/* * Copyright (C) 2004, 2005 Internet Systems Consortium, Inc. ("ISC") * Copyright (C) 2000, 2001 Internet Software Consortium. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /* $ISC: lwresutil.c,v 1.30.18.2 2005/04/29 00:17:20 marka Exp $ */ /*! \file */ /** * lwres_string_parse() retrieves a DNS-encoded string starting the * current pointer of lightweight resolver buffer b: i.e. b->current. * When the function returns, the address of the first byte of the * encoded string is returned via *c and the length of that string is * given by *len. The buffer's current pointer is advanced to point at * the character following the string length, the encoded string, and * the trailing NULL character. * * lwres_addr_parse() extracts an address from the buffer b. The * buffer's current pointer b->current is presumed to point at an * encoded address: the address preceded by a 32-bit protocol family * identifier and a 16-bit length field. The encoded address is copied * to addr->address and addr->length indicates the size in bytes of * the address that was copied. b->current is advanced to point at the * next byte of available data in the buffer following the encoded * address. * * lwres_getaddrsbyname() and lwres_getnamebyaddr() use the * lwres_gnbaresponse_t structure defined below: * * \code * typedef struct { * lwres_uint32_t flags; * lwres_uint16_t naliases; * lwres_uint16_t naddrs; * char *realname; * char **aliases; * lwres_uint16_t realnamelen; * lwres_uint16_t *aliaslen; * lwres_addrlist_t addrs; * void *base; * size_t baselen; * } lwres_gabnresponse_t; * \endcode * * The contents of this structure are not manipulated directly but * they are controlled through the \link lwres_gabn.c lwres_gabn*\endlink functions. * * The lightweight resolver uses lwres_getaddrsbyname() to perform * foward lookups. Hostname name is looked up using the resolver * context ctx for memory allocation. addrtypes is a bitmask * indicating which type of addresses are to be looked up. Current * values for this bitmask are #LWRES_ADDRTYPE_V4 for IPv4 addresses * and #LWRES_ADDRTYPE_V6 for IPv6 addresses. Results of the lookup are * returned in *structp. * * lwres_getnamebyaddr() performs reverse lookups. Resolver context * ctx is used for memory allocation. The address type is indicated by * addrtype: #LWRES_ADDRTYPE_V4 or #LWRES_ADDRTYPE_V6. The address to be * looked up is given by addr and its length is addrlen bytes. The * result of the function call is made available through *structp. * * \section lwresutil_return Return Values * * Successful calls to lwres_string_parse() and lwres_addr_parse() * return #LWRES_R_SUCCESS. Both functions return #LWRES_R_FAILURE if * the buffer is corrupt or #LWRES_R_UNEXPECTEDEND if the buffer has * less space than expected for the components of the encoded string * or address. * * lwres_getaddrsbyname() returns #LWRES_R_SUCCESS on success and it * returns #LWRES_R_NOTFOUND if the hostname name could not be found. * * #LWRES_R_SUCCESS is returned by a successful call to * lwres_getnamebyaddr(). * * Both lwres_getaddrsbyname() and lwres_getnamebyaddr() return * #LWRES_R_NOMEMORY when memory allocation requests fail and * #LWRES_R_UNEXPECTEDEND if the buffers used for sending queries and * receiving replies are too small. * * \section lwresutil_see See Also * * lwbuffer.c, lwres_gabn.c */ #include #include #include #include #include #include #include #include #include "assert_p.h" #include "context_p.h" /*% Parse data. */ /*! * Requires: * * The "current" pointer in "b" points to encoded raw data. * * Ensures: * * The address of the first byte of the data is returned via "p", * and the length is returned via "len". If NULL, they are not * set. * * On return, the current pointer of "b" will point to the character * following the data length and the data. * */ lwres_result_t lwres_data_parse(lwres_buffer_t *b, unsigned char **p, lwres_uint16_t *len) { lwres_uint16_t datalen; unsigned char *data; REQUIRE(b != NULL); /* * Pull off the length (2 bytes) */ if (!SPACE_REMAINING(b, 2)) return (LWRES_R_UNEXPECTEDEND); datalen = lwres_buffer_getuint16(b); /* * Set the pointer to this string to the right place, then * advance the buffer pointer. */ if (!SPACE_REMAINING(b, datalen)) return (LWRES_R_UNEXPECTEDEND); data = b->base + b->current; lwres_buffer_forward(b, datalen); if (len != NULL) *len = datalen; if (p != NULL) *p = data; return (LWRES_R_SUCCESS); } /*% Retrieves a DNS-encoded string. */ /*! * Requires: * * The "current" pointer in "b" point to an encoded string. * * Ensures: * * The address of the first byte of the string is returned via "c", * and the length is returned via "len". If NULL, they are not * set. * * On return, the current pointer of "b" will point to the character * following the string length, the string, and the trailing NULL. * */ lwres_result_t lwres_string_parse(lwres_buffer_t *b, char **c, lwres_uint16_t *len) { lwres_uint16_t datalen; char *string; REQUIRE(b != NULL); /* * Pull off the length (2 bytes) */ if (!SPACE_REMAINING(b, 2)) return (LWRES_R_UNEXPECTEDEND); datalen = lwres_buffer_getuint16(b); /* * Set the pointer to this string to the right place, then * advance the buffer pointer. */ if (!SPACE_REMAINING(b, datalen)) return (LWRES_R_UNEXPECTEDEND); string = (char *)b->base + b->current; lwres_buffer_forward(b, datalen); /* * Skip the "must be zero" byte. */ if (!SPACE_REMAINING(b, 1)) return (LWRES_R_UNEXPECTEDEND); if (0 != lwres_buffer_getuint8(b)) return (LWRES_R_FAILURE); if (len != NULL) *len = datalen; if (c != NULL) *c = string; return (LWRES_R_SUCCESS); } /*% Extracts an address from the buffer b. */ lwres_result_t lwres_addr_parse(lwres_buffer_t *b, lwres_addr_t *addr) { REQUIRE(addr != NULL); if (!SPACE_REMAINING(b, 6)) return (LWRES_R_UNEXPECTEDEND); addr->family = lwres_buffer_getuint32(b); addr->length = lwres_buffer_getuint16(b); if (!SPACE_REMAINING(b, addr->length)) return (LWRES_R_UNEXPECTEDEND); if (addr->length > LWRES_ADDR_MAXLEN) return (LWRES_R_FAILURE); lwres_buffer_getmem(b, addr->address, addr->length); return (LWRES_R_SUCCESS); } /*% Used to perform forward lookups. */ lwres_result_t lwres_getaddrsbyname(lwres_context_t *ctx, const char *name, lwres_uint32_t addrtypes, lwres_gabnresponse_t **structp) { lwres_gabnrequest_t request; lwres_gabnresponse_t *response; int ret; int recvlen; lwres_buffer_t b_in, b_out; lwres_lwpacket_t pkt; lwres_uint32_t serial; char *buffer; char target_name[1024]; unsigned int target_length; REQUIRE(ctx != NULL); REQUIRE(name != NULL); REQUIRE(addrtypes != 0); REQUIRE(structp != NULL && *structp == NULL); b_in.base = NULL; b_out.base = NULL; response = NULL; buffer = NULL; serial = lwres_context_nextserial(ctx); buffer = CTXMALLOC(LWRES_RECVLENGTH); if (buffer == NULL) { ret = LWRES_R_NOMEMORY; goto out; } target_length = strlen(name); if (target_length >= sizeof(target_name)) return (LWRES_R_FAILURE); strlcpy(target_name, name, sizeof(target_name)); /* * Set up our request and render it to a buffer. */ request.flags = 0; request.addrtypes = addrtypes; request.name = target_name; request.namelen = target_length; pkt.pktflags = 0; pkt.serial = serial; pkt.result = 0; pkt.recvlength = LWRES_RECVLENGTH; again: ret = lwres_gabnrequest_render(ctx, &request, &pkt, &b_out); if (ret != LWRES_R_SUCCESS) goto out; ret = lwres_context_sendrecv(ctx, b_out.base, b_out.length, buffer, LWRES_RECVLENGTH, &recvlen); if (ret != LWRES_R_SUCCESS) goto out; lwres_buffer_init(&b_in, buffer, recvlen); b_in.used = recvlen; /* * Parse the packet header. */ ret = lwres_lwpacket_parseheader(&b_in, &pkt); if (ret != LWRES_R_SUCCESS) goto out; /* * Sanity check. */ if (pkt.serial != serial) goto again; if (pkt.opcode != LWRES_OPCODE_GETADDRSBYNAME) goto again; /* * Free what we've transmitted */ CTXFREE(b_out.base, b_out.length); b_out.base = NULL; b_out.length = 0; if (pkt.result != LWRES_R_SUCCESS) { ret = pkt.result; goto out; } /* * Parse the response. */ ret = lwres_gabnresponse_parse(ctx, &b_in, &pkt, &response); if (ret != LWRES_R_SUCCESS) goto out; response->base = buffer; response->baselen = LWRES_RECVLENGTH; buffer = NULL; /* don't free this below */ *structp = response; return (LWRES_R_SUCCESS); out: if (b_out.base != NULL) CTXFREE(b_out.base, b_out.length); if (buffer != NULL) CTXFREE(buffer, LWRES_RECVLENGTH); if (response != NULL) lwres_gabnresponse_free(ctx, &response); return (ret); } /*% Used to perform reverse lookups. */ lwres_result_t lwres_getnamebyaddr(lwres_context_t *ctx, lwres_uint32_t addrtype, lwres_uint16_t addrlen, const unsigned char *addr, lwres_gnbaresponse_t **structp) { lwres_gnbarequest_t request; lwres_gnbaresponse_t *response; int ret; int recvlen; lwres_buffer_t b_in, b_out; lwres_lwpacket_t pkt; lwres_uint32_t serial; char *buffer; REQUIRE(ctx != NULL); REQUIRE(addrtype != 0); REQUIRE(addrlen != 0); REQUIRE(addr != NULL); REQUIRE(structp != NULL && *structp == NULL); b_in.base = NULL; b_out.base = NULL; response = NULL; buffer = NULL; serial = lwres_context_nextserial(ctx); buffer = CTXMALLOC(LWRES_RECVLENGTH); if (buffer == NULL) { ret = LWRES_R_NOMEMORY; goto out; } /* * Set up our request and render it to a buffer. */ request.flags = 0; request.addr.family = addrtype; request.addr.length = addrlen; memcpy(request.addr.address, addr, addrlen); pkt.pktflags = 0; pkt.serial = serial; pkt.result = 0; pkt.recvlength = LWRES_RECVLENGTH; again: ret = lwres_gnbarequest_render(ctx, &request, &pkt, &b_out); if (ret != LWRES_R_SUCCESS) goto out; ret = lwres_context_sendrecv(ctx, b_out.base, b_out.length, buffer, LWRES_RECVLENGTH, &recvlen); if (ret != LWRES_R_SUCCESS) goto out; lwres_buffer_init(&b_in, buffer, recvlen); b_in.used = recvlen; /* * Parse the packet header. */ ret = lwres_lwpacket_parseheader(&b_in, &pkt); if (ret != LWRES_R_SUCCESS) goto out; /* * Sanity check. */ if (pkt.serial != serial) goto again; if (pkt.opcode != LWRES_OPCODE_GETNAMEBYADDR) goto again; /* * Free what we've transmitted */ CTXFREE(b_out.base, b_out.length); b_out.base = NULL; b_out.length = 0; if (pkt.result != LWRES_R_SUCCESS) { ret = pkt.result; goto out; } /* * Parse the response. */ ret = lwres_gnbaresponse_parse(ctx, &b_in, &pkt, &response); if (ret != LWRES_R_SUCCESS) goto out; response->base = buffer; response->baselen = LWRES_RECVLENGTH; buffer = NULL; /* don't free this below */ *structp = response; return (LWRES_R_SUCCESS); out: if (b_out.base != NULL) CTXFREE(b_out.base, b_out.length); if (buffer != NULL) CTXFREE(buffer, LWRES_RECVLENGTH); if (response != NULL) lwres_gnbaresponse_free(ctx, &response); return (ret); } /*% Get rdata by name. */ lwres_result_t lwres_getrdatabyname(lwres_context_t *ctx, const char *name, lwres_uint16_t rdclass, lwres_uint16_t rdtype, lwres_uint32_t flags, lwres_grbnresponse_t **structp) { int ret; int recvlen; lwres_buffer_t b_in, b_out; lwres_lwpacket_t pkt; lwres_uint32_t serial; char *buffer; lwres_grbnrequest_t request; lwres_grbnresponse_t *response; char target_name[1024]; unsigned int target_length; REQUIRE(ctx != NULL); REQUIRE(name != NULL); REQUIRE(structp != NULL && *structp == NULL); b_in.base = NULL; b_out.base = NULL; response = NULL; buffer = NULL; serial = lwres_context_nextserial(ctx); buffer = CTXMALLOC(LWRES_RECVLENGTH); if (buffer == NULL) { ret = LWRES_R_NOMEMORY; goto out; } target_length = strlen(name); if (target_length >= sizeof(target_name)) return (LWRES_R_FAILURE); strlcpy(target_name, name, sizeof(target_name)); /* * Set up our request and render it to a buffer. */ request.rdclass = rdclass; request.rdtype = rdtype; request.flags = flags; request.name = target_name; request.namelen = target_length; pkt.pktflags = 0; pkt.serial = serial; pkt.result = 0; pkt.recvlength = LWRES_RECVLENGTH; again: ret = lwres_grbnrequest_render(ctx, &request, &pkt, &b_out); if (ret != LWRES_R_SUCCESS) goto out; ret = lwres_context_sendrecv(ctx, b_out.base, b_out.length, buffer, LWRES_RECVLENGTH, &recvlen); if (ret != LWRES_R_SUCCESS) goto out; lwres_buffer_init(&b_in, buffer, recvlen); b_in.used = recvlen; /* * Parse the packet header. */ ret = lwres_lwpacket_parseheader(&b_in, &pkt); if (ret != LWRES_R_SUCCESS) goto out; /* * Sanity check. */ if (pkt.serial != serial) goto again; if (pkt.opcode != LWRES_OPCODE_GETRDATABYNAME) goto again; /* * Free what we've transmitted */ CTXFREE(b_out.base, b_out.length); b_out.base = NULL; b_out.length = 0; if (pkt.result != LWRES_R_SUCCESS) { ret = pkt.result; goto out; } /* * Parse the response. */ ret = lwres_grbnresponse_parse(ctx, &b_in, &pkt, &response); if (ret != LWRES_R_SUCCESS) goto out; response->base = buffer; response->baselen = LWRES_RECVLENGTH; buffer = NULL; /* don't free this below */ *structp = response; return (LWRES_R_SUCCESS); out: if (b_out.base != NULL) CTXFREE(b_out.base, b_out.length); if (buffer != NULL) CTXFREE(buffer, LWRES_RECVLENGTH); if (response != NULL) lwres_grbnresponse_free(ctx, &response); return (ret); }