Final edits (#165)
* Final instructions tidying * Instructions * Add final slides
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Nate Foster
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P4_tutorial.pdf
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P4_tutorial.pdf
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@ -16,13 +16,16 @@ you get started with P4 programming, organized into several modules:
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* [Explicit Congestion Notification](./exercises/ecn)
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* [Multi-Hop Route Inspection](./exercises/mri)
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4. Advanced Data Structures
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4. Advanced Behavior
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* [Source Routing](./exercises/source_routing)
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* [Calculator](./exercises/calc)
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5. Dynamic Behavior
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* [Load Balancing](./exercises/load_balance)
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## Presentation
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The slides are available [online](http://bit.ly/p4d2-2018-spring) and
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in the P4_tutorial.pdf in the tutorial directory.
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## Obtaining required software
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If you are starting this tutorial at the Spring 2018 P4 Developer Day,
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@ -165,7 +165,7 @@ There are several ways that problems might manifest:
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error emitted from the compiler and stop.
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2. `ecn.p4` compiles but does not support the control plane rules in
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the `sX-runtime.json` files that `make` tries to install using
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the BMv2 CLI. In this case, `make` will log the CLI tool output
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a Python controller. In this case, `make` will log the controller output
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in the `logs` directory. Use these error messages to fix your `ecn.p4`
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implementation.
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3. `ecn.p4` compiles, and the control plane rules are installed, but
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@ -4,10 +4,10 @@ In this exercise, you will implement a form of load balancing based on
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a simple version of Equal-Cost Multipath Forwarding. The switch you
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will implement will use two tables to forward packets to one of two
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destination hosts at random. The first table will use a hash function
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(applied to a 5-tuple consisting of the source and destination
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IP addresses, IP protocol, and source and destination TCP ports)
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to select one of two hosts. The second table will use the
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computed hash value to forward the packet to the selected host.
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(applied to a 5-tuple consisting of the source and destination IP
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addresses, IP protocol, and source and destination TCP ports) to
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select one of two hosts. The second table will use the computed hash
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value to forward the packet to the selected host.
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> **Spoiler alert:** There is a reference solution in the `solution`
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> sub-directory. Feel free to compare your implementation to the
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@ -63,16 +63,9 @@ control plane. When a rule matches a packet, its action is invoked
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with parameters supplied by the control plane as part of the rule.
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In this exercise, the control plane logic has already been
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implemented. As part of bringing up the Mininet instance, the
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`make` script will install packet-processing rules in the tables of
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each switch. These are defined in the `s1-commands.txt` file.
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**Important:** A P4 program also defines the interface between the
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switch pipeline and control plane. The `s1-commands.txt` file contains
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a list of commands for the BMv2 switch API. These commands refer to
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specific tables, keys, and actions by name, and any changes in the P4
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program that add or rename tables, keys, or actions will need to be
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reflected in these command files.
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implemented. As part of bringing up the Mininet instance, the `make`
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script will install packet-processing rules in the tables of each
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switch. These are defined in the `sX-runtime.json` files.
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## Step 2: Implement Load Balancing
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@ -105,9 +98,6 @@ Follow the instructions from Step 1. This time, your message from
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`h1` should be delivered to `h2` or `h3`. If you send several
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messages, some should be received by each server.
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### Food for thought
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### Troubleshooting
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There are several ways that problems might manifest:
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@ -116,10 +106,10 @@ There are several ways that problems might manifest:
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report the error emitted from the compiler and stop.
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2. `load_balance.p4` compiles but does not support the control plane
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rules in the `sX-commands.txt` files that `make` tries to install
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using the BMv2 CLI. In this case, `make` will log the CLI tool output
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in the `logs` directory. Use these error messages to fix your `load_balance.p4`
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implementation.
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rules in the `sX-runtime.json` files that `make` tries to install
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using the Python controller. In this case, `make` will log the
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controller output in the `logs` directory. Use the error messages to
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fix your `load_balance.p4` implementation.
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3. `load_balance.p4` compiles, and the control plane rules are
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installed, but the switch does not process packets in the desired way.
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@ -139,4 +129,4 @@ mn -c
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## Next Steps
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Congratulations, your implementation works!
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Congratulations, your implementation works and you have finished the tutorial!
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@ -211,18 +211,22 @@ There are several ways that problems might manifest:
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1. `mri.p4` fails to compile. In this case, `make` will report the
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error emitted from the compiler and stop.
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2. `mri.p4` compiles but does not support the control plane rules in
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the `sX-runtime.json` files that `make` tries to install using the BMv2 CLI.
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In this case, `make` will log the CLI tool output in the `logs` directory.
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Use these error messages to fix your `mri.p4` implementation.
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the `sX-runtime.json` files that `make` tries to install using a
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Python controller. In this case, `make` will log the controller
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output in the `logs` directory. Use these error messages to fix
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your `mri.p4` implementation.
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3. `mri.p4` compiles, and the control plane rules are installed, but
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the switch does not process packets in the desired way. The
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`/tmp/p4s.<switch-name>.log` files contain trace messages describing
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how each switch processes each packet. The output is detailed and can
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help pinpoint logic errors in your implementation. The
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`build/<switch-name>-<interface-name>.pcap` also contains the pcap of
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packets on each interface. Use `tcpdump -r <filename> -xxx` to print
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the hexdump of the packets.
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`/tmp/p4s.<switch-name>.log` files contain trace messages
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describing how each switch processes each packet. The output is
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detailed and can help pinpoint logic errors in your implementation.
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The `build/<switch-name>-<interface-name>.pcap` also contains the
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pcap of packets on each interface. Use `tcpdump -r <filename> -xxx`
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to print the hexdump of the packets.
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4. `mri.p4` compiles and all rules are installed. Packets go through
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and the logs show that the queue length is always 0. Then either
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reduce the link bandwidth in `topology.json`.
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@ -241,4 +245,3 @@ make stop
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Congratulations, your implementation works! Move on to [Source
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Routing](../source_routing).
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@ -13,8 +13,8 @@ to the specified port number.
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Your switch must parse the source routing stack. Each item has a bos
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(bottom of stack) bit and a port number. The bos bit is 1 only for the
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last entry of stack. Then at ingress, it should pop an entry from the
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stack and set the egress port accordingly. Note that the last hop can
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also revert back the etherType to `TYPE_IPV4`.
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stack and set the egress port accordingly. The last hop may also
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revert back the etherType to `TYPE_IPV4`.
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> **Spoiler alert:** There is a reference solution in the `solution`
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> sub-directory. Feel free to compare your implementation to the
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