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|
#include <mutex.h>
#include <hashtbl.h>
#include <string.h>
#include <frame.h>
#include <process.h>
#include <freemem.h>
#include <worker.h>
static int next_pid = 1;
void proc_user_exception(registers_t *regs);
void proc_usermem_pf(void* proc, registers_t *regs, void* addr);
process_t *current_process() {
if (current_thread) return current_thread->proc;
return 0;
}
typedef struct {
proc_entry_t entry;
void *sp;
} setup_data_t;
typedef struct {
process_t *proc;
int status, exit_code;
} exit_data_t;
// ============================== //
// CREATING AND RUNNING PROCESSES //
// ============================== //
process_t *new_process(process_t *parent) {
process_t *proc = (process_t*)malloc(sizeof(process_t));
if (proc == 0) goto error;
proc->filesystems = create_hashtbl(str_key_eq_fun, str_hash_fun, free_key);
if (proc->filesystems == 0) goto error;
proc->files = create_hashtbl(id_key_eq_fun, id_hash_fun, 0);
if (proc->files == 0) goto error;
proc->regions_idx = create_btree(id_key_cmp_fun, 0);
if (proc->regions_idx == 0) goto error;
proc->pd = create_pagedir(proc_usermem_pf, proc);
if (proc->pd == 0) goto error;
proc->last_ran = 0;
proc->regions = 0;
proc->threads = 0;
proc->parent = parent;
proc->children = 0;
proc->next_child = 0;
proc->next_fd = 1;
proc->pid = (next_pid++);
proc->status = PS_LOADING;
proc->exit_code = 0;
proc->lock = MUTEX_UNLOCKED;
if (parent != 0) {
mutex_lock(&parent->lock);
proc->next_child = parent->children;
parent->children = proc;
mutex_unlock(&parent->lock);
}
return proc;
error:
if (proc && proc->regions_idx) delete_btree(proc->regions_idx);
if (proc && proc->filesystems) delete_hashtbl(proc->filesystems);
if (proc && proc->files) delete_hashtbl(proc->files);
if (proc) free(proc);
return 0;
}
static void run_user_code(void* param) {
setup_data_t *d = (setup_data_t*)param;
void* esp = d->sp;
proc_entry_t entry = d->entry;
free(d);
process_t *proc = current_thread->proc;
ASSERT(proc != 0);
switch_pagedir(proc->pd);
asm volatile(" \
cli; \
\
mov $0x23, %%ax; \
mov %%ax, %%ds; \
mov %%ax, %%es; \
mov %%ax, %%fs; \
mov %%ax, %%gs; \
\
pushl $0x23; \
pushl %%ebx; \
pushf; \
pop %%eax; \
or $0x200, %%eax; \
pushl %%eax; \
pushl $0x1B; \
pushl %%ecx; \
iret \
"::"b"(esp),"c"(entry));
}
bool process_new_thread(process_t *p, proc_entry_t entry, void* sp) {
setup_data_t *d = (setup_data_t*)malloc(sizeof(setup_data_t));
d->entry = entry;
d->sp = sp;
thread_t *th = new_thread(run_user_code, d);
if (th == 0) {
return false;
}
th->proc = p;
th->user_ex_handler = proc_user_exception;
{ mutex_lock(&p->lock);
th->next_in_proc = p->threads;
p->threads = th;
mutex_unlock(&p->lock); }
start_thread(th);
return true;
}
bool start_process(process_t *p, void* entry) {
bool stack_ok = mmap(p, (void*)USERSTACK_ADDR, USERSTACK_SIZE, MM_READ | MM_WRITE);
if (!stack_ok) return false;
bool ok = process_new_thread(p, entry, (void*)USERSTACK_ADDR + USERSTACK_SIZE);
if (!ok) {
munmap(p, (void*)USERSTACK_ADDR);
return false;
}
p->status = PS_RUNNING;
return true;
}
void current_process_exit(int status, int exit_code) {
void process_exit_v(void* args) {
exit_data_t *d = (exit_data_t*)args;
process_exit(d->proc, d->status, d->exit_code);
free(d);
}
exit_data_t *d = (exit_data_t*)malloc(sizeof(exit_data_t));
d->proc = current_process();;
d->status = status;
d->exit_code = exit_code;
worker_push(process_exit_v, d);
exit();
}
void process_exit(process_t *p, int status, int exit_code) {
// --- Make sure we are not running in a thread we are about to kill
ASSERT(current_process() != p);
// ---- Check we are not killing init process
if (p->parent == 0) {
PANIC("Attempted to exit init process!");
}
// ---- Now we can do the actual cleanup
mutex_lock(&p->lock);
ASSERT(p->status == PS_RUNNING || p->status == PS_LOADING);
p->status = status;
p->exit_code = exit_code;
// neutralize the process
while (p->threads != 0) {
thread_t *t = p->threads;
p->threads = p->threads->next_in_proc;
t->proc = 0; // we don't want process_thread_deleted to be called
kill_thread(t);
}
// terminate all the children as well and free associated process_t structures
while (p->children != 0) {
process_t *ch = p->children;
p->children = ch->next_child;
if (ch->status == PS_RUNNING || ch->status == PS_LOADING)
process_exit(ch, PS_KILLED, 0);
free(ch);
}
// release file descriptors
void release_fd(void* a, void* fd) {
unref_file((fs_handle_t*)fd);
}
hashtbl_iter(p->files, release_fd);
delete_hashtbl(p->files);
p->files = 0;
// unmap memory
while (p->regions != 0) {
munmap(p, p->regions->addr);
}
ASSERT(btree_count(p->regions_idx) == 0);
delete_btree(p->regions_idx);
p->regions_idx = 0;
// release filesystems
void release_fs(void* a, void* fs) {
unref_fs((fs_t*)fs);
}
hashtbl_iter(p->filesystems, release_fs);
delete_hashtbl(p->filesystems);
p->filesystems = 0;
// delete page directory
switch_pagedir(get_kernel_pagedir());
delete_pagedir(p->pd);
p->pd = 0;
// notify parent
process_t *par = p->parent;
if (par->status == PS_RUNNING) {
resume_on(par->children);
resume_on(p);
}
mutex_unlock(&p->lock);
}
void process_thread_deleted(thread_t *t) {
process_t *p = t->proc;
mutex_lock(&p->lock);
if (p->threads == t) {
p->threads = t->next_in_proc;
} else {
for (thread_t *it = p->threads; it != 0; it = it->next_in_proc) {
if (it->next_in_proc == t) {
it->next_in_proc = t->next_in_proc;
break;
}
}
}
mutex_unlock(&p->lock);
if (p->threads == 0 && p->status == PS_RUNNING)
process_exit(p, PS_FINISHED, 0);
}
// =========================== //
// PROCESS CHILDREN MANAGEMENT //
// =========================== //
process_t *process_find_child(process_t *p, int pid) {
process_t *ret = 0;
mutex_lock(&p->lock);
for (process_t *it = p->children; it != 0; it = it->next_child) {
if (it->pid == pid) {
ret = it;
break;
}
}
mutex_unlock(&p->lock);
return ret;
}
void process_get_status(process_t *p, proc_status_t *st) {
st->pid = p->pid;
st->status = p->status;
st->exit_code = p->exit_code;
}
void process_wait(process_t *p, proc_status_t *st, bool wait) {
// This is such a mess...
process_t *par = p->parent;
st->pid = 0;
st->status = 0;
mutex_lock(&par->lock);
while (true) {
// problem : p may not be in parent's children list anymore,
// meaning the associated process_t* has been deleted
bool found = false;
for (process_t *it = par->children; it != 0; it = it->next_child) {
if (it == p) {
found = true;
break;
}
}
if (found) {
if (p->status != PS_LOADING && p->status != PS_RUNNING) {
process_get_status(p, st);
if (par->children == p) {
par->children = p->next_child;
} else {
for (process_t *it = par->children; it->next_child != 0; it = it->next_child) {
if (it->next_child == p) {
it->next_child = p->next_child;
break;
}
}
}
free(p);
} else if (wait) {
bool wait_ok;
{ int st = enter_critical(CL_NOSWITCH);
mutex_unlock(&par->lock);
wait_ok = wait_on(p);
exit_critical(st); }
if (!wait_ok) return;
mutex_lock(&par->lock);
continue; // loop around
}
}
break;
}
mutex_unlock(&par->lock);
}
void process_wait_any_child(process_t *par, proc_status_t *st, bool wait) {
st->pid = 0;
st->status = 0;
mutex_lock(&par->lock);
while (true) {
// problem : p may not be in parent's children list anymore,
// meaning the associated process_t* has been deleted
process_t *p = 0;
for (process_t *it = par->children; it != 0; it = it->next_child) {
if (it->status != PS_LOADING && it->status != PS_RUNNING) {
p = it;
break;
}
}
if (p) {
process_get_status(p, st);
if (par->children == p) {
par->children = p->next_child;
} else {
for (process_t *it = par->children; it->next_child != 0; it = it->next_child) {
if (it->next_child == p) {
it->next_child = p->next_child;
break;
}
}
}
free(p);
} else {
if (wait) {
bool wait_ok;
{ int st = enter_critical(CL_NOSWITCH);
mutex_unlock(&par->lock);
wait_ok = wait_on(par);
exit_critical(st); }
if (!wait_ok) return;
mutex_lock(&par->lock);
continue; // loop around
}
}
break;
}
mutex_unlock(&par->lock);
}
// ================================== //
// MANAGING FILESYSTEMS FOR PROCESSES //
// ================================== //
bool proc_add_fs(process_t *p, fs_t *fs, const char* name) {
char *n = strdup(name);
if (n == 0) return false;
bool add_ok = hashtbl_add(p->filesystems, n, fs);
if (!add_ok) {
free(n);
return false;
}
return true;
}
fs_t *proc_find_fs(process_t *p, const char* name) {
return (fs_t*)hashtbl_find(p->filesystems, name);
}
void proc_rm_fs(process_t *p, const char* name) {
fs_t *fs = proc_find_fs(p, name);
if (fs) {
unref_fs(fs);
hashtbl_remove(p->filesystems, name);
}
}
int proc_add_fd(process_t *p, fs_handle_t *f) {
int fd = p->next_fd++;
bool add_ok = hashtbl_add(p->files, (void*)fd, f);
if (!add_ok) return 0;
return fd;
}
bool proc_add_fd_as(process_t *p, fs_handle_t *f, int fd) {
if (hashtbl_find(p->files, (void*)fd) != 0) return false;
if (fd >= p->next_fd) p->next_fd = fd + 1;
bool add_ok = hashtbl_add(p->files, (void*)fd, f);
return add_ok;
}
fs_handle_t *proc_read_fd(process_t *p, int fd) {
return (fs_handle_t*)hashtbl_find(p->files, (void*)fd);
}
void proc_close_fd(process_t *p, int fd) {
fs_handle_t *x = proc_read_fd(p, fd);
if (x != 0) {
unref_file(x);
hashtbl_remove(p->files, (void*)fd);
}
}
// ============================= //
// USER MEMORY REGION MANAGEMENT //
// ============================= //
static user_region_t *find_user_region(process_t *proc, const void* addr) {
user_region_t *r = (user_region_t*)btree_lower(proc->regions_idx, addr);
if (r == 0) return 0;
ASSERT(addr >= r->addr);
if (addr >= r->addr + r->size) return 0;
return r;
}
bool mmap(process_t *proc, void* addr, size_t size, int mode) {
if (find_user_region(proc, addr) != 0) return false;
if ((uint32_t)addr & (~PAGE_MASK)) return false;
if (addr >= (void*)K_HIGHHALF_ADDR || addr + size > (void*)K_HIGHHALF_ADDR
|| addr + size <= addr || size == 0) return false;
user_region_t *r = (user_region_t*)malloc(sizeof(user_region_t));
if (r == 0) return false;
r->proc = proc;
r->addr = addr;
r->size = size;
r->own_pager = true;
r->pager = new_swap_pager(size, false);
if (r->pager == 0) goto error;
r->offset = 0;
bool add_ok = btree_add(proc->regions_idx, r->addr, r);
if (!add_ok) goto error;
r->mode = mode;
r->file = 0;
r->next_in_proc = proc->regions;
proc->regions = r;
pager_add_map(r->pager, r);
return true;
error:
if (r && r->pager) delete_pager(r->pager);
if (r) free(r);
return false;
}
bool mmap_file(process_t *proc, fs_handle_t *h, size_t offset, void* addr, size_t size, int mode) {
if (find_user_region(proc, addr) != 0) return false;
if ((uint32_t)addr & (~PAGE_MASK)) return false;
if ((uint32_t)offset & (~PAGE_MASK)) return false;
int fmode = h->mode;
if (!(fmode & FM_MMAP) || !(fmode & FM_READ)) return false;
if ((mode & MM_WRITE) && !(fmode & FM_WRITE)) return false;
ASSERT(h->node->pager != 0);
if (addr >= (void*)K_HIGHHALF_ADDR || addr + size > (void*)K_HIGHHALF_ADDR
|| addr + size <= addr || size == 0) return false;
user_region_t *r = (user_region_t*)malloc(sizeof(user_region_t));
if (r == 0) return false;
r->addr = addr;
r->size = size;
bool add_ok = btree_add(proc->regions_idx, r->addr, r);
if (!add_ok) goto error;
ref_file(h);
r->file = h;
r->mode = mode;
r->offset = offset;
r->pager = h->node->pager;
r->own_pager = false;
pager_add_map(r->pager, r);
r->next_in_proc = proc->regions;
proc->regions = r;
return true;
error:
if (r) free(r);
return false;
}
bool mchmap(process_t *proc, void* addr, int mode) {
user_region_t *r = find_user_region(proc, addr);
if (r == 0) return false;
if (r->file != 0) {
if ((mode & MM_WRITE) && !(r->file->mode & FM_WRITE)) return false;
}
r->mode = mode;
// change mode on already mapped pages
pagedir_t *save_pd = get_current_pagedir();
switch_pagedir(proc->pd);
for (void* it = r->addr; it < r->addr + r->size; it += PAGE_SIZE) {
uint32_t ent = pd_get_entry(it);
uint32_t frame = pd_get_frame(it);
if (ent & PTE_PRESENT) {
bool can_w = (ent & PTE_RW) != 0;
bool should_w = (mode & MM_WRITE) != 0;
if (can_w != should_w) {
pd_map_page(it, frame, should_w);
}
}
}
switch_pagedir(save_pd);
return true;
}
bool munmap(process_t *proc, void* addr) {
user_region_t *r = find_user_region(proc, addr);
if (r == 0) return false;
if (proc->regions == r) {
proc->regions = r->next_in_proc;
} else {
for (user_region_t *it = proc->regions; it != 0; it = it->next_in_proc) {
if (it->next_in_proc == r) {
it->next_in_proc = r->next_in_proc;
break;
}
}
}
btree_remove_v(proc->regions_idx, r->addr, r);
// Unmap that stuff
pagedir_t *save_pd = get_current_pagedir();
switch_pagedir(proc->pd);
for (void* it = r->addr; it < r->addr + r->size; it += PAGE_SIZE) {
uint32_t ent = pd_get_entry(it);
if (ent & PTE_PRESENT) {
pager_access(r->pager,
it - r->addr + r->offset, PAGE_SIZE,
(ent & PTE_ACCESSED), (ent & PTE_DIRTY));
pd_unmap_page(it);
}
}
switch_pagedir(save_pd);
pager_rm_map(r->pager, r);
if (r->file != 0) unref_file(r->file);
if (r->own_pager) delete_pager(r->pager);
free(r);
return true;
}
void dbg_dump_proc_memmap(process_t *proc) {
//WARNING not thread safe
dbg_printf("/ Region map for process %d\n", proc->pid);
for (user_region_t *it = proc->regions; it != 0; it = it->next_in_proc) {
dbg_printf("| 0x%p - 0x%p : (0x%p) ", it->addr, it->addr + it->size, it->pager);
if (it->file != 0) {
dbg_printf("mmap of 0x%p", it->file);
} else {
dbg_printf("private");
}
dbg_printf(", %d pages\n", hashtbl_count(it->pager->pages));
}
dbg_printf("\\ ----\n");
}
// =============================== //
// USER MEMORY PAGE FAULT HANDLERS //
// =============================== //
void proc_user_exception(registers_t *regs) {
dbg_printf("Usermode exception in user process : exiting.\n");
dbg_dump_registers(regs);
current_process_exit(PS_FAILURE, FAIL_EXCEPTION);
}
void proc_usermem_pf(void* p, registers_t *regs, void* addr) {
process_t *proc = (process_t*)p;
user_region_t *r = find_user_region(proc, addr);
if (r == 0) {
dbg_printf("Segmentation fault in process %d (0x%p : not mapped) : exiting.\n", proc->pid, addr);
dbg_dump_registers(regs);
current_process_exit(PS_FAILURE, (addr < (void*)PAGE_SIZE ? FAIL_ZEROPTR : FAIL_SEGFAULT));
}
bool wr = ((regs->err_code & PF_WRITE_BIT) != 0);
if (wr && !(r->mode & MM_WRITE)) {
dbg_printf("Segmentation fault in process %d (0x%p : not allowed to write) : exiting.\n", proc->pid, addr);
current_process_exit(PS_FAILURE, (addr < (void*)PAGE_SIZE ? FAIL_ZEROPTR : FAIL_SEGFAULT));
}
bool pr = (regs->err_code & PF_PRESENT_BIT) != 0;
if (pr) {
uint32_t frame = pd_get_entry(addr);
dbg_printf("UPF 0x%p %s present %d 0x%p\n",
addr, (wr ? "write" : "read"),
frame >> PTE_FRAME_SHIFT, frame);
PANIC("Unexpected fault on present page.");
}
addr = (void*)((uint32_t)addr & PAGE_MASK);
uint32_t frame;
do {
frame = pager_get_frame(r->pager, addr - r->addr + r->offset);
if (frame == 0) {
free_some_memory();
}
} while (frame == 0);
while(!pd_map_page(addr, frame, (r->mode & MM_WRITE) != 0)) {
free_some_memory();
}
}
void probe_for_read(const void* addr, size_t len) {
process_t *proc = current_process();
user_region_t *r = find_user_region(proc, addr);
if (r == 0 || addr + len > r->addr + r->size || !(r->mode & MM_READ)) {
dbg_printf("Access violation on read at 0x%p len 0x%p in process %d : exiting.\n",
addr, len, proc->pid);
current_process_exit(PS_FAILURE, FAIL_SC_SEGFAULT);
}
}
void probe_for_write(const void* addr, size_t len) {
process_t *proc = current_process();
user_region_t *r = find_user_region(proc, addr);
if (r == 0 || addr + len > r->addr + r->size || !(r->mode & MM_WRITE)) {
dbg_printf("Access violation on write at 0x%p len 0x%p in process %d : exiting.\n",
addr, len, proc->pid);
current_process_exit(PS_FAILURE, FAIL_SC_SEGFAULT);
}
}
/* vim: set ts=4 sw=4 tw=0 noet :*/
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