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kmem_zalloc(9f) [xfree86 man page]

kmem_alloc(9F)						   Kernel Functions for Drivers 					    kmem_alloc(9F)

NAME
kmem_alloc, kmem_zalloc, kmem_free - allocate kernel memory SYNOPSIS
#include <sys/types.h> #include <sys/kmem.h> void *kmem_alloc(size_t size, int flag); void *kmem_zalloc(size_t size, int flag); void kmem_free(void*buf, size_t size); INTERFACE LEVEL
Architecture independent level 1 (DDI/DKI). PARAMETERS
size Number of bytes to allocate. flag Determines whether caller can sleep for memory. Possible flags are KM_SLEEP to allow sleeping until memory is available, or KM_NOSLEEP to return NULL immediately if memory is not available. buf Pointer to allocated memory. DESCRIPTION
kmem_alloc() allocates size bytes of kernel memory and returns a pointer to the allocated memory. The allocated memory is at least double- word aligned, so it can hold any C data structure. No greater alignment can be assumed. flag determines whether the caller can sleep for memory. KM_SLEEP allocations may sleep but are guaranteed to succeed. KM_NOSLEEP allocations are guaranteed not to sleep but may fail (return NULL) if no memory is currently available. The initial contents of memory allocated using kmem_alloc() are random garbage. kmem_zalloc() is like kmem_alloc() but returns zero-filled memory. kmem_free() frees previously allocated kernel memory. The buffer address and size must exactly match the original allocation. Memory can- not be returned piecemeal. RETURN VALUES
If successful, kmem_alloc() and kmem_zalloc() return a pointer to the allocated memory. If KM_NOSLEEP is set and memory cannot be allo- cated without sleeping, kmem_alloc() and kmem_zalloc() return NULL. CONTEXT
kmem_alloc() and kmem_zalloc() can be called from interrupt context only if the KM_NOSLEEP flag is set. They can be called from user con- text with any valid flag. kmem_free() can be called from user or interrupt context. SEE ALSO
copyout(9F), freerbuf(9F), getrbuf(9F) Writing Device Drivers WARNINGS
Memory allocated using kmem_alloc() is not paged. Available memory is therefore limited by the total physical memory on the system. It is also limited by the available kernel virtual address space, which is often the more restrictive constraint on large-memory configurations. Excessive use of kernel memory is likely to affect overall system performance. Overcommitment of kernel memory will cause the system to hang or panic. Misuse of the kernel memory allocator, such as writing past the end of a buffer, using a buffer after freeing it, freeing a buffer twice, or freeing a null or invalid pointer, will corrupt the kernel heap and may cause the system to corrupt data or panic. The initial contents of memory allocated using kmem_alloc() are random garbage. This random garbage may include secure kernel data. There- fore, uninitialized kernel memory should be handled carefully. For example, never copyout(9F) a potentially uninitialized buffer. NOTES
kmem_alloc(0, flag) always returns NULL. kmem_free(NULL, 0) is legal. SunOS 5.10 24 Mar 2003 kmem_alloc(9F)

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kmem_alloc(9F)                                             Kernel Functions for Drivers                                             kmem_alloc(9F)

NAME
kmem_alloc, kmem_zalloc, kmem_free - allocate kernel memory SYNOPSIS
#include <sys/types.h> #include <sys/kmem.h> void *kmem_alloc(size_t size, int flag); void *kmem_zalloc(size_t size, int flag); void kmem_free(void*buf, size_t size); INTERFACE LEVEL
Architecture independent level 1 (DDI/DKI). PARAMETERS
size Number of bytes to allocate. flag Determines whether caller can sleep for memory. Possible flags are KM_SLEEP to allow sleeping until memory is available, or KM_NOSLEEP to return NULL immediately if memory is not available. buf Pointer to allocated memory. DESCRIPTION
kmem_alloc() allocates size bytes of kernel memory and returns a pointer to the allocated memory. The allocated memory is at least double- word aligned, so it can hold any C data structure. No greater alignment can be assumed. flag determines whether the caller can sleep for memory. KM_SLEEP allocations may sleep but are guaranteed to succeed. KM_NOSLEEP allocations are guaranteed not to sleep but may fail (return NULL) if no memory is currently available. The initial contents of memory allocated using kmem_alloc() are random garbage. kmem_zalloc() is like kmem_alloc() but returns zero-filled memory. kmem_free() frees previously allocated kernel memory. The buffer address and size must exactly match the original allocation. Memory can- not be returned piecemeal. RETURN VALUES
If successful, kmem_alloc() and kmem_zalloc() return a pointer to the allocated memory. If KM_NOSLEEP is set and memory cannot be allo- cated without sleeping, kmem_alloc() and kmem_zalloc() return NULL. CONTEXT
kmem_alloc() and kmem_zalloc() can be called from interrupt context only if the KM_NOSLEEP flag is set. They can be called from user con- text with any valid flag. kmem_free() can be called from user or interrupt context. SEE ALSO
copyout(9F), freerbuf(9F), getrbuf(9F) Writing Device Drivers WARNINGS
Memory allocated using kmem_alloc() is not paged. Available memory is therefore limited by the total physical memory on the system. It is also limited by the available kernel virtual address space, which is often the more restrictive constraint on large-memory configurations. Excessive use of kernel memory is likely to affect overall system performance. Overcommitment of kernel memory will cause the system to hang or panic. Misuse of the kernel memory allocator, such as writing past the end of a buffer, using a buffer after freeing it, freeing a buffer twice, or freeing a null or invalid pointer, will corrupt the kernel heap and may cause the system to corrupt data or panic. The initial contents of memory allocated using kmem_alloc() are random garbage. This random garbage may include secure kernel data. There- fore, uninitialized kernel memory should be handled carefully. For example, never copyout(9F) a potentially uninitialized buffer. NOTES
kmem_alloc(0, flag) always returns NULL. kmem_free(NULL, 0) is legal. SunOS 5.10 24 Mar 2003 kmem_alloc(9F)
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