toaruos/kernel/sys/shm.c
2021-09-01 19:55:00 +09:00

347 lines
8.0 KiB
C

/**
* @file kernel/sys/shm.c
* @brief Shared memory subsystem
*
* Provides shared memory mappings for userspace processes and
* manages their allocation/deallocation for process cleanup.
* Used primarily to implement text buffers for the compositor.
*
* @copyright
* This file is part of ToaruOS and is released under the terms
* of the NCSA / University of Illinois License - see LICENSE.md
* Copyright (C) 2012-2021 K. Lange
* Copyright (C) 2012 Markus Schober
*/
#include <stdint.h>
#include <stdlib.h>
#include <kernel/types.h>
#include <kernel/printf.h>
#include <kernel/process.h>
#include <kernel/mmu.h>
#include <kernel/shm.h>
#include <kernel/spinlock.h>
#include <kernel/string.h>
#include <kernel/tree.h>
#include <kernel/list.h>
//static volatile uint8_t bsl; // big shm lock
static spin_lock_t bsl; // big shm lock
tree_t * shm_tree = NULL;
void shm_install(void) {
shm_tree = tree_create();
tree_set_root(shm_tree, NULL);
}
/* Accessors */
static shm_node_t * _get_node(char * shm_path, int create, tree_node_t * from) {
char *pch, *save;
pch = strtok_r(shm_path, SHM_PATH_SEPARATOR, &save);
tree_node_t * tnode = from;
foreach(node, tnode->children) {
tree_node_t * _node = (tree_node_t *)node->value;
shm_node_t * snode = (shm_node_t *)_node->value;
if (!strcmp(snode->name, pch)) {
if (*save == '\0') {
return snode;
}
return _get_node(save, create, _node);
}
}
/* The next node in sequence was not found */
if (create) {
shm_node_t * nsnode = malloc(sizeof(shm_node_t));
memcpy(nsnode->name, pch, strlen(pch) + 1);
nsnode->chunk = NULL;
tree_node_t * nnode = tree_node_insert_child(shm_tree, from, nsnode);
if (*save == '\0') {
return nsnode;
}
return _get_node(save, create, nnode);
} else {
return NULL;
}
}
static shm_node_t * get_node (char * shm_path, int create) {
char * _path = malloc(strlen(shm_path)+1);
memcpy(_path, shm_path, strlen(shm_path)+1);
shm_node_t * node = _get_node(_path, create, shm_tree->root);
free(_path);
return node;
}
/* Create and Release */
static shm_chunk_t * create_chunk (shm_node_t * parent, size_t size) {
if (!size) return NULL;
shm_chunk_t *chunk = malloc(sizeof(shm_chunk_t));
if (chunk == NULL) {
return NULL;
}
chunk->parent = parent;
chunk->lock = 0;
chunk->ref_count = 1;
chunk->num_frames = (size / 0x1000) + ((size % 0x1000) ? 1 : 0);
chunk->frames = malloc(sizeof(uintptr_t) * chunk->num_frames);
if (chunk->frames == NULL) {
free(chunk);
return NULL;
}
/* Now grab some frames for this guy. */
for (uint32_t i = 0; i < chunk->num_frames; i++) {
/* Allocate frame */
uintptr_t index = mmu_allocate_a_frame();
chunk->frames[i] = index;
}
return chunk;
}
static int release_chunk (shm_chunk_t * chunk) {
if (chunk) {
chunk->ref_count--;
/* Does the chunk need to be freed? */
if (chunk->ref_count < 1) {
#if 0
debug_print(INFO, "Freeing chunk with name %s", chunk->parent->name);
#endif
/* First, free the frames used by this chunk */
for (uint32_t i = 0; i < chunk->num_frames; i++) {
mmu_frame_clear(chunk->frames[i] << 12);
}
/* Then, get rid of the damn thing */
chunk->parent->chunk = NULL;
free(chunk->frames);
free(chunk);
}
return 0;
}
return -1;
}
/* Mapping and Unmapping */
static uintptr_t proc_sbrk(uint32_t num_pages, volatile process_t * volatile proc) {
uintptr_t initial = proc->image.shm_heap;
if (initial & 0xFFF) {
initial += 0x1000 - (initial & 0xFFF);
proc->image.shm_heap = initial;
}
proc->image.shm_heap += num_pages << 12;
return initial;
}
static void * map_in (shm_chunk_t * chunk, volatile process_t * volatile proc) {
if (!chunk) {
return NULL;
}
shm_mapping_t * mapping = malloc(sizeof(shm_mapping_t));
mapping->chunk = chunk;
mapping->num_vaddrs = chunk->num_frames;
mapping->vaddrs = malloc(sizeof(uintptr_t) * mapping->num_vaddrs);
uintptr_t last_address = 0x200000000;
foreach(node, proc->shm_mappings) {
shm_mapping_t * m = node->value;
if (m->vaddrs[0] > last_address) {
size_t gap = (uintptr_t)m->vaddrs[0] - last_address;
if (gap >= mapping->num_vaddrs * 0x1000) {
/* Map the gap */
for (unsigned int i = 0; i < chunk->num_frames; ++i) {
union PML * page = mmu_get_page(last_address + (i << 12), MMU_GET_MAKE);
page->bits.page = chunk->frames[i];
mmu_frame_allocate(page, MMU_FLAG_WRITABLE);
mapping->vaddrs[i] = last_address + (i << 12);
}
/* Insert us before this node */
list_insert_before(proc->shm_mappings, node, mapping);
return (void *)mapping->vaddrs[0];
}
}
last_address = m->vaddrs[0] + m->num_vaddrs * 0x1000;
}
if (proc->image.shm_heap > last_address) {
size_t gap = proc->image.shm_heap - last_address;
if (gap >= mapping->num_vaddrs * 0x1000) {
for (unsigned int i = 0; i < chunk->num_frames; ++i) {
union PML * page = mmu_get_page(last_address + (i << 12), MMU_GET_MAKE);
page->bits.page = chunk->frames[i];
mmu_frame_allocate(page, MMU_FLAG_WRITABLE);
mapping->vaddrs[i] = last_address + (i << 12);
}
list_insert(proc->shm_mappings, mapping);
return (void *)mapping->vaddrs[0];
}
}
for (uint32_t i = 0; i < chunk->num_frames; i++) {
uintptr_t new_vpage = proc_sbrk(1, proc);
union PML * page = mmu_get_page(new_vpage, MMU_GET_MAKE);
page->bits.page = chunk->frames[i];
mmu_frame_allocate(page, MMU_FLAG_WRITABLE);
mapping->vaddrs[i] = new_vpage;
}
list_insert(proc->shm_mappings, mapping);
return (void *)mapping->vaddrs[0];
}
static size_t chunk_size (shm_chunk_t * chunk) {
return (size_t)(chunk->num_frames * 0x1000);
}
/* Kernel-Facing Functions and Syscalls */
void * shm_obtain (char * path, size_t * size) {
spin_lock(bsl);
volatile process_t * volatile proc = this_core->current_process;
if (proc->group != 0) {
proc = process_from_pid(proc->group);
}
shm_node_t * node = get_node(path, 1); // (if it exists, just get it)
shm_chunk_t * chunk = node->chunk;
if (chunk == NULL) {
/* There's no chunk for that key -- we need to allocate it! */
if (!size) {
// The process doesn't want a chunk...?
spin_unlock(bsl);
return NULL;
}
chunk = create_chunk(node, *size);
if (chunk == NULL) {
spin_unlock(bsl);
return NULL;
}
node->chunk = chunk;
} else {
/* New accessor! */
chunk->ref_count++;
}
void * vshm_start = map_in(chunk, proc);
*size = chunk_size(chunk);
spin_unlock(bsl);
return vshm_start;
}
int shm_release (char * path) {
spin_lock(bsl);
process_t * proc = (process_t *)this_core->current_process;
if (proc->group != 0) {
proc = process_from_pid(proc->group);
}
/* First, find the right chunk */
shm_node_t * _node = get_node(path, 0);
if (!_node) {
spin_unlock(bsl);
return 1;
}
shm_chunk_t * chunk = _node->chunk;
/* Next, find the proc's mapping for that chunk */
node_t * node = NULL;
foreach (n, proc->shm_mappings) {
shm_mapping_t * m = (shm_mapping_t *)n->value;
if (m->chunk == chunk) {
node = n;
break;
}
}
if (node == NULL) {
spin_unlock(bsl);
return 1;
}
shm_mapping_t * mapping = (shm_mapping_t *)node->value;
/* Clear the mappings from the process's address space */
for (uint32_t i = 0; i < mapping->num_vaddrs; i++) {
union PML * page = mmu_get_page(mapping->vaddrs[i], 0);
page->bits.present = 0;
mmu_invalidate(mapping->vaddrs[i]);
}
/* Clean up */
release_chunk(chunk);
list_delete(proc->shm_mappings, node);
free(node);
free(mapping);
spin_unlock(bsl);
return 0;
}
/* This function should only be called if the process's address space
* is about to be destroyed -- chunks will not be unmounted therefrom ! */
void shm_release_all (process_t * proc) {
spin_lock(bsl);
node_t * node;
while ((node = list_pop(proc->shm_mappings)) != NULL) {
shm_mapping_t * mapping = node->value;
release_chunk(mapping->chunk);
free(mapping);
free(node);
}
/* Empty, but don't free, the mappings list */
list_free(proc->shm_mappings);
proc->shm_mappings->head = proc->shm_mappings->tail = NULL;
proc->shm_mappings->length = 0;
spin_unlock(bsl);
}