haproxy/addons/deviceatlas/dummy/dac.h
David Carlier b81483cf2d MEDIUM: da: update doc and build for new scheduler mode service.
Mentions of the new database update runtime mode and update of
the legit module and the dummy part too.
Note the DeviceAtlas C API version 2.4.0 minimum required
alongside with libCURL, libzip and libgz.
2022-01-28 07:28:53 +01:00

601 lines
20 KiB
C

#ifndef MOBI_DA_DAC_H
#define MOBI_DA_DAC_H
/**
* @file dac.h
* @author Afilias Technologies
*
* @brief API main header file
*/
#include <sys/types.h>
#include <limits.h>
#include <inttypes.h>
#include <stdlib.h>
#include <stdarg.h>
#ifndef __cplusplus
#ifndef true
#ifdef HAVE_NO_BUILTIN__BOOL
typedef int _Bool;
#endif
#define bool _Bool
#define true 1
#define false 0
#endif
#endif
#define MOBI_DA_MAJOR 2
#define MOBI_DA_MINOR 1
#define MOBI_DA_DUMMY_LIBRARY 1
/**
* @brief All values returned by the API have one of these types.
* da_getprop*() return data in the appropriate C type for the given da_type.
*/
enum da_type {
DA_TYPE_NONE,
DA_TYPE_BOOLEAN,
DA_TYPE_INTEGER,
DA_TYPE_NUMBER,
DA_TYPE_STRING,
DA_TYPE_ARRAY,
DA_TYPE_OBJECT,
DA_TYPE_NULL
};
/**
* Any method that returns a da_status may potentially fail for one of these reasons.
* XXX: Error reporting needs to be improved.
*/
enum da_status {
DA_OK, /* Success. */
DA_INVALID_JSON, /* The JSON format is invalid, or the content is unexpected in a given context. */
DA_OVERFLOW, /* Overflow occurred. Note this is used to indicate an unfinished string parse in JSON */
DA_FORMAT_ERROR, /* The data supplied is formatted incorrectly. */
DA_NOMEM, /* There was not enough space to complete the operation */
DA_SYS, /* A system error occurred - consult the OS for more details (eg, check errno) */
DA_NOTIMPL, /* This method is not implemented */
DA_NOTFOUND, /* The requested item was not found. */
DA_REGEXBAD, /* An invalid regex was provided. */
DA_NOMORE, /* Used to indicate the end of an iterator. */
DA_INVALID_COOKIE, /* Cookie value supplied was invalid */
DA_INVALID_TYPE, /* A value of an unexpected type was found. */
DA_INTERNAL_ERROR,
DA_STATUS_LAST /* Placeholder to indicate highest possible error value. (value will change as API matures) */
};
enum da_severity {
DA_SEV_FATAL, /* The operation will not continue, and the operation will return an error. */
DA_SEV_ERROR, /* An error occurred, but the API call will return at least some valid information */
DA_SEV_WARN, /* An unexpected event occurred, but the system dealt with it */
DA_SEV_INFO /* An informational message. */
};
/* Forward references to tagged types */
struct atlas_image;
struct da_atlas;
struct da_deviceinfo;
struct da_jsonparser;
struct da_node;
struct da_propset;
union da_value;
struct da_evidence;
struct da_bitset;
struct da_allocator;
struct da_config;
/**
* @brief Primary types of the interface.
* Primary types used by API client.
* Non-typedef structures and unions are considered private to the API.
*
*/
typedef enum da_severity da_severity_t; /* A severity for the error callback. */
typedef enum da_status da_status_t; /* An error code - returned from most API calls. */
typedef da_status_t (*da_setpos_fn)(void *ctx, off_t off); /* callback provided to API to rewind input stream */
typedef enum da_type da_type_t; /* A value type (integer, string, etc) */
/**
* @brief An operation on an atlas involves converting a set of evidence strings into a set of property/value pairs.
* The ID for a particular type of evidence is extract from the atlas (eg, for a specific HTTP header, use:
*
* da_evidence_id_t evidence = da_atlas_header_evidence_id(atlas, "User-Agent");
*
*/
typedef int da_evidence_id_t;
/**
* @brief The search result encompasses a key/value set. Keys are handles retrieved via
* _either_ da_atlas_getpropid() or da_getpropid().
* Some search results may have keys not available when the atlas is opened (eg,
* when the name of the property itself is contained within the evidence)
* Such properties by necessity are given a "local" da_propid_t
*
* You can ensure any properties you are interested in get a global propid by
* passing a list of interesting named properties to da_atlas_open()
*/
typedef int da_propid_t;
typedef size_t (*da_read_fn)(void *ctx, size_t maxlen, char *ptr);
typedef struct da_atlas da_atlas_t;
typedef struct da_deviceinfo da_deviceinfo_t;
typedef struct da_evidence da_evidence_t;
typedef struct da_jsonparser da_jsonparser_t;
typedef struct da_node da_node_t;
typedef struct da_property_decl da_property_decl_t;
typedef struct da_propset da_propset_t;
typedef struct da_config da_config_t;
typedef void *(*da_alloc_fn)(void *ctx, size_t);
typedef void (*da_free_fn)(void *ctx, void *);
typedef void *(*da_realloc_fn)(void *ctx, void *, size_t);
typedef void (*da_errorfunc_t)(da_severity_t severity, da_status_t status, const char *msg, va_list args);
/* Manifest constants. */
enum {
/*
* used as the initial guess for the compiled size of an atlas.
* If atlas sizes grow more beyond this, it can be expanded to avoid multiple scans of the data.
*/
DA_INITIAL_MEMORY_ESTIMATE = 1024 * 1024 * 14
};
struct da_config {
unsigned int ua_props;
unsigned int lang_props;
unsigned int __reserved[14]; /* enough reserved keywords for future use */
};
/**
* Functional interface.
*/
/**
* @brief Initialize process to use the DA API.
*/
void da_init(void);
/**
* @brief Release all resources used by the API
*/
void da_fini(void);
/**
* @brief User-supplied callback to be invoked with information about an error.
* Note this may use thread-local storage etc to store the info on return from the current call
* It is guaranteed that an error-reporting function returning an error-code will have called
* this function at least once.
* @param callback function
*/
void da_seterrorfunc(da_errorfunc_t callback);
/**
* @brief Given a specific HTTP header, return the associated ID for that header.
* When passing evidence to the API, its type is identified using its da_evidince_id_t.
* @param atlas atlas instance
* @param header_name Header's name
* @return evidence id
*/
da_evidence_id_t da_atlas_header_evidence_id(const da_atlas_t *atlas, const char *header_name);
/**
* @brief Return the associated ID of the client side properties evidence
* @param atlas Atlas instance
* @return evidence id
*/
da_evidence_id_t da_atlas_clientprop_evidence_id(const da_atlas_t *atlas);
/**
* @brief Return the associated ID of the accept language header evidence
* @param atlas Atlas instance
* @return evidence id
*/
da_evidence_id_t da_atlas_accept_language_evidence_id(const da_atlas_t *atlas);
/**
* @brief readfn should present JSON content from ctx.
* atlasp points to an uninitialized da_atlas structure.
* Result is a compiled atlas at atlasp.
* Result is allocated via normal memory-allocation methods, malloc/calloc/realloc, so should be
* Free'd with free()
* XXX TODO: Change this to take a da_allocator
* @param ctx pointer given to read the json file
* @param readfn function pointer, set accordingly to the attended given pointer
* @param setposfn function pointer
* @param ptr Pointer dynamically allocated if the json parsing happened normally
* @param len size of the atlas image
* @return status of atlas compilation
*/
da_status_t da_atlas_compile(void *ctx, da_read_fn readfn, da_setpos_fn setposfn, void **ptr, size_t *len);
/**
* @brief opens a previously compiled atlas for operations. extra_props will be available in calls to
* da_getpropid on the atlas, and if generated by the search, the ID will be consistent across
* different calls to search.
* Properties added by a search that are neither in the compiled atlas, nor in the extra_props list
* Are assigned an ID within the context that is not transferrable through different search results
* within the same atlas.
* @param atlas Atlas instance
* @param extra_props properties
* @param ptr given pointer from previously compiled atlas
* @param pos atlas image size
* @return status of atlas data opening
*/
da_status_t da_atlas_open(da_atlas_t *atlas, da_property_decl_t *extra_props, const void *ptr, size_t pos);
/**
* @brief read from a mapped data which then replace da_atlas_compile call
*
* @param dumppath, anonymous if NULL
* @param map for anonymous, it is the responsability of the caller to unmap it, ignored otherwise
* @param maplen for anonymous, it is the size of the mapped data, ignored otherwise
* @param ptr Pointer dynamically allocated if the mapping happened normally
* @param len size of the atlas image
* @return status of mapping
*/
da_status_t da_atlas_read_mapped(const char *path, void *m, void **p, size_t *l);
/**
* @brief Release any resources associated with the atlas structure atlas, which was previously generated from
* da_read_atlas or da_compile_atlas.
* @param atlas instance
*/
void da_atlas_close(da_atlas_t *atlas);
/**
* @brief Find device properties given a set of evidence.
* Search results are returned in da_deviceinfo_t, and must be cleaned using da_close
* "Evidence" is an array of length count, of string data tagged with an evidence ID.
* @param atlas Atlas instance
* @param info Device info
* @param ev Array of evidences
* @param count Number of evidence given
* @return status of the search
*/
da_status_t da_searchv(const da_atlas_t *atlas, da_deviceinfo_t *info, da_evidence_t *ev, size_t count);
/**
* @brief As da_search, but unrolls the evidence array into variable arguments for simpler calling
* convention with known evidence types.
* varargs are pairs of (da_evidence_id, string), terminated with da_evidence_id DA_END
* @code da_search(&myAtlas, &deviceInfo, da_get_header_evidence_id("User-Agent"),
* "Mozilla/5.0 (Linux...", DA_END);
* @endcode
* @param atlas Atlas instance
* @param info given device info which holds on device properties
* @param pairs of evidence id / evidence value
* @return status of the search
*/
da_status_t da_search(const da_atlas_t *atlas, da_deviceinfo_t *info, ...);
/**
* @brief After finishing with a search result, release resources associated with it.
* @param info Device info previously allocated by search functions
*/
void da_close(da_deviceinfo_t *info);
/**
* @brief Given a property name (Eg, "displayWidth"), return the property ID associated with it for the
* specified atlas.
* @param atlas Atlas instance
* @param propname Property name
* @param propid Property id
* @return status of the property id search
*/
da_status_t da_atlas_getpropid(const da_atlas_t *atlas, const char *propname, da_propid_t *propid);
/**
* @brief Given a property ID, return the type of that property.
* @code
* da_getproptype(&myAtlas, da_getpropid(&myAtlas, "displayWidth"), &propertyType);
* assert(propertyType == DA_TYPE_INT);
* @endcode
* @param atlas Atlas instance
* @param propid Property id
* @param type Type id of the property
* @return status of the type id search
*/
da_status_t da_atlas_getproptype(const da_atlas_t *atlas, da_propid_t propid, da_type_t *type);
/**
* @brief Given a property ID, return the name of that property.
* @code
* da_atlas_getpropname(&myAtlas, da_getpropid(&myAtlas, "displayWidth"), &propertyName);
* assert(strcmp("displayWidth", propertyName) == 0);
* @endcode
* @param atlas Atlas instance
* @param propid property id
* @param propname property name returned
* @return status of the property name search
*/
da_status_t da_atlas_getpropname(const da_atlas_t *atlas, da_propid_t propid, const char **propname);
/**
* @brief Given an atlas instance, return its counters + the builtins
* @code
* da_atlas_getpropcount(&myAtlas);
* @endcode
* @param atlas Atlas instance
* @return counters
*/
size_t da_atlas_getpropcount(const da_atlas_t *atlas);
/**
* @brief Given an atlas instance, set the detection config
* @param atlas Atlas instance
* @param config instance
*/
void da_atlas_setconfig(da_atlas_t *atlas, da_config_t *config);
/**
* @brief Given a search result, find the value of a specific property.
* @code
* long displayWidth; // width of display in pixels.
* da_getpropinteger(&deviceInfo, da_getpropid(&myAtlas, "displayWidth"), &displayWidth);
* @endcode
* String contents are owned by the search result, and are valid until the search is closed.
*/
/**
* @brief returns a property value as a string from a given string typed property id
* @param info Device info
* @param propid Property id
* @param value Value of the property
* @return status of property value search
*/
da_status_t da_getpropstring(const da_deviceinfo_t *info, da_propid_t propid, const char **value);
/**
* @brief returns a property value as a long from a given long typed property id
* @param info Device info
* @param propid Property id
* @param value Value of the property
* @return status of property value search
*/
da_status_t da_getpropinteger(const da_deviceinfo_t *info, da_propid_t propid, long *value);
/**
* @brief returns a property value as a boolean from a given boolean typed property id
* @param info Device info
* @param propid Property id
* @param value Value of the property
* @return status of property value search
*/
da_status_t da_getpropboolean(const da_deviceinfo_t *info, da_propid_t propid, bool *value);
/**
* @brief returns a property value as a float from a given float typed property id
* @param info Device info
* @param propid Property id
* @param value Value of the property
* @return status of property value search
*/
da_status_t da_getpropfloat(const da_deviceinfo_t *info, da_propid_t propid, double *value);
/**
* @brief Some properties may not be not known to the atlas before the search commences.
* Such properties cannot have a da_propid_t assigned to them on the atlas, but will
* have a local property assigned during search. The name and type of such properties
* can be discovered here.
*
* Properties that are used in the atlas source and properties specifically registered
* with da_atlas_open() will always be assigned to a property discovered during search.
* Therefore, if there are specific properties that you want to use, and are unsure
* if they are in your device atlas source, registering them with da_atlas_open will
* make access to them easier and more efficient
*/
/**
* @brief returns the type of a given device property from the search functions
* @param info Device info
* @param propid Property id
* @param type Type id
* @return status of property type search
*/
da_status_t da_getproptype(const da_deviceinfo_t *info, da_propid_t propid, da_type_t *type);
/**
* @brief returns the name of a given device property from the search functions
* @param info Device info
* @param propid Property id
* @param propname Property name
* @return status of property type search
*/
da_status_t da_getpropname(const da_deviceinfo_t *info, da_propid_t propid, const char **propname);
/**
* @brief da_getfirstprop/da_getnextprop provide iteration over all properties
* in a search result.
* Both will return DA_OK if there is a result available, and DA_NOMORE
* if the search is complete.
* @code
*
* da_propid_t *propidp;
* for (da_status_t status = da_getfirstprop(&result, &propidp);
* status == DA_OK;
* status = da_getnextprop(&result, &propidp)) {
* const char *propname;
* if (da_getpropname(&result, *propidp, &propname) == DA_OK)
* fprintf("found property %s\n", propname);
* }
* @endcode
*/
/**
* @brief returns the first property from device info
* @param info Device info
* @param propid Property
* @return status
*/
da_status_t da_getfirstprop(const da_deviceinfo_t *info, da_propid_t **propid);
/**
* @brief device info properties iterator
* @param info Device info
* @param propid Property
* @return status
*/
da_status_t da_getnextprop(const da_deviceinfo_t *info, da_propid_t **propid);
/**
* @brief Report an error, as per a report from the API to the user-callback.
* @param severity Severity level of the error
* @param fmt format error message
* @param va_list
* @return status
*/
da_status_t da_reporterror(da_status_t severity, const char *fmt, ...);
/**
* @brief returns a textual description of the type "type".
* @param type Type id
* @return type name
*/
const char *da_typename(da_type_t type);
/**
* @brief returns the version from the JSON in memory
* @param atlas
* @return version
*/
char *da_getdataversion(da_atlas_t *atlas);
/**
* @brief returns the date creation's timestamp from the JSON in memory
* @param atlas
* @return version
*/
time_t da_getdatacreation(da_atlas_t *atlas);
/**
* @brief returns the revision's number from the JSON in memory
* @param atlas
* @return version
*/
int da_getdatarevision(da_atlas_t *atlas);
/**
* @brief returns the name of a global property
* @param atlas Atlas instance
* @param propid Property id
* @return property name
*/
const char *da_get_property_name(const da_atlas_t *atlas, da_propid_t propid);
/**
* @brief returns the number of properties in a result.
* @param info Device info
* @return properties count
*/
size_t da_getpropcount(const da_deviceinfo_t *info);
/*
* Details below should not be required for usage of the API
*/
/**
* @brief Represents a usable device atlas interface.
*
* No user servicable parts inside: access should
* be via the functional API.
*/
struct da_atlas {
const struct atlas_image *image;
struct header_evidence_entry *header_priorities;
size_t header_evidence_count;
struct pcre_regex_info *uar_regexes;
size_t uar_regex_count;
struct pcre_regex_info *replacement_regexes;
size_t replacement_regex_count;
da_evidence_id_t user_agent_evidence;
da_evidence_id_t clientprops_evidence;
da_evidence_id_t accept_language_evidence;
da_evidence_id_t next_evidence;
da_propset_t *properties;
da_propid_t id_propid;
da_propid_t id_proplang;
da_propid_t id_proplang_locale;
da_config_t config;
da_deviceinfo_t **cpr_props;
size_t cpr_count;
};
/* fixed constants. */
enum {
DA_BUFSIZE = 16000
};
/**
* Represents a chunk of memory. See comments on da_deviceinfo.
* This is presented here to allow aggregation in da_deviceinfo:
* Not for public consumption.
*/
struct da_buf {
struct da_buf *next;
char *cur;
char *limit;
char buf[DA_BUFSIZE];
};
/**
* A callback interface for allocating memory from some source
* Not for public consumption.
*/
struct da_allocator {
da_alloc_fn alloc;
da_free_fn free;
da_realloc_fn realloc;
void *context;
};
/**
* Represents a search result
* Can be used to retrieve values of known properties discovered from the evidence,
* iterate over the properties with known values, and query property types that are
* local to this result.
*
* The atlas the search is carried out on must survive any da_deviceinfo results
* it provides.
*/
struct da_deviceinfo {
struct da_allocator allocator;
const da_atlas_t *atlas; /* reference to the atlas the search was carried out on. */
struct da_bitset *present; /* property received from tree */
struct da_bitset *localprop; /* property was received from UAR rule or CPR */
struct da_bitset *cprprop; /* property was received from CPR */
union da_value *properties; /* properties - indexed by property id. */
da_propid_t *proplist; /* list of properties present in this result. */
size_t propcount; /* size of proplist */
da_propset_t *local_types; /* property descriptors local to this search result. */
/**
* The per-deviceinfo heap is stored here. Allocations for data in the result
* come from the raw data in these buffers. The size of the fixed-size buffer
* built in to da_buf is sized such that all known search results will not
* require memory allocation via malloc()
*/
struct da_buf *heap;
struct da_buf initial_heap;
};
/**
* Used to pass evidence to da_searchv()
*/
struct da_evidence {
da_evidence_id_t key;
char *value;
};
/**
* Used to pass properties the API intends to query to the da_atlas_open function
* This can be used to improve performance of lookup on properties well-known
* to the API user, but not present in the JSON database.
*/
struct da_property_decl {
const char *name;
da_type_t type;
};
#endif /* DEVATLAS_DAC_H */