mirror of
https://github.com/dashpay/dash.git
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320 lines
14 KiB
Markdown
320 lines
14 KiB
Markdown
# User-space, Statically Defined Tracing (USDT) for Dash Core
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Dash Core includes statically defined tracepoints to allow for more
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observability during development, debugging, code review, and production usage.
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These tracepoints make it possible to keep track of custom statistics and
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enable detailed monitoring of otherwise hidden internals. They have
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little to no performance impact when unused.
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```
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eBPF and USDT Overview
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======================
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┌──────────────────┐ ┌──────────────┐
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│ tracing script │ │ dashd │
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│==================│ 2. │==============│
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│ eBPF │ tracing │ hooks │ │
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│ code │ logic │ into┌─┤►tracepoint 1─┼───┐ 3.
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└────┬───┴──▲──────┘ ├─┤►tracepoint 2 │ │ pass args
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1. │ │ 4. │ │ ... │ │ to eBPF
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User compiles │ │ pass data to │ └──────────────┘ │ program
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Space & loads │ │ tracing script │ │
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─────────────────┼──────┼─────────────────┼────────────────────┼───
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Kernel │ │ │ │
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Space ┌──┬─▼──────┴─────────────────┴────────────┐ │
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│ │ eBPF program │◄──────┘
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│ └───────────────────────────────────────┤
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│ eBPF kernel Virtual Machine (sandboxed) │
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└──────────────────────────────────────────┘
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1. The tracing script compiles the eBPF code and loads the eBPF program into a kernel VM
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2. The eBPF program hooks into one or more tracepoints
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3. When the tracepoint is called, the arguments are passed to the eBPF program
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4. The eBPF program processes the arguments and returns data to the tracing script
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```
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The Linux kernel can hook into the tracepoints during runtime and pass data to
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sandboxed [eBPF] programs running in the kernel. These eBPF programs can, for
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example, collect statistics or pass data back to user-space scripts for further
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processing.
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[eBPF]: https://ebpf.io/
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The two main eBPF front-ends with support for USDT are [bpftrace] and
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[BPF Compiler Collection (BCC)]. BCC is used for complex tools and daemons and
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`bpftrace` is preferred for one-liners and shorter scripts. Examples for both can
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be found in [contrib/tracing].
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[bpftrace]: https://github.com/iovisor/bpftrace
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[BPF Compiler Collection (BCC)]: https://github.com/iovisor/bcc
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[contrib/tracing]: ../contrib/tracing/
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## Tracepoint documentation
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The currently available tracepoints are listed here.
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### Context `net`
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#### Tracepoint `net:inbound_message`
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Is called when a message is received from a peer over the P2P network. Passes
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information about our peer, the connection and the message as arguments.
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Arguments passed:
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1. Peer ID as `int64`
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2. Peer Address and Port (IPv4, IPv6, Tor v3, I2P, ...) as `pointer to C-style String` (max. length 68 characters)
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3. Connection Type (inbound, feeler, outbound-full-relay, ...) as `pointer to C-style String` (max. length 20 characters)
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4. Message Type (inv, ping, getdata, addrv2, ...) as `pointer to C-style String` (max. length 20 characters)
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5. Message Size in bytes as `uint64`
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6. Message Bytes as `pointer to unsigned chars` (i.e. bytes)
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Note: The message is passed to the tracepoint in full, however, due to space
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limitations in the eBPF kernel VM it might not be possible to pass the message
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to user-space in full. Messages longer than a 32kb might be cut off. This can
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be detected in tracing scripts by comparing the message size to the length of
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the passed message.
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#### Tracepoint `net:outbound_message`
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Is called when a message is send to a peer over the P2P network. Passes
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information about our peer, the connection and the message as arguments.
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Arguments passed:
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1. Peer ID as `int64`
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2. Peer Address and Port (IPv4, IPv6, Tor v3, I2P, ...) as `pointer to C-style String` (max. length 68 characters)
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3. Connection Type (inbound, feeler, outbound-full-relay, ...) as `pointer to C-style String` (max. length 20 characters)
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4. Message Type (inv, ping, getdata, addrv2, ...) as `pointer to C-style String` (max. length 20 characters)
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5. Message Size in bytes as `uint64`
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6. Message Bytes as `pointer to unsigned chars` (i.e. bytes)
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Note: The message is passed to the tracepoint in full, however, due to space
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limitations in the eBPF kernel VM it might not be possible to pass the message
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to user-space in full. Messages longer than a 32kb might be cut off. This can
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be detected in tracing scripts by comparing the message size to the length of
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the passed message.
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### Context `validation`
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#### Tracepoint `validation:block_connected`
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Is called *after* a block is connected to the chain. Can, for example, be used
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to benchmark block connections together with `-reindex`.
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Arguments passed:
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1. Block Header Hash as `pointer to unsigned chars` (i.e. 32 bytes in little-endian)
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2. Block Height as `int32`
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3. Transactions in the Block as `uint64`
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4. Inputs spend in the Block as `int32`
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5. SigOps in the Block (excluding coinbase SigOps) `uint64`
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6. Time it took to connect the Block in microseconds (µs) as `uint64`
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### Context `utxocache`
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The following tracepoints cover the in-memory UTXO cache. UTXOs are, for example,
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added to and removed (spent) from the cache when we connect a new block.
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**Note**: Dash Core uses temporary clones of the _main_ UTXO cache
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(`chainstate.CoinsTip()`). For example, the RPCs `generateblock` and
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`getblocktemplate` call `TestBlockValidity()`, which applies the UTXO set
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changes to a temporary cache. Similarly, mempool consistency checks, which are
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frequent on regtest, also apply the the UTXO set changes to a temporary cache.
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Changes to the _main_ UTXO cache and to temporary caches trigger the tracepoints.
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We can't tell if a temporary cache or the _main_ cache was changed.
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#### Tracepoint `utxocache:flush`
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Is called *after* the in-memory UTXO cache is flushed.
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Arguments passed:
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1. Time it took to flush the cache microseconds as `int64`
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2. Flush state mode as `uint32`. It's an enumerator class with values `0`
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(`NONE`), `1` (`IF_NEEDED`), `2` (`PERIODIC`), `3` (`ALWAYS`)
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3. Cache size (number of coins) before the flush as `uint64`
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4. Cache memory usage in bytes as `uint64`
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5. If pruning caused the flush as `bool`
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#### Tracepoint `utxocache:add`
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Is called when a coin is added to a UTXO cache. This can be a temporary UTXO cache too.
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Arguments passed:
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1. Transaction ID (hash) as `pointer to unsigned chars` (i.e. 32 bytes in little-endian)
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2. Output index as `uint32`
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3. Block height the coin was added to the UTXO-set as `uint32`
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4. Value of the coin as `int64`
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5. If the coin is a coinbase as `bool`
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#### Tracepoint `utxocache:spent`
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Is called when a coin is spent from a UTXO cache. This can be a temporary UTXO cache too.
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Arguments passed:
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1. Transaction ID (hash) as `pointer to unsigned chars` (i.e. 32 bytes in little-endian)
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2. Output index as `uint32`
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3. Block height the coin was spent, as `uint32`
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4. Value of the coin as `int64`
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5. If the coin is a coinbase as `bool`
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#### Tracepoint `utxocache:uncache`
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Is called when a coin is purposefully unloaded from a UTXO cache. This
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happens, for example, when we load an UTXO into a cache when trying to accept
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a transaction that turns out to be invalid. The loaded UTXO is uncached to avoid
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filling our UTXO cache up with irrelevant UTXOs.
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Arguments passed:
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1. Transaction ID (hash) as `pointer to unsigned chars` (i.e. 32 bytes in little-endian)
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2. Output index as `uint32`
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3. Block height the coin was uncached, as `uint32`
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4. Value of the coin as `int64`
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5. If the coin is a coinbase as `bool`
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## Adding tracepoints to Dash Core
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To add a new tracepoint, `#include <util/trace.h>` in the compilation unit where
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the tracepoint is inserted. Use one of the `TRACEx` macros listed below
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depending on the number of arguments passed to the tracepoint. Up to 12
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arguments can be provided. The `context` and `event` specify the names by which
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the tracepoint is referred to. Please use `snake_case` and try to make sure that
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the tracepoint names make sense even without detailed knowledge of the
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implementation details. Do not forget to update the tracepoint list in this
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document.
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```c
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#define TRACE(context, event)
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#define TRACE1(context, event, a)
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#define TRACE2(context, event, a, b)
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#define TRACE3(context, event, a, b, c)
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#define TRACE4(context, event, a, b, c, d)
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#define TRACE5(context, event, a, b, c, d, e)
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#define TRACE6(context, event, a, b, c, d, e, f)
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#define TRACE7(context, event, a, b, c, d, e, f, g)
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#define TRACE8(context, event, a, b, c, d, e, f, g, h)
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#define TRACE9(context, event, a, b, c, d, e, f, g, h, i)
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#define TRACE10(context, event, a, b, c, d, e, f, g, h, i, j)
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#define TRACE11(context, event, a, b, c, d, e, f, g, h, i, j, k)
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#define TRACE12(context, event, a, b, c, d, e, f, g, h, i, j, k, l)
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```
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For example:
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```C++
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TRACE6(net, inbound_message,
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pnode->GetId(),
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pnode->m_addr_name.c_str(),
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pnode->ConnectionTypeAsString().c_str(),
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sanitizedType.c_str(),
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msg.data.size(),
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msg.data.data()
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);
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```
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### Guidelines and best practices
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#### Clear motivation and use-case
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Tracepoints need a clear motivation and use-case. The motivation should
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outweigh the impact on, for example, code readability. There is no point in
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adding tracepoints that don't end up being used.
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#### Provide an example
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When adding a new tracepoint, provide an example. Examples can show the use case
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and help reviewers testing that the tracepoint works as intended. The examples
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can be kept simple but should give others a starting point when working with
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the tracepoint. See existing examples in [contrib/tracing/].
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[contrib/tracing/]: ../contrib/tracing/
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#### No expensive computations for tracepoints
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Data passed to the tracepoint should be inexpensive to compute. Although the
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tracepoint itself only has overhead when enabled, the code to compute arguments
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is always run - even if the tracepoint is not used. For example, avoid
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serialization and parsing.
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#### Semi-stable API
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Tracepoints should have a semi-stable API. Users should be able to rely on the
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tracepoints for scripting. This means tracepoints need to be documented, and the
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argument order ideally should not change. If there is an important reason to
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change argument order, make sure to document the change and update the examples
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using the tracepoint.
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#### eBPF Virtual Machine limits
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Keep the eBPF Virtual Machine limits in mind. eBPF programs receiving data from
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the tracepoints run in a sandboxed Linux kernel VM. This VM has a limited stack
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size of 512 bytes. Check if it makes sense to pass larger amounts of data, for
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example, with a tracing script that can handle the passed data.
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#### `bpftrace` argument limit
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While tracepoints can have up to 12 arguments, bpftrace scripts currently only
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support reading from the first six arguments (`arg0` till `arg5`) on `x86_64`.
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bpftrace currently lacks real support for handling and printing binary data,
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like block header hashes and txids. When a tracepoint passes more than six
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arguments, then string and integer arguments should preferably be placed in the
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first six argument fields. Binary data can be placed in later arguments. The BCC
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supports reading from all 12 arguments.
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#### Strings as C-style String
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Generally, strings should be passed into the `TRACEx` macros as pointers to
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C-style strings (a null-terminated sequence of characters). For C++
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`std::strings`, [`c_str()`] can be used. It's recommended to document the
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maximum expected string size if known.
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[`c_str()`]: https://www.cplusplus.com/reference/string/string/c_str/
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## Listing available tracepoints
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Multiple tools can list the available tracepoints in a `dashd` binary with
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USDT support.
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### GDB - GNU Project Debugger
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To list probes in Dash Core, use `info probes` in `gdb`:
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```
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$ gdb ./src/dashd
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…
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(gdb) info probes
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Type Provider Name Where Semaphore Object
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stap net inbound_message 0x000000000014419e /src/dashd
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stap net outbound_message 0x0000000000107c05 /src/dashd
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stap validation block_connected 0x00000000002fb10c /src/dashd
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…
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```
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### With `readelf`
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The `readelf` tool can be used to display the USDT tracepoints in Dash Core.
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Look for the notes with the description `NT_STAPSDT`.
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```
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$ readelf -n ./src/dashd | grep NT_STAPSDT -A 4 -B 2
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Displaying notes found in: .note.stapsdt
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Owner Data size Description
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stapsdt 0x0000005d NT_STAPSDT (SystemTap probe descriptors)
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Provider: net
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Name: outbound_message
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Location: 0x0000000000107c05, Base: 0x0000000000579c90, Semaphore: 0x0000000000000000
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Arguments: -8@%r12 8@%rbx 8@%rdi 8@192(%rsp) 8@%rax 8@%rdx
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…
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```
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### With `tplist`
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The `tplist` tool is provided by BCC (see [Installing BCC]). It displays kernel
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tracepoints or USDT probes and their formats (for more information, see the
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[`tplist` usage demonstration]). There are slight binary naming differences
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between distributions. For example, on
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[Ubuntu the binary is called `tplist-bpfcc`][ubuntu binary].
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[Installing BCC]: https://github.com/iovisor/bcc/blob/master/INSTALL.md
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[`tplist` usage demonstration]: https://github.com/iovisor/bcc/blob/master/tools/tplist_example.txt
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[ubuntu binary]: https://github.com/iovisor/bcc/blob/master/INSTALL.md#ubuntu---binary
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```
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$ tplist -l ./src/dashd -v
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b'net':b'outbound_message' [sema 0x0]
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1 location(s)
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6 argument(s)
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…
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```
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