/* * Copyright 2013, Axel Dörfler, axeld@pinc-software.de. * Distributed under the terms of the MIT license. */ #ifndef _FS_TRIM_SUPPORT_H #define _FS_TRIM_SUPPORT_H #include #include #include #include #include static inline status_t get_trim_data_from_user(void* buffer, size_t size, MemoryDeleter& deleter, fs_trim_data*& _trimData) { if (!is_called_via_syscall() && !IS_USER_ADDRESS(buffer)) { // Called from kernel _trimData = (fs_trim_data*)buffer; return B_OK; } // Called from userland if (!IS_USER_ADDRESS(buffer)) return B_BAD_ADDRESS; uint32 count; if (user_memcpy(&count, buffer, sizeof(count)) != B_OK) return B_BAD_ADDRESS; size_t bytes = (count - 1) * sizeof(uint64) * 2 + sizeof(fs_trim_data); if (bytes > size) return B_BAD_VALUE; void* trimBuffer = malloc(bytes); if (trimBuffer == NULL) return B_NO_MEMORY; if (user_memcpy(trimBuffer, buffer, bytes) != B_OK) { free(trimBuffer); return B_BAD_ADDRESS; } // The passed in MemoryDeleter needs to take care of freeing the buffer // later, since we had to allocate it. deleter.SetTo(trimBuffer); _trimData = (fs_trim_data*)trimBuffer; return B_OK; } static inline status_t copy_trim_data_to_user(void* buffer, fs_trim_data* trimData) { if (!is_called_via_syscall() && !IS_USER_ADDRESS(buffer)) return B_OK; if (!IS_USER_ADDRESS(buffer)) return B_BAD_ADDRESS; // Do not copy any ranges return user_memcpy(buffer, trimData, sizeof(uint64) * 2); } #endif // _FS_TRIM_SUPPORT_H