/* -*- Mode: C; tab-width: 2; c-basic-offset: 2; indent-tabs-mode: nil -*- */
-#include "common.h"
+#include "libmemcached/protocol/common.h"
#include <stdlib.h>
#include <sys/types.h>
-#include <sys/socket.h>
#include <errno.h>
#include <stdbool.h>
#include <string.h>
+#include <strings.h>
+#include <ctype.h>
#include <stdio.h>
/*
* @return the number of bytes transferred of -1 upon error
*/
static ssize_t default_recv(const void *cookie,
- int sock,
+ memcached_socket_t sock,
void *buf,
size_t nbytes)
{
* @return the number of bytes transferred of -1 upon error
*/
static ssize_t default_send(const void *cookie,
- int fd,
+ memcached_socket_t fd,
const void *buf,
size_t nbytes)
{
* true otherwise (please note that there may be more data to
* left in the buffer to send)
*/
-static bool drain_output(struct memcached_binary_protocol_client_st *client)
+static bool drain_output(struct memcached_protocol_client_st *client)
{
ssize_t len;
- // Do we have pending data to send?
+ /* Do we have pending data to send? */
while (client->output != NULL)
{
len= client->root->send(client,
if (len == -1)
{
- if (errno == EWOULDBLOCK)
+ if (get_socket_errno() == EWOULDBLOCK)
{
return true;
}
- else if (errno != EINTR)
+ else if (get_socket_errno() != EINTR)
{
- client->error= errno;
+ client->error= get_socket_errno();
return false;
}
}
* @param client the client that needs the buffer
* @return pointer to the new chunk if the allocation succeeds, NULL otherwise
*/
-static struct chunk_st*
-allocate_output_chunk(struct memcached_binary_protocol_client_st *client)
+static struct chunk_st *allocate_output_chunk(struct memcached_protocol_client_st *client)
{
- struct chunk_st*ret= cache_alloc(client->root->buffer_cache);
- if (ret == NULL) {
+ struct chunk_st *ret= cache_alloc(client->root->buffer_cache);
+
+ if (ret == NULL)
+ {
return NULL;
}
- ret->offset = ret->nbytes = 0;
- ret->next = NULL;
- ret->size = CHUNK_BUFFERSIZE;
+ ret->offset= ret->nbytes= 0;
+ ret->next= NULL;
+ ret->size= CHUNK_BUFFERSIZE;
ret->data= (void*)(ret + 1);
if (client->output == NULL)
{
- client->output = client->output_tail = ret;
+ client->output= client->output_tail= ret;
}
else
{
* @return PROTOCOL_BINARY_RESPONSE_SUCCESS if success,
* PROTOCOL_BINARY_RESPONSE_ENOMEM if we failed to allocate memory
*/
-static protocol_binary_response_status
-spool_output(struct memcached_binary_protocol_client_st *client,
- const void *data,
- size_t length)
+static protocol_binary_response_status spool_output(struct memcached_protocol_client_st *client,
+ const void *data,
+ size_t length)
{
- size_t offset = 0;
+ if (client->mute)
+ {
+ return PROTOCOL_BINARY_RESPONSE_SUCCESS;
+ }
+
+ size_t offset= 0;
struct chunk_st *chunk= client->output;
while (offset < length)
}
}
- size_t bulk = length - offset;
+ size_t bulk= length - offset;
if (bulk > chunk->size - chunk->nbytes)
{
- bulk = chunk->size - chunk->nbytes;
+ bulk= chunk->size - chunk->nbytes;
}
memcpy(chunk->data + chunk->nbytes, data, bulk);
}
/**
- * Send a preformatted packet back to the client. If the connection is in
- * pedantic mode, it will validate the packet and refuse to send it if it
- * breaks the specification.
- *
- * @param cookie client identification
- * @param request the original request packet
- * @param response the packet to send
- * @return The status of the operation
- */
-static protocol_binary_response_status
-raw_response_handler(const void *cookie,
- protocol_binary_request_header *request,
- protocol_binary_response_header *response)
-{
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
-
- if (client->root->pedantic &&
- !memcached_binary_protocol_pedantic_check_response(request, response))
- {
- return PROTOCOL_BINARY_RESPONSE_EINVAL;
- }
-
- if (!drain_output(client))
- {
- return PROTOCOL_BINARY_RESPONSE_EIO;
- }
-
- size_t len= sizeof(*response) + htonl(response->response.bodylen);
- size_t offset= 0;
- char *ptr= (void*)response;
-
- if (client->output == NULL)
- {
- /* I can write directly to the socket.... */
- do
- {
- size_t num_bytes= len - offset;
- ssize_t nw= client->root->send(client,
- client->sock,
- ptr + offset,
- num_bytes);
- if (nw == -1)
- {
- if (errno == EWOULDBLOCK)
- {
- break;
- }
- else if (errno != EINTR)
- {
- client->error= errno;
- return PROTOCOL_BINARY_RESPONSE_EIO;
- }
- }
- else
- {
- offset += (size_t)nw;
- }
- } while (offset < len);
- }
-
- return spool_output(client, ptr, len - offset);
-}
-
-/*
- * Version 0 of the interface is really low level and protocol specific,
- * while the version 1 of the interface is more API focused. We need a
- * way to translate between the command codes on the wire and the
- * application level interface in V1, so let's just use the V0 of the
- * interface as a map instead of creating a huuuge switch :-)
- */
-
-/**
- * Callback for the GET/GETQ/GETK and GETKQ responses
- * @param cookie client identifier
- * @param key the key for the item
- * @param keylen the length of the key
- * @param body the length of the body
- * @param bodylen the length of the body
- * @param flags the flags for the item
- * @param cas the CAS id for the item
- */
-static protocol_binary_response_status
-get_response_handler(const void *cookie,
- const void *key,
- uint16_t keylen,
- const void *body,
- uint32_t bodylen,
- uint32_t flags,
- uint64_t cas) {
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- uint8_t opcode= client->current_command->request.opcode;
-
- if (opcode == PROTOCOL_BINARY_CMD_GET || opcode == PROTOCOL_BINARY_CMD_GETQ)
- {
- keylen= 0;
- }
-
- protocol_binary_response_get response= {
- .message.header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= opcode,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= client->current_command->request.opaque,
- .cas= htonll(cas),
- .keylen= htons(keylen),
- .extlen= 4,
- .bodylen= htonl(bodylen + keylen + 4),
- },
- .message.body.flags= htonl(flags),
- };
-
- protocol_binary_response_status rval;
- const protocol_binary_response_status success = PROTOCOL_BINARY_RESPONSE_SUCCESS;
- if ((rval= spool_output(client, response.bytes, sizeof(response.bytes))) != success ||
- (rval= spool_output(client, key, keylen)) != success ||
- (rval= spool_output(client, body, bodylen)) != success)
- {
- return rval;
- }
-
- return PROTOCOL_BINARY_RESPONSE_SUCCESS;
-}
-
-/**
- * Callback for the STAT responses
- * @param cookie client identifier
- * @param key the key for the item
- * @param keylen the length of the key
- * @param body the length of the body
- * @param bodylen the length of the body
- */
-static protocol_binary_response_status
-stat_response_handler(const void *cookie,
- const void *key,
- uint16_t keylen,
- const void *body,
- uint32_t bodylen) {
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
-
- protocol_binary_response_no_extras response= {
- .message.header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= client->current_command->request.opcode,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= client->current_command->request.opaque,
- .keylen= htons(keylen),
- .bodylen= htonl(bodylen + keylen),
- },
- };
-
- protocol_binary_response_status rval;
- const protocol_binary_response_status success = PROTOCOL_BINARY_RESPONSE_SUCCESS;
- if ((rval= spool_output(client, response.bytes, sizeof(response.bytes))) != success ||
- (rval= spool_output(client, key, keylen)) != success ||
- (rval= spool_output(client, body, bodylen)) != success)
- {
- return rval;
- }
-
- return PROTOCOL_BINARY_RESPONSE_SUCCESS;
-}
-
-/**
- * Callback for the VERSION responses
- * @param cookie client identifier
- * @param text the length of the body
- * @param textlen the length of the body
- */
-static protocol_binary_response_status
-version_response_handler(const void *cookie,
- const void *text,
- uint32_t textlen) {
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
-
- protocol_binary_response_no_extras response= {
- .message.header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= client->current_command->request.opcode,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= client->current_command->request.opaque,
- .bodylen= htonl(textlen),
- },
- };
-
- protocol_binary_response_status rval;
- const protocol_binary_response_status success = PROTOCOL_BINARY_RESPONSE_SUCCESS;
- if ((rval= spool_output(client, response.bytes, sizeof(response.bytes))) != success ||
- (rval= spool_output(client, text, textlen)) != success)
- {
- return rval;
- }
-
- return PROTOCOL_BINARY_RESPONSE_SUCCESS;
-}
-
-/**
- * Callback for ADD and ADDQ
- * @param cookie the calling client
- * @param header the add/addq command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-add_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.add != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
- uint32_t datalen= ntohl(header->request.bodylen) - keylen - 8;
- protocol_binary_request_add *request= (void*)header;
- uint32_t flags= ntohl(request->message.body.flags);
- uint32_t timeout= ntohl(request->message.body.expiration);
- char *key= ((char*)header) + sizeof(*header) + 8;
- char *data= key + keylen;
- uint64_t cas;
-
- rval= client->root->callback->interface.v1.add(cookie, key, keylen,
- data, datalen, flags,
- timeout, &cas);
-
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_ADD)
- {
- /* Send a positive request */
- protocol_binary_response_no_extras response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_ADD,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- .cas= ntohll(cas)
- }
- }
- };
- rval= response_handler(cookie, header, (void*)&response);
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for DECREMENT and DECREMENTQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-decrement_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.decrement != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
- protocol_binary_request_decr *request= (void*)header;
- uint64_t init= ntohll(request->message.body.initial);
- uint64_t delta= ntohll(request->message.body.delta);
- uint32_t timeout= ntohl(request->message.body.expiration);
- void *key= request->bytes + sizeof(request->bytes);
- uint64_t result;
- uint64_t cas;
-
- rval= client->root->callback->interface.v1.decrement(cookie, key, keylen,
- delta, init, timeout,
- &result, &cas);
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_DECREMENT)
- {
- /* Send a positive request */
- protocol_binary_response_decr response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_DECREMENT,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- .cas= ntohll(cas),
- .bodylen= htonl(8)
- },
- .body.value = htonll(result)
- }
- };
- rval= response_handler(cookie, header, (void*)&response);
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for DELETE and DELETEQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-delete_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.delete != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
- void *key= (header + 1);
- uint64_t cas= ntohll(header->request.cas);
- rval= client->root->callback->interface.v1.delete(cookie, key, keylen, cas);
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_DELETE)
- {
- /* Send a positive request */
- protocol_binary_response_no_extras response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_DELETE,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- }
- }
- };
- rval= response_handler(cookie, header, (void*)&response);
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for FLUSH and FLUSHQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-flush_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.flush != NULL)
- {
- protocol_binary_request_flush *flush= (void*)header;
- uint32_t timeout= 0;
- if (htonl(header->request.bodylen) == 4)
- {
- timeout= ntohl(flush->message.body.expiration);
- }
-
- rval= client->root->callback->interface.v1.flush(cookie, timeout);
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_FLUSH)
- {
- /* Send a positive request */
- protocol_binary_response_no_extras response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_FLUSH,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- }
- }
- };
- rval= response_handler(cookie, header, (void*)&response);
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for GET, GETK, GETQ, GETKQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-get_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.get != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
- void *key= (header + 1);
- rval= client->root->callback->interface.v1.get(cookie, key, keylen,
- get_response_handler);
-
- if (rval == PROTOCOL_BINARY_RESPONSE_KEY_ENOENT &&
- (header->request.opcode == PROTOCOL_BINARY_CMD_GETQ ||
- header->request.opcode == PROTOCOL_BINARY_CMD_GETKQ))
- {
- /* Quiet commands shouldn't respond on cache misses */
- rval= PROTOCOL_BINARY_RESPONSE_SUCCESS;
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for INCREMENT and INCREMENTQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-increment_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.increment != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
- protocol_binary_request_incr *request= (void*)header;
- uint64_t init= ntohll(request->message.body.initial);
- uint64_t delta= ntohll(request->message.body.delta);
- uint32_t timeout= ntohl(request->message.body.expiration);
- void *key= request->bytes + sizeof(request->bytes);
- uint64_t cas;
- uint64_t result;
-
- rval= client->root->callback->interface.v1.increment(cookie, key, keylen,
- delta, init, timeout,
- &result, &cas);
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_INCREMENT)
- {
- /* Send a positive request */
- protocol_binary_response_incr response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_INCREMENT,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- .cas= ntohll(cas),
- .bodylen= htonl(8)
- },
- .body.value = htonll(result)
- }
- };
-
- rval= response_handler(cookie, header, (void*)&response);
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for noop. Inform the v1 interface about the noop packet, and
- * create and send a packet back to the client
+ * Try to determine the protocol used on this connection.
+ * If the first byte contains the magic byte PROTOCOL_BINARY_REQ we should
+ * be using the binary protocol on the connection. I implemented the support
+ * for the ASCII protocol by wrapping into the simple interface (aka v1),
+ * so the implementors needs to provide an implementation of that interface
*
- * @param cookie the calling client
- * @param header the command
- * @param response_handler the response handler
- * @return the result of the operation
- */
-static protocol_binary_response_status
-noop_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.noop != NULL)
- {
- client->root->callback->interface.v1.noop(cookie);
- }
-
- protocol_binary_response_no_extras response= {
- .message = {
- .header.response = {
- .magic = PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_NOOP,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- }
- }
- };
-
- return response_handler(cookie, header, (void*)&response);
-}
-
-/**
- * Callback for APPEND and APPENDQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-append_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.append != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
- uint32_t datalen= ntohl(header->request.bodylen) - keylen;
- char *key= (void*)(header + 1);
- char *data= key + keylen;
- uint64_t cas= ntohll(header->request.cas);
- uint64_t result_cas;
-
- rval= client->root->callback->interface.v1.append(cookie, key, keylen,
- data, datalen, cas,
- &result_cas);
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_APPEND)
- {
- /* Send a positive request */
- protocol_binary_response_no_extras response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_APPEND,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- .cas= ntohll(result_cas),
- },
- }
- };
- rval= response_handler(cookie, header, (void*)&response);
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for PREPEND and PREPENDQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-prepend_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.prepend != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
- uint32_t datalen= ntohl(header->request.bodylen) - keylen;
- char *key= (char*)(header + 1);
- char *data= key + keylen;
- uint64_t cas= ntohll(header->request.cas);
- uint64_t result_cas;
- rval= client->root->callback->interface.v1.prepend(cookie, key, keylen,
- data, datalen, cas,
- &result_cas);
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_PREPEND)
- {
- /* Send a positive request */
- protocol_binary_response_no_extras response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_PREPEND,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- .cas= ntohll(result_cas),
- },
- }
- };
- rval= response_handler(cookie, header, (void*)&response);
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for QUIT and QUITQ. Notify the client and shut down the connection
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-quit_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.quit != NULL)
- {
- client->root->callback->interface.v1.quit(cookie);
- }
-
- protocol_binary_response_no_extras response= {
- .message = {
- .header.response = {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_QUIT,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque
- }
- }
- };
-
- if (header->request.opcode == PROTOCOL_BINARY_CMD_QUIT)
- {
- response_handler(cookie, header, (void*)&response);
- }
-
- /* I need a better way to signal to close the connection */
- return PROTOCOL_BINARY_RESPONSE_EIO;
-}
-
-/**
- * Callback for REPLACE and REPLACEQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-replace_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.replace != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
- uint32_t datalen= ntohl(header->request.bodylen) - keylen - 8;
- protocol_binary_request_replace *request= (void*)header;
- uint32_t flags= ntohl(request->message.body.flags);
- uint32_t timeout= ntohl(request->message.body.expiration);
- char *key= ((char*)header) + sizeof(*header) + 8;
- char *data= key + keylen;
- uint64_t cas= ntohll(header->request.cas);
- uint64_t result_cas;
-
- rval= client->root->callback->interface.v1.replace(cookie, key, keylen,
- data, datalen, flags,
- timeout, cas,
- &result_cas);
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_REPLACE)
- {
- /* Send a positive request */
- protocol_binary_response_no_extras response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_REPLACE,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- .cas= ntohll(result_cas),
- },
- }
- };
- rval= response_handler(cookie, header, (void*)&response);
- }
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for SET and SETQ
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
*/
-static protocol_binary_response_status
-set_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
+static memcached_protocol_event_t determine_protocol(struct memcached_protocol_client_st *client, ssize_t *length, void **endptr)
{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.set != NULL)
+ if (*client->root->input_buffer == (uint8_t)PROTOCOL_BINARY_REQ)
{
- uint16_t keylen= ntohs(header->request.keylen);
- uint32_t datalen= ntohl(header->request.bodylen) - keylen - 8;
- protocol_binary_request_replace *request= (void*)header;
- uint32_t flags= ntohl(request->message.body.flags);
- uint32_t timeout= ntohl(request->message.body.expiration);
- char *key= ((char*)header) + sizeof(*header) + 8;
- char *data= key + keylen;
- uint64_t cas= ntohll(header->request.cas);
- uint64_t result_cas;
-
-
- rval= client->root->callback->interface.v1.set(cookie, key, keylen,
- data, datalen, flags,
- timeout, cas, &result_cas);
- if (rval == PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- header->request.opcode == PROTOCOL_BINARY_CMD_SET)
- {
- /* Send a positive request */
- protocol_binary_response_no_extras response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= PROTOCOL_BINARY_CMD_SET,
- .status= htons(PROTOCOL_BINARY_RESPONSE_SUCCESS),
- .opaque= header->request.opaque,
- .cas= ntohll(result_cas),
- },
- }
- };
- rval= response_handler(cookie, header, (void*)&response);
- }
+ client->work= memcached_binary_protocol_process_data;
}
- else
+ else if (client->root->callback->interface_version == 1)
{
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for STAT
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-stat_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.stat != NULL)
- {
- uint16_t keylen= ntohs(header->request.keylen);
-
- rval= client->root->callback->interface.v1.stat(cookie,
- (void*)(header + 1),
- keylen,
- stat_response_handler);
- }
- else
- {
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * Callback for VERSION
- * @param cookie the calling client
- * @param header the command
- * @param response_handler not used
- * @return the result of the operation
- */
-static protocol_binary_response_status
-version_command_handler(const void *cookie,
- protocol_binary_request_header *header,
- memcached_binary_protocol_raw_response_handler response_handler)
-{
- (void)response_handler;
- (void)header;
- protocol_binary_response_status rval;
-
- struct memcached_binary_protocol_client_st *client= (void*)cookie;
- if (client->root->callback->interface.v1.version != NULL)
- {
- rval= client->root->callback->interface.v1.version(cookie,
- version_response_handler);
+ /*
+ * The ASCII protocol can only be used if the implementors provide
+ * an implementation for the version 1 of the interface..
+ *
+ * @todo I should allow the implementors to provide an implementation
+ * for version 0 and 1 at the same time and set the preferred
+ * interface to use...
+ */
+ client->work= memcached_ascii_protocol_process_data;
}
else
{
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- }
-
- return rval;
-}
-
-/**
- * The map to remap between the com codes and the v1 logical setting
- */
-static memcached_binary_protocol_command_handler comcode_v0_v1_remap[256]= {
- [PROTOCOL_BINARY_CMD_ADDQ]= add_command_handler,
- [PROTOCOL_BINARY_CMD_ADD]= add_command_handler,
- [PROTOCOL_BINARY_CMD_APPENDQ]= append_command_handler,
- [PROTOCOL_BINARY_CMD_APPEND]= append_command_handler,
- [PROTOCOL_BINARY_CMD_DECREMENTQ]= decrement_command_handler,
- [PROTOCOL_BINARY_CMD_DECREMENT]= decrement_command_handler,
- [PROTOCOL_BINARY_CMD_DELETEQ]= delete_command_handler,
- [PROTOCOL_BINARY_CMD_DELETE]= delete_command_handler,
- [PROTOCOL_BINARY_CMD_FLUSHQ]= flush_command_handler,
- [PROTOCOL_BINARY_CMD_FLUSH]= flush_command_handler,
- [PROTOCOL_BINARY_CMD_GETKQ]= get_command_handler,
- [PROTOCOL_BINARY_CMD_GETK]= get_command_handler,
- [PROTOCOL_BINARY_CMD_GETQ]= get_command_handler,
- [PROTOCOL_BINARY_CMD_GET]= get_command_handler,
- [PROTOCOL_BINARY_CMD_INCREMENTQ]= increment_command_handler,
- [PROTOCOL_BINARY_CMD_INCREMENT]= increment_command_handler,
- [PROTOCOL_BINARY_CMD_NOOP]= noop_command_handler,
- [PROTOCOL_BINARY_CMD_PREPENDQ]= prepend_command_handler,
- [PROTOCOL_BINARY_CMD_PREPEND]= prepend_command_handler,
- [PROTOCOL_BINARY_CMD_QUITQ]= quit_command_handler,
- [PROTOCOL_BINARY_CMD_QUIT]= quit_command_handler,
- [PROTOCOL_BINARY_CMD_REPLACEQ]= replace_command_handler,
- [PROTOCOL_BINARY_CMD_REPLACE]= replace_command_handler,
- [PROTOCOL_BINARY_CMD_SETQ]= set_command_handler,
- [PROTOCOL_BINARY_CMD_SET]= set_command_handler,
- [PROTOCOL_BINARY_CMD_STAT]= stat_command_handler,
- [PROTOCOL_BINARY_CMD_VERSION]= version_command_handler,
-};
-
-/**
- * Try to execute a command. Fire the pre/post functions and the specialized
- * handler function if it's set. If not, the unknown probe should be fired
- * if it's present.
- * @param client the client connection to operate on
- * @param header the command to execute
- * @return true if success or false if a fatal error occured so that the
- * connection should be shut down.
- */
-static bool execute_command(struct memcached_binary_protocol_client_st *client, protocol_binary_request_header *header)
-{
- if (client->root->pedantic &&
- memcached_binary_protocol_pedantic_check_request(header))
- {
- /* @todo return invalid command packet */
- }
-
- /* we got all data available, execute the callback! */
- if (client->root->callback->pre_execute != NULL)
- {
- client->root->callback->pre_execute(client, header);
- }
-
- protocol_binary_response_status rval;
- rval= PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND;
- uint8_t cc= header->request.opcode;
-
- switch (client->root->callback->interface_version)
- {
- case 0:
- if (client->root->callback->interface.v0.comcode[cc] != NULL) {
- rval= client->root->callback->interface.v0.comcode[cc](client, header, raw_response_handler);
- }
- break;
- case 1:
- if (comcode_v0_v1_remap[cc] != NULL) {
- rval= comcode_v0_v1_remap[cc](client, header, raw_response_handler);
- }
- break;
- default:
- /* Unknown interface.
- * It should be impossible to get here so I'll just call abort
- * to avoid getting a compiler warning :-)
+ /* Let's just output a warning the way it is supposed to look like
+ * in the ASCII protocol...
*/
- abort();
- }
-
-
- if (rval == PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND &&
- client->root->callback->unknown != NULL)
- {
- rval= client->root->callback->unknown(client, header, raw_response_handler);
+ const char *err= "CLIENT_ERROR: Unsupported protocol\r\n";
+ client->root->spool(client, err, strlen(err));
+ client->root->drain(client);
+ return MEMCACHED_PROTOCOL_ERROR_EVENT; /* Unsupported protocol */
}
- if (rval != PROTOCOL_BINARY_RESPONSE_SUCCESS &&
- rval != PROTOCOL_BINARY_RESPONSE_EIO)
- {
- protocol_binary_response_no_extras response= {
- .message= {
- .header.response= {
- .magic= PROTOCOL_BINARY_RES,
- .opcode= cc,
- .status= htons(rval),
- .opaque= header->request.opaque,
- },
- }
- };
- rval= raw_response_handler(client, header, (void*)&response);
- }
-
- if (client->root->callback->post_execute != NULL)
- {
- client->root->callback->post_execute(client, header);
- }
-
- return rval != PROTOCOL_BINARY_RESPONSE_EIO;
+ return client->work(client, length, endptr);
}
/*
** * See protocol_handler.h for function description
** **********************************************************************
*/
-struct memcached_binary_protocol_st *memcached_binary_protocol_create_instance(void)
+struct memcached_protocol_st *memcached_protocol_create_instance(void)
{
- struct memcached_binary_protocol_st *ret= calloc(1, sizeof(*ret));
+ struct memcached_protocol_st *ret= calloc(1, sizeof(*ret));
if (ret != NULL)
{
ret->recv= default_recv;
ret->send= default_send;
+ ret->drain= drain_output;
+ ret->spool= spool_output;
ret->input_buffer_size= 1 * 1024 * 1024;
ret->input_buffer= malloc(ret->input_buffer_size);
if (ret->input_buffer == NULL)
return NULL;
}
- ret->buffer_cache = cache_create("protocol_handler",
+ ret->buffer_cache= cache_create("protocol_handler",
CHUNK_BUFFERSIZE + sizeof(struct chunk_st),
0, NULL, NULL);
- if (ret->buffer_cache == NULL) {
+ if (ret->buffer_cache == NULL)
+ {
free(ret->input_buffer);
free(ret);
}
return ret;
}
-void memcached_binary_protocol_destroy_instance(struct memcached_binary_protocol_st *instance)
+void memcached_protocol_destroy_instance(struct memcached_protocol_st *instance)
{
cache_destroy(instance->buffer_cache);
free(instance->input_buffer);
free(instance);
}
-struct memcached_binary_protocol_callback_st *memcached_binary_protocol_get_callbacks(struct memcached_binary_protocol_st *instance)
-{
- return instance->callback;
-}
-
-void memcached_binary_protocol_set_callbacks(struct memcached_binary_protocol_st *instance, struct memcached_binary_protocol_callback_st *callback)
+struct memcached_protocol_client_st *memcached_protocol_create_client(struct memcached_protocol_st *instance, memcached_socket_t sock)
{
- instance->callback= callback;
-}
-
-memcached_binary_protocol_raw_response_handler memcached_binary_protocol_get_raw_response_handler(const void *cookie)
-{
- (void)cookie;
- return raw_response_handler;
-}
-
-void memcached_binary_protocol_set_pedantic(struct memcached_binary_protocol_st *instance, bool enable)
-{
- instance->pedantic= enable;
-}
-
-bool memcached_binary_protocol_get_pedantic(struct memcached_binary_protocol_st *instance)
-{
- return instance->pedantic;
-}
-
-struct memcached_binary_protocol_client_st *memcached_binary_protocol_create_client(struct memcached_binary_protocol_st *instance, int sock)
-{
- struct memcached_binary_protocol_client_st *ret= calloc(1, sizeof(*ret));
+ struct memcached_protocol_client_st *ret= calloc(1, sizeof(*ret));
if (ret != NULL)
{
ret->root= instance;
ret->sock= sock;
+ ret->work= determine_protocol;
}
return ret;
}
-void memcached_binary_protocol_client_destroy(struct memcached_binary_protocol_client_st *client)
+void memcached_protocol_client_destroy(struct memcached_protocol_client_st *client)
{
free(client);
}
-enum MEMCACHED_BINARY_PROTOCOL_EVENT memcached_binary_protocol_client_work(struct memcached_binary_protocol_client_st *client)
+memcached_protocol_event_t memcached_protocol_client_work(struct memcached_protocol_client_st *client)
{
/* Try to send data and read from the socket */
bool more_data= true;
client->input_buffer_offset= 0;
}
- /* try to parse all of the received packets */
- protocol_binary_request_header *header;
- header= (void*)client->root->input_buffer;
-
- if (header->request.magic != (uint8_t)PROTOCOL_BINARY_REQ)
- {
- client->error= EINVAL;
- return ERROR_EVENT;
- }
-
- while (len >= (ssize_t)sizeof(*header) &&
- (len >= (ssize_t)(sizeof(*header) + ntohl(header->request.bodylen))))
+ void *endptr;
+ memcached_protocol_event_t events= client->work(client, &len, &endptr);
+ if (events == MEMCACHED_PROTOCOL_ERROR_EVENT)
{
-
- /* I have the complete package */
- client->current_command = header;
- if (!execute_command(client, header))
- {
- return ERROR_EVENT;
- }
-
- ssize_t total= (ssize_t)(sizeof(*header) + ntohl(header->request.bodylen));
- len -= total;
- if (len > 0)
- {
- intptr_t ptr= (intptr_t)header;
- ptr += total;
- if ((ptr % 8) == 0)
- {
- header= (void*)ptr;
- }
- else
- {
- memmove(client->root->input_buffer, (void*)ptr, (size_t)len);
- header= (void*)client->root->input_buffer;
- }
- }
+ return MEMCACHED_PROTOCOL_ERROR_EVENT;
}
if (len > 0)
if (client->input_buffer == NULL)
{
client->error= ENOMEM;
- return ERROR_EVENT;
+ return MEMCACHED_PROTOCOL_ERROR_EVENT;
}
- memcpy(client->input_buffer, header, (size_t)len);
+ memcpy(client->input_buffer, endptr, (size_t)len);
client->input_buffer_offset= (size_t)len;
more_data= false;
}
{
/* Connection closed */
drain_output(client);
- return ERROR_EVENT;
+ return MEMCACHED_PROTOCOL_ERROR_EVENT;
}
else
{
- if (errno != EWOULDBLOCK)
+ if (get_socket_errno() != EWOULDBLOCK)
{
- client->error= errno;
+ client->error= get_socket_errno();
/* mark this client as terminated! */
- return ERROR_EVENT;
+ return MEMCACHED_PROTOCOL_ERROR_EVENT;
}
- more_data = false;
+ more_data= false;
}
} while (more_data);
if (!drain_output(client))
{
- return ERROR_EVENT;
+ return MEMCACHED_PROTOCOL_ERROR_EVENT;
}
- return (client->output) ? READ_WRITE_EVENT : READ_EVENT;
+ memcached_protocol_event_t ret= MEMCACHED_PROTOCOL_READ_EVENT;
+ if (client->output)
+ ret|= MEMCACHED_PROTOCOL_READ_EVENT;
+
+ return ret;
}