LIBNFTABLES(3) | LIBNFTABLES(3) |
libnftables - nftables frontend library
#include <nftables/libnftables.h> struct nft_ctx *nft_ctx_new(uint32_t flags); void nft_ctx_free(struct nft_ctx *ctx); bool nft_ctx_get_dry_run(struct nft_ctx *ctx); void nft_ctx_set_dry_run(struct nft_ctx *ctx, bool dry); unsigned int nft_ctx_output_get_flags(struct nft_ctx *ctx); void nft_ctx_output_set_flags(struct nft_ctx *ctx, unsigned int flags); unsigned int nft_ctx_output_get_debug(struct nft_ctx *ctx); void nft_ctx_output_set_debug(struct nft_ctx *ctx, unsigned int mask); FILE *nft_ctx_set_output(struct nft_ctx *ctx, FILE *fp); int nft_ctx_buffer_output(struct nft_ctx *ctx); int nft_ctx_unbuffer_output(struct nft_ctx *ctx); const char *nft_ctx_get_output_buffer(struct nft_ctx *ctx); FILE *nft_ctx_set_error(struct nft_ctx *ctx, FILE *fp); int nft_ctx_buffer_error(struct nft_ctx *ctx); int nft_ctx_unbuffer_error(struct nft_ctx *ctx); const char *nft_ctx_get_error_buffer(struct nft_ctx *ctx); int nft_ctx_add_include_path(struct nft_ctx *ctx, const char *path); void nft_ctx_clear_include_paths(struct nft_ctx *ctx); int nft_ctx_add_var(struct nft_ctx *ctx, const char *var); void nft_ctx_clear_vars(struct nft_ctx \*ctx); int nft_run_cmd_from_buffer(struct nft_ctx* *nft, const char *buf); int nft_run_cmd_from_filename(struct nft_ctx *nft,
const char *filename); Link with -lnftables.
This library was designed with nftables integration into applications in mind. Its API is therefore kept as simple as possible, which somewhat limits its flexibility. Due to support for JSON markup of input and output though, convenience in constructing and parsing of input and output data may be achieved by using a third-party library such as libjansson.
At the very basic level, one has to allocate a new object of type struct nft_ctx using nft_ctx_new() function, then pass commands via nft_run_cmd_from_buffer() or nft_run_cmd_from_filename() functions. By default, any output is written to stdout (or stderr for error messages). These file pointers may be changed using nft_ctx_set_output() and nft_ctx_set_error() functions. On top of that, it is possible to have any output buffered by the library for later retrieval as a static buffer. See nft_ctx_buffer_output() and nft_ctx_buffer_error() functions for details.
These functions aid in nft context management. In order to make use of the library, at least one context object has to be allocated. The context holds temporary data such as caches, library configuration and (if enabled) output and error buffers.
The nft_ctx_new() function allocates and returns a new context object. The parameter flags is unused at this point and should be set to zero. For convenience, the macro NFT_CTX_DEFAULT is defined to that value.
The nft_ctx_free() function frees the context object pointed to by ctx, including any caches or buffers it may hold.
Dry-run setting controls whether ruleset changes are actually committed on kernel side or not. It allows one to check whether a given operation would succeed without making actual changes to the ruleset. The default setting is false.
The nft_ctx_get_dry_run() function returns the dry-run setting’s value contained in ctx.
The nft_ctx_set_dry_run() function sets the dry-run setting in ctx to the value of dry.
The flags setting controls the output format.
enum {
NFT_CTX_OUTPUT_REVERSEDNS = (1 << 0),
NFT_CTX_OUTPUT_SERVICE = (1 << 1),
NFT_CTX_OUTPUT_STATELESS = (1 << 2),
NFT_CTX_OUTPUT_HANDLE = (1 << 3),
NFT_CTX_OUTPUT_JSON = (1 << 4),
NFT_CTX_OUTPUT_ECHO = (1 << 5),
NFT_CTX_OUTPUT_GUID = (1 << 6),
NFT_CTX_OUTPUT_NUMERIC_PROTO = (1 << 7),
NFT_CTX_OUTPUT_NUMERIC_PRIO = (1 << 8),
NFT_CTX_OUTPUT_NUMERIC_SYMBOL = (1 << 9),
NFT_CTX_OUTPUT_NUMERIC_TIME = (1 << 10),
NFT_CTX_OUTPUT_NUMERIC_ALL = (NFT_CTX_OUTPUT_NUMERIC_PROTO |
NFT_CTX_OUTPUT_NUMERIC_PRIO |
NFT_CTX_OUTPUT_NUMERIC_SYMBOL |
NFT_CTX_OUTPUT_NUMERIC_TIME),
NFT_CTX_OUTPUT_TERSE = (1 << 11), };
NFT_CTX_OUTPUT_REVERSEDNS
NFT_CTX_OUTPUT_SERVICE
NFT_CTX_OUTPUT_STATELESS
NFT_CTX_OUTPUT_HANDLE
NFT_CTX_OUTPUT_JSON
NFT_CTX_OUTPUT_ECHO
NFT_CTX_OUTPUT_GUID
NFT_CTX_OUTPUT_NUMERIC_PROTO
NFT_CTX_OUTPUT_NUMERIC_PRIO
NFT_CTX_OUTPUT_NUMERIC_SYMBOL
NFT_CTX_OUTPUT_NUMERIC_TIME
NFT_CTX_OUTPUT_NUMERIC_ALL
NFT_CTX_OUTPUT_TERSE
The nft_ctx_output_get_flags() function returns the output flags setting’s value in ctx.
The nft_ctx_output_set_flags() function sets the output flags setting in ctx to the value of val.
Libnftables supports separate debugging of different parts of its internals. To facilitate this, debugging output is controlled via a bit mask. The bits are defined as such:
enum nft_debug_level {
NFT_DEBUG_SCANNER = 0x1,
NFT_DEBUG_PARSER = 0x2,
NFT_DEBUG_EVALUATION = 0x4,
NFT_DEBUG_NETLINK = 0x8,
NFT_DEBUG_MNL = 0x10,
NFT_DEBUG_PROTO_CTX = 0x20,
NFT_DEBUG_SEGTREE = 0x40, };
NFT_DEBUG_SCANNER
NFT_DEBUG_PARSER
NFT_DEBUG_EVALUATION
NFT_DEBUG_NETLINK
NFT_DEBUG_MNL
NFT_DEBUG_PROTO_CTX
NFT_DEBUG_SEGTREE
The nft_ctx_output_get_debug() function returns the debug output setting’s value in ctx.
The nft_ctx_output_set_debug() function sets the debug output setting in ctx to the value of mask.
By default, any output from the library (e.g., after a list command) is written to stdout and any error messages are written to stderr. To give applications control over them, there are functions to assign custom file pointers as well as having the library buffer what would be written for later retrieval in a static buffer. This buffer is guaranteed to be null-terminated and must not be freed. Note that the retrieval functions rewind the buffer position indicator. Further library output will probably overwrite the buffer content and potentially render it invalid (due to reallocation).
The nft_ctx_set_output() and nft_ctx_set_error() functions set the output or error file pointer in ctx to the value of fp. They return the previous value to aid in temporary file pointer overrides. On error, these functions return NULL. This happens only if fp is NULL or invalid (tested using ferror() function).
The nft_ctx_buffer_output() and nft_ctx_buffer_error() functions enable library standard or error output buffering. The functions return zero on success, non-zero otherwise. This may happen if the internal call to fopencookie() failed.
The nft_ctx_unbuffer_output() and nft_ctx_unbuffer_error() functions disable library standard or error output buffering. On failure, the functions return non-zero which may only happen if buffering was not enabled at the time the function was called.
The nft_ctx_get_output_buffer() and nft_ctx_get_error_buffer() functions return a pointer to the buffered output (which may be empty).
The include command in nftables rulesets allows one to outsource parts of the ruleset into a different file. The include path defines where these files are searched for. Libnftables allows one to have a list of those paths which are searched in order. The default include path list contains a single compile-time defined entry (typically /etc/).
The nft_ctx_add_include_path() function extends the list of include paths in ctx by the one given in path. The function returns zero on success or non-zero if memory allocation failed.
The nft_ctx_clear_include_paths() function removes all include paths, even the built-in default one.
The define command in nftables ruleset allows one to define variables.
The nft_ctx_add_var() function extends the list of variables in ctx. The variable must be given in the format key=value. The function returns zero on success or non-zero if the variable is malformed.
The nft_ctx_clear_vars() function removes all variables.
These functions perform the actual work of parsing user input into nftables commands and executing them.
The nft_run_cmd_from_buffer() function passes the command(s) contained in buf (which must be null-terminated) to the library, respecting settings and state in nft.
The nft_run_cmd_from_filename() function passes the content of filename to the library, respecting settings and state in nft.
Both functions return zero on success. A non-zero return code indicates an error while parsing or executing the command. This event should be accompanied by an error message written to library error output.
#include <stdio.h> #include <string.h> #include <nftables/libnftables.h> int main(void) {
char *list_cmd = "list ruleset";
struct nft_ctx *nft;
const char *output, *p;
char buf[256];
int rc = 0;
nft = nft_ctx_new(NFT_CTX_DEFAULT);
if (!nft)
return 1;
while (1) {
if (nft_ctx_buffer_output(nft) ||
nft_run_cmd_from_buffer(nft, list_cmd)) {
rc = 1;
break;
}
output = nft_ctx_get_output_buffer(nft);
if (strlen(output)) {
printf("\nThis is the current ruleset:\n| ");
for (p = output; *(p + 1); p++) {
if (*p == '\n')
printf("\n| ");
else
putchar(*p);
}
putchar('\n');
} else {
printf("\nCurrent ruleset is empty.\n");
}
nft_ctx_unbuffer_output(nft);
printf("\nEnter command ('q' to quit): ");
fflush(stdout);
fgets(buf, 256, stdin);
if (strlen(buf))
buf[strlen(buf) - 1] = '\0';
if (buf[0] == 'q' && buf[1] == '\0')
break;
if (nft_run_cmd_from_buffer(nft, buf)) {
rc = 1;
break;
}
}
nft_ctx_free(nft);
return rc; }
Phil Sutter <phil@nwl.cc>
09/16/2023 |