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Alias names can be added to existing memory regions created with the MEMORY command. Each name corresponds to at most one memory region.
REGION_ALIAS(alias, region)
The REGION_ALIAS function creates an alias name alias for the
memory region region. This allows a flexible mapping of output sections
to memory regions. An example follows.
Suppose we have an application for embedded systems which come with various
memory storage devices. All have a general purpose, volatile memory RAM
that allows code execution or data storage. Some may have a read-only,
non-volatile memory ROM that allows code execution and read-only data
access. The last variant is a read-only, non-volatile memory ROM2 with
read-only data access and no code execution capability. We have four output
sections:
.text program code;
.rodata read-only data;
.data read-write initialized data;
.bss read-write zero initialized data.
The goal is to provide a linker command file that contains a system independent
part defining the output sections and a system dependent part mapping the
output sections to the memory regions available on the system. Our embedded
systems come with three different memory setups A, B and
C:
| Section | Variant A | Variant B | Variant C |
| .text | RAM | ROM | ROM |
| .rodata | RAM | ROM | ROM2 |
| .data | RAM | RAM/ROM | RAM/ROM2 |
| .bss | RAM | RAM | RAM |
The notation RAM/ROM or RAM/ROM2 means that this section is
loaded into region ROM or ROM2 respectively. Please note that
the load address of the .data section starts in all three variants at
the end of the .rodata section.
The base linker script that deals with the output sections follows. It
includes the system dependent linkcmds.memory file that describes the
memory layout:
INCLUDE linkcmds.memory
SECTIONS
{
.text :
{
*(.text)
} > REGION_TEXT
.rodata :
{
*(.rodata)
rodata_end = .;
} > REGION_RODATA
.data : AT (rodata_end)
{
data_start = .;
*(.data)
} > REGION_DATA
data_size = SIZEOF(.data);
data_load_start = LOADADDR(.data);
.bss :
{
*(.bss)
} > REGION_BSS
}
Now we need three different linkcmds.memory files to define memory
regions and alias names. The content of linkcmds.memory for the three
variants A, B and C:
AHere everything goes into the RAM.
MEMORY
{
RAM : ORIGIN = 0, LENGTH = 4M
}
REGION_ALIAS("REGION_TEXT", RAM);
REGION_ALIAS("REGION_RODATA", RAM);
REGION_ALIAS("REGION_DATA", RAM);
REGION_ALIAS("REGION_BSS", RAM);
BProgram code and read-only data go into the ROM. Read-write data goes
into the RAM. An image of the initialized data is loaded into the
ROM and will be copied during system start into the RAM.
MEMORY
{
ROM : ORIGIN = 0, LENGTH = 3M
RAM : ORIGIN = 0x10000000, LENGTH = 1M
}
REGION_ALIAS("REGION_TEXT", ROM);
REGION_ALIAS("REGION_RODATA", ROM);
REGION_ALIAS("REGION_DATA", RAM);
REGION_ALIAS("REGION_BSS", RAM);
CProgram code goes into the ROM. Read-only data goes into the
ROM2. Read-write data goes into the RAM. An image of the
initialized data is loaded into the ROM2 and will be copied during
system start into the RAM.
MEMORY
{
ROM : ORIGIN = 0, LENGTH = 2M
ROM2 : ORIGIN = 0x10000000, LENGTH = 1M
RAM : ORIGIN = 0x20000000, LENGTH = 1M
}
REGION_ALIAS("REGION_TEXT", ROM);
REGION_ALIAS("REGION_RODATA", ROM2);
REGION_ALIAS("REGION_DATA", RAM);
REGION_ALIAS("REGION_BSS", RAM);
It is possible to write a common system initialization routine to copy the
.data section from ROM or ROM2 into the RAM if
necessary:
#include <string.h>
extern char data_start [];
extern char data_size [];
extern char data_load_start [];
void copy_data(void)
{
if (data_start != data_load_start)
{
memcpy(data_start, data_load_start, (size_t) data_size);
}
}
Next: Miscellaneous Commands, Previous: Format Commands, Up: Simple Commands [Contents][Index]