#include #include #include #include #include #include #include #include static u32 s_lastFileSystemID; static HashMap* s_fs_map; static HashMap& all_fses() { if (!s_fs_map) s_fs_map = new HashMap(); return *s_fs_map; } FS::FS() : m_fsid(++s_lastFileSystemID) { all_fses().set(m_fsid, this); } FS::~FS() { all_fses().remove(m_fsid); } FS* FS::from_fsid(u32 id) { auto it = all_fses().find(id); if (it != all_fses().end()) return (*it).value; return nullptr; } FS::DirectoryEntry::DirectoryEntry(const char* n, InodeIdentifier i, u8 ft) : name_length(strlen(n)) , inode(i) , file_type(ft) { ASSERT(name_length < (int)sizeof(name)); memcpy(name, n, name_length); name[name_length] = '\0'; } FS::DirectoryEntry::DirectoryEntry(const char* n, size_t nl, InodeIdentifier i, u8 ft) : name_length(nl) , inode(i) , file_type(ft) { ASSERT(name_length < (int)sizeof(name)); memcpy(name, n, nl); name[nl] = '\0'; } void FS::sync() { Inode::sync(); NonnullRefPtrVector fses; { InterruptDisabler disabler; for (auto& it : all_fses()) fses.append(*it.value); } for (auto& fs : fses) fs.flush_writes(); } void FS::lock_all() { for (auto& it : all_fses()) { it.value->m_lock.lock(); } } void FS::set_block_size(int block_size) { ASSERT(block_size > 0); if (block_size == m_block_size) return; m_block_size = block_size; }