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Add callgraph examples to README.md (google#528)
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Add callgraph examples to README.md

Co-authored-by: Maggie Nolan <nolanmar@google.com>
Co-authored-by: Alexey Alexandrov <aalexand@users.noreply.github.com>
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3 people authored and Gabriel Marin committed Dec 17, 2020
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111 changes: 80 additions & 31 deletions doc/README.md
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Expand Up @@ -24,7 +24,7 @@ pprof operates on data in the profile.proto format. Each profile is a collection
of samples, where each sample is associated to a point in a location hierarchy,
one or more numeric values, and a set of labels. Often these profiles represents
data collected through statistical sampling of a program, so each sample
describes a program call stack and a number or weight of samples collected at a
describes a program call stack and a number or value of samples collected at a
location. pprof is agnostic to the profile semantics, so other uses are
possible. The interpretation of the reports generated by pprof depends on the
semantics defined by the source of the profile.
Expand Down Expand Up @@ -66,10 +66,13 @@ in a browser to see the interface.

The objective of pprof is to generate a report for a profile. The report is
generated from a location hierarchy, which is reconstructed from the profile
samples. Each location contains two values: *flat* is the value of the location
itself, while *cum* is the value of the location plus all its
descendants. Samples that include a location multiple times (eg for recursive
functions) are counted only once per location.
samples. Each location contains two values:

* *flat*: the value of the location itself.
* *cum*: the value of the location plus all its descendants.

Samples that include a location multiple times (e.g. for recursive functions)
are counted only once per location.

## Options

Expand All @@ -81,19 +84,20 @@ other.
Some common pprof options are:

* **-flat** [default], **-cum**: Sort entries based on their flat or cumulative
weight respectively, on text reports.
value respectively, on text reports.
* **-functions** [default], **-filefunctions**, **-files**, **-lines**,
**-addresses**: Generate the report using the specified granularity.
* **-noinlines**: Attribute inlined functions to their first out-of-line caller.
For example, a command like `pprof -list foo -noinlines profile.pb.gz` can be
used to produce the annotated source listing attributing the metrics in the
inlined functions to the out-of-line calling line.
* **-nodecount= _int_:** Maximum number of entries in the report. pprof will only print
this many entries and will use heuristics to select which entries to trim.
* **-nodecount= _int_:** Maximum number of entries in the report. pprof will
only print this many entries and will use heuristics to select which entries
to trim.
* **-focus= _regex_:** Only include samples that include a report entry matching
*regex*.
* **-ignore= _regex_:** Do not include samples that include a report entry matching
*regex*.
* **-ignore= _regex_:** Do not include samples that include a report entry
matching *regex*.
* **-show\_from= _regex_:** Do not show entries above the first one that
matches *regex*.
* **-show= _regex_:** Only show entries that match *regex*.
Expand Down Expand Up @@ -161,8 +165,8 @@ range) match a given sample, then the sample will be discarded.

pprof text reports show the location hierarchy in text format.

* **-text:** Prints the location entries, one per line, including the flat and cum
values.
* **-text:** Prints the location entries, one per line, including the flat and
cum values.
* **-tree:** Prints each location entry with its predecessors and successors.
* **-peek= _regex_:** Print the location entry with all its predecessors and
successors, without trimming any entries.
Expand All @@ -174,23 +178,68 @@ pprof can generate graphical reports on the DOT format, and convert them to
multiple formats using the graphviz package.

These reports represent the location hierarchy as a graph, with a report entry
represented as a node. Solid edges represent a direct connection between
entries, while dotted edges represent a connection where some intermediate nodes
have been removed. Nodes are removed using heuristics to limit the size of
represented as a node. Nodes are removed using heuristics to limit the size of
the graph, controlled by the *nodecount* option.

The size of each node represents the flat weight of the node, and the width of
each edge represents the cumulative weight of all samples going through
it. Nodes are colored according to their cumulative weight, highlighting the
paths with the highest cum weight.

* **-dot:** Generates a report in .dot format. All other formats are generated from
this one.
* **-dot:** Generates a report in .dot format. All other formats are generated
from this one.
* **-svg:** Generates a report in SVG format.
* **-web:** Generates a report in SVG format on a temp file, and starts a web
browser to view it.
* **-png, -jpg, -gif, -pdf:** Generates a report in these formats,

* **-png, -jpg, -gif, -pdf:** Generates a report in these formats.

### Interpreting the Callgraph

* **Flat Value**: the value of a location itself. This is indicated by the font
size.
* Nodes with larger font sizes have larger flat values.
* Nodes with smaller font sizes have smaller flat values.

* **Cum Value**: the value of a location plus all of its descendants. This is
indicated by the node's color.
* Redder nodes have greater cum values.
* Greyer nodes have smaller cum values.

* **Dashed Edges**: some locations between the two connected locations were
removed.

* **Solid Edges**: one location directly calls the other.

* **Thicker & Redder Edges**: more resources (i.e. larger value) were used
along that path.

* **Thinner & Greyer Edges**: fewer resources (i.e. smaller value) were used
along that path.

* **"(inline)" Edge Marker**: the call has been inlined into the caller.

Let's consider the following example graph:

![callgraph](images/callgraph.png)

* For nodes:
* `(*Rand).Read` has a small flat value and a small cum value because the
the font is small and the node is grey.
* `(*compressor).deflate` has a large flat value and a large cum value because the font
is large and the node is red.
* `(*Writer).Flush` has a small flat value and a large cum value because the font is
small and the node is red.

* For edges:
* the edge between `(*Writer).Write` and `(*compressor).write`:
* Since it is a dashed edge, some nodes were removed between those two.
* Since it is thick and red, more resources were used in call stacks between
those two nodes.
* the edge between `(*Rand).Read` and `read`:
* Since it is a dashed edge, some nodes were removed between those two.
* Since it is thin and grey, fewer resources were used in call stacks
between those two nodes.
* the edge between `read` and `(*rngSource).Int63`:
* Since it is a solid edge, there are no nodes between those two (i.e. it
was a direct call).
* Since it is thin and grey, fewer resrouces were used in call stacks
between those two nodes.

## Annotated code

pprof can also generate reports of annotated source with samples associated to
Expand All @@ -210,7 +259,7 @@ search for them in a directory pointed to by the environment variable
`$PPROF_TOOLS`.

* **-list= _regex_:** Generates an annotated source listing for functions
matching *regex*, with flat/cum weights for each source line.
matching *regex*, with flat/cum values for each source line.
* **-disasm= _regex_:** Generates an annotated disassembly listing for
functions matching *regex*.
* **-weblist= _regex_:** Generates a source/assembly combined annotated listing
Expand Down Expand Up @@ -264,12 +313,12 @@ also accept some legacy formats generated by
When fetching from a URL handler, pprof accepts options to indicate how much to
wait for the profile.

* **-seconds= _int_:** Makes pprof request for a profile with the specified duration
in seconds. Only makes sense for profiles based on elapsed time, such as CPU
profiles.
* **-timeout= _int_:** Makes pprof wait for the specified timeout when retrieving a
profile over http. If not specified, pprof will use heuristics to determine a
reasonable timeout.
* **-seconds= _int_:** Makes pprof request for a profile with the specified
duration in seconds. Only makes sense for profiles based on elapsed time, such
as CPU profiles.
* **-timeout= _int_:** Makes pprof wait for the specified timeout when
retrieving a profile over http. If not specified, pprof will use heuristics to
determine a reasonable timeout.

pprof also accepts options which allow a user to specify TLS certificates to
use when fetching or symbolizing a profile from a protected endpoint. For more
Expand Down
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