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README.md

1VIXL: ARMv8 Runtime Code Generation Library, Development Version
2================================================================
3
4Contents:
5
6 * Overview
7 * Licence
8 * Requirements
9 * Known limitations
10 * Bug reports
11 * Usage
12
13
14Overview
15========
16
17VIXL contains three components.
18
19 1. Programmatic **assemblers** to generate A64, A32 or T32 code at runtime. The
20    assemblers abstract some of the constraints of each ISA; for example, most
21    instructions support any immediate.
22 2. **Disassemblers** that can print any instruction emitted by the assemblers.
23 3. A **simulator** that can simulate any instruction emitted by the A64
24    assembler. The simulator allows generated code to be run on another
25    architecture without the need for a full ISA model.
26
27The VIXL git repository can be found [on 'https://git.linaro.org'][vixl].
28
29Changes from previous versions of VIXL can be found in the
30[Changelog](doc/changelog.md).
31
32
33Licence
34=======
35
36This software is covered by the licence described in the [LICENCE](LICENCE)
37file.
38
39
40Requirements
41============
42
43To build VIXL the following software is required:
44
45 1. Python 2.7
46 2. SCons 2.0
47 3. GCC 4.8+ or Clang 4.0+
48
49A 64-bit host machine is required, implementing an LP64 data model. VIXL has
50been tested using GCC on AArch64 Debian, GCC and Clang on amd64 Ubuntu
51systems.
52
53To run the linter and code formatting stages of the tests, the following
54software is also required:
55
56 1. Git
57 2. [Google's `cpplint.py`][cpplint]
58 3. clang-format-4.0
59 4. clang-tidy-4.0
60
61Refer to the 'Usage' section for details.
62
63Note that in Ubuntu 18.04, clang-tidy-4.0 will only work if the clang-4.0
64package is also installed.
65
66
67Known Limitations
68=================
69
70VIXL was developed for JavaScript engines so a number of features from A64 were
71deemed unnecessary:
72
73 * Limited rounding mode support for floating point.
74 * Limited support for synchronisation instructions.
75 * Limited support for system instructions.
76 * A few miscellaneous integer and floating point instructions are missing.
77
78The VIXL simulator supports only those instructions that the VIXL assembler can
79generate. The `doc` directory contains a
80[list of supported A64 instructions](doc/aarch64/supported-instructions-aarch64.md).
81
82The VIXL simulator was developed to run on 64-bit amd64 platforms. Whilst it
83builds and mostly works for 32-bit x86 platforms, there are a number of
84floating-point operations which do not work correctly, and a number of tests
85fail as a result.
86
87Debug Builds
88------------
89
90Your project's build system must define `VIXL_DEBUG` (eg. `-DVIXL_DEBUG`)
91when using a VIXL library that has been built with debug enabled.
92
93Some classes defined in VIXL header files contain fields that are only present
94in debug builds, so if `VIXL_DEBUG` is defined when the library is built, but
95not defined for the header files included in your project, you will see runtime
96failures.
97
98Exclusive-Access Instructions
99-----------------------------
100
101All exclusive-access instructions are supported, but the simulator cannot
102accurately simulate their behaviour as described in the ARMv8 Architecture
103Reference Manual.
104
105 * A local monitor is simulated, so simulated exclusive loads and stores execute
106   as expected in a single-threaded environment.
107 * The global monitor is simulated by occasionally causing exclusive-access
108   instructions to fail regardless of the local monitor state.
109 * Load-acquire, store-release semantics are approximated by issuing a host
110   memory barrier after loads or before stores. The built-in
111   `__sync_synchronize()` is used for this purpose.
112
113The simulator tries to be strict, and implements the following restrictions that
114the ARMv8 ARM allows:
115
116 * A pair of load-/store-exclusive instructions will only succeed if they have
117   the same address and access size.
118 * Most of the time, cache-maintenance operations or explicit memory accesses
119   will clear the exclusive monitor.
120    * To ensure that simulated code does not depend on this behaviour, the
121      exclusive monitor will sometimes be left intact after these instructions.
122
123Instructions affected by these limitations:
124  `stxrb`, `stxrh`, `stxr`, `ldxrb`, `ldxrh`, `ldxr`, `stxp`, `ldxp`, `stlxrb`,
125  `stlxrh`, `stlxr`, `ldaxrb`, `ldaxrh`, `ldaxr`, `stlxp`, `ldaxp`, `stlrb`,
126  `stlrh`, `stlr`, `ldarb`, `ldarh`, `ldar`, `clrex`.
127
128Security Considerations
129-----------------------
130
131VIXL allows callers to generate any code they want. The generated code is
132arbitrary, and can therefore call back into any other component in the process.
133As with any self-modifying code, vulnerabilities in the client or in VIXL itself
134could lead to arbitrary code generation.
135
136For performance reasons, VIXL's Assembler only performs debug-mode checking of
137instruction operands (such as immediate field encodability). This can minimise
138code-generation overheads for advanced compilers that already model instructions
139accurately, and might consider the Assembler's checks to be redundant. The
140Assembler should only be used directly where encodability is independently
141checked, and where fine control over all generated code is required.
142
143The MacroAssembler synthesises multiple-instruction sequences to support _some_
144unencodable operand combinations. The MacroAssembler can provide a useful safety
145check in cases where the Assembler's precision is not required; an unexpected
146unencodable operand should result in a macro with the correct behaviour, rather
147than an invalid instruction.
148
149In general, the MacroAssembler handles operands which are likely to vary with
150user-supplied data, but does not usually handle inputs which are likely to be
151easily covered by tests. For example, move-immediate arguments are likely to be
152data-dependent, but register types (e.g. `x` vs `w`) are not.
153
154We recommend that _all_ users use the MacroAssembler, using `ExactAssemblyScope`
155to invoke the Assembler when specific instruction sequences are required. This
156approach is recommended even in cases where a compiler can model the
157instructions precisely, because, subject to the limitations described above, it
158offers an additional layer of protection against logic bugs in instruction
159selection.
160
161Bug reports
162===========
163
164Bug reports may be sent to vixl@arm.com. Please provide any steps required to
165recreate a bug, along with build environment and host system information.
166
167
168Usage
169=====
170
171Running all Tests
172-----------------
173
174The helper script `tools/test.py` will build and run every test that is provided
175with VIXL, in both release and debug mode. It is a useful script for verifying
176that all of VIXL's dependencies are in place and that VIXL is working as it
177should.
178
179By default, the `tools/test.py` script runs a linter to check that the source
180code conforms with the code style guide, and to detect several common errors
181that the compiler may not warn about. This is most useful for VIXL developers.
182The linter has the following dependencies:
183
184 1. Git must be installed, and the VIXL project must be in a valid Git
185    repository, such as one produced using `git clone`.
186 2. `cpplint.py`, [as provided by Google][cpplint], must be available (and
187    executable) on the `PATH`.
188
189It is possible to tell `tools/test.py` to skip the linter stage by passing
190`--nolint`. This removes the dependency on `cpplint.py` and Git. The `--nolint`
191option is implied if the VIXL project is a snapshot (with no `.git` directory).
192
193Additionally, `tools/test.py` tests code formatting using `clang-format-4.0`,
194and performs static analysis using `clang-tidy-4.0`. If you don't have these
195tools, disable the test using `--noclang-format` or `--noclang-tidy`,
196respectively.
197
198Also note that the tests for the tracing features depend upon external `diff`
199and `sed` tools. If these tools are not available in `PATH`, these tests will
200fail.
201
202Getting Started
203---------------
204
205We have separate guides for introducing VIXL, depending on what architecture you
206are targeting. A guide for working with AArch32 can be found
207[here][getting-started-aarch32], while the AArch64 guide is
208[here][getting-started-aarch64]. Example source code is provided in the
209[examples](examples) directory. You can build examples with either `scons
210aarch32_examples` or `scons aarch64_examples` from the root directory, or use
211`scons --help` to get a detailed list of available build targets.
212
213
214
215
216[cpplint]: http://google-styleguide.googlecode.com/svn/trunk/cpplint/cpplint.py
217           "Google's cpplint.py script."
218
219[vixl]: https://git.linaro.org/arm/vixl.git
220        "The VIXL repository at 'https://git.linaro.org'."
221
222[getting-started-aarch32]: doc/aarch32/getting-started-aarch32.md
223                           "Introduction to VIXL for AArch32."
224
225[getting-started-aarch64]: doc/aarch64/getting-started-aarch64.md
226                           "Introduction to VIXL for AArch64."
227

README.version

1URL: https://github.com/armvixl/vixl/archive/1.7.tar.gz
2Version: 1.7
3BugComponent: 119451
4