What you see is the interpretation of the combination of ELF segment flags, section type and section flags for each section in the object file.
LOAD means that the section resides in a loadable segment, i.e. its content could be read from the file into memory when a process is created
Section flags are well documented in the Chapter 4 of the System V Application Binary Interface, although under slightly different names from what
CODE means that the section contains executable code; it is indicated by the
SHF_EXECINSTR flag in the section header
DATA means that the section is not executable but is writable, indicated by the presence of the
READONLY means that the section is neither executable nor writtable and should be placed in read-only memory pages
ALLOC means that the section occupies memory, e.g. memory pages are actually allocated to hold the section content when a process is created, indicated by the
SHF_ALLOC flag. Some sections, e.g. those containing debug information, are not read into memory during normal program execution and are not marked as
ALLOC to save memory.
Sections of type
SHT_PROGBITS have corresponding content in the file and are shown as
CONTENTS. Some sections does not have corresponding content in the file, e.g. the
.bss section, which is of type
.text section contains the program executable code. It is show as
CONTENTS since it is of type
SHT_PROGBITS. Memory should be reserved for this section since it is
ALLOC and its contents should be loaded from the file since it is placed in a
LOAD-able segment. Program code is generally non-modifiable and hence the section is placed in read-only memory. It contains instructions that are to be executed and hence the
Initialised variables with static storage class go into the
.data section. Their initial values are stored in the file and read from there as the process is created. In C/C++ these are global variables, static local variables and C++ static member variables that are initialised appropriately, e.g.
static int a = 10;. Fortran places initialised
SAVE-d variables and
COMMON blocks, which are given intiial value with a block
DATA statement there.
.bss section (historic name, abbreviation from Block Started by Symbol) is the most simple one. It holds uninitialised variables with static storage class. It is a section of type
SHT_NOBITS and takes no space in the file. Memory is
ALLOC-ated for it but nothing is read from the file to prepopulate the memory - it just stays all zeroes as delivered by the kernel memory allocator.
Constants usually go into the
.rodata section (not present in your example), which looks like
.data but is not marked as writable and is thus shown as