/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "ajp.h" static char *hex_table = "0123456789ABCDEF"; /** * Dump up to the first 1024 bytes on an AJP Message * * @param pool pool to allocate from * @param msg AJP Message to dump * @param err error string to display * @return dump message */ char * ajp_msg_dump(apr_pool_t *pool, ajp_msg_t *msg, char *err) { apr_size_t i, j; char line[80]; char *current; char *rv, *p; apr_size_t bl = 8192; apr_byte_t x; apr_size_t len = msg->len; /* Display only first 1024 bytes */ if (len > 1024) len = 1024; rv = apr_palloc(pool, bl); apr_snprintf(rv, bl, "ajp_msg_dump(): %s pos=%" APR_SIZE_T_FMT " len=%" APR_SIZE_T_FMT " max=%" APR_SIZE_T_FMT "\n", err, msg->pos, msg->len, msg->max_size); bl -= strlen(rv); p = rv + strlen(rv); for (i = 0; i < len; i += 16) { current = line; for (j = 0; j < 16; j++) { x = msg->buf[i + j]; *current++ = hex_table[x >> 4]; *current++ = hex_table[x & 0x0f]; *current++ = ' '; } *current++ = ' '; *current++ = '-'; *current++ = ' '; for (j = 0; j < 16; j++) { x = msg->buf[i + j]; if (x > 0x20 && x < 0x7F) { *current++ = x; } else { *current++ = '.'; } } *current++ = '\0'; apr_snprintf(p, bl, "ajp_msg_dump(): %.4lx %s\n", (unsigned long)i, line); bl -= strlen(rv); p = rv + strlen(rv); } return rv; } /** * Check a new AJP Message by looking at signature and return its size * * @param msg AJP Message to check * @param len Pointer to returned len * @return APR_SUCCESS or error */ apr_status_t ajp_msg_check_header(ajp_msg_t *msg, apr_size_t *len) { apr_byte_t *head = msg->buf; apr_size_t msglen; if (!((head[0] == 0x41 && head[1] == 0x42) || (head[0] == 0x12 && head[1] == 0x34))) { ap_log_error(APLOG_MARK, APLOG_ERR, 0, NULL, "ajp_check_msg_header() got bad signature %02x%02x", head[0], head[1]); return AJP_EBAD_SIGNATURE; } msglen = ((head[2] & 0xff) << 8); msglen += (head[3] & 0xFF); if (msglen > msg->max_size) { ap_log_error(APLOG_MARK, APLOG_ERR, 0, NULL, "ajp_check_msg_header() incoming message is " "too big %" APR_SIZE_T_FMT ", max is %" APR_SIZE_T_FMT, msglen, msg->max_size); return AJP_ETOBIG; } msg->len = msglen + AJP_HEADER_LEN; msg->pos = AJP_HEADER_LEN; *len = msglen; return APR_SUCCESS; } /** * Reset an AJP Message * * @param msg AJP Message to reset * @return APR_SUCCESS or error */ apr_status_t ajp_msg_reset(ajp_msg_t *msg) { msg->len = AJP_HEADER_LEN; msg->pos = AJP_HEADER_LEN; return APR_SUCCESS; } /** * Reuse an AJP Message * * @param msg AJP Message to reuse * @return APR_SUCCESS or error */ apr_status_t ajp_msg_reuse(ajp_msg_t *msg) { apr_byte_t *buf; apr_size_t max_size; buf = msg->buf; max_size = msg->max_size; memset(msg, 0, sizeof(ajp_msg_t)); msg->buf = buf; msg->max_size = max_size; msg->header_len = AJP_HEADER_LEN; ajp_msg_reset(msg); return APR_SUCCESS; } /** * Mark the end of an AJP Message * * @param msg AJP Message to end * @return APR_SUCCESS or error */ apr_status_t ajp_msg_end(ajp_msg_t *msg) { apr_size_t len = msg->len - AJP_HEADER_LEN; if (msg->server_side) { msg->buf[0] = 0x41; msg->buf[1] = 0x42; } else { msg->buf[0] = 0x12; msg->buf[1] = 0x34; } msg->buf[2] = (apr_byte_t)((len >> 8) & 0xFF); msg->buf[3] = (apr_byte_t)(len & 0xFF); return APR_SUCCESS; } static APR_INLINE int ajp_log_overflow(ajp_msg_t *msg, const char *context) { ap_log_error(APLOG_MARK, APLOG_ERR, 0, NULL, "%s(): BufferOverflowException %" APR_SIZE_T_FMT " %" APR_SIZE_T_FMT, context, msg->pos, msg->len); return AJP_EOVERFLOW; } /** * Add an unsigned 32bits value to AJP Message * * @param msg AJP Message to get value from * @param value value to add to AJP Message * @return APR_SUCCESS or error */ apr_status_t ajp_msg_append_uint32(ajp_msg_t *msg, apr_uint32_t value) { apr_size_t len = msg->len; if ((len + 4) > msg->max_size) { return ajp_log_overflow(msg, "ajp_msg_append_uint32"); } msg->buf[len] = (apr_byte_t)((value >> 24) & 0xFF); msg->buf[len + 1] = (apr_byte_t)((value >> 16) & 0xFF); msg->buf[len + 2] = (apr_byte_t)((value >> 8) & 0xFF); msg->buf[len + 3] = (apr_byte_t)(value & 0xFF); msg->len += 4; return APR_SUCCESS; } /** * Add an unsigned 16bits value to AJP Message * * @param msg AJP Message to get value from * @param value value to add to AJP Message * @return APR_SUCCESS or error */ apr_status_t ajp_msg_append_uint16(ajp_msg_t *msg, apr_uint16_t value) { apr_size_t len = msg->len; if ((len + 2) > msg->max_size) { return ajp_log_overflow(msg, "ajp_msg_append_uint16"); } msg->buf[len] = (apr_byte_t)((value >> 8) & 0xFF); msg->buf[len + 1] = (apr_byte_t)(value & 0xFF); msg->len += 2; return APR_SUCCESS; } /** * Add an unsigned 8bits value to AJP Message * * @param msg AJP Message to get value from * @param value value to add to AJP Message * @return APR_SUCCESS or error */ apr_status_t ajp_msg_append_uint8(ajp_msg_t *msg, apr_byte_t value) { apr_size_t len = msg->len; if ((len + 1) > msg->max_size) { return ajp_log_overflow(msg, "ajp_msg_append_uint8"); } msg->buf[len] = value; msg->len += 1; return APR_SUCCESS; } /** * Add a String in AJP message, and transform the String in ASCII * if convert is set and we're on an EBCDIC machine * * @param msg AJP Message to get value from * @param value Pointer to String * @param convert When set told to convert String to ASCII * @return APR_SUCCESS or error */ apr_status_t ajp_msg_append_string_ex(ajp_msg_t *msg, const char *value, int convert) { size_t len; if (value == NULL) { return(ajp_msg_append_uint16(msg, 0xFFFF)); } len = strlen(value); if ((msg->len + len + 3) > msg->max_size) { return ajp_log_overflow(msg, "ajp_msg_append_cvt_string"); } /* ignore error - we checked once */ ajp_msg_append_uint16(msg, (apr_uint16_t)len); /* We checked for space !! */ memcpy(msg->buf + msg->len, value, len + 1); /* including \0 */ if (convert) /* convert from EBCDIC if needed */ ap_xlate_proto_to_ascii((char *)msg->buf + msg->len, len + 1); msg->len += len + 1; return APR_SUCCESS; } /** * Add a Byte array to AJP Message * * @param msg AJP Message to get value from * @param value Pointer to Byte array * @param valuelen Byte array len * @return APR_SUCCESS or error */ apr_status_t ajp_msg_append_bytes(ajp_msg_t *msg, const apr_byte_t *value, apr_size_t valuelen) { if (! valuelen) { return APR_SUCCESS; /* Shouldn't we indicate an error ? */ } if ((msg->len + valuelen) > msg->max_size) { return ajp_log_overflow(msg, "ajp_msg_append_bytes"); } /* We checked for space !! */ memcpy(msg->buf + msg->len, value, valuelen); msg->len += valuelen; return APR_SUCCESS; } /** * Get a 32bits unsigned value from AJP Message * * @param msg AJP Message to get value from * @param rvalue Pointer where value will be returned * @return APR_SUCCESS or error */ apr_status_t ajp_msg_get_uint32(ajp_msg_t *msg, apr_uint32_t *rvalue) { apr_uint32_t value; if ((msg->pos + 3) > msg->len) { return ajp_log_overflow(msg, "ajp_msg_get_uint32"); } value = ((msg->buf[(msg->pos++)] & 0xFF) << 24); value |= ((msg->buf[(msg->pos++)] & 0xFF) << 16); value |= ((msg->buf[(msg->pos++)] & 0xFF) << 8); value |= ((msg->buf[(msg->pos++)] & 0xFF)); *rvalue = value; return APR_SUCCESS; } /** * Get a 16bits unsigned value from AJP Message * * @param msg AJP Message to get value from * @param rvalue Pointer where value will be returned * @return APR_SUCCESS or error */ apr_status_t ajp_msg_get_uint16(ajp_msg_t *msg, apr_uint16_t *rvalue) { apr_uint16_t value; if ((msg->pos + 1) > msg->len) { return ajp_log_overflow(msg, "ajp_msg_get_uint16"); } value = ((msg->buf[(msg->pos++)] & 0xFF) << 8); value += ((msg->buf[(msg->pos++)] & 0xFF)); *rvalue = value; return APR_SUCCESS; } /** * Peek a 16bits unsigned value from AJP Message, position in message * is not updated * * @param msg AJP Message to get value from * @param rvalue Pointer where value will be returned * @return APR_SUCCESS or error */ apr_status_t ajp_msg_peek_uint16(ajp_msg_t *msg, apr_uint16_t *rvalue) { apr_uint16_t value; if ((msg->pos + 1) > msg->len) { return ajp_log_overflow(msg, "ajp_msg_peek_uint16"); } value = ((msg->buf[(msg->pos)] & 0xFF) << 8); value += ((msg->buf[(msg->pos + 1)] & 0xFF)); *rvalue = value; return APR_SUCCESS; } /** * Peek a 8bits unsigned value from AJP Message, position in message * is not updated * * @param msg AJP Message to get value from * @param rvalue Pointer where value will be returned * @return APR_SUCCESS or error */ apr_status_t ajp_msg_peek_uint8(ajp_msg_t *msg, apr_byte_t *rvalue) { if (msg->pos > msg->len) { return ajp_log_overflow(msg, "ajp_msg_peek_uint8"); } *rvalue = msg->buf[msg->pos]; return APR_SUCCESS; } /** * Get a 8bits unsigned value from AJP Message * * @param msg AJP Message to get value from * @param rvalue Pointer where value will be returned * @return APR_SUCCESS or error */ apr_status_t ajp_msg_get_uint8(ajp_msg_t *msg, apr_byte_t *rvalue) { if (msg->pos > msg->len) { return ajp_log_overflow(msg, "ajp_msg_get_uint8"); } *rvalue = msg->buf[msg->pos++]; return APR_SUCCESS; } /** * Get a String value from AJP Message * * @param msg AJP Message to get value from * @param rvalue Pointer where value will be returned * @return APR_SUCCESS or error */ apr_status_t ajp_msg_get_string(ajp_msg_t *msg, const char **rvalue) { apr_uint16_t size; apr_size_t start; apr_status_t status; status = ajp_msg_get_uint16(msg, &size); start = msg->pos; if ((status != APR_SUCCESS) || (size + start > msg->max_size)) { return ajp_log_overflow(msg, "ajp_msg_get_string"); } msg->pos += (apr_size_t)size; msg->pos++; /* a String in AJP is NULL terminated */ *rvalue = (const char *)(msg->buf + start); return APR_SUCCESS; } /** * Get a Byte array from AJP Message * * @param msg AJP Message to get value from * @param rvalue Pointer where value will be returned * @param rvalueLen Pointer where Byte array len will be returned * @return APR_SUCCESS or error */ apr_status_t ajp_msg_get_bytes(ajp_msg_t *msg, apr_byte_t **rvalue, apr_size_t *rvalue_len) { apr_uint16_t size; apr_size_t start; apr_status_t status; status = ajp_msg_get_uint16(msg, &size); /* save the current position */ start = msg->pos; if ((status != APR_SUCCESS) || (size + start > msg->max_size)) { return ajp_log_overflow(msg, "ajp_msg_get_bytes"); } msg->pos += (apr_size_t)size; /* only bytes, no trailer */ *rvalue = msg->buf + start; *rvalue_len = size; return APR_SUCCESS; } /** * Create an AJP Message from pool * * @param pool memory pool to allocate AJP message from * @param size size of the buffer to create * @param rmsg Pointer to newly created AJP message * @return APR_SUCCESS or error */ apr_status_t ajp_msg_create(apr_pool_t *pool, apr_size_t size, ajp_msg_t **rmsg) { ajp_msg_t *msg = (ajp_msg_t *)apr_pcalloc(pool, sizeof(ajp_msg_t)); if (!msg) { ap_log_error(APLOG_MARK, APLOG_ERR, 0, NULL, "ajp_msg_create(): can't allocate AJP message memory"); return APR_ENOPOOL; } msg->server_side = 0; msg->buf = (apr_byte_t *)apr_palloc(pool, size); /* XXX: This should never happen * In case if the OS cannont allocate 8K of data * we are in serious trouble * No need to check the alloc return value, cause the * core dump is probably the best solution anyhow. */ if (msg->buf == NULL) { ap_log_error(APLOG_MARK, APLOG_ERR, 0, NULL, "ajp_msg_create(): can't allocate AJP message memory"); return APR_ENOPOOL; } msg->len = 0; msg->header_len = AJP_HEADER_LEN; msg->max_size = size; *rmsg = msg; return APR_SUCCESS; } /** * Recopy an AJP Message to another * * @param smsg source AJP message * @param dmsg destination AJP message * @return APR_SUCCESS or error */ apr_status_t ajp_msg_copy(ajp_msg_t *smsg, ajp_msg_t *dmsg) { if (dmsg == NULL) { ap_log_error(APLOG_MARK, APLOG_ERR, 0, NULL, "ajp_msg_copy(): destination msg is null"); return AJP_EINVAL; } if (smsg->len > smsg->max_size) { ap_log_error(APLOG_MARK, APLOG_ERR, 0, NULL, "ajp_msg_copy(): destination buffer too " "small %" APR_SIZE_T_FMT ", max size is %" APR_SIZE_T_FMT, smsg->len, smsg->max_size); return AJP_ETOSMALL; } memcpy(dmsg->buf, smsg->buf, smsg->len); dmsg->len = smsg->len; dmsg->pos = smsg->pos; return APR_SUCCESS; } /** * Serialize in an AJP Message a PING command * * +-----------------------+ * | PING CMD (1 byte) | * +-----------------------+ * * @param smsg AJP message to put serialized message * @return APR_SUCCESS or error */ apr_status_t ajp_msg_serialize_ping(ajp_msg_t *msg) { apr_status_t rc; ajp_msg_reset(msg); if ((rc = ajp_msg_append_uint8(msg, CMD_AJP13_PING)) != APR_SUCCESS) return rc; return APR_SUCCESS; } /** * Serialize in an AJP Message a CPING command * * +-----------------------+ * | CPING CMD (1 byte) | * +-----------------------+ * * @param smsg AJP message to put serialized message * @return APR_SUCCESS or error */ apr_status_t ajp_msg_serialize_cping(ajp_msg_t *msg) { apr_status_t rc; ajp_msg_reset(msg); if ((rc = ajp_msg_append_uint8(msg, CMD_AJP13_CPING)) != APR_SUCCESS) return rc; return APR_SUCCESS; }