SYNOPSIS

#include <vbr.h>

VBR * vbr_init (void *(* mallocf )(void *, size_t), void (* freef )(void *, void *p), void * closure );

void vbr_options (VBR * vbr , unsigned int opts );

unsigned char * vbr_geterror (VBR * vbr );

VBR_STAT vbr_getheader (VBR * vbr, unsigned char * hdr, size_t len );

void vbr_setcert (VBR * vbr, unsigned char * cert );

void vbr_settype (VBR * vbr, unsigned char * cert );

void vbr_setdomain (VBR * vbr, unsigned char * cert );

void vbr_trustedcerts (VBR * vbr, unsigned char ** cert );

VBR_STAT vbr_query (VBR * vbr, unsigned char ** res, unsigned char ** cert );

VBR_STAT vbr_settimeout (VBR * vbr, unsigned int timeout );

VBR_STAT vbr_setcallbackint (VBR * vbr, unsigned int cbint );

VBR_STAT vbr_setcallbackctx (VBR *, vbr, void * ctx );

VBR_STAT vbr_setdnscallback (VBR *, vbr, void (* func )(const void *));

void * vbr_dns_set_query_service (VBR * vbr, void * svc );

void vbr_dns_set_query_cancel (VBR * vbr, int (* func )(void *, void *));

void vbr_dns_set_query_start (VBR * vbr, int (* func )(void *, int, unsigned char *, unsigned char *, size_t, void **));

void vbr_dns_set_query_waitreply (VBR * vbr, int (* func )(void *, void *, struct timeval *, size_t *, int *, int *));

void vbr_dns_set_init (VBR * vbr, int (* func )(void **);

void vbr_dns_set_close (VBR * vbr, int (* func )(void *);

void vbr_dns_set_config (VBR * vbr, int (* func )(void *, const char *);

void vbr_dns_set_nslist (VBR * vbr, int (* func )(void *, const char *);

void vbr_dns_set_trustanchor (VBR * vbr, int (* func )(void *, const char *);

VBR_STAT vbr_dns_init (VBR * vbr );

void vbr_close (VBR *);

DESCRIPTION

These functions are an interface to a facility to conduct Vouch By Reference (VBR) queries and return their results. VBR is defined in RFC5518.

An application first initializes the package by calling vbr_init(). The optional mallocf parameter is a caller-provided memory allocation function taking a pointer to a caller-provided opaque data structure (the closure parameter) and a number of bytes to allocate. If mallocf is not provided, the default system memory allocator function malloc(3) is used. The optional freef parameter specifies a matching caller-provided memory deallocator function, taking a pointer to a caller-provided opaque data structure (the closure parameter) and a pointer to the memory to be released. If freef is not provided, the default system memory release function free(3) is used. A handle for future use of the initialized library instance is returned, or NULL on error and errno will be set to indicate the cause of the failure.

The caller can use vbr_options() to set query processing options. See the OPTIONS section for details.

The vbr_geterror() function can be used to poll the library for an error string that provides further description for the most recent failed operation.

Calling vbr_getheader() can be used to generate an RFC-compliant VBR-Info: haeder field based on data provided by other accessor functions, namely vbr_setcert(), vbr_settype() and vbr_setdomain() (below). A library instance is provided as the first parameter, and a pointer to the destination buffer and its length are provided in the second and third. Note that only the value of the header field is stored into the buffer, not its name; the standard name of the header field is available as the VBR_INFOHEADER macro.

vbr_setcert() takes a VBR library instance as its first argument and a colon-separated list of claimed vouching domains as its second. Similarly, vbr_settype() sets the message type, and vbr_setdomain() sets the sending domain. These correspond, respectively, to the "mv", "mc" and "md" values from a received message's VBR-Info header field. These values are used by the library instance when calling vbr_getheader() to generate VBR information header fields to attach to outgoing messages or when calling vbr_query() to check for a vouching reference. Note that the library does no validation of the possible values of the message type (to allow for new message types that may appear outside of the original RFC), and has no context to validate the domain.

vbr_trustedcerts() takes a VBR library instance as its first argument and a NULL-terminated array of pointers to certifier names as its second, which is used by vbr_query() to select vouching services the caller trusts. The intersection of these trusted certifiers and those claimed by an arriving message. The list is initially empty.

vbr_query() polls trusted certifiers to see if any of them agree with the assertion made by the message sender. The pointer res will be set to point to a result string after the query has been resolved. The result will be "pass" if any trusted certifier concurred with the assertion made by the sender. If cert is not NULL, it will be updated to point to the name of the trusted certifier that concurred with the sender's assertion when a "pass" result is returned. If any queries were made but none of them resulted in concurrence, a result of "fail" is returned. If no query was made because of errors or because the trusted certifier set and the sender's certifier set included no vouchers in common, cert will be unchanged.

The vbr_settimeout() function can be used to change the query timeout. The default is ten seconds. Note that this timeout is applied for each voucher query, so a call to vbr_query() can take longer than this if multiple queries need to be made.

If it is useful to have the library periodically call a user-provided function as an indication that queries are still in progress, such a function can be registered with the vbr_setdnscallback() function. The function provided should take a void context pointer as its sole argument. vbr_setcallbackctx() is used to tell the library what context pointer should be used, and vbr_setcallbackint() is used to tell the library what frequency, in seconds, should be used to call that callback function. Each of these takes the corresponding VBR library handle as its first argument, and the obvious parameter for its second.

By default, the library will use the stock system resolver to conduct DNS queries. If alternates should be used, these can be specified using the following functions:

vbr_dns_set_query_service() sets a context pointer to the query service to be used, if any. This will be passed as-is to the other DNS functions. It returns its previous value.

vbr_dns_set_query_cancel() sets a pointer to the function that should be called to cancel an open query, and should take the following parameters: a void pointer to the DNS query service to be used, and a void pointer to a query handle as previously returned by a call to vbr_dns_set_query_start(). The function should return one of the DNS result codes described below.

vbr_dns_set_query_start() sets a pointer to the function that should be called to initiate a new query, and should take the following parameters: a void pointer to the DNS query service to be used, a DNS record type (e.g. T_TXT), a pointer to a string containing the query to be started, a pointer to a buffer into which the reply should be written, the number of bytes available in that buffer, and a pointer to a void pointer that will be updated to contain a unique handle for that query once started. The function should return one of the DNS result codes described below.

vbr_dns_set_query_waitreply() sets a pointer to the function that should be called to wait for a reply to an open query, and should take the following parameters: a void pointer to the DNS query service to be used, a void pointer referencing the query of interest as previously returned by a call to vbr_dns_set_query_start(), a pointer to a "struct timeval" structure indicating how long the function should wait for a reply (or NULL if infinite waiting is acceptable), a pointer to a "size_t" that will be updated to contain the size of the received reply, a pointer to an integer that will contain an error code if the query fails (can be NULL if that information is not interesting to the caller), and a pointer to an integer that will contain a DNSSEC status indication (can be NULL if that information is not interesting to the caller). The function should return one of the DNS result codes described below.

vbr_dns_set_init() sets a pointer to the function that should be called when it is necessary to initialize a resolver. The function should store a handle to the initialized resolver and return zero, or return non-zero if initialization could not be completed.

vbr_dns_set_close() sets a pointer to the function that should be called when it is necessary to terminate a resolver. The function will receive a handle referencing the resolver to be terminated, and should return zero on success or non-zero on failure.

vbr_dns_set_nslist() sets a pointer to the function that should be called when it is necessary to change the set of nameservers that are to be used to resolve RBL queries. The function will receive a handle referencing the active resolver and a string containing a comma-separated list of nameservers to use. It should return zero on success and non-zero on failure.

vbr_dns_set_config() sets a pointer to the function that should be called when it is necessary to provide arbitrary configuration information to the resolver. The function will receive a handle referencing the active resolver and a string containing the configuration. It should return zero on success and non-zero on failure.

vbr_dns_set_trustanchor() sets a pointer to the function that should be called when it is necessary to provide trust anchor information (supporting DNSSEC) to the resolver. The function will receive a handle referencing the active resolver and a string containing the trust anchor data. It should return zero on success and non-zero on failure.

Calling vbr_dns_init() forces (re-)initialization of the resolver. This essentially causes the library to call any initialization function defined by vbr_dns_set_init().

When the library handle is no longer needed, it should be passed to vbr_close().

OPTIONS

Setting options is done using the vbr_options() function. The opts parameter is a bitwise-OR list of the available options requested by the application. The currently supported option:

VBR_FLAG_TRUSTEDONLY

By default, a VBR query will be sent to the intersection of the trusted certifiers (provided by the vbr_trustedcerts() function) and the list of certifiers claimed on a message (provided by the vbr_sercert() function). With this option enabled, the trusted certifiers will be checked and the provided certifiers will be ignored.

RETURN VALUES

The following return codes, of type VBR_STAT, can be returned:

VBR_STAT_OK

successful completion

VBR_STAT_INVALID

operation failed because an invalid parameter was provided

VBR_STAT_DNSERROR

operation could not be completed because of errors requesting or receiving a DNS reply; note that this does not include a successful reply that contains a "no record found" result, which is a successful answer

VBR_STAT_NORESOURCE

a caller-provided buffer was too small to complete the requested operation, or a memory or file descriptor allocation failed

VBR_STAT_NOTIMPLEMENT

an optional library feature was not selected at compilation time

DNS RETURN CODES

Any registered DNS functions should return one of the following result codes:

VBR_DNS_ERROR

An error occurred. The cause of the error can be retrieved using vbr_geterror().

VBR_DNS_SUCCESS

The operation was successful.

VBR_DNS_REPLY

A reply is available (returned by the "waitreply" function).

VBR_DNS_NOREPLY

No reply was received by the time the query timeout was reached (returned by the "waitreply" function).

VBR_DNS_EXPIRED

The query expired completely (returned by the "waitreply" function). Some resolvers set an overall timeout for the query at start time in addition to one for each single wait request; this code indicates the former timeout expired.

COPYRIGHT

Copyright (c) 2010, 2012, The Trusted Domain Project. All rights reserved.

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