// // Support functions for system calls that involve file descriptors. // #include "types.h" #include "riscv.h" #include "defs.h" #include "param.h" #include "fs.h" #include "spinlock.h" #include "sleeplock.h" #include "file.h" #include "stat.h" #include "proc.h" struct devsw devsw[NDEV]; struct { struct spinlock lock; struct file file[NFILE]; } ftable; void fileinit(void) { initlock(&ftable.lock, "ftable"); } // Allocate a file structure. struct file* filealloc(void) { struct file *f; acquire(&ftable.lock); for(f = ftable.file; f < ftable.file + NFILE; f++){ if(f->ref == 0){ f->ref = 1; release(&ftable.lock); return f; } } release(&ftable.lock); return 0; } // Increment ref count for file f. struct file* filedup(struct file *f) { acquire(&ftable.lock); if(f->ref < 1) panic("filedup"); f->ref++; release(&ftable.lock); return f; } // Close file f. (Decrement ref count, close when reaches 0.) void fileclose(struct file *f) { struct file ff; acquire(&ftable.lock); if(f->ref < 1) panic("fileclose"); if(--f->ref > 0){ release(&ftable.lock); return; } ff = *f; f->ref = 0; f->type = FD_NONE; release(&ftable.lock); if(ff.type == FD_PIPE){ pipeclose(ff.pipe, ff.writable); } else if(ff.type == FD_INODE || ff.type == FD_DEVICE){ begin_op(); iput(ff.ip); end_op(); } } // Get metadata about file f. // addr is a user virtual address, pointing to a struct stat. int filestat(struct file *f, uint64 addr) { struct proc *p = myproc(); struct stat st; if(f->type == FD_INODE || f->type == FD_DEVICE){ ilock(f->ip); stati(f->ip, &st); iunlock(f->ip); if(copyout(p->pagetable, addr, (char *)&st, sizeof(st)) < 0) return -1; return 0; } return -1; } // Read from file f. // addr is a user virtual address. int fileread(struct file *f, uint64 addr, int n) { int r = 0; if(f->readable == 0) return -1; if(f->type == FD_PIPE){ r = piperead(f->pipe, addr, n); } else if(f->type == FD_DEVICE){ r = devsw[f->major].read(1, addr, n); } else if(f->type == FD_INODE){ ilock(f->ip); if((r = readi(f->ip, 1, addr, f->off, n)) > 0) f->off += r; iunlock(f->ip); } else { panic("fileread"); } return r; } // Write to file f. // addr is a user virtual address. int filewrite(struct file *f, uint64 addr, int n) { int r, ret = 0; if(f->writable == 0) return -1; if(f->type == FD_PIPE){ ret = pipewrite(f->pipe, addr, n); } else if(f->type == FD_DEVICE){ ret = devsw[f->major].write(1, addr, n); } else if(f->type == FD_INODE){ // write a few blocks at a time to avoid exceeding // the maximum log transaction size, including // i-node, indirect block, allocation blocks, // and 2 blocks of slop for non-aligned writes. // this really belongs lower down, since writei() // might be writing a device like the console. int max = ((MAXOPBLOCKS-1-1-2) / 2) * BSIZE; int i = 0; while(i < n){ int n1 = n - i; if(n1 > max) n1 = max; begin_op(); ilock(f->ip); if ((r = writei(f->ip, 1, addr + i, f->off, n1)) > 0) f->off += r; iunlock(f->ip); end_op(); if(r < 0) break; if(r != n1) panic("short filewrite"); i += r; } ret = (i == n ? n : -1); } else { panic("filewrite"); } return ret; }