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This commit is contained in:
+52
-49
@@ -66,14 +66,9 @@ typedef struct {
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// The server local ID is used to indicate
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// that different addresses refer to the
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// same server.
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//
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// The hash_lid is the index into the array
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// of hashes held by the parent operation struct.
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// This is necessary to duplicate chunks with
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// the same hash in the write.
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int server_lid;
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Address address;
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int hash_lid;
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int chunk_index;
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// The patch offset and data
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char *src;
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@@ -112,7 +107,8 @@ typedef struct {
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// Write fields
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SHA256 *hashes;
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int num_hashes;
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int num_hashes;
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uint32_t num_chunks;
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uint32_t chunk_size;
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UploadSchedule *uploads;
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int num_uploads;
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@@ -1005,27 +1001,29 @@ static void process_event_for_read(TinyDFS *tdfs,
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static int start_upload(TinyDFS *tdfs, int opidx)
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{
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Operation *o = &tdfs->operations[opidx];
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int found = -1;
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// Find a WAITING operation that can be started
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for (int i = 0; i < tdfs->operations[opidx].num_uploads; i++) {
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for (int i = 0; i < o->num_uploads; i++) {
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if (tdfs->operations[opidx].uploads[i].status != UPLOAD_WAITING)
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if (o->uploads[i].status != UPLOAD_WAITING)
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continue;
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// Can't start uploads of a chunk to the
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// same server twice.
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bool invalid = false;
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for (int j = 0; j < tdfs->operations[opidx].num_uploads; j++) {
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for (int j = 0; j < o->num_uploads; j++) {
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if (j == i)
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continue;
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if (tdfs->operations[opidx].uploads[j].status != UPLOAD_PENDING)
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if (o->uploads[j].status != UPLOAD_PENDING)
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continue;
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if (tdfs->operations[opidx].uploads[i].server_lid == tdfs->operations[opidx].uploads[j].server_lid ||
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addr_eql(tdfs->operations[opidx].uploads[i].address, tdfs->operations[opidx].uploads[j].address)) {
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if (o->uploads[i].server_lid == o->uploads[j].server_lid ||
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addr_eql(o->uploads[i].address, o->uploads[j].address)) {
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invalid = true;
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break;
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}
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@@ -1045,7 +1043,7 @@ static int start_upload(TinyDFS *tdfs, int opidx)
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assert(tag <= TAG_UPLOAD_CHUNK_MAX);
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ByteQueue *output;
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int chunk_server_idx = get_chunk_server(tdfs, &tdfs->operations[opidx].uploads[found].address, 1, &output);
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int chunk_server_idx = get_chunk_server(tdfs, &o->uploads[found].address, 1, &output);
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if (chunk_server_idx < 0)
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return -1;
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@@ -1055,21 +1053,19 @@ static int start_upload(TinyDFS *tdfs, int opidx)
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return -1;
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}
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if (tdfs->operations[opidx].uploads[found].hash_lid < 0) {
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if (o->uploads[found].chunk_index >= o->num_hashes) {
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char *data_ptr = o->uploads[found].src;
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uint32_t chunk_size = o->chunk_size;
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uint32_t target_off = o->uploads[found].off;
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uint32_t target_len = o->uploads[found].len;
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MessageWriter writer;
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message_writer_init(&writer, output, MESSAGE_TYPE_CREATE_CHUNK);
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char *data_ptr = tdfs->operations[opidx].uploads[found].src;
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uint32_t chunk_size = tdfs->operations[opidx].chunk_size;
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uint32_t target_off = tdfs->operations[opidx].uploads[found].off;
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uint32_t target_len = tdfs->operations[opidx].uploads[found].len;
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message_write(&writer, &chunk_size, sizeof(chunk_size));
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message_write(&writer, &target_off, sizeof(target_off));
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message_write(&writer, &target_len, sizeof(target_len));
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message_write(&writer, data_ptr, target_len);
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if (!message_writer_free(&writer)) {
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close_chunk_server(tdfs, chunk_server_idx);
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request_queue_pop(reqs, NULL);
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@@ -1078,19 +1074,17 @@ static int start_upload(TinyDFS *tdfs, int opidx)
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} else {
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char *data_ptr = o->uploads[found].src;
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SHA256 target_hash = o->hashes[o->uploads[found].chunk_index];
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uint32_t target_off = o->uploads[found].off;
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uint32_t target_len = o->uploads[found].len;
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MessageWriter writer;
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message_writer_init(&writer, output, MESSAGE_TYPE_UPLOAD_CHUNK);
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char *data_ptr = tdfs->operations[opidx].uploads[found].src;
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SHA256 target_hash = tdfs->operations[opidx].hashes[tdfs->operations[opidx].uploads[found].hash_lid];
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uint32_t target_off = tdfs->operations[opidx].uploads[found].off;
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uint32_t target_len = tdfs->operations[opidx].uploads[found].len;
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message_write(&writer, &target_hash, sizeof(target_hash));
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message_write(&writer, &target_off, sizeof(target_off));
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message_write(&writer, &target_len, sizeof(target_len));
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message_write(&writer, data_ptr, target_len);
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if (!message_writer_free(&writer)) {
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close_chunk_server(tdfs, chunk_server_idx);
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request_queue_pop(reqs, NULL);
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@@ -1098,7 +1092,7 @@ static int start_upload(TinyDFS *tdfs, int opidx)
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}
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}
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tdfs->operations[opidx].uploads[found].status = UPLOAD_PENDING;
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o->uploads[found].status = UPLOAD_PENDING;
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return 0;
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}
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@@ -1113,32 +1107,34 @@ static int count_pending_uploads(TinyDFS *tdfs, int opidx)
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static int schedule_upload(TinyDFS *tdfs, int opidx, UploadSchedule upload)
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{
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if (tdfs->operations[opidx].num_uploads == tdfs->operations[opidx].cap_uploads) {
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Operation *o = &tdfs->operations[opidx];
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if (o->num_uploads == o->cap_uploads) {
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int new_cap_uploads;
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if (tdfs->operations[opidx].uploads == NULL)
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if (o->uploads == NULL)
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new_cap_uploads = 8;
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else
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new_cap_uploads = 2 * tdfs->operations[opidx].cap_uploads;
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new_cap_uploads = 2 * o->cap_uploads;
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UploadSchedule *uploads = sys_malloc(new_cap_uploads * sizeof(UploadSchedule));
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if (uploads == NULL)
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return -1;
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if (tdfs->operations[opidx].num_uploads > 0) {
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if (o->num_uploads > 0) {
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memcpy(
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uploads,
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tdfs->operations[opidx].uploads,
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tdfs->operations[opidx].num_uploads * sizeof(UploadSchedule)
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o->uploads,
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o->num_uploads * sizeof(UploadSchedule)
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);
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free(tdfs->operations[opidx].uploads);
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free(o->uploads);
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}
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tdfs->operations[opidx].uploads = uploads;
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tdfs->operations[opidx].cap_uploads = new_cap_uploads;
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o->uploads = uploads;
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o->cap_uploads = new_cap_uploads;
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}
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tdfs->operations[opidx].uploads[tdfs->operations[opidx].num_uploads++] = upload;
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o->uploads[o->num_uploads++] = upload;
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return 0;
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}
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@@ -1190,6 +1186,7 @@ static void process_event_for_write(TinyDFS *tdfs,
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uint32_t num_all_hasehs = (tdfs->operations[opidx].len + tdfs->operations[opidx].chunk_size - 1) / tdfs->operations[opidx].chunk_size;
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uint32_t num_new_hashes = num_all_hasehs - num_hashes;
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tdfs->operations[opidx].num_chunks = num_all_hasehs;
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tdfs->operations[opidx].num_hashes = num_hashes; // TODO: overflow
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tdfs->operations[opidx].hashes = sys_malloc(num_hashes * sizeof(SHA256));
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@@ -1266,7 +1263,7 @@ static void process_event_for_write(TinyDFS *tdfs,
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upload.address.is_ipv4 = true;
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upload.address.ipv4 = ipv4;
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upload.address.port = port;
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upload.hash_lid = i;
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upload.chunk_index = i;
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upload.src = src;
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upload.off = off;
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upload.len = len;
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@@ -1302,7 +1299,7 @@ static void process_event_for_write(TinyDFS *tdfs,
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upload.address.is_ipv4 = false;
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upload.address.ipv6 = ipv6;
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upload.address.port = port;
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upload.hash_lid = i;
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upload.chunk_index = i;
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upload.src = src;
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upload.off = off;
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upload.len = len;
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@@ -1367,7 +1364,7 @@ static void process_event_for_write(TinyDFS *tdfs,
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upload.address.is_ipv4 = true;
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upload.address.ipv4 = ipv4;
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upload.address.port = port;
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upload.hash_lid = -1;
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upload.chunk_index = num_hashes + w;
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upload.src = src;
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upload.off = off;
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upload.len = len;
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@@ -1422,7 +1419,7 @@ static void process_event_for_write(TinyDFS *tdfs,
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upload.address.is_ipv4 = false;
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upload.address.ipv6 = ipv6;
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upload.address.port = port;
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upload.hash_lid = -1;
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upload.chunk_index = num_hashes + w;
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upload.src = src;
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upload.off = off;
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upload.len = len;
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@@ -1531,14 +1528,20 @@ static void process_event_for_write(TinyDFS *tdfs,
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return;
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}
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if (type != MESSAGE_TYPE_UPLOAD_CHUNK_SUCCESS) {
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uint16_t expected_type;
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if (tdfs->operations[opidx].uploads[found].chunk_index >= tdfs->operations[opidx].num_hashes)
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expected_type = MESSAGE_TYPE_CREATE_CHUNK_SUCCESS;
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else
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expected_type = MESSAGE_TYPE_UPLOAD_CHUNK_SUCCESS;
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if (type != expected_type) {
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tdfs->operations[opidx].uploads[found].status = UPLOAD_FAILED;
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} else {
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tdfs->operations[opidx].uploads[found].status = UPLOAD_COMPLETED;
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for (int i = 0; i < tdfs->operations[opidx].num_uploads; i++) {
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if (tdfs->operations[opidx].uploads[i].status == UPLOAD_WAITING
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&& tdfs->operations[opidx].uploads[i].hash_lid == tdfs->operations[opidx].uploads[found].hash_lid
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&& tdfs->operations[opidx].uploads[i].chunk_index == tdfs->operations[opidx].uploads[found].chunk_index
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&& (addr_eql(tdfs->operations[opidx].uploads[i].address, tdfs->operations[opidx].uploads[found].address)
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|| tdfs->operations[opidx].uploads[i].server_lid == tdfs->operations[opidx].uploads[found].server_lid))
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tdfs->operations[opidx].uploads[i].status = UPLOAD_IGNORED;
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@@ -1572,7 +1575,7 @@ static void process_event_for_write(TinyDFS *tdfs,
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int replication;
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} ChunkUploadResult;
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int num_upload_results = tdfs->operations[opidx].num_hashes;
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int num_upload_results = tdfs->operations[opidx].num_chunks;
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ChunkUploadResult *upload_results = sys_malloc(num_upload_results * sizeof(ChunkUploadResult));
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if (upload_results == NULL) {
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// TODO
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@@ -1585,8 +1588,8 @@ static void process_event_for_write(TinyDFS *tdfs,
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for (int i = 0; i < tdfs->operations[opidx].num_uploads; i++)
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if (tdfs->operations[opidx].uploads[i].status == UPLOAD_COMPLETED) {
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upload_results[tdfs->operations[opidx].uploads[i].hash_lid].new_hash = tdfs->operations[opidx].uploads[i].final_hash;
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upload_results[tdfs->operations[opidx].uploads[i].hash_lid].replication++;
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upload_results[tdfs->operations[opidx].uploads[i].chunk_index].new_hash = tdfs->operations[opidx].uploads[i].final_hash;
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upload_results[tdfs->operations[opidx].uploads[i].chunk_index].replication++;
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}
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// Now check that each chunk is replicated
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@@ -252,7 +252,8 @@ int simulation_client_step(SimulationClient *client, void **contexts,
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*timeout = -1;
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} else {
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// Wake up soon to continue processing
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*timeout = 10; // 10ms
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//*timeout = 10; // 10ms
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*timeout = -1; // TODO
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}
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// Return the poll array from the TinyDFS client
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+12
-3
@@ -320,12 +320,15 @@ int spawn_simulated_process(char *args)
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switch (process->type) {
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case PROCESS_TYPE_METADATA_SERVER:
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printf("metadata_server_init\n");
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num_polled = metadata_server_init(&process->metadata_server, argc, argv, contexts, polled, &timeout);
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break;
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case PROCESS_TYPE_CHUNK_SERVER:
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printf("chunk_server_init\n");
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num_polled = chunk_server_init(&process->chunk_server, argc, argv, contexts, polled, &timeout);
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break;
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case PROCESS_TYPE_CLIENT:
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printf("simulation_client_init\n");
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num_polled = simulation_client_init(&process->simulation_client, argc, argv, contexts, polled, &timeout);
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break;
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default:
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@@ -641,15 +644,15 @@ void update_simulation(void)
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int timeout = -1;
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switch (current_process->type) {
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case PROCESS_TYPE_METADATA_SERVER:
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//printf(" Metadata server woke up\n");
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printf("metadata_server_step\n");
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num_polled = metadata_server_step(¤t_process->metadata_server, contexts, polled, num_polled, &timeout);
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break;
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case PROCESS_TYPE_CHUNK_SERVER:
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//printf(" Chunk server woke up\n");
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printf("chunk_server_step\n");
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num_polled = chunk_server_step(¤t_process->chunk_server, contexts, polled, num_polled, &timeout);
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break;
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case PROCESS_TYPE_CLIENT:
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//printf(" Client woke up\n");
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printf("simulation_client_step\n");
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num_polled = simulation_client_step(¤t_process->simulation_client, contexts, polled, num_polled, &timeout);
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break;
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}
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@@ -685,8 +688,11 @@ void update_simulation(void)
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case CONNECTION_DELAYED:
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{
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printf("Resolving connect\n"); // TODO
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DescriptorHandle peer_handle;
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if (!find_peer_by_address(desc->connect_address, &peer_handle)) {
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printf("connect failed (line %d)\n", __LINE__); // TODO
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desc->revents |= POLLOUT;
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desc->connection_state = CONNECTION_FAILED;
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desc->connect_errno = EHOSTUNREACH; // TODO: This only works on Linux, not Windows
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@@ -696,12 +702,15 @@ void update_simulation(void)
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DescriptorHandle self_handle = { processes[i], j, desc->generation };
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if (!accept_queue_push(&peer->accept_queue, self_handle)) {
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printf("connect failed (line %d)\n", __LINE__); // TODO
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desc->revents |= POLLOUT;
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desc->connection_state = CONNECTION_FAILED;
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desc->connect_errno = ECONNREFUSED; // TODO: This only works on Linux, not Windows
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break;
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}
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printf("connect succeded\n"); // TODO
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peer->revents |= POLLIN;
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desc->connection_state = CONNECTION_QUEUED;
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Reference in New Issue
Block a user