#include #include #include #include #include "FileSystem.h" #include "MemoryManager.h" #include static dword s_lastFileSystemID; static HashMap* s_fs_map; static HashTable* s_inode_set; static HashMap& all_fses() { if (!s_fs_map) s_fs_map = new HashMap(); return *s_fs_map; } HashTable& all_inodes() { if (!s_inode_set) s_inode_set = new HashTable(); return *s_inode_set; } FS::FS() : m_fsid(++s_lastFileSystemID) { all_fses().set(m_fsid, this); } FS::~FS() { all_fses().remove(m_fsid); } FS* FS::from_fsid(dword id) { auto it = all_fses().find(id); if (it != all_fses().end()) return (*it).value; return nullptr; } ByteBuffer Inode::read_entire(FileDescriptor* descriptor) const { size_t initial_size = metadata().size ? metadata().size : 4096; StringBuilder builder(initial_size); ssize_t nread; byte buffer[4096]; off_t offset = 0; for (;;) { nread = read_bytes(offset, sizeof(buffer), buffer, descriptor); ASSERT(nread <= (ssize_t)sizeof(buffer)); if (nread <= 0) break; builder.append((const char*)buffer, nread); offset += nread; } if (nread < 0) { kprintf("Inode::read_entire: ERROR: %d\n", nread); return nullptr; } return builder.to_byte_buffer(); } FS::DirectoryEntry::DirectoryEntry(const char* n, InodeIdentifier i, byte ft) : name_length(strlen(n)) , inode(i) , file_type(ft) { memcpy(name, n, name_length); name[name_length] = '\0'; } FS::DirectoryEntry::DirectoryEntry(const char* n, size_t nl, InodeIdentifier i, byte ft) : name_length(nl) , inode(i) , file_type(ft) { memcpy(name, n, nl); name[nl] = '\0'; } Inode::Inode(FS& fs, unsigned index) : m_lock("Inode") , m_fs(fs) , m_index(index) { all_inodes().set(this); } Inode::~Inode() { all_inodes().remove(this); } void Inode::will_be_destroyed() { if (m_metadata_dirty) flush_metadata(); } void Inode::inode_contents_changed(off_t offset, size_t size, const byte* data) { if (m_vmo) m_vmo->inode_contents_changed(Badge(), offset, size, data); } void Inode::inode_size_changed(size_t old_size, size_t new_size) { if (m_vmo) m_vmo->inode_size_changed(Badge(), old_size, new_size); } int Inode::set_atime(time_t) { return -ENOTIMPL; } int Inode::set_ctime(time_t) { return -ENOTIMPL; } int Inode::set_mtime(time_t) { return -ENOTIMPL; } int Inode::increment_link_count() { return -ENOTIMPL; } int Inode::decrement_link_count() { return -ENOTIMPL; } void FS::sync() { for (auto* inode : all_inodes()) { if (inode->is_metadata_dirty()) inode->flush_metadata(); } } void Inode::set_vmo(VMObject& vmo) { m_vmo = vmo.make_weak_ptr(); } bool Inode::bind_socket(LocalSocket& socket) { ASSERT(!m_socket); m_socket = socket; return true; } bool Inode::unbind_socket() { ASSERT(m_socket); m_socket = nullptr; return true; }