SpaceWire
TEMU provides support for SpaceWire based devices.
It also provides helpful functions for RMAP commands decoding.
The bus model interfaces are available in: temu-c/Bus/Spacewire.h
.
In addition to the interfaces a simple SpaceWire Router model is provided.
Spacewire is a point to point bus. Two devices can be connected directly while multiple devices can be connected through a router. A SpaceWire Route receives a packet on a port and forward it to another, where the destination device is connected.
Spacewire uses wormhole routing. The sender device provides the list of addresses (each address is an 8-bit value) required to reach the destination. Each node in the path is supposed to strip the first byte and use it to select the port used to forward the packet.
Interfaces
The interesting interfaces are defined in the temu-c/Bus/Spacewire.h
header.
typedef enum {
teSMT_Data = 1,
teSMT_Err = 2,
teSMT_Time = 3,
} temu_SpwPacketType;
typedef struct temu_SpwPacket {
temu_SpwPacketType MsgType;
temu_Buff PktData;
uint8_t Flags;
} temu_SpwPacket;
typedef enum {
teSPWLS_ErrorReset = 1,
teSPWLS_Ready = 2,
teSPWLS_Started = 3,
teSPWLS_Connecting = 4,
teSPWLS_Run = 5
} temu_SpwLinkState;
struct temu_SpwPortIface {
void (*receive)(void *Device, void *Sender, temu_SpwPacket *Pkt);
void (*signalLinkStateChange)(void* Device, temu_SpwLinkState LinkState);
temu_SpwLinkState (*getOtherSideLinkState)(void* Device);
void (*connect)(void *Device, temu_SpwPortIfaceRef Dest);
void (*disconnect)(void *Device);
uint64_t (*timeToSendPacketNs)(void* Device, uint64_t PacketLength);
};
While the SpaceWire protocol is character based, to have better performances TEMU transfers full messages with a single call on the port interface. Example of messages are a data packet, an RMAP packet and a time code. Control characters like FCT (flow control) are abstracted away.
The SpaceWire packet structure is used to pass a packet between nodes. The MsgType field identifies if the packet is a timecode, a complete data packet (ending with EOP) or an incomplete data packet (ending with EEP). The PktData field contains the packet data or the time code value.
A TEMU buffer is used to hold the data. This data structure has been implemented to handle SpaceWire packets in a performant way. It allows to acquire a reference to a part of the original data so that a copy of data is not required for each node due to wormhole routing stripping. It also free the memory used to store the original message when no more references are active. This way, destination devices can maintain the data as long as needed without coping it.
SpaceWire links are full-duplex. The SpaceWire link is modeled by simply having each device implementing a port interface and holding a reference to other end port. This allows comunication in both directions simultaneously.
SpaceWire devices often have several connections port. The SpwPortIface is meant to be implement for each port a device intends to provide.
temu-c/Bus/Spacewire.h
header also define functions to help decode
RMAP packets:
Name | Description |
---|---|
temu_spwRmapDecodePacket |
Provided a SpaceWire Rmap packet attempts to decode it. |
temu_spwRmapDecodeBuffer |
Provided a buffer containing a SpaceWire Rmap packet attempts to decode it. |
temu_spwRmapHeaderReplySize |
Returns the total packet-size required to reply to the command. |
temu_spwRmapEncodeReadReplyHeaderForPacket |
Encodes the reply for a read command. |
temu_spwRmapEncodeRmwHeaderForPacket |
Encodes the reply for a rmw command. |
temu_spwRmapEncodeWriteReplyHeaderForPacket |
Encodes the reply for a write command. |
temu_spwRmapCRCNextCode |
Provided the previous calculated crc and a the current byte returns the next CRC value. |
temu_spwRmapCRC |
Calculates the CRC over the specified data. |
Limitations
The following deviations from real hardware are known to exist with this model:
-
When two different devices try to access the same device the two accesses will happend simultaneously. This should not be the case, the accesses should be sequential (the second device should wait for the bus to be free). This issue will be solved in the future when bus-reservation feature will be implemented.
Commands
The following commands are provided:
Name | Description |
---|---|
spw-connect |
Connect the two SpaceWire port interfaces provided as parameters |
spw-disconnect |
Disconnect the two SpaceWire port interfaces provided as parameters |
@SpwRouter Reference
SpwRouter Reference
Properties
Name | Type | Description |
---|---|---|
Class |
*void |
Class object |
Component |
*void |
Pointer to component object if part of component |
LoggingFlags |
uint64_t |
Flags for logging info |
Name |
*char |
Object name |
TimeSource |
*void |
Time source object |
internal.linkState |
[int32_t; 32] |
Holds the link state of the ports |
ports |
[temu_IfaceRef; 32]/ <unknown> |
Connected SpaceWire devices. |
routingTable |
[uint8_t; 256] |
Configure packet-address/forwarding-port mapping |
@SpwCcsdsAdapter Reference
SpwCcsdsAdapter Reference
Properties
Name | Type | Description |
---|---|---|
Class |
*void |
Class object |
Component |
*void |
Pointer to component object if part of component |
LoggingFlags |
uint64_t |
Flags for logging info |
Name |
*char |
Object name |
TimeSource |
*void |
Time source object |
count.Rx |
uint32_t |
Counter for received messages. |
count.Tx |
uint32_t |
Counter for received messages. |
enabled |
uint8_t |
Enable/Disable UDP. Required to change properties. |
internal.linkState |
int32_t |
Holds the link state of the port |
port |
temu_IfaceRef/ <unknown> |
Connected SpaceWire device. |
protocolId |
uint8_t |
Protocol ID to be used. |
rxUdpPort |
uint16_t |
Udp port used to receive. |
targetAddr |
[uint8_t; 16] |
Addresses to use to forard a packet received via UDP. |
targetAddrLength |
uint8_t |
Number of valid addresses in targetAddr array. |
txHost |
*char |
File name to write TTY log to. |
txUdpPort |
uint16_t |
Udp port used to send. |
Examples
This example shows how to create a simple SpaceWire Router and a Grspw2 device and connect them.
import BusModels
import TEMUGrspw2
object-create class=Grspw2 name=grspw0
object-create class=SpwRouter name=spwRouter
spw-connect port1=grspw0:SpwPortIface[0] port2=spwRouter:SpwPortIface[0]
The next example shows how to implement a simple SpaceWire device
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#include "temu-c/Support/Objsys.h"
#include "temu-c/Support/Attributes.h"
#include "temu-c/Support/Logging.h"
#include "temu-c/Bus/Spacewire.h"
typedef struct {
temu_Object Super;
int TransmitterDataRate;
temu_SpwLinkState LinkState;
temu_SpwPortIfaceRef Uplink;
} SpwDevice;
void*
create(const char *Name,
int Argc TEMU_UNUSED,
const temu_CreateArg *Argv TEMU_UNUSED)
{
void *Obj = malloc(sizeof(SpwDevice));
memset(Obj, 0, sizeof(SpwDevice));
printf("Creating Object '%s'\n", Name);
return Obj;
}
void
destroy(void *Obj)
{
free(Obj);
}
static void
spwDeviceChangeLinkState(SpwDevice *Device, temu_SpwLinkState LinkState)
{
Device->LinkState = LinkState;
if ((Device->Uplink.Iface != NULL) && (Device->Uplink.Obj != NULL)) {
Device->Uplink.Iface->signalLinkStateChange(
Device->Uplink.Obj, LinkState);
}
}
///////////////////////////////////////////////////////////////////////////////
// SpwPortIface 0 implementation
///////////////////////////////////////////////////////////////////////////////
static void
spwPortIfaceReceive0(void *Obj, void *Sender, temu_SpwPacket *Pkt)
{
// Handle packet received.
SpwDevice *Dev = (SpwDevice*)(Obj);
temu_logInfo(Dev, "Received SpaceWire packet");
}
static void
spwPortIfaceSignalLinkStateChange0(void *Obj, temu_SpwLinkState LinkState)
{
// The other side notified us that its link state changed.
SpwDevice *Dev = (SpwDevice*)(Obj);
temu_logInfo(Dev, "Other side link state changed");
// Depending on the other side link state change update this
// device link state.
}
static temu_SpwLinkState
spwPortIfaceGetOtherSideLinkState0(void *Obj)
{
// Other side request this device state.
SpwDevice *Dev = (SpwDevice*)(Obj);
return (temu_SpwLinkState)Dev->LinkState;
}
static void
spwPortIfaceConnect0(void *Obj, temu_SpwPortIfaceRef PortIf)
{
SpwDevice *Dev = (SpwDevice*)(Obj);
Dev->Uplink = PortIf;
// When two ports are connected the device goes to ready state.
spwDeviceChangeLinkState(Dev, teSPWLS_Ready);
}
static void
spwPortIfaceDisconnect0(void *Obj)
{
SpwDevice *Dev = (SpwDevice*)(Obj);
Dev->Uplink.Iface = NULL;
Dev->Uplink.Obj = NULL;
// When two ports are diconnected the device goes to error reset state.
spwDeviceChangeLinkState(Dev, teSPWLS_ErrorReset);
}
static uint64_t
spwPortIfaceTimeToSendPacketNs0(void* Obj, uint64_t PacketSize)
{
SpwDevice *Dev = (SpwDevice*)(Obj);
// Return the time required to transmit the packet through this port.
return PacketSize / Dev->TransmitterDataRate;
}
temu_SpwPortIface SpwPortIface0 = {
spwPortIfaceReceive0,
spwPortIfaceSignalLinkStateChange0,
spwPortIfaceGetOtherSideLinkState0,
spwPortIfaceConnect0,
spwPortIfaceDisconnect0,
spwPortIfaceTimeToSendPacketNs0
};
TEMU_PLUGIN_INIT
{
temu_Class *Cls = temu_registerClass("SpwDevice", create, destroy);
// Reference to the port interface of the other end.
temu_addProperty(Cls, "Uplink",
offsetof(SpwDevice, Uplink),
teTY_IfaceRef,
1, // Number of elements (1 = scalar)
NULL, NULL,
"Other end port interface");
// Port interface.
temu_addInterface(Cls, "SpwPortIface", "SpwPortIface", &SpwPortIface0,
0, "SpaceWire port interface");
}