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brk and sbrk are basic memory management system calls used in Unix and Unix-like operating systems to control the amount of memory allocated to the data segment of the process. These functions are typically called from a higher-level memory management library function such as malloc. In the original Unix system, brk and sbrk were the only ways in which applications could acquire additional data space; later versions allowed this to also be done using the mmap call.
The brk and sbrk calls dynamically change the amount of space allocated for the data segment of the calling process. The change is made by resetting the program break of the process, which determines the maximum space that can be allocated. The program break is the address of the first location beyond the current end of the data region. The amount of available space increases as the break value increases. The available space is initialized to a value of zero, unless the break is lowered and then increased, as it may reuse the same pages in some unspecified way. The break value can be automatically rounded up to a size appropriate for the memory management architecture.
Function signatures and behaviorEdit
#include <unistd.h> int brk(void* end_data_segment); void *sbrk(intptr_t increment);
The brk subroutine sets the program break value to the value of the end_data_segment parameter and changes the amount of available space accordingly.
The sbrk subroutine adds to the program break value the number of bytes contained in the increment parameter and changes the amount of available space accordingly. The increment parameter can be a negative number, in which case the amount of available space is decreased. Set increment parameter to zero to fetch the current value of the program break.
Upon successful completion, the brk subroutine returns a value of 0, and the sbrk subroutine returns the prior value of the program break (if the available space is increased then this prior value also points to the start of the new area). If either subroutine is unsuccessful, a value of −1 is returned and the errno global variable is set to indicate the error.
The error ENOMEM is set and the allocated space remains unchanged if one or more of the following are true:
- "Process Memory Concepts". Free Software Foundation. Retrieved 9 October 2015.
- "A new malloc(3) for OpenBSD" (PDF). Retrieved 13 June 2018.
- X/Open CAE Specification, System Interfaces and Headers (PDF). X/Open Company Ltd., U.K. p. 64. Retrieved 9 October 2015.