UVM_HOTPLUG(9) NetBSD Kernel Developer's Manual UVM_HOTPLUG(9)
NAME
uvm_physseg_init, uvm_physseg_valid_p, uvm_physseg_get_start, uvm_physseg_get_end, uvm_physseg_get_avail_start, uvm_physseg_get_avail_end, uvm_physseg_get_pg, uvm_physseg_get_pmseg, uvm_physseg_get_free_list, uvm_physseg_get_start_hint, uvm_physseg_set_start_hint, uvm_physseg_get_next, uvm_physseg_get_prev, uvm_physseg_get_first, uvm_physseg_get_last, uvm_physseg_get_highest_frame, uvm_physseg_find, uvm_page_physload, uvm_page_physunload, uvm_page_physunload_force, uvm_physseg_plug, uvm_physseg_unplug, uvm_physseg_set_avail_start, uvm_physseg_set_avail_end -- memory hotplug manager
SYNOPSIS
#include <uvm/uvm_physseg.h> void uvm_physseg_init(void); uvm_physseg_t uvm_page_physload(paddr_t start, paddr_t end, paddr_t avail_start, paddr_t avail_end, int free_list); bool uvm_page_physunload(uvm_physseg_t upm, int free_list, paddr_t *paddrp); bool uvm_page_physunload_force(uvm_physseg_t upm, int free_list, paddr_t *paddrp); bool uvm_physseg_plug(paddr_t pfn, size_t npages, uvm_physseg_t *upmp); bool uvm_physseg_unplug(paddr_t pfn, size_t npages);
DESCRIPTION
These utility routines provide the ability to tell uvm(9) about system memory segments. When the kernel is compiled with 'options UVM_HOTPLUG', memory segments are handled in a dynamic data structure (rbtree(3)) com- pared to a static array when not. This enables kernel code to add or remove information about memory segments at any point after boot - thus "hotplug". uvm_page_physload(), uvm_page_physunload(), and uvm_page_physunload_force() are legacy interfaces which may be removed in the future. They must never be used after uvm_init(9). WARNING: This is an experimental feature and should not be used in pro- duction environments. Furthermore, attempting to "hotplug" without 'options UVM_HOTPLUG' after boot will almost certainly end in a panic(9).
USAGE
INITIALIZING HOTPLUG The function uvm_physseg_init() initializes the hotplug subsystem. This is expected to happen exactly once, at boot time, and from MD code. PLUGGING IN MEMORY uvm_page_physload() registers uvm(9) with a memory segment span, and on a specified free_list. It must be called at system boot time as part of setting up memory management. The arguments describe the start and end of the physical addresses of the segment, and the available start and end addresses of pages not already in use. If a system has memory banks of different speeds the slower memory should be given a higher free_list value. start Starting page frame number of the physical memory seg- ments. end Ending page frame number of the physical memory seg- ments. avail_start Available starting page frame number of the physical memory segments. avail_end Available ending page frame number of the physical memory segments. free_list The free list types are defined in the Machine Depen- dent code. This function returns a valid uvm_physseg_t handle when a successful plug occurs, else it will return UVM_PHYSSEG_TYPE_INVALID when the plug fails. uvm_physseg_plug() registers uvm(9) with a memory segment span. It can also be called to initiate a hotplug and register a newly "hotplugged" physical memory range into the VM. Unlike uvm_page_physload() this func- tion can, if 'options UVM_HOTPLUG' is enabled at compile time, be used after uvm_init(9). The arguments describe the start page frame, the num- ber of pages to plug starting from the start page frame and an optional return variable, which points to a valid uvm_physseg_t handle when a suc- cessful plug occurs. pfn Starting page frame number of the physical memory segment. npages Total number of pages from the starting page frame number to plug in. upmp If upmp is not NULL, then on a successful plug, a valid pointer to the uvm_physseg_t handle for the segment which was plugged is returned. This function returns true when a successful plug occurs, false other- wise. UNPLUGGING MEMORY The functions uvm_page_physunload(), uvm_page_physunload_force(), and uvm_physseg_unplug() make uvm(9) forget about previously registered mem- ory segments or portions of such. uvm_page_physunload() unloads pages from a segment (from the front or from the back) depending on its availability. When the last page is removed, the segment handle is invalidated and supporting metadata is freed. Note: This function can only be used during boot time. Pages, once unloaded, are unregistered from uvm and are therefore assumed to be man- aged by the code which called uvm_page_physunload(9) (usually boot time MD code, for boottime memory "allocation"). The arguments are: upm The handle identifying segment from which we are trying to unload memory. free_list The free list types are defined in the Machine Dependent code. paddrp The pointer to the physical address that was unloaded. If the unload was successful, true is returned, false otherwise. uvm_page_physunload_force() unconditionally unloads pages from a segment. When the last page is removed, the segment handle is invalidated and sup- porting metadata is freed. Note: This function can only be used during boot time. Pages, once unloaded, are unregistered from uvm and are therefore assumed to be man- aged by the code which called uvm_page_physunload_force(9) (usually boot time MD code, for boottime memory "allocation"). The arguments are: upm The handle identifying segment from which we are trying to unload memory. free_list The free list types are defined in the Machine Dependent code. paddrp The pointer to the physical address that was unloaded. If the unload was successful true is returned, false otherwise. uvm_physseg_unplug() can be called to unplug an existing physical memory segment. Unlike uvm_page_physunload() and uvm_page_physunload_force(), it can be called after uvm_init(9), if 'options UVM_HOTPLUG' is enabled at compile time. uvm_hotplug(9) makes no effort to manage the state of the underlying physical memory. It is up to the caller to ensure that it is not in use, either by uvm(9), or by any other sub-system. Further, any hardware quiescing that may be required is the responsibility of MD code. The arguments describe the start page frame and the number of pages to unplug. The arguments are: pfn Starting page frame number of the physical memory segment. npages Total number of pages from the starting page frame number to unplug. Returns true or false depending on success or failure respectively.
UTILITY FUNCTIONS
bool uvm_physseg_valid_p(uvm_physseg_t upm) paddr_t uvm_physseg_get_start(uvm_physseg_t upm) paddr_t uvm_physseg_get_end(uvm_physseg_t upm) paddr_t uvm_physseg_get_avail_start(uvm_physseg_t upm) paddr_t uvm_physseg_get_avail_end(uvm_physseg_t upm) struct vm_page * uvm_physseg_get_pg(uvm_physseg_t upm, paddr_t index) struct pmap_physseg * uvm_physseg_get_pmesg(uvm_physseg_t upm) int uvm_physseg_get_free_list(uvm_physseg_t upm) u_int uvm_physseg_get_start_hint(uvm_physseg_t upm) bool uvm_physseg_set_start_hint(uvm_physseg_t upm, u_int start_hint) uvm_physseg_t uvm_physseg_get_next(uvm_physseg_t upm) uvm_physseg_t uvm_physseg_get_prev(uvm_physseg_t upm) uvm_physseg_t uvm_physseg_get_first(void) uvm_physseg_t uvm_physseg_get_last(void) paddr_t uvm_physseg_get_highest_frame(void) paddr_t uvm_physseg_find(paddr pframe, psize_t *offsetp) void uvm_physseg_set_avail_start(uvm_physseg_t upm, paddr_t avail_start) void uvm_physseg_set_avail_end(uvm_physseg_t upm, paddr_t avail_end) uvm_physseg_valid_p() validates a handle that is passed in, returns true if the given handle is valid, false otherwise. uvm_physseg_get_start() if a valid uvm_physseg_t handle is passed in, it returns the starting physical address of the segment. The returned value is of type paddr_t. In case the handle is invalid the returned value will match (paddr_t) -1. uvm_physseg_get_end() if a valid uvm_physseg_t handle is passed in, it returns the ending physical address of the segment. The returned value is of type paddr_t. In case the handle is invalid the returned value will match (paddr_t) -1. uvm_physseg_get_avail_start() if a valid uvm_physseg_t handle is passed in, it returns the available starting physical address of the segment. The returned value is of type paddr_t. In case the handle is invalid the returned value will match (paddr_t) -1. uvm_physseg_get_avail_end() if a valid uvm_physseg_t handle is passed in, it returns the available ending physical address of the segment. The returned value is of type paddr_t. In case the handle is invalid the returned value will match (paddr_t) -1. uvm_physseg_get_pg() if a valid uvm_physseg_t handle along with an index value is passed in, it returns the struct vm_page * object contained in that location. uvm_physseg_get_pmseg() if a valid uvm_physseg_t handle is passed in, it returns the struct pmap_physseg * object contained in the handle. uvm_physseg_get_free_list() if a valid uvm_physseg_t handle is passed in, it returns the free_list type for which the current segment is associated with. The returned value is of type int. uvm_physseg_get_start_hint() if a valid uvm_physseg_t handle is passed in, it returns the start_hint type for the current segment. The returned value is of type u_int. uvm_physseg_set_start_hint() if a valid handle along with the start_hint is passed in, the value is set in the segment. And a true is returned to indicate a successful value setting. In case the handle is invalid a false is returned. uvm_physseg_get_next() if a valid handle is passed in, it returns the next valid uvm_physseg_t handle in the sequence. However if the handle passed is the last segment in the sequence the function returns UVM_PHYSSEG_TYPE_INVALID_OVERFLOW. Passing an invalid handle is not fatal, and returns UVM_PHYSSEG_TYPE_INVALID. uvm_physseg_get_prev() if a valid handle is passed in, it returns the previous validh uvm_physseg_t handle in the sequence. However if the handle passed is the first segment in the sequence the function returns UVM_PHYSSEG_TYPE_INVALID_EMPTY. Passing an invalid handle is not fatal, and returns UVM_PHYSSEG_TYPE_INVALID. uvm_physseg_get_first() returns the first valid uvm_physseg_t handle in the sequence. However if there are no valid handles in the sequence yet, the function returns UVM_PHYSSEG_TYPE_INVALID_EMPTY. uvm_physseg_get_last() returns the last valid uvm_physseg_t handle in the sequence. However if there are no valid handles in the sequence yet, the function returns UVM_PHYSSEG_TYPE_INVALID_EMPTY. uvm_physseg_get_highest_frame() returns the frame number of the highest registered physical page frame which is of type paddr_t. XXX: Searching on empty sequences are not yet processed in the function. uvm_physseg_find() searches for a given segment containing the page frame (paddr_t) passed in. If a segment that falls between starting and ending addresses is found, the corresponding uvm_physseg_t handle is returned else a UVM_PHYSSEG_TYPE_INVALID is returned. The second parameter, if not set to NULL, the offset value of the page frame passed in with respect to the starting address is set to the appropriate psize_t value if the search was successful in finding the segment. uvm_physseg_set_avail_start() if a valid uvm_physseg_t handle is passed in along with the available starting physical address of the segment of type paddr_t, the value is set in the segment. uvm_physseg_set_avail_end() if a valid uvm_physseg_t handle is passed in along with the available ending physical address of the segment of type paddr_t, the value is set in the segment.
NOTES
uvm_physseg_plug() and uvm_physseg_unplug() must never be used after uvm_init(9) in a kernel build where 'options UVM_HOTPLUG' is not enabled.
DIAGNOSTICS
Tests for uvm_physseg_init are in tests/sys/uvm. Unit / functional tests are in tests/sys/uvm/t_uvm_physseg.c. These tests focus on the expected working of the uvm_physseg_init API and its utility functions. Load tests can be found in tests/sys/uvm/t_uvm_physseg_load.c. These tests focus on stressing the uvm_physseg_init implementation in order to make performance comparisons between kernel builds with and without 'options UVM_HOTPLUG'
CODE REFERENCES
The uvm hotplug feature is implemented in the file sys/uvm/uvm_physseg.c. The uvm hotplug API is exported via sys/uvm/uvm_physseg.h.
SEE ALSO
extent(9), free(9), malloc(9), memoryallocators(9), uvm(9)
HISTORY
This API emerged out of the need to insert new pages at runtime in the Xen x86/balloon(4) driver.
AUTHORS
Cherry G. Mathew <cherry@NetBSD.org> designed and integrated the API. Santhosh N. Raju <santhosh.raju@gmail.com> implemented the dynamic seg- ment handling code and all tests for this API. Nick Hudson <skrll@NetBSD.org> contributed bugfixes and testing on a wide range of hardware ports. NetBSD 10.1 January 17, 2020 NetBSD 10.1
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