346 lines
8.3 KiB
C
346 lines
8.3 KiB
C
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/*
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* File system server main loop -
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* serves IPC requests from other environments.
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*/
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#include <inc/x86.h>
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#include <inc/string.h>
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#include "fs.h"
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#define debug 0
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// The file system server maintains three structures
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// for each open file.
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//
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// 1. The on-disk 'struct File' is mapped into the part of memory
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// that maps the disk. This memory is kept private to the file
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// server.
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// 2. Each open file has a 'struct Fd' as well, which sort of
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// corresponds to a Unix file descriptor. This 'struct Fd' is kept
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// on *its own page* in memory, and it is shared with any
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// environments that have the file open.
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// 3. 'struct OpenFile' links these other two structures, and is kept
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// private to the file server. The server maintains an array of
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// all open files, indexed by "file ID". (There can be at most
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// MAXOPEN files open concurrently.) The client uses file IDs to
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// communicate with the server. File IDs are a lot like
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// environment IDs in the kernel. Use openfile_lookup to translate
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// file IDs to struct OpenFile.
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struct OpenFile {
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uint32_t o_fileid; // file id
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struct File *o_file; // mapped descriptor for open file
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int o_mode; // open mode
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struct Fd *o_fd; // Fd page
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};
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// Max number of open files in the file system at once
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#define MAXOPEN 1024
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#define FILEVA 0xD0000000
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// initialize to force into data section
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struct OpenFile opentab[MAXOPEN] = {
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{ 0, 0, 1, 0 }
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};
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// Virtual address at which to receive page mappings containing client requests.
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union Fsipc *fsreq = (union Fsipc *)0x0ffff000;
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void
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serve_init(void)
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{
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int i;
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uintptr_t va = FILEVA;
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for (i = 0; i < MAXOPEN; i++) {
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opentab[i].o_fileid = i;
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opentab[i].o_fd = (struct Fd*) va;
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va += PGSIZE;
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}
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}
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// Allocate an open file.
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int
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openfile_alloc(struct OpenFile **o)
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{
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int i, r;
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// Find an available open-file table entry
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for (i = 0; i < MAXOPEN; i++) {
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switch (pageref(opentab[i].o_fd)) {
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case 0:
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if ((r = sys_page_alloc(0, opentab[i].o_fd, PTE_P|PTE_U|PTE_W)) < 0)
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return r;
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/* fall through */
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case 1:
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opentab[i].o_fileid += MAXOPEN;
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*o = &opentab[i];
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memset(opentab[i].o_fd, 0, PGSIZE);
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return (*o)->o_fileid;
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}
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}
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return -E_MAX_OPEN;
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}
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// Look up an open file for envid.
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int
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openfile_lookup(envid_t envid, uint32_t fileid, struct OpenFile **po)
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{
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struct OpenFile *o;
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o = &opentab[fileid % MAXOPEN];
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if (pageref(o->o_fd) <= 1 || o->o_fileid != fileid)
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return -E_INVAL;
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*po = o;
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return 0;
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}
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// Open req->req_path in mode req->req_omode, storing the Fd page and
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// permissions to return to the calling environment in *pg_store and
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// *perm_store respectively.
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int
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serve_open(envid_t envid, struct Fsreq_open *req,
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void **pg_store, int *perm_store)
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{
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char path[MAXPATHLEN];
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struct File *f;
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int fileid;
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int r;
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struct OpenFile *o;
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if (debug)
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cprintf("serve_open %08x %s 0x%x\n", envid, req->req_path, req->req_omode);
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// Copy in the path, making sure it's null-terminated
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memmove(path, req->req_path, MAXPATHLEN);
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path[MAXPATHLEN-1] = 0;
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// Find an open file ID
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if ((r = openfile_alloc(&o)) < 0) {
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if (debug)
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cprintf("openfile_alloc failed: %e", r);
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return r;
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}
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fileid = r;
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// Open the file
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if (req->req_omode & O_CREAT) {
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if ((r = file_create(path, &f)) < 0) {
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if (!(req->req_omode & O_EXCL) && r == -E_FILE_EXISTS)
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goto try_open;
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if (debug)
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cprintf("file_create failed: %e", r);
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return r;
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}
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} else {
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try_open:
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if ((r = file_open(path, &f)) < 0) {
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if (debug)
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cprintf("file_open failed: %e", r);
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return r;
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}
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}
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// Truncate
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if (req->req_omode & O_TRUNC) {
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if ((r = file_set_size(f, 0)) < 0) {
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if (debug)
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cprintf("file_set_size failed: %e", r);
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return r;
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}
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}
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if ((r = file_open(path, &f)) < 0) {
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if (debug)
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cprintf("file_open failed: %e", r);
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return r;
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}
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// Save the file pointer
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o->o_file = f;
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// Fill out the Fd structure
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o->o_fd->fd_file.id = o->o_fileid;
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o->o_fd->fd_omode = req->req_omode & O_ACCMODE;
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o->o_fd->fd_dev_id = devfile.dev_id;
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o->o_mode = req->req_omode;
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if (debug)
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cprintf("sending success, page %08x\n", (uintptr_t) o->o_fd);
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// Share the FD page with the caller by setting *pg_store,
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// store its permission in *perm_store
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*pg_store = o->o_fd;
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*perm_store = PTE_P|PTE_U|PTE_W|PTE_SHARE;
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return 0;
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}
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// Set the size of req->req_fileid to req->req_size bytes, truncating
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// or extending the file as necessary.
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int
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serve_set_size(envid_t envid, struct Fsreq_set_size *req)
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{
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struct OpenFile *o;
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int r;
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if (debug)
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cprintf("serve_set_size %08x %08x %08x\n", envid, req->req_fileid, req->req_size);
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// Every file system IPC call has the same general structure.
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// Here's how it goes.
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// First, use openfile_lookup to find the relevant open file.
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// On failure, return the error code to the client with ipc_send.
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if ((r = openfile_lookup(envid, req->req_fileid, &o)) < 0)
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return r;
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// Second, call the relevant file system function (from fs/fs.c).
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// On failure, return the error code to the client.
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return file_set_size(o->o_file, req->req_size);
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}
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// Read at most ipc->read.req_n bytes from the current seek position
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// in ipc->read.req_fileid. Return the bytes read from the file to
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// the caller in ipc->readRet, then update the seek position. Returns
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// the number of bytes successfully read, or < 0 on error.
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int
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serve_read(envid_t envid, union Fsipc *ipc)
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{
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struct Fsreq_read *req = &ipc->read;
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struct Fsret_read *ret = &ipc->readRet;
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if (debug)
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cprintf("serve_read %08x %08x %08x\n", envid, req->req_fileid, req->req_n);
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// Lab 5: Your code here:
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return 0;
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}
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// Write req->req_n bytes from req->req_buf to req_fileid, starting at
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// the current seek position, and update the seek position
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// accordingly. Extend the file if necessary. Returns the number of
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// bytes written, or < 0 on error.
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int
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serve_write(envid_t envid, struct Fsreq_write *req)
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{
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if (debug)
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cprintf("serve_write %08x %08x %08x\n", envid, req->req_fileid, req->req_n);
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// LAB 5: Your code here.
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panic("serve_write not implemented");
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}
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// Stat ipc->stat.req_fileid. Return the file's struct Stat to the
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// caller in ipc->statRet.
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int
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serve_stat(envid_t envid, union Fsipc *ipc)
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{
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struct Fsreq_stat *req = &ipc->stat;
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struct Fsret_stat *ret = &ipc->statRet;
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struct OpenFile *o;
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int r;
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if (debug)
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cprintf("serve_stat %08x %08x\n", envid, req->req_fileid);
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if ((r = openfile_lookup(envid, req->req_fileid, &o)) < 0)
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return r;
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strcpy(ret->ret_name, o->o_file->f_name);
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ret->ret_size = o->o_file->f_size;
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ret->ret_isdir = (o->o_file->f_type == FTYPE_DIR);
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return 0;
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}
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// Flush all data and metadata of req->req_fileid to disk.
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int
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serve_flush(envid_t envid, struct Fsreq_flush *req)
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{
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struct OpenFile *o;
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int r;
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if (debug)
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cprintf("serve_flush %08x %08x\n", envid, req->req_fileid);
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if ((r = openfile_lookup(envid, req->req_fileid, &o)) < 0)
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return r;
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file_flush(o->o_file);
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return 0;
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}
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int
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serve_sync(envid_t envid, union Fsipc *req)
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{
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fs_sync();
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return 0;
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}
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typedef int (*fshandler)(envid_t envid, union Fsipc *req);
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fshandler handlers[] = {
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// Open is handled specially because it passes pages
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/* [FSREQ_OPEN] = (fshandler)serve_open, */
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[FSREQ_READ] = serve_read,
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[FSREQ_STAT] = serve_stat,
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[FSREQ_FLUSH] = (fshandler)serve_flush,
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[FSREQ_WRITE] = (fshandler)serve_write,
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[FSREQ_SET_SIZE] = (fshandler)serve_set_size,
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[FSREQ_SYNC] = serve_sync
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};
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void
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serve(void)
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{
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uint32_t req, whom;
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int perm, r;
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void *pg;
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while (1) {
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perm = 0;
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req = ipc_recv((int32_t *) &whom, fsreq, &perm);
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if (debug)
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cprintf("fs req %d from %08x [page %08x: %s]\n",
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req, whom, uvpt[PGNUM(fsreq)], fsreq);
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// All requests must contain an argument page
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if (!(perm & PTE_P)) {
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cprintf("Invalid request from %08x: no argument page\n",
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whom);
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continue; // just leave it hanging...
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}
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pg = NULL;
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if (req == FSREQ_OPEN) {
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r = serve_open(whom, (struct Fsreq_open*)fsreq, &pg, &perm);
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} else if (req < ARRAY_SIZE(handlers) && handlers[req]) {
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r = handlers[req](whom, fsreq);
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} else {
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cprintf("Invalid request code %d from %08x\n", req, whom);
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r = -E_INVAL;
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}
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ipc_send(whom, r, pg, perm);
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sys_page_unmap(0, fsreq);
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}
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}
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void
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umain(int argc, char **argv)
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{
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static_assert(sizeof(struct File) == 256);
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binaryname = "fs";
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cprintf("FS is running\n");
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// Check that we are able to do I/O
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outw(0x8A00, 0x8A00);
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cprintf("FS can do I/O\n");
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serve_init();
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fs_init();
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fs_test();
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serve();
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}
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