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/*
This file is part of GNUnet.
Copyright (C) 2009-2011 GNUnet e.V.
GNUnet is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation, either version 3 of the License,
or (at your option) any later version.
GNUnet is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Affero General Public License for more details.
*/
/**
* @file fs/fs_tree.c
* @brief Merkle-tree-ish-CHK file encoding for GNUnet
* @see http://gnunet.org/encoding.php3
* @author Krista Bennett
* @author Christian Grothoff
*/
#include "platform.h"
#include "fs_tree.h"
/**
* Context for an ECRS-based file encoder that computes
* the Merkle-ish-CHK tree.
*/
struct GNUNET_FS_TreeEncoder
{
/**
* Global FS context.
*/
struct GNUNET_FS_Handle *h;
/**
* Closure for all callbacks.
*/
void *cls;
/**
* Function to call on encrypted blocks.
*/
GNUNET_FS_TreeBlockProcessor proc;
/**
* Function to call with progress information.
*/
GNUNET_FS_TreeProgressCallback progress;
/**
* Function to call to receive input data.
*/
GNUNET_FS_DataReader reader;
/**
* Function to call once we're done with processing.
*/
GNUNET_SCHEDULER_TaskCallback cont;
/**
* Set to an error message (if we had an error).
*/
char *emsg;
/**
* Set to the URI (upon successful completion)
*/
struct GNUNET_FS_Uri *uri;
/**
* Overall file size.
*/
uint64_t size;
/**
* How far are we?
*/
uint64_t publish_offset;
/**
* How deep are we? Depth 0 is for the DBLOCKs.
*/
unsigned int current_depth;
/**
* How deep is the tree? Always > 0.
*/
unsigned int chk_tree_depth;
/**
* In-memory cache of the current CHK tree.
* This struct will contain the CHK values
* from the root to the currently processed
* node in the tree as identified by
* "current_depth" and "publish_offset".
* The "chktree" will be initially NULL,
* then allocated to a sufficient number of
* entries for the size of the file and
* finally freed once the upload is complete.
*/
struct ContentHashKey *chk_tree;
/**
* Are we currently in 'GNUNET_FS_tree_encoder_next'?
* Flag used to prevent recursion.
*/
int in_next;
};
/**
* Compute the depth of the CHK tree.
*
* @param flen file length for which to compute the depth
* @return depth of the tree, always > 0. A depth of 1 means only a DBLOCK.
*/
unsigned int
GNUNET_FS_compute_depth (uint64_t flen)
{
unsigned int treeDepth;
uint64_t fl;
treeDepth = 1;
fl = DBLOCK_SIZE;
while (fl < flen)
{
treeDepth++;
if (fl * CHK_PER_INODE < fl)
{
/* integer overflow, this is a HUGE file... */
return treeDepth;
}
fl = fl * CHK_PER_INODE;
}
return treeDepth;
}
/**
* Calculate how many bytes of payload a block tree of the given
* depth MAY correspond to at most (this function ignores the fact that
* some blocks will only be present partially due to the total file
* size cutting some blocks off at the end).
*
* @param depth depth of the block. depth==0 is a DBLOCK.
* @return number of bytes of payload a subtree of this depth may correspond to
*/
uint64_t
GNUNET_FS_tree_compute_tree_size (unsigned int depth)
{
uint64_t rsize;
unsigned int i;
rsize = DBLOCK_SIZE;
for (i = 0; i < depth; i++)
rsize *= CHK_PER_INODE;
return rsize;
}
/**
* Compute the size of the current IBLOCK. The encoder is
* triggering the calculation of the size of an IBLOCK at the
* *end* (hence end_offset) of its construction. The IBLOCK
* maybe a full or a partial IBLOCK, and this function is to
* calculate how long it should be.
*
* @param depth depth of the IBlock in the tree, 0 would be a DBLOCK,
* must be > 0 (this function is for IBLOCKs only!)
* @param end_offset current offset in the payload (!) of the overall file,
* must be > 0 (since this function is called at the
* end of a block).
* @return size of the corresponding IBlock
*/
static uint16_t
GNUNET_FS_tree_compute_iblock_size (unsigned int depth, uint64_t end_offset)
{
unsigned int ret;
uint64_t mod;
uint64_t bds;
GNUNET_assert (depth > 0);
GNUNET_assert (end_offset > 0);
bds = GNUNET_FS_tree_compute_tree_size (depth);
mod = end_offset % bds;
if (0 == mod)
{
/* we were triggered at the end of a full block */
ret = CHK_PER_INODE;
}
else
{
/* we were triggered at the end of the file */
bds /= CHK_PER_INODE;
ret = mod / bds;
if (0 != mod % bds)
ret++;
}
return (uint16_t) (ret * sizeof (struct ContentHashKey));
}
/**
* Compute how many bytes of data should be stored in
* the specified block.
*
* @param fsize overall file size, must be > 0.
* @param offset offset in the original data corresponding
* to the beginning of the tree induced by the block;
* must be <= fsize
* @param depth depth of the node in the tree, 0 for DBLOCK
* @return number of bytes stored in this node
*/
size_t
GNUNET_FS_tree_calculate_block_size (uint64_t fsize, uint64_t offset,
unsigned int depth)
{
size_t ret;
uint64_t rsize;
uint64_t epos;
unsigned int chks;
GNUNET_assert (fsize > 0);
GNUNET_assert (offset <= fsize);
if (depth == 0)
{
ret = DBLOCK_SIZE;
if ((offset + ret > fsize) || (offset + ret < offset))
ret = (size_t) (fsize - offset);
return ret;
}
rsize = GNUNET_FS_tree_compute_tree_size (depth - 1);
epos = offset + rsize * CHK_PER_INODE;
if ((epos < offset) || (epos > fsize))
epos = fsize;
/* round up when computing #CHKs in our IBlock */
chks = (epos - offset + rsize - 1) / rsize;
GNUNET_assert (chks <= CHK_PER_INODE);
return chks * sizeof (struct ContentHashKey);
}
/**
* Initialize a tree encoder. This function will call @a proc and
* "progress" on each block in the tree. Once all blocks have been
* processed, "cont" will be scheduled. The @a reader will be called
* to obtain the (plaintext) blocks for the file. Note that this
* function will not actually call @a proc. The client must
* call #GNUNET_FS_tree_encoder_next to trigger encryption (and
* calling of @a proc) for the each block.
*
* @param h the global FS context
* @param size overall size of the file to encode
* @param cls closure for reader, proc, progress and cont
* @param reader function to call to read plaintext data
* @param proc function to call on each encrypted block
* @param progress function to call with progress information
* @param cont function to call when done
*/
struct GNUNET_FS_TreeEncoder *
GNUNET_FS_tree_encoder_create (struct GNUNET_FS_Handle *h, uint64_t size,
void *cls,
GNUNET_FS_DataReader reader,
GNUNET_FS_TreeBlockProcessor proc,
GNUNET_FS_TreeProgressCallback progress,
GNUNET_SCHEDULER_TaskCallback cont)
{
struct GNUNET_FS_TreeEncoder *te;
te = GNUNET_new (struct GNUNET_FS_TreeEncoder);
te->h = h;
te->size = size;
te->cls = cls;
te->reader = reader;
te->proc = proc;
te->progress = progress;
te->cont = cont;
te->chk_tree_depth = GNUNET_FS_compute_depth (size);
te->chk_tree
= GNUNET_new_array (te->chk_tree_depth * CHK_PER_INODE,
struct ContentHashKey);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Created tree encoder for file with %llu bytes and depth %u\n",
(unsigned long long) size,
te->chk_tree_depth);
return te;
}
/**
* Compute the offset of the CHK for the
* current block in the IBlock above.
*
* @param depth depth of the IBlock in the tree (aka overall
* number of tree levels minus depth); 0 == DBlock
* @param end_offset current offset in the overall file,
* at the *beginning* of the block for DBLOCKs (depth==0),
* otherwise at the *end* of the block (exclusive)
* @return (array of CHKs') offset in the above IBlock
*/
static unsigned int
compute_chk_offset (unsigned int depth, uint64_t end_offset)
{
uint64_t bds;
unsigned int ret;
bds = GNUNET_FS_tree_compute_tree_size (depth);
if (depth > 0)
end_offset--; /* round down since for depth > 0 offset is at the END of the block */
ret = end_offset / bds;
return ret % CHK_PER_INODE;
}
/**
* Encrypt the next block of the file (and call proc and progress
* accordingly; or of course "cont" if we have already completed
* encoding of the entire file).
*
* @param te tree encoder to use
*/
void
GNUNET_FS_tree_encoder_next (struct GNUNET_FS_TreeEncoder *te)
{
struct ContentHashKey *mychk;
const void *pt_block;
uint16_t pt_size;
char iob[DBLOCK_SIZE];
char enc[DBLOCK_SIZE];
struct GNUNET_CRYPTO_SymmetricSessionKey sk;
struct GNUNET_CRYPTO_SymmetricInitializationVector iv;
unsigned int off;
GNUNET_assert (GNUNET_NO == te->in_next);
te->in_next = GNUNET_YES;
if (te->chk_tree_depth == te->current_depth)
{
off = CHK_PER_INODE * (te->chk_tree_depth - 1);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "TE done, reading CHK `%s' from %u\n",
GNUNET_h2s (&te->chk_tree[off].query), off);
te->uri = GNUNET_new (struct GNUNET_FS_Uri);
te->uri->type = GNUNET_FS_URI_CHK;
te->uri->data.chk.chk = te->chk_tree[off];
te->uri->data.chk.file_length = GNUNET_htonll (te->size);
te->in_next = GNUNET_NO;
te->cont (te->cls);
return;
}
if (0 == te->current_depth)
{
/* read DBLOCK */
pt_size = GNUNET_MIN (DBLOCK_SIZE, te->size - te->publish_offset);
if (pt_size !=
te->reader (te->cls, te->publish_offset, pt_size, iob, &te->emsg))
{
te->in_next = GNUNET_NO;
te->cont (te->cls);
return;
}
pt_block = iob;
}
else
{
pt_size =
GNUNET_FS_tree_compute_iblock_size (te->current_depth,
te->publish_offset);
pt_block = &te->chk_tree[(te->current_depth - 1) * CHK_PER_INODE];
}
off = compute_chk_offset (te->current_depth, te->publish_offset);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"TE is at offset %llu and depth %u with block size %u and target-CHK-offset %u\n",
(unsigned long long) te->publish_offset, te->current_depth,
(unsigned int) pt_size, (unsigned int) off);
mychk = &te->chk_tree[te->current_depth * CHK_PER_INODE + off];
GNUNET_CRYPTO_hash (pt_block, pt_size, &mychk->key);
GNUNET_CRYPTO_hash_to_aes_key (&mychk->key, &sk, &iv);
GNUNET_CRYPTO_symmetric_encrypt (pt_block, pt_size, &sk, &iv, enc);
GNUNET_CRYPTO_hash (enc, pt_size, &mychk->query);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"TE calculates query to be `%s', stored at %u\n",
GNUNET_h2s (&mychk->query),
te->current_depth * CHK_PER_INODE + off);
if (NULL != te->proc)
te->proc (te->cls, mychk, te->publish_offset, te->current_depth,
(0 ==
te->current_depth) ? GNUNET_BLOCK_TYPE_FS_DBLOCK :
GNUNET_BLOCK_TYPE_FS_IBLOCK, enc, pt_size);
if (NULL != te->progress)
te->progress (te->cls, te->publish_offset, pt_block, pt_size,
te->current_depth);
if (0 == te->current_depth)
{
te->publish_offset += pt_size;
if ((te->publish_offset == te->size) ||
(0 == te->publish_offset % (CHK_PER_INODE * DBLOCK_SIZE)))
te->current_depth++;
}
else
{
if ((off == CHK_PER_INODE) || (te->publish_offset == te->size))
te->current_depth++;
else
te->current_depth = 0;
}
te->in_next = GNUNET_NO;
}
/**
* Get the resulting URI from the encoding.
*
* @param te the tree encoder to clean up
* @return uri set to the resulting URI (if encoding finished), NULL otherwise
*/
struct GNUNET_FS_Uri *
GNUNET_FS_tree_encoder_get_uri (struct GNUNET_FS_TreeEncoder *te)
{
if (NULL != te->uri)
return GNUNET_FS_uri_dup (te->uri);
return NULL;
}
/**
* Clean up a tree encoder and return information
* about possible errors.
*
* @param te the tree encoder to clean up
* @param emsg set to an error message (if an error occured
* within the tree encoder; if this function is called
* prior to completion and prior to an internal error,
* both "*emsg" will be set to NULL).
*/
void
GNUNET_FS_tree_encoder_finish (struct GNUNET_FS_TreeEncoder *te,
char **emsg)
{
if (NULL != te->reader)
{
(void) te->reader (te->cls, UINT64_MAX, 0, 0, NULL);
te->reader = NULL;
}
GNUNET_assert (GNUNET_NO == te->in_next);
if (NULL != te->uri)
GNUNET_FS_uri_destroy (te->uri);
if (emsg != NULL)
*emsg = te->emsg;
else
GNUNET_free_non_null (te->emsg);
GNUNET_free (te->chk_tree);
GNUNET_free (te);
}
/* end of fs_tree.c */
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