When analyzing data it is usually handy to have different ways to represent it in order to get new perspectives to allow the analyst to understand how different parts of the program interact.
Representing basic block edges, function calls, string references as graphs show a very clear view of this information.
Rizin supports various types of graph available through commands starting with
[0x00005000]> ag? |Usage: ag<graphtype><format> [addr] | Graph commands: | aga[format] Data references graph | agA[format] Global data references graph | agc[format] Function callgraph | agC[format] Global callgraph | agd[format] [fcn addr] Diff graph | agf[format] Basic blocks function graph | agi[format] Imports graph | agr[format] References graph | agR[format] Global references graph | agx[format] Cross references graph | agg[format] Custom graph | ag- Clear the custom graph | agn[?] title body Add a node to the custom graph | age[?] title1 title2 Add an edge to the custom graph Output formats: | <blank> Ascii art | * rizin commands | d Graphviz dot | g Graph Modelling Language (gml) | j json ('J' for formatted disassembly) | k SDB key-value | t Tiny ascii art | v Interactive ascii art | w [path] Write to path or display graph image (see graph.gv.format and graph.web)
The structure of the commands is as follows:
ag <graph type> <output format>.
agid displays the imports graph in dot format, while
outputs the custom graph in JSON format.
Here's a short description for every output format available:
Displays the graph directly to stdout using ASCII art to represent blocks and edges.
Warning: displaying large graphs directly to stdout might prove to be computationally expensive and will make rizin not responsive for some time. In case of doubt, prefer using the interactive view (explained below).
Displays the ASCII graph in an interactive view similar to
VV which allows to move the screen, zoom in / zoom out, ...
Displays the ASCII graph directly to stdout in tiny mode (which is the same as reaching the maximum zoom out level in the interactive view).
Prints a JSON string representing the graph.
In the case of the
fformat (basic blocks of function), it will have detailed information about the function and will also contain the disassembly of the function (use
Jformat for the formatted disassembly.
In all other cases, it will only have basic information about the nodes of the graph (id, title, body, and edges).
Prints the GML source code representing the graph, which can be interpreted by programs such as yEd
Prints key-value strings representing the graph that was stored by sdb (rizin's string database).
Prints rizin commands that would recreate the desired graph. The commands to construct the graph are
agn [title] [body] to add a node and
age [title1] [title2] to add an edge.
[body] field can be expressed in base64 to include special formatting (such as newlines).
To easily execute the printed commands, it is possible to prepend a dot to the command (
Rizin will convert the graph to dot format, use the
dot program to convert it to a
.gif image and then try to find an already installed viewer on your system (
open, ...) and display the graph there.
The extension of the output image can be set with the
graph.extension config variable. Available extensions are
png, jpg, gif, pdf, ps.
Note: for particularly large graphs, the most recommended extension is
svg as it will produce images of much smaller size
graph.web config variable is enabled, rizin will try to display the graph using the browser (this feature is experimental and unfinished, and
disabled by default.)