Overview
| Comment: | Note what's not implemented yet. |
|---|---|
| Downloads: | Tarball | ZIP archive | SQL archive |
| Timelines: | family | ancestors | descendants | both | trunk |
| Files: | files | file ages | folders |
| SHA1: |
7451c9cd6d77e6ace33a034841868ae4 |
| User & Date: | ivan on 2012-09-19 10:12:55 |
| Other Links: | manifest | tags |
Context
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2012-09-19
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| 10:36 | Restructure experiment examples to clarify possibilities and usage. check-in: d6b27da7d8 user: ivan tags: trunk | |
| 10:12 | Note what's not implemented yet. check-in: 7451c9cd6d user: ivan tags: trunk | |
| 09:28 | Move step labels in diagram to a different layer. check-in: e9a539176a user: ivan tags: trunk | |
Changes
Modified script.txt from [0c2f6f03b8] to [a5a6ffd88e].
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- Provides a familiar and flexible env for researchers.
- Direct interfaces allow experiments to bypass the CD when interacting with
the CN.
- Control software
- Uses LXC tools on containers to enforce resource limitation, resource
isolation and node stability.
- Uses traffic control, filtering and anonymization to ensure network
stability, isolation and privacy.
- The recovery device can force a hardware reboot of the RD from several
triggers and help with upgrade and recovery.
** Node and sliver connectivity
# Node simplified diagram, hover to interesting parts.
Slivers can be configured with different types of network interfaces depending
on what connectivity researchers need for experiments:
- Home computer behind a NAT router: a private interface with traffic
forwarded using NAT to the CN and filtered to ensure network stability.
- Publicly open service: a public interface (with a public CN address) with
traffic routed directly to the CN and filtered to ensure network stability.
- Traffic capture: a passive interface using a direct interface for capture.
Incoming traffic is filtered and anonymized to ensure network privacy.
- Routing: an isolated interface using a VLAN on top of a direct interface.
It only can reach other slivers of the same slice with isolated interfaces
on the same link. All traffic is allowed.
- Low-level testing: the sliver is given raw access to the interface. For
privacy, isolation and stability reasons this should only be allowed in
exceptional occasions.
* How the testbed works
# Event diagram, hover over components explained.
An example experiment: two slivers, one of them (source sliver) pings the
other one (target sliver).
1. The researcher first contacts the server and creates a slice description
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| | | | > | | | |
125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 |
- Provides a familiar and flexible env for researchers.
- Direct interfaces allow experiments to bypass the CD when interacting with
the CN.
- Control software
- Uses LXC tools on containers to enforce resource limitation, resource
isolation and node stability.
- Uses traffic control, filtering and anonymization to ensure network
stability, isolation and privacy (partialy implemented).
- The recovery device can force a hardware reboot of the RD from several
triggers and help with upgrade and recovery (not implemented yet).
** Node and sliver connectivity
# Node simplified diagram, hover to interesting parts.
Slivers can be configured with different types of network interfaces depending
on what connectivity researchers need for experiments:
- Home computer behind a NAT router: a private interface with traffic
forwarded using NAT to the CN and filtered to ensure network stability.
- Publicly open service: a public interface (with a public CN address) with
traffic routed directly to the CN and filtered to ensure network stability.
- Traffic capture (not implemented yet): a passive interface using a direct
interface for capture. Incoming traffic is filtered and anonymized to
ensure network privacy.
- Routing: an isolated interface using a VLAN on top of a direct interface.
It only can reach other slivers of the same slice with isolated interfaces
on the same link. All traffic is allowed.
- Low-level testing (not implemented yet).: the sliver is given raw access to
the interface. For privacy, isolation and stability reasons this should
only be allowed in exceptional occasions.
* How the testbed works
# Event diagram, hover over components explained.
An example experiment: two slivers, one of them (source sliver) pings the
other one (target sliver).
1. The researcher first contacts the server and creates a slice description
|