gold is an ELF linker. It is intended to have complete support for
-ELF and to run as fast as possible on modern systems.
+ELF and to run as fast as possible on modern systems. For normal use
+it is a drop-in replacement for the older GNU linker.
-It is written in C++. It is (intended to be) a GNU program, and
-therefore follows the GNU formatting standards as modified for C++.
-Source documents in order of precedence:
+gold is part of the GNU binutils. See ../binutils/README for more
+general notes, including where to send bug reports.
+
+gold was originally developed at Google, and was contributed to the
+Free Software Foundation in March 2008. At Google it was designed by
+Ian Lance Taylor, with major contributions by Cary Coutant, Craig
+Silverstein, and Andrew Chatham.
+
+The existing GNU linker manual is intended to be accurate
+documentation for features which gold supports. gold supports most of
+the features of the GNU linker for ELF targets. Notable
+omissions--features of the GNU linker not currently supported in
+gold--are:
+ * MEMORY regions in linker scripts
+ * MRI compatible linker scripts
+ * linker map files (-M, -Map)
+ * cross-reference reports (--cref)
+ * linker garbage collection (--gc-sections)
+ * position independent executables (-pie)
+ * various other minor options
+
+
+Notes on the code
+=================
+
+These are some notes which may be helpful to people working on the
+source code of gold itself.
+
+gold is written in C++. It is a GNU program, and therefore follows
+the GNU formatting standards as modified for C++. Source documents in
+order of decreasing precedence:
http://www.gnu.org/prep/standards/
http://gcc.gnu.org/onlinedocs/libstdc++/17_intro/C++STYLE
http://www.zembu.com/eng/procs/c++style.html
The linker is intended to have complete support for cross-compilation,
-which still supporting the normal case of native linking as fast as
-possible. This makes the code more complex.
+while still supporting the normal case of native linking as fast as
+possible. In order to do this, many classes are actually templates
+whose parameter is the ELF file class (e.g., 32 bits or 64 bits). The
+C++ code is the same, but we don't pay the execution time cost of
+always using 64-bit integers if the target is 32 bits. Many of these
+class templates also have an endianness parameter: true for
+big-endian, false for little-endian.
-Many functions are actually templates whose parameter is the ELF file
-class (e.g., 32 bits or 64 bits). The code is the same, but we don't
-want to pay the execution time cost of always using 64-bit integers if
-the target is 32 bits.
+The linker is multi-threaded. The Task class represents a single unit
+of work. Task objects are stored on a single Workqueue object. Tasks
+communicate via Task_token objects. Task_token objects are only
+manipulated while holding the master Workqueue lock. Relatively few
+mutexes are used.