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d648c6b602
Add new global counter for stats channel New symbol is added for each stats protocol channel, the symbol is accessed by same name as the underlying channel. Symbols evaluate to the sum of all routes exported from connected table with generation less than max generation of particular channel. Default max generation is 16. Beware you shouldn't make cyclic references as the behavior of such configuration is not defined!
424 lines
11 KiB
C
424 lines
11 KiB
C
/*
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* Filters: utility functions
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*
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* Copyright 1998 Pavel Machek <pavel@ucw.cz>
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*
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* Can be freely distributed and used under the terms of the GNU GPL.
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*
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*/
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/**
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* DOC: Filters
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*
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* You can find sources of the filter language in |filter/|
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* directory. File |filter/config.Y| contains filter grammar and basically translates
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* the source from user into a tree of &f_inst structures. These trees are
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* later interpreted using code in |filter/filter.c|.
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*
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* A filter is represented by a tree of &f_inst structures, later translated
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* into lists called &f_line. All the instructions are defined and documented
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* in |filter/f-inst.c| definition file.
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*
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* Filters use a &f_val structure for their data. Each &f_val
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* contains type and value (types are constants prefixed with %T_).
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* Look into |filter/data.h| for more information and appropriate calls.
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*/
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#undef LOCAL_DEBUG
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#include "nest/bird.h"
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#include "lib/lists.h"
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#include "lib/resource.h"
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#include "lib/socket.h"
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#include "lib/string.h"
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#include "lib/unaligned.h"
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#include "lib/ip.h"
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#include "lib/net.h"
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#include "lib/flowspec.h"
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#include "nest/rt.h"
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#include "nest/protocol.h"
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#include "nest/iface.h"
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#include "lib/attrs.h"
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#include "conf/conf.h"
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#include "filter/filter.h"
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#include "filter/f-inst.h"
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#include "filter/data.h"
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#include "proto/stats/stats-pub.h" /* provides function get_stats_counter() used in f-inst.c */
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/* Exception bits */
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enum f_exception {
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FE_RETURN = 0x1,
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};
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struct filter_exec_stack {
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const struct f_line *line; /* The line that is being executed */
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uint pos; /* Instruction index in the line */
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uint ventry; /* Value stack depth on entry */
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uint vbase; /* Where to index variable positions from */
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enum f_exception emask; /* Exception mask */
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};
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/* Internal filter state, to be allocated on stack when executing filters */
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struct filter_state {
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/* Stacks needed for execution */
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struct filter_stack {
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/* Current filter stack depth */
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/* Value stack */
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uint vcnt, vlen;
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struct f_val *vstk;
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/* Instruction stack for execution */
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uint ecnt, elen;
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struct filter_exec_stack *estk;
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} stack;
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/* The route we are processing. This may be NULL to indicate no route available. */
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struct rte *rte;
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/* Buffer for log output */
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log_buffer buf;
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/* Filter execution flags */
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int flags;
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};
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_Thread_local static struct filter_state filter_state;
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void (*bt_assert_hook)(int result, const struct f_line_item *assert);
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#define _f_stack_init(fs, px, def) ((fs).stack.px##stk = alloca(sizeof(*(fs).stack.px##stk) * ((fs).stack.px##len = (config && config->filter_##px##stk) ? config->filter_##px##stk : (def))))
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#define f_stack_init(fs) ( _f_stack_init(fs, v, 128), _f_stack_init(fs, e, 128) )
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static struct tbf rl_runtime_err = TBF_DEFAULT_LOG_LIMITS;
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/**
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* interpret
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* @fs: filter state
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* @what: filter to interpret
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*
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* Interpret given tree of filter instructions. This is core function
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* of filter system and does all the hard work.
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*
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* Each instruction has 4 fields: code (which is instruction code),
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* aux (which is extension to instruction code, typically type),
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* arg1 and arg2 - arguments. Depending on instruction, arguments
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* are either integers, or pointers to instruction trees. Common
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* instructions like +, that have two expressions as arguments use
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* TWOARGS macro to get both of them evaluated.
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*/
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static enum filter_return
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interpret(struct filter_state *fs, const struct f_line *line, struct f_val *val)
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{
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/* No arguments allowed */
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ASSERT(line->args == 0);
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/* Initialize the filter stack */
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struct filter_stack *fstk = &fs->stack;
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fstk->vcnt = line->vars;
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memset(fstk->vstk, 0, sizeof(struct f_val) * line->vars);
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/* The same as with the value stack. Not resetting the stack for performance reasons. */
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fstk->ecnt = 1;
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fstk->estk[0] = (struct filter_exec_stack) {
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.line = line,
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.pos = 0,
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};
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#define curline fstk->estk[fstk->ecnt-1]
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#ifdef LOCAL_DEBUG
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debug("Interpreting line.");
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f_dump_line(line, 1);
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#endif
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while (fstk->ecnt > 0) {
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while (curline.pos < curline.line->len) {
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const struct f_line_item *what = &(curline.line->items[curline.pos++]);
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switch (what->fi_code) {
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#define res fstk->vstk[fstk->vcnt]
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#define vv(i) fstk->vstk[fstk->vcnt + (i)]
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#define v1 vv(0)
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#define v2 vv(1)
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#define v3 vv(2)
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#define f_vcnt_check_overflow(n) do { if (fstk->vcnt + n >= fstk->vlen) runtime("Filter execution stack overflow"); } while (0)
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#define runtime(fmt, ...) do { \
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if (!(fs->flags & FF_SILENT)) \
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log_rl(&rl_runtime_err, L_ERR "filters, line %d: " fmt, what->lineno, ##__VA_ARGS__); \
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return F_ERROR; \
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} while(0)
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#define falloc(size) tmp_alloc(size)
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#define fpool tmp_linpool
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#include "filter/inst-interpret.c"
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#undef res
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#undef v1
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#undef v2
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#undef v3
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#undef runtime
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#undef falloc
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#undef fpool
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}
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}
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/* End of current line. Drop local variables before exiting. */
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fstk->vcnt = curline.ventry + curline.line->results;
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fstk->ecnt--;
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}
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if (fstk->vcnt == 0) {
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if (val) {
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log_rl(&rl_runtime_err, L_ERR "filters: No value left on stack");
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return F_ERROR;
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}
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return F_NOP;
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}
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if (val && (fstk->vcnt == 1)) {
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*val = fstk->vstk[0];
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return F_NOP;
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}
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log_rl(&rl_runtime_err, L_ERR "Too many items left on stack: %u", fstk->vcnt);
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return F_ERROR;
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}
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/**
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* f_run - run a filter for a route
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* @filter: filter to run
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* @rte: route being filtered, must be write-able
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* @tmp_pool: all filter allocations go from this pool
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* @flags: flags
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*
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* If @rte->attrs is cached, the returned rte allocates a new rta on
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* tmp_pool, otherwise the filters may modify it.
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*/
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enum filter_return
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f_run(const struct filter *filter, struct rte *rte, int flags)
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{
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if (filter == FILTER_ACCEPT)
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return F_ACCEPT;
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if (filter == FILTER_REJECT)
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return F_REJECT;
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DBG( "Running filter `%s'...", filter->name );
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/* Initialize the filter state */
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filter_state = (struct filter_state) {
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.rte = rte,
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.flags = flags,
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};
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f_stack_init(filter_state);
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/* Run the interpreter itself */
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enum filter_return fret = interpret(&filter_state, filter->root, NULL);
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/* Process the filter output, log it and return */
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if (fret < F_ACCEPT) {
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if (!(filter_state.flags & FF_SILENT))
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log_rl(&rl_runtime_err, L_ERR "Filter %s did not return accept nor reject. Make up your mind", filter_name(filter));
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return F_ERROR;
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}
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DBG( "done (%u)\n", res.val.i );
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return fret;
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}
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/**
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* f_eval_rte - run a filter line for an uncached route
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* @expr: filter line to run
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* @rte: route being filtered, may be modified
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* @tmp_pool: all filter allocations go from this pool
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*
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* This specific filter entry point runs the given filter line
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* (which must not have any arguments) on the given route.
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*
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* The route MUST NOT have REF_COW set and its attributes MUST NOT
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* be cached by rta_lookup().
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*/
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enum filter_return
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f_eval_rte(const struct f_line *expr, struct rte *rte)
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{
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filter_state = (struct filter_state) {
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.rte = rte,
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};
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f_stack_init(filter_state);
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ASSERT(!rta_is_cached(rte->attrs));
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return interpret(&filter_state, expr, NULL);
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}
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/*
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* f_eval - get a value of a term
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* @expr: filter line containing the term
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* @tmp_pool: long data may get allocated from this pool
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* @pres: here the output will be stored
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*/
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enum filter_return
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f_eval(const struct f_line *expr, struct f_val *pres)
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{
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filter_state = (struct filter_state) {};
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f_stack_init(filter_state);
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enum filter_return fret = interpret(&filter_state, expr, pres);
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return fret;
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}
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/*
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* f_eval_int - get an integer value of a term
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* Called internally from the config parser, uses its internal memory pool
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* for allocations. Do not call in other cases.
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*/
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uint
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f_eval_int(const struct f_line *expr)
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{
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/* Called independently in parse-time to eval expressions */
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filter_state = (struct filter_state) {};
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f_stack_init(filter_state);
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struct f_val val;
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if (interpret(&filter_state, expr, &val) > F_RETURN)
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cf_error("Runtime error while evaluating expression; see log for details");
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if (val.type != T_INT)
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cf_error("Integer expression expected");
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return val.val.i;
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}
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/*
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* f_eval_buf - get a value of a term and print it to the supplied buffer
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*/
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enum filter_return
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f_eval_buf(const struct f_line *expr, buffer *buf)
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{
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struct f_val val;
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enum filter_return fret = f_eval(expr, &val);
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if (fret <= F_RETURN)
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val_format(&val, buf);
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return fret;
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}
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/**
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* filter_same - compare two filters
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* @new: first filter to be compared
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* @old: second filter to be compared
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*
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* Returns 1 in case filters are same, otherwise 0. If there are
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* underlying bugs, it will rather say 0 on same filters than say
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* 1 on different.
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*/
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int
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filter_same(const struct filter *new, const struct filter *old)
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{
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if (old == new) /* Handle FILTER_ACCEPT and FILTER_REJECT */
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return 1;
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if (old == FILTER_ACCEPT || old == FILTER_REJECT ||
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new == FILTER_ACCEPT || new == FILTER_REJECT)
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return 0;
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if ((!old->sym) && (!new->sym))
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return f_same(new->root, old->root);
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if ((!old->sym) || (!new->sym))
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return 0;
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if (strcmp(old->sym->name, new->sym->name))
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return 0;
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return new->sym->flags & SYM_FLAG_SAME;
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}
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/**
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* filter_commit - do filter comparisons on all the named functions and filters
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*/
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void
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filter_commit(struct config *new, struct config *old)
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{
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if (!old)
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return;
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struct symbol *sym, *osym;
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WALK_LIST(sym, new->symbols)
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switch (sym->class) {
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case SYM_FUNCTION:
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if ((osym = cf_find_symbol(old, sym->name)) &&
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(osym->class == SYM_FUNCTION) &&
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f_same(sym->function, osym->function))
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sym->flags |= SYM_FLAG_SAME;
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else
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sym->flags &= ~SYM_FLAG_SAME;
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break;
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case SYM_FILTER:
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if ((osym = cf_find_symbol(old, sym->name)) &&
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(osym->class == SYM_FILTER) &&
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f_same(sym->filter->root, osym->filter->root))
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sym->flags |= SYM_FLAG_SAME;
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else
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sym->flags &= ~SYM_FLAG_SAME;
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break;
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}
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}
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void channel_filter_dump(const struct filter *f)
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{
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if (f == FILTER_ACCEPT)
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debug(" ALL");
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else if (f == FILTER_REJECT)
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debug(" NONE");
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else if (f == FILTER_UNDEF)
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debug(" UNDEF");
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else if (f->sym) {
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ASSERT(f->sym->filter == f);
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debug(" named filter %s", f->sym->name);
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} else {
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debug("\n");
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f_dump_line(f->root, 2);
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}
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}
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void filters_dump_all(void)
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{
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struct symbol *sym;
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WALK_LIST(sym, config->symbols) {
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switch (sym->class) {
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case SYM_FILTER:
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debug("Named filter %s:\n", sym->name);
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f_dump_line(sym->filter->root, 1);
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break;
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case SYM_FUNCTION:
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debug("Function %s:\n", sym->name);
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f_dump_line(sym->function, 1);
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break;
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case SYM_PROTO:
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{
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debug("Protocol %s:\n", sym->name);
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struct channel *c;
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WALK_LIST(c, sym->proto->proto->channels) {
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debug(" Channel %s (%s) IMPORT", c->name, net_label[c->net_type]);
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channel_filter_dump(c->in_filter);
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debug(" EXPORT", c->name, net_label[c->net_type]);
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channel_filter_dump(c->out_filter);
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debug("\n");
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}
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}
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}
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}
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}
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