is Windows API specific GUID type.
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//
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// This exists to match Windows GUID type for direct passing for COM.
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// Format is in xxxxxxxx-xxxx-xxxx-xxxxxxxxxxxxxxxx.
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type GUID struct {
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Data1 uint32
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Data2 uint16
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Data3 uint16
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Data4 [8]byte
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}
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// NewGUID converts the given string into a globally unique identifier that is
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// compliant with the Windows API.
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//
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// The supplied string may be in any of these formats:
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//
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// XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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// XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX
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// {XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX}
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//
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// The conversion of the supplied string is not case-sensitive.
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func NewGUID(guid string) *GUID {
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d := []byte(guid)
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var d1, d2, d3, d4a, d4b []byte
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switch len(d) {
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case 38:
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if d[0] != '{' || d[37] != '}' {
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return nil
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}
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d = d[1:37]
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fallthrough
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case 36:
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if d[8] != '-' || d[13] != '-' || d[18] != '-' || d[23] != '-' {
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return nil
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}
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d1 = d[0:8]
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d2 = d[9:13]
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d3 = d[14:18]
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d4a = d[19:23]
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d4b = d[24:36]
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case 32:
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d1 = d[0:8]
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d2 = d[8:12]
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d3 = d[12:16]
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d4a = d[16:20]
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d4b = d[20:32]
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default:
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return nil
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}
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var g GUID
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var ok1, ok2, ok3, ok4 bool
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g.Data1, ok1 = decodeHexUint32(d1)
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g.Data2, ok2 = decodeHexUint16(d2)
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g.Data3, ok3 = decodeHexUint16(d3)
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g.Data4, ok4 = decodeHexByte64(d4a, d4b)
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if ok1 && ok2 && ok3 && ok4 {
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return &g
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}
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return nil
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}
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func decodeHexUint32(src []byte) (value uint32, ok bool) {
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var b1, b2, b3, b4 byte
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var ok1, ok2, ok3, ok4 bool
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b1, ok1 = decodeHexByte(src[0], src[1])
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b2, ok2 = decodeHexByte(src[2], src[3])
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b3, ok3 = decodeHexByte(src[4], src[5])
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b4, ok4 = decodeHexByte(src[6], src[7])
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value = (uint32(b1) << 24) | (uint32(b2) << 16) | (uint32(b3) << 8) | uint32(b4)
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ok = ok1 && ok2 && ok3 && ok4
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return
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}
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func decodeHexUint16(src []byte) (value uint16, ok bool) {
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var b1, b2 byte
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var ok1, ok2 bool
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b1, ok1 = decodeHexByte(src[0], src[1])
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b2, ok2 = decodeHexByte(src[2], src[3])
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value = (uint16(b1) << 8) | uint16(b2)
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ok = ok1 && ok2
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return
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}
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func decodeHexByte64(s1 []byte, s2 []byte) (value [8]byte, ok bool) {
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var ok1, ok2, ok3, ok4, ok5, ok6, ok7, ok8 bool
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value[0], ok1 = decodeHexByte(s1[0], s1[1])
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value[1], ok2 = decodeHexByte(s1[2], s1[3])
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value[2], ok3 = decodeHexByte(s2[0], s2[1])
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value[3], ok4 = decodeHexByte(s2[2], s2[3])
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value[4], ok5 = decodeHexByte(s2[4], s2[5])
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value[5], ok6 = decodeHexByte(s2[6], s2[7])
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value[6], ok7 = decodeHexByte(s2[8], s2[9])
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value[7], ok8 = decodeHexByte(s2[10], s2[11])
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ok = ok1 && ok2 && ok3 && ok4 && ok5 && ok6 && ok7 && ok8
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return
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}
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func decodeHexByte(c1, c2 byte) (value byte, ok bool) {
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var n1, n2 byte
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var ok1, ok2 bool
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n1, ok1 = decodeHexChar(c1)
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n2, ok2 = decodeHexChar(c2)
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value = (n1 << 4) | n2
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ok = ok1 && ok2
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return
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}
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func decodeHexChar(c byte) (byte, bool) {
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switch {
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case '0' <= c && c <= '9':
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return c - '0', true
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case 'a' <= c && c <= 'f':
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return c - 'a' + 10, true
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case 'A' <= c && c <= 'F':
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return c - 'A' + 10, true
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}
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return 0, false
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}
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// String converts the GUID to string form. It will adhere to this pattern:
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//
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// {XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX}
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//
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// If the GUID is nil, the string representation of an empty GUID is returned:
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//
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// {00000000-0000-0000-0000-000000000000}
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func (guid *GUID) String() string {
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if guid == nil {
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return emptyGUID
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}
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var c [38]byte
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c[0] = '{'
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putUint32Hex(c[1:9], guid.Data1)
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c[9] = '-'
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putUint16Hex(c[10:14], guid.Data2)
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c[14] = '-'
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putUint16Hex(c[15:19], guid.Data3)
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c[19] = '-'
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putByteHex(c[20:24], guid.Data4[0:2])
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c[24] = '-'
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putByteHex(c[25:37], guid.Data4[2:8])
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c[37] = '}'
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return string(c[:])
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}
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func putUint32Hex(b []byte, v uint32) {
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b[0] = hextable[byte(v>>24)>>4]
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b[1] = hextable[byte(v>>24)&0x0f]
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b[2] = hextable[byte(v>>16)>>4]
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b[3] = hextable[byte(v>>16)&0x0f]
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b[4] = hextable[byte(v>>8)>>4]
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b[5] = hextable[byte(v>>8)&0x0f]
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b[6] = hextable[byte(v)>>4]
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b[7] = hextable[byte(v)&0x0f]
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}
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func putUint16Hex(b []byte, v uint16) {
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b[0] = hextable[byte(v>>8)>>4]
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b[1] = hextable[byte(v>>8)&0x0f]
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b[2] = hextable[byte(v)>>4]
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b[3] = hextable[byte(v)&0x0f]
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}
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func putByteHex(dst, src []byte) {
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for i := 0; i < len(src); i++ {
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dst[i*2] = hextable[src[i]>>4]
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dst[i*2+1] = hextable[src[i]&0x0f]
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}
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}
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// IsEqualGUID compares two GUID.
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//
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// Not constant time comparison.
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func IsEqualGUID(guid1 *GUID, guid2 *GUID) bool {
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return guid1.Data1 == guid2.Data1 &&
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guid1.Data2 == guid2.Data2 &&
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guid1.Data3 == guid2.Data3 &&
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guid1.Data4[0] == guid2.Data4[0] &&
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guid1.Data4[1] == guid2.Data4[1] &&
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guid1.Data4[2] == guid2.Data4[2] &&
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guid1.Data4[3] == guid2.Data4[3] &&
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guid1.Data4[4] == guid2.Data4[4] &&
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guid1.Data4[5] == guid2.Data4[5] &&
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guid1.Data4[6] == guid2.Data4[6] &&
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guid1.Data4[7] == guid2.Data4[7]
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}
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