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Mon, 11 Sep 2023 08:35:47 GMT (envelope-from git) Date: Mon, 11 Sep 2023 08:35:47 GMT Message-Id: <202309110835.38B8Zl9t059626@gitrepo.freebsd.org> To: src-committers@FreeBSD.org, dev-commits-src-all@FreeBSD.org, dev-commits-src-main@FreeBSD.org From: Doug Moore Subject: git: 6cec93da46c4 - main - Revert "radix_trie: have vm_radix use pctrie code" List-Id: Commit messages for all branches of the src repository List-Archive: https://lists.freebsd.org/archives/dev-commits-src-all List-Help: List-Post: List-Subscribe: List-Unsubscribe: Sender: owner-dev-commits-src-all@freebsd.org X-BeenThere: dev-commits-src-all@freebsd.org MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit X-Git-Committer: dougm X-Git-Repository: src X-Git-Refname: refs/heads/main X-Git-Reftype: branch X-Git-Commit: 6cec93da46c4a91a042b0be488844052c0f8985a Auto-Submitted: auto-generated The branch main has been updated by dougm: URL: https://cgit.FreeBSD.org/src/commit/?id=6cec93da46c4a91a042b0be488844052c0f8985a commit 6cec93da46c4a91a042b0be488844052c0f8985a Author: Doug Moore AuthorDate: 2023-09-11 08:34:46 +0000 Commit: Doug Moore CommitDate: 2023-09-11 08:35:36 +0000 Revert "radix_trie: have vm_radix use pctrie code" This reverts commit a494d30465f21e8cb014a5c788a43001397325d7. --- sys/vm/_vm_radix.h | 9 +- sys/vm/vm_radix.c | 696 ++++++++++++++++++++++++++++++++++++++++++++++++++++- sys/vm/vm_radix.h | 113 ++------- 3 files changed, 709 insertions(+), 109 deletions(-) diff --git a/sys/vm/_vm_radix.h b/sys/vm/_vm_radix.h index 2d9b05c7b52a..01eb25a9dccf 100644 --- a/sys/vm/_vm_radix.h +++ b/sys/vm/_vm_radix.h @@ -31,13 +31,16 @@ #ifndef __VM_RADIX_H_ #define __VM_RADIX_H_ -#include +/* + * Radix tree node. + */ +struct vm_radix_node; /* - * Radix tree + * Radix tree root. */ struct vm_radix { - struct pctrie rt_trie; + struct vm_radix_node *rt_root; }; #endif /* !__VM_RADIX_H_ */ diff --git a/sys/vm/vm_radix.c b/sys/vm/vm_radix.c index b8c693eca66f..768a56ed76f7 100644 --- a/sys/vm/vm_radix.c +++ b/sys/vm/vm_radix.c @@ -54,26 +54,302 @@ #include "opt_ddb.h" #include -#include +#include +#include +#include +#include +#include +#include +#include #include #include +#include +#include #include #include +#ifdef DDB +#include +#endif + +/* + * These widths should allow the pointers to a node's children to fit within + * a single cache line. The extra levels from a narrow width should not be + * a problem thanks to path compression. + */ +#ifdef __LP64__ +#define VM_RADIX_WIDTH 4 +#else +#define VM_RADIX_WIDTH 3 +#endif + +#define VM_RADIX_COUNT (1 << VM_RADIX_WIDTH) +#define VM_RADIX_MASK (VM_RADIX_COUNT - 1) +#define VM_RADIX_LIMIT \ + (howmany(sizeof(vm_pindex_t) * NBBY, VM_RADIX_WIDTH) - 1) + +#if VM_RADIX_WIDTH == 3 +typedef uint8_t rn_popmap_t; +#elif VM_RADIX_WIDTH == 4 +typedef uint16_t rn_popmap_t; +#elif VM_RADIX_WIDTH == 5 +typedef uint32_t rn_popmap_t; +#else +#error Unsupported width +#endif +_Static_assert(sizeof(rn_popmap_t) <= sizeof(int), + "rn_popmap_t too wide"); + +/* Set of all flag bits stored in node pointers. */ +#define VM_RADIX_FLAGS (VM_RADIX_ISLEAF) +#define VM_RADIX_PAD VM_RADIX_FLAGS + +enum vm_radix_access { SMR, LOCKED, UNSERIALIZED }; + +struct vm_radix_node; +typedef SMR_POINTER(struct vm_radix_node *) smrnode_t; + +struct vm_radix_node { + vm_pindex_t rn_owner; /* Owner of record. */ + rn_popmap_t rn_popmap; /* Valid children. */ + uint8_t rn_clev; /* Level * WIDTH. */ + smrnode_t rn_child[VM_RADIX_COUNT]; /* Child nodes. */ +}; + static uma_zone_t vm_radix_node_zone; -smr_t vm_radix_smr; +static smr_t vm_radix_smr; + +static void vm_radix_node_store(smrnode_t *p, struct vm_radix_node *v, + enum vm_radix_access access); -void * -vm_radix_node_alloc(struct pctrie *ptree) +/* + * Map index to an array position for the children of rnode, + */ +static __inline int +vm_radix_slot(struct vm_radix_node *rnode, vm_pindex_t index) { - return (uma_zalloc_smr(vm_radix_node_zone, M_NOWAIT)); + return ((index >> rnode->rn_clev) & VM_RADIX_MASK); } -void -vm_radix_node_free(struct pctrie *ptree, void *node) +/* + * Returns true if index does not belong to the specified rnode. Otherwise, + * sets slot value, and returns false. + */ +static __inline bool +vm_radix_keybarr(struct vm_radix_node *rnode, vm_pindex_t index, int *slot) +{ + index = (index - rnode->rn_owner) >> rnode->rn_clev; + if (index >= VM_RADIX_COUNT) + return (true); + *slot = index; + return (false); +} + +/* + * Allocate a radix node. + */ +static struct vm_radix_node * +vm_radix_node_get(vm_pindex_t index, vm_pindex_t newind) +{ + struct vm_radix_node *rnode; + + rnode = uma_zalloc_smr(vm_radix_node_zone, M_NOWAIT); + if (rnode == NULL) + return (NULL); + + /* + * We want to clear the last child pointer after the final section + * has exited so lookup can not return false negatives. It is done + * here because it will be cache-cold in the dtor callback. + */ + if (rnode->rn_popmap != 0) { + vm_radix_node_store(&rnode->rn_child[ffs(rnode->rn_popmap) - 1], + VM_RADIX_NULL, UNSERIALIZED); + rnode->rn_popmap = 0; + } + + /* + * From the highest-order bit where the indexes differ, + * compute the highest level in the trie where they differ. Then, + * compute the least index of this subtrie. + */ + KASSERT(index != newind, ("%s: passing the same key value %jx", + __func__, (uintmax_t)index)); + _Static_assert(sizeof(long long) >= sizeof(vm_pindex_t), + "vm_pindex_t too wide"); + _Static_assert(sizeof(vm_pindex_t) * NBBY <= + (1 << (sizeof(rnode->rn_clev) * NBBY)), "rn_clev too narrow"); + rnode->rn_clev = rounddown(flsll(index ^ newind) - 1, VM_RADIX_WIDTH); + rnode->rn_owner = VM_RADIX_COUNT; + rnode->rn_owner = index & -(rnode->rn_owner << rnode->rn_clev); + return (rnode); +} + +/* + * Free radix node. + */ +static __inline void +vm_radix_node_put(struct vm_radix_node *rnode) +{ +#ifdef INVARIANTS + int slot; + + KASSERT(powerof2(rnode->rn_popmap), + ("vm_radix_node_put: rnode %p has too many children %04x", rnode, + rnode->rn_popmap)); + for (slot = 0; slot < VM_RADIX_COUNT; slot++) { + if ((rnode->rn_popmap & (1 << slot)) != 0) + continue; + KASSERT(smr_unserialized_load(&rnode->rn_child[slot], true) == + VM_RADIX_NULL, + ("vm_radix_node_put: rnode %p has a child", rnode)); + } +#endif + uma_zfree_smr(vm_radix_node_zone, rnode); +} + +/* + * Fetch a node pointer from a slot in another node. + */ +static __inline struct vm_radix_node * +vm_radix_node_load(smrnode_t *p, enum vm_radix_access access) +{ + + switch (access) { + case UNSERIALIZED: + return (smr_unserialized_load(p, true)); + case LOCKED: + return (smr_serialized_load(p, true)); + case SMR: + return (smr_entered_load(p, vm_radix_smr)); + } + __assert_unreachable(); +} + +static __inline void +vm_radix_node_store(smrnode_t *p, struct vm_radix_node *v, + enum vm_radix_access access) +{ + + switch (access) { + case UNSERIALIZED: + smr_unserialized_store(p, v, true); + break; + case LOCKED: + smr_serialized_store(p, v, true); + break; + case SMR: + panic("vm_radix_node_store: Not supported in smr section."); + } +} + +/* + * Get the root node for a radix tree. + */ +static __inline struct vm_radix_node * +vm_radix_root_load(struct vm_radix *rtree, enum vm_radix_access access) +{ + + return (vm_radix_node_load((smrnode_t *)&rtree->rt_root, access)); +} + +/* + * Set the root node for a radix tree. + */ +static __inline void +vm_radix_root_store(struct vm_radix *rtree, struct vm_radix_node *rnode, + enum vm_radix_access access) +{ + + vm_radix_node_store((smrnode_t *)&rtree->rt_root, rnode, access); +} + +/* + * Returns TRUE if the specified radix node is a leaf and FALSE otherwise. + */ +static __inline bool +vm_radix_isleaf(struct vm_radix_node *rnode) +{ + + return (((uintptr_t)rnode & VM_RADIX_ISLEAF) != 0); +} + +/* + * Returns page cast to radix node with leaf bit set. + */ +static __inline struct vm_radix_node * +vm_radix_toleaf(vm_page_t page) +{ + return ((struct vm_radix_node *)((uintptr_t)page | VM_RADIX_ISLEAF)); +} + +/* + * Returns the associated page extracted from rnode. + */ +static __inline vm_page_t +vm_radix_topage(struct vm_radix_node *rnode) +{ + + return ((vm_page_t)((uintptr_t)rnode & ~VM_RADIX_FLAGS)); +} + +/* + * Make 'child' a child of 'rnode'. + */ +static __inline void +vm_radix_addnode(struct vm_radix_node *rnode, vm_pindex_t index, + struct vm_radix_node *child, enum vm_radix_access access) +{ + int slot; + + slot = vm_radix_slot(rnode, index); + vm_radix_node_store(&rnode->rn_child[slot], child, access); + rnode->rn_popmap ^= 1 << slot; + KASSERT((rnode->rn_popmap & (1 << slot)) != 0, + ("%s: bad popmap slot %d in rnode %p", __func__, slot, rnode)); +} + +/* + * Internal helper for vm_radix_reclaim_allnodes(). + * This function is recursive. + */ +static void +vm_radix_reclaim_allnodes_int(struct vm_radix_node *rnode) +{ + struct vm_radix_node *child; + int slot; + + while (rnode->rn_popmap != 0) { + slot = ffs(rnode->rn_popmap) - 1; + child = vm_radix_node_load(&rnode->rn_child[slot], + UNSERIALIZED); + KASSERT(child != VM_RADIX_NULL, + ("%s: bad popmap slot %d in rnode %p", + __func__, slot, rnode)); + if (!vm_radix_isleaf(child)) + vm_radix_reclaim_allnodes_int(child); + rnode->rn_popmap ^= 1 << slot; + vm_radix_node_store(&rnode->rn_child[slot], VM_RADIX_NULL, + UNSERIALIZED); + } + vm_radix_node_put(rnode); +} + +/* + * radix node zone initializer. + */ +static int +vm_radix_zone_init(void *mem, int size, int flags) { - uma_zfree_smr(vm_radix_node_zone, node); + struct vm_radix_node *rnode; + + rnode = mem; + rnode->rn_popmap = 0; + for (int i = 0; i < nitems(rnode->rn_child); i++) + vm_radix_node_store(&rnode->rn_child[i], VM_RADIX_NULL, + UNSERIALIZED); + return (0); } #ifndef UMA_MD_SMALL_ALLOC @@ -107,14 +383,412 @@ void vm_radix_zinit(void) { - vm_radix_node_zone = uma_zcreate("RADIX NODE", pctrie_node_size(), - NULL, NULL, pctrie_zone_init, NULL, - PCTRIE_PAD, UMA_ZONE_VM | UMA_ZONE_SMR); + vm_radix_node_zone = uma_zcreate("RADIX NODE", + sizeof(struct vm_radix_node), NULL, NULL, vm_radix_zone_init, NULL, + VM_RADIX_PAD, UMA_ZONE_VM | UMA_ZONE_SMR); vm_radix_smr = uma_zone_get_smr(vm_radix_node_zone); } +/* + * Inserts the key-value pair into the trie. + * Panics if the key already exists. + */ +int +vm_radix_insert(struct vm_radix *rtree, vm_page_t page) +{ + vm_pindex_t index, newind; + struct vm_radix_node *leaf, *parent, *rnode; + smrnode_t *parentp; + int slot; + + index = page->pindex; + leaf = vm_radix_toleaf(page); + + /* + * The owner of record for root is not really important because it + * will never be used. + */ + rnode = vm_radix_root_load(rtree, LOCKED); + parent = NULL; + for (;;) { + if (vm_radix_isleaf(rnode)) { + if (rnode == VM_RADIX_NULL) { + if (parent == NULL) + rtree->rt_root = leaf; + else + vm_radix_addnode(parent, index, leaf, + LOCKED); + return (0); + } + newind = vm_radix_topage(rnode)->pindex; + if (newind == index) + panic("%s: key %jx is already present", + __func__, (uintmax_t)index); + break; + } + if (vm_radix_keybarr(rnode, index, &slot)) { + newind = rnode->rn_owner; + break; + } + parent = rnode; + rnode = vm_radix_node_load(&rnode->rn_child[slot], LOCKED); + } + + /* + * A new node is needed because the right insertion level is reached. + * Setup the new intermediate node and add the 2 children: the + * new object and the older edge or object. + */ + parentp = (parent != NULL) ? &parent->rn_child[slot]: + (smrnode_t *)&rtree->rt_root; + parent = vm_radix_node_get(index, newind); + if (parent == NULL) + return (ENOMEM); + /* These writes are not yet visible due to ordering. */ + vm_radix_addnode(parent, index, leaf, UNSERIALIZED); + vm_radix_addnode(parent, newind, rnode, UNSERIALIZED); + /* Serializing write to make the above visible. */ + vm_radix_node_store(parentp, parent, LOCKED); + return (0); +} + +/* + * Returns the value stored at the index. If the index is not present, + * NULL is returned. + */ +static __always_inline vm_page_t +_vm_radix_lookup(struct vm_radix *rtree, vm_pindex_t index, + enum vm_radix_access access) +{ + struct vm_radix_node *rnode; + vm_page_t m; + int slot; + + rnode = vm_radix_root_load(rtree, access); + for (;;) { + if (vm_radix_isleaf(rnode)) { + if ((m = vm_radix_topage(rnode)) != NULL && + m->pindex == index) + return (m); + break; + } + if (vm_radix_keybarr(rnode, index, &slot)) + break; + rnode = vm_radix_node_load(&rnode->rn_child[slot], access); + } + return (NULL); +} + +/* + * Returns the value stored at the index assuming there is an external lock. + * + * If the index is not present, NULL is returned. + */ +vm_page_t +vm_radix_lookup(struct vm_radix *rtree, vm_pindex_t index) +{ + + return _vm_radix_lookup(rtree, index, LOCKED); +} + +/* + * Returns the value stored at the index without requiring an external lock. + * + * If the index is not present, NULL is returned. + */ +vm_page_t +vm_radix_lookup_unlocked(struct vm_radix *rtree, vm_pindex_t index) +{ + vm_page_t m; + + smr_enter(vm_radix_smr); + m = _vm_radix_lookup(rtree, index, SMR); + smr_exit(vm_radix_smr); + + return (m); +} + +/* + * Returns the page with the least pindex that is greater than or equal to the + * specified pindex, or NULL if there are no such pages. + * + * Requires that access be externally synchronized by a lock. + */ +vm_page_t +vm_radix_lookup_ge(struct vm_radix *rtree, vm_pindex_t index) +{ + struct vm_radix_node *rnode, *succ; + vm_page_t m; + int slot; + + /* + * Descend the trie as if performing an ordinary lookup for the page + * with the specified pindex. However, unlike an ordinary lookup, as we + * descend the trie, we use "succ" to remember the last branching-off + * point, that is, the interior node under which the page with the least + * pindex that is both outside our current path down the trie and more + * than the specified pindex resides. (The node's popmap makes it fast + * and easy to recognize a branching-off point.) If our ordinary lookup + * fails to yield a page with a pindex that is greater than or equal to + * the specified pindex, then we will exit this loop and perform a + * lookup starting from "succ". If "succ" is not NULL, then that lookup + * is guaranteed to succeed. + */ + rnode = vm_radix_root_load(rtree, LOCKED); + succ = NULL; + for (;;) { + if (vm_radix_isleaf(rnode)) { + if ((m = vm_radix_topage(rnode)) != NULL && + m->pindex >= index) + return (m); + break; + } + if (vm_radix_keybarr(rnode, index, &slot)) { + /* + * If all pages in this subtree have pindex > index, + * then the page in this subtree with the least pindex + * is the answer. + */ + if (rnode->rn_owner > index) + succ = rnode; + break; + } + + /* + * Just in case the next search step leads to a subtree of all + * pages with pindex < index, check popmap to see if a next + * bigger step, to a subtree of all pages with pindex > index, + * is available. If so, remember to restart the search here. + */ + if ((rnode->rn_popmap >> slot) > 1) + succ = rnode; + rnode = vm_radix_node_load(&rnode->rn_child[slot], LOCKED); + } + + /* + * Restart the search from the last place visited in the subtree that + * included some pages with pindex > index, if there was such a place. + */ + if (succ == NULL) + return (NULL); + if (succ != rnode) { + /* + * Take a step to the next bigger sibling of the node chosen + * last time. In that subtree, all pages have pindex > index. + */ + slot = vm_radix_slot(succ, index) + 1; + KASSERT((succ->rn_popmap >> slot) != 0, + ("%s: no popmap siblings past slot %d in node %p", + __func__, slot, succ)); + slot += ffs(succ->rn_popmap >> slot) - 1; + succ = vm_radix_node_load(&succ->rn_child[slot], LOCKED); + } + + /* + * Find the page in the subtree rooted at "succ" with the least pindex. + */ + while (!vm_radix_isleaf(succ)) { + KASSERT(succ->rn_popmap != 0, + ("%s: no popmap children in node %p", __func__, succ)); + slot = ffs(succ->rn_popmap) - 1; + succ = vm_radix_node_load(&succ->rn_child[slot], LOCKED); + } + return (vm_radix_topage(succ)); +} + +/* + * Returns the page with the greatest pindex that is less than or equal to the + * specified pindex, or NULL if there are no such pages. + * + * Requires that access be externally synchronized by a lock. + */ +vm_page_t +vm_radix_lookup_le(struct vm_radix *rtree, vm_pindex_t index) +{ + struct vm_radix_node *pred, *rnode; + vm_page_t m; + int slot; + + /* + * Mirror the implementation of vm_radix_lookup_ge, described above. + */ + rnode = vm_radix_root_load(rtree, LOCKED); + pred = NULL; + for (;;) { + if (vm_radix_isleaf(rnode)) { + if ((m = vm_radix_topage(rnode)) != NULL && + m->pindex <= index) + return (m); + break; + } + if (vm_radix_keybarr(rnode, index, &slot)) { + if (rnode->rn_owner < index) + pred = rnode; + break; + } + if ((rnode->rn_popmap & ((1 << slot) - 1)) != 0) + pred = rnode; + rnode = vm_radix_node_load(&rnode->rn_child[slot], LOCKED); + } + if (pred == NULL) + return (NULL); + if (pred != rnode) { + slot = vm_radix_slot(pred, index); + KASSERT((pred->rn_popmap & ((1 << slot) - 1)) != 0, + ("%s: no popmap siblings before slot %d in node %p", + __func__, slot, pred)); + slot = fls(pred->rn_popmap & ((1 << slot) - 1)) - 1; + pred = vm_radix_node_load(&pred->rn_child[slot], LOCKED); + } + while (!vm_radix_isleaf(pred)) { + KASSERT(pred->rn_popmap != 0, + ("%s: no popmap children in node %p", __func__, pred)); + slot = fls(pred->rn_popmap) - 1; + pred = vm_radix_node_load(&pred->rn_child[slot], LOCKED); + } + return (vm_radix_topage(pred)); +} + +/* + * Remove the specified index from the trie, and return the value stored at + * that index. If the index is not present, return NULL. + */ +vm_page_t +vm_radix_remove(struct vm_radix *rtree, vm_pindex_t index) +{ + struct vm_radix_node *child, *parent, *rnode; + vm_page_t m; + int slot; + + rnode = NULL; + child = vm_radix_root_load(rtree, LOCKED); + for (;;) { + if (vm_radix_isleaf(child)) + break; + parent = rnode; + rnode = child; + slot = vm_radix_slot(rnode, index); + child = vm_radix_node_load(&rnode->rn_child[slot], LOCKED); + } + if ((m = vm_radix_topage(child)) == NULL || m->pindex != index) + return (NULL); + if (rnode == NULL) { + vm_radix_root_store(rtree, VM_RADIX_NULL, LOCKED); + return (m); + } + KASSERT((rnode->rn_popmap & (1 << slot)) != 0, + ("%s: bad popmap slot %d in rnode %p", __func__, slot, rnode)); + rnode->rn_popmap ^= 1 << slot; + vm_radix_node_store(&rnode->rn_child[slot], VM_RADIX_NULL, LOCKED); + if (!powerof2(rnode->rn_popmap)) + return (m); + KASSERT(rnode->rn_popmap != 0, ("%s: bad popmap all zeroes", __func__)); + slot = ffs(rnode->rn_popmap) - 1; + child = vm_radix_node_load(&rnode->rn_child[slot], LOCKED); + KASSERT(child != VM_RADIX_NULL, + ("%s: bad popmap slot %d in rnode %p", __func__, slot, rnode)); + if (parent == NULL) + vm_radix_root_store(rtree, child, LOCKED); + else { + slot = vm_radix_slot(parent, index); + KASSERT(rnode == + vm_radix_node_load(&parent->rn_child[slot], LOCKED), + ("%s: invalid child value", __func__)); + vm_radix_node_store(&parent->rn_child[slot], child, LOCKED); + } + /* + * The child is still valid and we can not zero the + * pointer until all smr references are gone. + */ + vm_radix_node_put(rnode); + return (m); +} + +/* + * Remove and free all the nodes from the radix tree. + * This function is recursive but there is a tight control on it as the + * maximum depth of the tree is fixed. + */ +void +vm_radix_reclaim_allnodes(struct vm_radix *rtree) +{ + struct vm_radix_node *root; + + root = vm_radix_root_load(rtree, LOCKED); + if (root == VM_RADIX_NULL) + return; + vm_radix_root_store(rtree, VM_RADIX_NULL, UNSERIALIZED); + if (!vm_radix_isleaf(root)) + vm_radix_reclaim_allnodes_int(root); +} + +/* + * Replace an existing page in the trie with another one. + * Panics if there is not an old page in the trie at the new page's index. + */ +vm_page_t +vm_radix_replace(struct vm_radix *rtree, vm_page_t newpage) +{ + struct vm_radix_node *leaf, *parent, *rnode; + vm_page_t m; + vm_pindex_t index; + int slot; + + leaf = vm_radix_toleaf(newpage); + index = newpage->pindex; + rnode = vm_radix_root_load(rtree, LOCKED); + parent = NULL; + for (;;) { + if (vm_radix_isleaf(rnode)) { + if ((m = vm_radix_topage(rnode)) != NULL && + m->pindex == index) { + if (parent == NULL) + rtree->rt_root = leaf; + else + vm_radix_node_store( + &parent->rn_child[slot], leaf, + LOCKED); + return (m); + } + break; + } + if (vm_radix_keybarr(rnode, index, &slot)) + break; + parent = rnode; + rnode = vm_radix_node_load(&rnode->rn_child[slot], LOCKED); + } + panic("%s: original replacing page not found", __func__); +} + void vm_radix_wait(void) { uma_zwait(vm_radix_node_zone); } + +#ifdef DDB +/* + * Show details about the given radix node. + */ +DB_SHOW_COMMAND(radixnode, db_show_radixnode) +{ + struct vm_radix_node *rnode, *tmp; + int slot; + rn_popmap_t popmap; + + if (!have_addr) + return; + rnode = (struct vm_radix_node *)addr; + db_printf("radixnode %p, owner %jx, children popmap %04x, level %u:\n", + (void *)rnode, (uintmax_t)rnode->rn_owner, rnode->rn_popmap, + rnode->rn_clev / VM_RADIX_WIDTH); + for (popmap = rnode->rn_popmap; popmap != 0; popmap ^= 1 << slot) { + slot = ffs(popmap) - 1; + tmp = vm_radix_node_load(&rnode->rn_child[slot], UNSERIALIZED); + db_printf("slot: %d, val: %p, page: %p, clev: %d\n", + slot, (void *)tmp, + vm_radix_isleaf(tmp) ? vm_radix_topage(tmp) : NULL, + rnode->rn_clev / VM_RADIX_WIDTH); + } +} +#endif /* DDB */ diff --git a/sys/vm/vm_radix.h b/sys/vm/vm_radix.h index a332618fc0e6..231edda65102 100644 --- a/sys/vm/vm_radix.h +++ b/sys/vm/vm_radix.h @@ -34,113 +34,36 @@ #include #ifdef _KERNEL -#include -#include +int vm_radix_insert(struct vm_radix *rtree, vm_page_t page); void vm_radix_wait(void); +vm_page_t vm_radix_lookup(struct vm_radix *rtree, vm_pindex_t index); +vm_page_t vm_radix_lookup_ge(struct vm_radix *rtree, vm_pindex_t index); +vm_page_t vm_radix_lookup_le(struct vm_radix *rtree, vm_pindex_t index); +vm_page_t vm_radix_lookup_unlocked(struct vm_radix *rtree, vm_pindex_t index); +void vm_radix_reclaim_allnodes(struct vm_radix *rtree); +vm_page_t vm_radix_remove(struct vm_radix *rtree, vm_pindex_t index); +vm_page_t vm_radix_replace(struct vm_radix *rtree, vm_page_t newpage); void vm_radix_zinit(void); -void *vm_radix_node_alloc(struct pctrie *ptree); -void vm_radix_node_free(struct pctrie *ptree, void *node); -extern smr_t vm_radix_smr; - -static __inline void -vm_radix_init(struct vm_radix *rtree) -{ - pctrie_init(&rtree->rt_trie); -} - -static __inline bool -vm_radix_is_empty(struct vm_radix *rtree) -{ - return (pctrie_is_empty(&rtree->rt_trie)); -} - -PCTRIE_DEFINE_SMR(VM_RADIX, vm_page, pindex, vm_radix_node_alloc, vm_radix_node_free, - vm_radix_smr); /* - * Inserts the key-value pair into the trie. - * Panics if the key already exists. + * Each search path in the trie terminates at a leaf, which is a pointer to a + * page marked with a set 1-bit. A leaf may be associated with a null pointer + * to indicate no page there. */ -static __inline int -vm_radix_insert(struct vm_radix *rtree, vm_page_t page) -{ - return (VM_RADIX_PCTRIE_INSERT(&rtree->rt_trie, page)); -} - -/* - * Returns the value stored at the index assuming there is an external lock. - * - * If the index is not present, NULL is returned. - */ -static __inline vm_page_t -vm_radix_lookup(struct vm_radix *rtree, vm_pindex_t index) -{ - return (VM_RADIX_PCTRIE_LOOKUP(&rtree->rt_trie, index)); -} - -/* - * Returns the value stored at the index without requiring an external lock. - * - * If the index is not present, NULL is returned. - */ -static __inline vm_page_t -vm_radix_lookup_unlocked(struct vm_radix *rtree, vm_pindex_t index) -{ - return (VM_RADIX_PCTRIE_LOOKUP_UNLOCKED(&rtree->rt_trie, index)); -} +#define VM_RADIX_ISLEAF 0x1 +#define VM_RADIX_NULL (struct vm_radix_node *)VM_RADIX_ISLEAF -/* - * Returns the page with the least pindex that is greater than or equal to the - * specified pindex, or NULL if there are no such pages. - * - * Requires that access be externally synchronized by a lock. - */ -static __inline vm_page_t -vm_radix_lookup_ge(struct vm_radix *rtree, vm_pindex_t index) -{ - return (VM_RADIX_PCTRIE_LOOKUP_GE(&rtree->rt_trie, index)); -} - -/* - * Returns the page with the greatest pindex that is less than or equal to the - * specified pindex, or NULL if there are no such pages. - * - * Requires that access be externally synchronized by a lock. - */ -static __inline vm_page_t -vm_radix_lookup_le(struct vm_radix *rtree, vm_pindex_t index) -{ - return (VM_RADIX_PCTRIE_LOOKUP_LE(&rtree->rt_trie, index)); -} - -/* - * Remove the specified index from the trie, and return the value stored at - * that index. If the index is not present, return NULL. - */ -static __inline vm_page_t -vm_radix_remove(struct vm_radix *rtree, vm_pindex_t index) -{ - return (VM_RADIX_PCTRIE_REMOVE_LOOKUP(&rtree->rt_trie, index)); -} - -/* - * Remove and free all the nodes from the radix tree. - */ static __inline void -vm_radix_reclaim_allnodes(struct vm_radix *rtree) +vm_radix_init(struct vm_radix *rtree) { - VM_RADIX_PCTRIE_RECLAIM(&rtree->rt_trie); + rtree->rt_root = VM_RADIX_NULL; } -/* - * Replace an existing page in the trie with another one. - * Panics if there is not an old page in the trie at the new page's index. - */ -static __inline vm_page_t -vm_radix_replace(struct vm_radix *rtree, vm_page_t newpage) +static __inline bool +vm_radix_is_empty(struct vm_radix *rtree) { - return (VM_RADIX_PCTRIE_REPLACE(&rtree->rt_trie, newpage)); + return (rtree->rt_root == VM_RADIX_NULL); } #endif /* _KERNEL */