c-ipfs/datastore/ds_helper.c

/**
 * Some code to help with the datastore / blockstore interface
 * NOTE: the datastore stores things under a multihash key
 */
#include <stdlib.h>
#include "libp2p/crypto/encoding/base32.h"
#include "ipfs/datastore/ds_helper.h"
/**
 * Generate a base32 key based on the passed in binary_array (which is normally a multihash)
 * @param binary_array what to base the key on
 * @param array_length the size of the binary array
 * @param results where the key will be put
 * @param max_results_length the size of the results buffer
 * @param results_length the length of the generated key
 * @returns true(1) on success
 */
int ipfs_datastore_helper_ds_key_from_binary(const unsigned char* binary_array, size_t array_length,
		unsigned char* results, size_t max_results_length, size_t* results_length) {

	size_t encoded_length = libp2p_crypto_encoding_base32_encode_size(array_length);
	if (encoded_length > max_results_length)
		return 0;

	*results_length = max_results_length;
	int retVal = libp2p_crypto_encoding_base32_encode(binary_array, array_length, results, results_length);
	if (retVal == 0) {
		*results_length = 0;
		return 0;
	}

	return 1;
}

/**
 * Generate a binary array (normally a multihash) based on the passed in datastore key
 * @param ds_key the base32 encoded key
 * @param key_length the length of the base32 "string"
 * @param binary_array where to put the decoded value
 * @param max_binary_array_length the memory size of binary_array
 * @param completed_binary_array_length the length of what was written to the binary_array
 * @returns true(1) on success
 */
int ipfs_datastore_helper_binary_from_ds_key(const unsigned char* ds_key, size_t key_length, unsigned char* binary_array,
		size_t max_binary_array_length, size_t* completed_binary_array_length) {

	size_t decoded_length = libp2p_crypto_encoding_base32_decode_size(key_length);
	if (decoded_length > max_binary_array_length)
		return 0;

	*completed_binary_array_length = max_binary_array_length;
	int retVal = libp2p_crypto_encoding_base32_decode(ds_key, key_length, binary_array, completed_binary_array_length);
	if (retVal == 0) {
		*completed_binary_array_length = 0;
		return 0;
	}
	return 1;
}

/***
 * Add a record in the datastore based on a block
 * @param block the block
 * @param datastore the Datastore
 * @reutrns true(1) on success, false(0) otherwise
 */
int ipfs_datastore_helper_add_block_to_datastore(struct Block* block, struct Datastore* datastore) {
	struct DatastoreRecord* rec = libp2p_datastore_record_new();
	if (rec == NULL)
		return 0;
	rec->key_size = block->cid->hash_length;
	rec->key = (uint8_t*) malloc(rec->key_size);
	if (rec->key == NULL) {
		libp2p_datastore_record_free(rec);
		return 0;
	}
	memcpy(rec->key, block->cid->hash, rec->key_size);
	rec->timestamp = 0;
	// convert the key to base32, and store it in the DatabaseRecord->value section
	size_t fs_key_length = 100;
	uint8_t fs_key[fs_key_length];
	if (!ipfs_datastore_helper_ds_key_from_binary(block->cid->hash, block->cid->hash_length, fs_key, fs_key_length, &fs_key_length)) {
		libp2p_datastore_record_free(rec);
		return 0;
	}
	rec->value_size = fs_key_length;
	rec->value = malloc(rec->value_size);
	if (rec->value == NULL) {
		libp2p_datastore_record_free(rec);
		return 0;
	}
	memcpy(rec->value, fs_key, rec->value_size);
	int retVal = datastore->datastore_put(rec, datastore);
	libp2p_datastore_record_free(rec);
	return retVal;
}
More code for storage Pushing through on the ipfs block put use case. Building out the necessary code to write to the blockstore. 2016-11-28 21:13:46 +00:00			`/**`
			`* Some code to help with the datastore / blockstore interface`
More work on persisting data to disk. Blockstore now storing the data, whereas datastore is storing the key and filename. The key should be the multihash (currently the sha256, not the multihash), and the value is the filename (base32). 2016-12-14 17:07:43 +00:00			`* NOTE: the datastore stores things under a multihash key`
More code for storage Pushing through on the ipfs block put use case. Building out the necessary code to write to the blockstore. 2016-11-28 21:13:46 +00:00			`*/`
Began implementing updates to journal timestamp 2017-09-13 17:40:48 +00:00			`#include <stdlib.h>`
More code for storage Pushing through on the ipfs block put use case. Building out the necessary code to write to the blockstore. 2016-11-28 21:13:46 +00:00			`#include "libp2p/crypto/encoding/base32.h"`
			`#include "ipfs/datastore/ds_helper.h"`
			`/**`
More work on persisting data to disk. Blockstore now storing the data, whereas datastore is storing the key and filename. The key should be the multihash (currently the sha256, not the multihash), and the value is the filename (base32). 2016-12-14 17:07:43 +00:00			`* Generate a base32 key based on the passed in binary_array (which is normally a multihash)`
More code for storage Pushing through on the ipfs block put use case. Building out the necessary code to write to the blockstore. 2016-11-28 21:13:46 +00:00			`* @param binary_array what to base the key on`
			`* @param array_length the size of the binary array`
			`* @param results where the key will be put`
			`* @param max_results_length the size of the results buffer`
			`* @param results_length the length of the generated key`
			`* @returns true(1) on success`
			`*/`
Moving closer to binary compatability with go version of ipfs The files are now stored in the same format. Now it is necessary to reverse engineer the directory structure 2016-12-21 11:40:19 +00:00			`int ipfs_datastore_helper_ds_key_from_binary(const unsigned char* binary_array, size_t array_length,`
Removed compiler warnings, starting to import large files 2016-12-14 11:25:09 +00:00			`unsigned char* results, size_t max_results_length, size_t* results_length) {`
More code for storage Pushing through on the ipfs block put use case. Building out the necessary code to write to the blockstore. 2016-11-28 21:13:46 +00:00
			`size_t encoded_length = libp2p_crypto_encoding_base32_encode_size(array_length);`
			`if (encoded_length > max_results_length)`
			`return 0;`

			`*results_length = max_results_length;`
			`int retVal = libp2p_crypto_encoding_base32_encode(binary_array, array_length, results, results_length);`
			`if (retVal == 0) {`
			`*results_length = 0;`
			`return 0;`
			`}`

			`return 1;`
			`}`

			`/**`
More work on persisting data to disk. Blockstore now storing the data, whereas datastore is storing the key and filename. The key should be the multihash (currently the sha256, not the multihash), and the value is the filename (base32). 2016-12-14 17:07:43 +00:00			`* Generate a binary array (normally a multihash) based on the passed in datastore key`
More code for storage Pushing through on the ipfs block put use case. Building out the necessary code to write to the blockstore. 2016-11-28 21:13:46 +00:00			`* @param ds_key the base32 encoded key`
			`* @param key_length the length of the base32 "string"`
			`* @param binary_array where to put the decoded value`
			`* @param max_binary_array_length the memory size of binary_array`
			`* @param completed_binary_array_length the length of what was written to the binary_array`
			`* @returns true(1) on success`
			`*/`
Moving closer to binary compatability with go version of ipfs The files are now stored in the same format. Now it is necessary to reverse engineer the directory structure 2016-12-21 11:40:19 +00:00			`int ipfs_datastore_helper_binary_from_ds_key(const unsigned char* ds_key, size_t key_length, unsigned char* binary_array,`
More code for storage Pushing through on the ipfs block put use case. Building out the necessary code to write to the blockstore. 2016-11-28 21:13:46 +00:00			`size_t max_binary_array_length, size_t* completed_binary_array_length) {`

			`size_t decoded_length = libp2p_crypto_encoding_base32_decode_size(key_length);`
			`if (decoded_length > max_binary_array_length)`
			`return 0;`

			`*completed_binary_array_length = max_binary_array_length;`
			`int retVal = libp2p_crypto_encoding_base32_decode(ds_key, key_length, binary_array, completed_binary_array_length);`
			`if (retVal == 0) {`
			`*completed_binary_array_length = 0;`
			`return 0;`
			`}`
			`return 1;`
			`}`
Began implementing updates to journal timestamp 2017-09-13 17:40:48 +00:00
			`/***`
			`* Add a record in the datastore based on a block`
			`* @param block the block`
			`* @param datastore the Datastore`
			`* @reutrns true(1) on success, false(0) otherwise`
			`*/`
			`int ipfs_datastore_helper_add_block_to_datastore(struct Block* block, struct Datastore* datastore) {`
			`struct DatastoreRecord* rec = libp2p_datastore_record_new();`
			`if (rec == NULL)`
			`return 0;`
			`rec->key_size = block->cid->hash_length;`
			`rec->key = (uint8_t*) malloc(rec->key_size);`
			`if (rec->key == NULL) {`
			`libp2p_datastore_record_free(rec);`
			`return 0;`
			`}`
			`memcpy(rec->key, block->cid->hash, rec->key_size);`
			`rec->timestamp = 0;`
			`// convert the key to base32, and store it in the DatabaseRecord->value section`
			`size_t fs_key_length = 100;`
			`uint8_t fs_key[fs_key_length];`
			`if (!ipfs_datastore_helper_ds_key_from_binary(block->cid->hash, block->cid->hash_length, fs_key, fs_key_length, &fs_key_length)) {`
			`libp2p_datastore_record_free(rec);`
			`return 0;`
			`}`
			`rec->value_size = fs_key_length;`
			`rec->value = malloc(rec->value_size);`
			`if (rec->value == NULL) {`
			`libp2p_datastore_record_free(rec);`
			`return 0;`
			`}`
			`memcpy(rec->value, fs_key, rec->value_size);`
			`int retVal = datastore->datastore_put(rec, datastore);`
			`libp2p_datastore_record_free(rec);`
			`return retVal;`
			`}`