Line data Source code
1 : #include "fd_runtime.h"
2 : #include "../capture/fd_capture_ctx.h"
3 : #include "../types/fd_cast.h"
4 : #include "fd_alut.h"
5 : #include "fd_bank.h"
6 : #include "fd_executor_err.h"
7 : #include "fd_hashes.h"
8 : #include "fd_runtime_err.h"
9 : #include "fd_runtime_stack.h"
10 : #include "fd_acc_pool.h"
11 : #include "fd_accdb_svm.h"
12 : #include "../genesis/fd_genesis_parse.h"
13 : #include "fd_executor.h"
14 : #include "sysvar/fd_sysvar_cache.h"
15 : #include "sysvar/fd_sysvar_clock.h"
16 : #include "sysvar/fd_sysvar_epoch_schedule.h"
17 : #include "sysvar/fd_sysvar_recent_hashes.h"
18 : #include "sysvar/fd_sysvar_stake_history.h"
19 :
20 : #include "../stakes/fd_stakes.h"
21 : #include "../rewards/fd_rewards.h"
22 : #include "../accdb/fd_accdb_sync.h"
23 :
24 : #include "program/fd_builtin_programs.h"
25 : #include "program/fd_precompiles.h"
26 : #include "program/fd_program_util.h"
27 : #include "program/vote/fd_vote_state_versioned.h"
28 : #include "program/vote/fd_vote_codec.h"
29 :
30 : #include "sysvar/fd_sysvar_clock.h"
31 : #include "sysvar/fd_sysvar_last_restart_slot.h"
32 : #include "sysvar/fd_sysvar_recent_hashes.h"
33 : #include "sysvar/fd_sysvar_rent.h"
34 : #include "sysvar/fd_sysvar_slot_hashes.h"
35 : #include "sysvar/fd_sysvar_slot_history.h"
36 :
37 : #include "tests/fd_dump_pb.h"
38 :
39 : #include "fd_system_ids.h"
40 :
41 : #include "../../disco/pack/fd_pack_tip_prog_blacklist.h"
42 :
43 : #include <unistd.h>
44 : #include <sys/stat.h>
45 : #include <sys/types.h>
46 : #include <fcntl.h>
47 :
48 : /******************************************************************************/
49 : /* Public Runtime Helpers */
50 : /******************************************************************************/
51 :
52 :
53 : /*
54 : https://github.com/anza-xyz/agave/blob/v2.1.1/runtime/src/bank.rs#L1254-L1258
55 : https://github.com/anza-xyz/agave/blob/v2.1.1/runtime/src/bank.rs#L1749
56 : */
57 : int
58 : fd_runtime_compute_max_tick_height( ulong ticks_per_slot,
59 : ulong slot,
60 0 : ulong * out_max_tick_height /* out */ ) {
61 0 : ulong max_tick_height = 0UL;
62 0 : if( FD_LIKELY( ticks_per_slot > 0UL ) ) {
63 0 : ulong next_slot = fd_ulong_sat_add( slot, 1UL );
64 0 : if( FD_UNLIKELY( next_slot == slot ) ) {
65 0 : FD_LOG_WARNING(( "max tick height addition overflowed slot %lu ticks_per_slot %lu", slot, ticks_per_slot ));
66 0 : return -1;
67 0 : }
68 0 : if( FD_UNLIKELY( ULONG_MAX / ticks_per_slot < next_slot ) ) {
69 0 : FD_LOG_WARNING(( "max tick height multiplication overflowed slot %lu ticks_per_slot %lu", slot, ticks_per_slot ));
70 0 : return -1;
71 0 : }
72 0 : max_tick_height = fd_ulong_sat_mul( next_slot, ticks_per_slot );
73 0 : }
74 0 : *out_max_tick_height = max_tick_height;
75 0 : return FD_RUNTIME_EXECUTE_SUCCESS;
76 0 : }
77 :
78 : static void
79 : update_next_leaders( fd_bank_t * bank,
80 : fd_runtime_stack_t * runtime_stack,
81 129 : fd_vote_stakes_t * vote_stakes ) {
82 :
83 129 : fd_epoch_schedule_t const * epoch_schedule = &bank->f.epoch_schedule;
84 :
85 129 : ulong epoch = fd_slot_to_epoch ( epoch_schedule, bank->f.slot, NULL ) + 1UL;
86 129 : ulong slot0 = fd_epoch_slot0 ( epoch_schedule, epoch );
87 129 : ulong slot_cnt = fd_epoch_slot_cnt( epoch_schedule, epoch );
88 :
89 129 : fd_top_votes_t const * top_votes_t_1 = fd_bank_top_votes_t_1_query( bank );
90 129 : fd_vote_stake_weight_t * epoch_weights = runtime_stack->stakes.stake_weights;
91 129 : ulong stake_weight_cnt = fd_stake_weights_by_node_next( top_votes_t_1, vote_stakes, bank->vote_stakes_fork_id, epoch_weights, FD_FEATURE_ACTIVE_BANK( bank, validator_admission_ticket ) );
92 :
93 129 : void * epoch_leaders_mem = fd_bank_epoch_leaders_modify( bank );
94 129 : fd_epoch_leaders_t * leaders = fd_epoch_leaders_join( fd_epoch_leaders_new(
95 129 : epoch_leaders_mem,
96 129 : epoch,
97 129 : slot0,
98 129 : slot_cnt,
99 129 : stake_weight_cnt,
100 129 : epoch_weights,
101 129 : 0UL ) );
102 129 : if( FD_UNLIKELY( !leaders ) ) {
103 0 : FD_LOG_ERR(( "Unable to init and join fd_epoch_leaders" ));
104 0 : }
105 :
106 : /* Populate a compressed set of stake weights for a valid leader
107 : schedule. */
108 129 : fd_vote_stake_weight_t * stake_weights = runtime_stack->epoch_weights.next_stake_weights;
109 129 : ulong idx = 0UL;
110 :
111 129 : int needs_compression = stake_weight_cnt>MAX_COMPRESSED_STAKE_WEIGHTS;
112 :
113 261 : for( ulong i=0UL; i<stake_weight_cnt; i++ ) {
114 132 : fd_pubkey_t const * vote_pubkey = &epoch_weights[i].vote_key;
115 132 : fd_pubkey_t const * node_pubkey = &epoch_weights[i].id_key;
116 132 : ulong stake = epoch_weights[i].stake;
117 :
118 132 : if( FD_LIKELY( !needs_compression || fd_epoch_leaders_is_leader_idx( leaders, i ) ) ) {
119 132 : stake_weights[ idx ].stake = stake;
120 132 : memcpy( stake_weights[ idx ].id_key.uc, node_pubkey, sizeof(fd_pubkey_t) );
121 132 : memcpy( stake_weights[ idx ].vote_key.uc, vote_pubkey, sizeof(fd_pubkey_t) );
122 132 : idx++;
123 132 : } else if( idx!=0UL && !fd_epoch_leaders_is_leader_idx( leaders, i-1UL ) ) {
124 0 : stake_weights[ idx-1UL ].stake += stake;
125 0 : } else {
126 0 : stake_weights[ idx ].id_key = (fd_pubkey_t){ .uc = FD_DUMMY_ACCOUNT };
127 0 : stake_weights[ idx ].vote_key = (fd_pubkey_t){ .uc = FD_DUMMY_ACCOUNT };
128 0 : stake_weights[ idx ].stake = stake;
129 0 : idx++;
130 0 : }
131 132 : }
132 129 : runtime_stack->epoch_weights.next_stake_weights_cnt = idx;
133 :
134 : /* Produce truncated set of id weights to send to Shred tile for
135 : Turbine tree computation. */
136 129 : ulong staked_cnt = compute_id_weights_from_vote_weights( runtime_stack->stakes.id_weights, epoch_weights, stake_weight_cnt );
137 129 : ulong excluded_stake = 0UL;
138 129 : if( FD_UNLIKELY( staked_cnt>MAX_SHRED_DESTS ) ) {
139 0 : for( ulong i=MAX_SHRED_DESTS; i<staked_cnt; i++ ) {
140 0 : excluded_stake += runtime_stack->stakes.id_weights[i].stake;
141 0 : }
142 0 : }
143 129 : staked_cnt = fd_ulong_min( staked_cnt, MAX_SHRED_DESTS );
144 129 : memcpy( runtime_stack->epoch_weights.next_id_weights, runtime_stack->stakes.id_weights, staked_cnt * sizeof(fd_stake_weight_t) );
145 129 : runtime_stack->epoch_weights.next_id_weights_cnt = staked_cnt;
146 129 : runtime_stack->epoch_weights.next_id_weights_excluded = excluded_stake;
147 129 : }
148 :
149 : void
150 : fd_runtime_update_leaders( fd_bank_t * bank,
151 129 : fd_runtime_stack_t * runtime_stack ) {
152 :
153 129 : fd_epoch_schedule_t const * epoch_schedule = &bank->f.epoch_schedule;
154 :
155 129 : ulong epoch = fd_slot_to_epoch ( epoch_schedule, bank->f.slot, NULL );
156 129 : ulong vat_epoch = fd_slot_to_epoch ( epoch_schedule, bank->f.features.validator_admission_ticket, NULL );
157 129 : ulong slot0 = fd_epoch_slot0 ( epoch_schedule, epoch );
158 129 : ulong slot_cnt = fd_epoch_slot_cnt( epoch_schedule, epoch );
159 :
160 129 : fd_vote_stakes_t * vote_stakes = fd_bank_vote_stakes( bank );
161 :
162 129 : update_next_leaders( bank, runtime_stack, vote_stakes );
163 :
164 129 : int vat_in_prev = epoch>=vat_epoch+1UL ? 1 : 0;
165 :
166 129 : fd_top_votes_t const * top_votes_t_2 = fd_bank_top_votes_t_2_query( bank );
167 129 : fd_vote_stake_weight_t * epoch_weights = runtime_stack->stakes.stake_weights;
168 129 : ulong stake_weight_cnt = fd_stake_weights_by_node( top_votes_t_2, vote_stakes, bank->vote_stakes_fork_id, epoch_weights, vat_in_prev );
169 :
170 : /* TODO: Can optimize by avoiding recomputing if another fork has
171 : already computed them for this epoch. */
172 129 : void * epoch_leaders_mem = fd_bank_epoch_leaders_modify( bank );
173 129 : fd_epoch_leaders_t * leaders = fd_epoch_leaders_join( fd_epoch_leaders_new(
174 129 : epoch_leaders_mem,
175 129 : epoch,
176 129 : slot0,
177 129 : slot_cnt,
178 129 : stake_weight_cnt,
179 129 : epoch_weights,
180 129 : 0UL ) );
181 129 : if( FD_UNLIKELY( !leaders ) ) {
182 0 : FD_LOG_ERR(( "Unable to init and join fd_epoch_leaders" ));
183 0 : }
184 :
185 : /* Populate a compressed set of stake weights for a valid leader
186 : schedule. */
187 129 : fd_vote_stake_weight_t * stake_weights = runtime_stack->epoch_weights.stake_weights;
188 129 : ulong idx = 0UL;
189 :
190 129 : int needs_compression = stake_weight_cnt>MAX_COMPRESSED_STAKE_WEIGHTS;
191 :
192 264 : for( ulong i=0UL; i<leaders->pub_cnt; i++ ) {
193 135 : fd_pubkey_t const * vote_pubkey = &epoch_weights[i].vote_key;
194 135 : fd_pubkey_t const * node_pubkey = &epoch_weights[i].id_key;
195 135 : ulong stake = epoch_weights[i].stake;
196 :
197 135 : if( FD_LIKELY( !needs_compression || fd_epoch_leaders_is_leader_idx( leaders, i ) ) ) {
198 135 : stake_weights[ idx ].stake = stake;
199 135 : memcpy( stake_weights[ idx ].id_key.uc, node_pubkey, sizeof(fd_pubkey_t) );
200 135 : memcpy( stake_weights[ idx ].vote_key.uc, vote_pubkey, sizeof(fd_pubkey_t) );
201 135 : idx++;
202 135 : } else if( idx!=0UL && !fd_epoch_leaders_is_leader_idx( leaders, i-1UL ) ) {
203 0 : stake_weights[ idx-1UL ].stake += stake;
204 0 : } else {
205 0 : stake_weights[ idx ].id_key = (fd_pubkey_t){ .uc = FD_DUMMY_ACCOUNT };
206 0 : stake_weights[ idx ].vote_key = (fd_pubkey_t){ .uc = FD_DUMMY_ACCOUNT };
207 0 : stake_weights[ idx ].stake = stake;
208 0 : idx++;
209 0 : }
210 135 : }
211 129 : runtime_stack->epoch_weights.stake_weights_cnt = idx;
212 :
213 : /* Produce truncated set of id weights to send to Shred tile for
214 : Turbine tree computation. */
215 129 : ulong staked_cnt = compute_id_weights_from_vote_weights( runtime_stack->stakes.id_weights, epoch_weights, stake_weight_cnt );
216 129 : ulong excluded_stake = 0UL;
217 129 : if( FD_UNLIKELY( staked_cnt>MAX_SHRED_DESTS ) ) {
218 0 : for( ulong i=MAX_SHRED_DESTS; i<staked_cnt; i++ ) {
219 0 : excluded_stake += runtime_stack->stakes.id_weights[i].stake;
220 0 : }
221 0 : }
222 129 : staked_cnt = fd_ulong_min( staked_cnt, MAX_SHRED_DESTS );
223 129 : memcpy( runtime_stack->epoch_weights.id_weights, runtime_stack->stakes.id_weights, staked_cnt * sizeof(fd_stake_weight_t) );
224 129 : runtime_stack->epoch_weights.id_weights_cnt = staked_cnt;
225 129 : runtime_stack->epoch_weights.id_weights_excluded = excluded_stake;
226 129 : }
227 :
228 : /******************************************************************************/
229 : /* Various Private Runtime Helpers */
230 : /******************************************************************************/
231 :
232 : static int
233 : fd_runtime_validate_fee_collector( fd_bank_t const * bank,
234 : fd_accdb_ro_t const * collector,
235 12 : ulong fee ) {
236 12 : if( FD_UNLIKELY( !fee ) ) FD_LOG_CRIT(( "invariant violation: fee>0" ));
237 :
238 12 : if( FD_UNLIKELY( !fd_pubkey_eq( fd_accdb_ref_owner( collector ), &fd_solana_system_program_id ) ) ) {
239 3 : return 0;
240 3 : }
241 :
242 : /* https://github.com/anza-xyz/agave/blob/v1.18.23/runtime/src/bank/fee_distribution.rs#L111
243 : https://github.com/anza-xyz/agave/blob/v1.18.23/runtime/src/accounts/account_rent_state.rs#L39
244 : In agave's fee deposit code, rent state transition check logic is as follows:
245 : The transition is NOT allowed iff
246 : === BEGIN
247 : the post deposit account is rent paying AND the pre deposit account is not rent paying
248 : OR
249 : the post deposit account is rent paying AND the pre deposit account is rent paying AND !(post_data_size == pre_data_size && post_lamports <= pre_lamports)
250 : === END
251 : post_data_size == pre_data_size is always true during fee deposit.
252 : However, post_lamports > pre_lamports because we are paying a >0 amount.
253 : So, the above reduces down to
254 : === BEGIN
255 : the post deposit account is rent paying AND the pre deposit account is not rent paying
256 : OR
257 : the post deposit account is rent paying AND the pre deposit account is rent paying AND TRUE
258 : === END
259 : This is equivalent to checking that the post deposit account is rent paying.
260 : An account is rent paying if the post deposit balance is >0 AND it's not rent exempt.
261 : We already know that the post deposit balance is >0 because we are paying a >0 amount.
262 : So TLDR we just check if the account is rent exempt.
263 : */
264 9 : fd_rent_t const * rent = &bank->f.rent;
265 9 : ulong minbal = fd_rent_exempt_minimum_balance( rent, fd_accdb_ref_data_sz( collector ) );
266 9 : ulong balance = fd_accdb_ref_lamports( collector );
267 9 : if( FD_UNLIKELY( __builtin_uaddl_overflow( balance, fee, &balance ) ) ) {
268 0 : FD_BASE58_ENCODE_32_BYTES( fd_accdb_ref_address( collector ), addr_b58 );
269 0 : FD_LOG_EMERG(( "integer overflow while crediting %lu fee reward lamports to %s (previous balance %lu)",
270 0 : fee, addr_b58, fd_accdb_ref_lamports( collector ) ));
271 0 : }
272 9 : if( FD_UNLIKELY( balance<minbal ) ) {
273 : /* fee collector not rent exempt after payout */
274 3 : return 0;
275 3 : }
276 :
277 6 : return 1;
278 9 : }
279 :
280 : static void
281 : fd_runtime_run_incinerator( fd_bank_t * bank,
282 : fd_accdb_user_t * accdb,
283 : fd_funk_txn_xid_t const * xid,
284 78 : fd_capture_ctx_t * capture_ctx ) {
285 78 : fd_accdb_svm_remove( accdb, bank, xid, capture_ctx, &fd_sysvar_incinerator_id );
286 78 : }
287 :
288 : /* fd_runtime_settle_fees settles transaction fees accumulated during a
289 : slot. A portion is burnt, another portion is credited to the fee
290 : collector (typically leader). */
291 :
292 : static void
293 : fd_runtime_settle_fees( fd_bank_t * bank,
294 : fd_accdb_user_t * accdb,
295 : fd_funk_txn_xid_t const * xid,
296 78 : fd_capture_ctx_t * capture_ctx ) {
297 :
298 78 : ulong slot = bank->f.slot;
299 78 : ulong execution_fees = bank->f.execution_fees;
300 78 : ulong priority_fees = bank->f.priority_fees;
301 78 : ulong total_fees;
302 78 : if( FD_UNLIKELY( __builtin_uaddl_overflow( execution_fees, priority_fees, &total_fees ) ) ) {
303 0 : FD_LOG_EMERG(( "fee overflow detected (slot=%lu execution_fees=%lu priority_fees=%lu)",
304 0 : slot, execution_fees, priority_fees ));
305 0 : }
306 :
307 78 : ulong fee_burn = execution_fees / 2;
308 78 : ulong fee_reward = fd_ulong_sat_add( priority_fees, execution_fees - fee_burn );
309 :
310 : /* Remove fee balance from bank (decreasing capitalization) */
311 78 : if( FD_UNLIKELY( total_fees > bank->f.capitalization ) ) {
312 0 : FD_LOG_EMERG(( "fee settlement would underflow capitalization (slot=%lu total_fees=%lu cap=%lu)",
313 0 : slot, total_fees, bank->f.capitalization ));
314 0 : }
315 78 : bank->f.capitalization -= total_fees;
316 78 : bank->f.execution_fees = 0;
317 78 : bank->f.priority_fees = 0;
318 :
319 78 : if( FD_LIKELY( fee_reward ) ) {
320 12 : fd_epoch_leaders_t const * leaders = fd_bank_epoch_leaders_query( bank );
321 12 : if( FD_UNLIKELY( !leaders ) ) FD_LOG_CRIT(( "fd_bank_epoch_leaders_query returned NULL" ));
322 12 : fd_pubkey_t const * leader = fd_epoch_leaders_get( leaders, bank->f.slot );
323 12 : if( FD_UNLIKELY( !leader ) ) FD_LOG_CRIT(( "fd_epoch_leaders_get(%lu) returned NULL", bank->f.slot ));
324 :
325 : /* Pay out reward portion of collected fees (increasing capitalization) */
326 12 : fd_accdb_rw_t rw[1];
327 12 : fd_accdb_svm_update_t update[1];
328 12 : FD_TEST( fd_accdb_svm_open_rw(
329 12 : accdb, bank, xid,
330 12 : rw, update,
331 12 : leader,
332 12 : 0UL,
333 12 : FD_ACCDB_FLAG_CREATE
334 12 : ) );
335 12 : if( FD_UNLIKELY( !fd_runtime_validate_fee_collector( bank, rw->ro, fee_reward ) ) ) { /* validation failed */
336 6 : FD_LOG_INFO(( "slot %lu has an invalid fee collector, burning fee reward (%lu lamports)", bank->f.slot, fee_reward ));
337 6 : } else {
338 : /* Guaranteed to not overflow, checked above */
339 6 : fd_accdb_ref_lamports_set( rw, fd_accdb_ref_lamports( rw->ro ) + fee_reward );
340 6 : }
341 12 : fd_accdb_svm_close_rw( accdb, bank, capture_ctx, rw, update );
342 12 : }
343 :
344 78 : FD_LOG_INFO(( "slot=%lu priority_fees=%lu execution_fees=%lu fee_burn=%lu fee_rewards=%lu",
345 78 : slot,
346 78 : priority_fees, execution_fees, fee_burn, fee_reward ));
347 78 : }
348 :
349 : static void
350 : fd_runtime_freeze( fd_bank_t * bank,
351 : fd_accdb_user_t * accdb,
352 78 : fd_capture_ctx_t * capture_ctx ) {
353 :
354 78 : fd_funk_txn_xid_t const xid = { .ul = { bank->f.slot, bank->idx } };
355 :
356 78 : if( FD_LIKELY( bank->f.slot != 0UL ) ) {
357 78 : fd_sysvar_recent_hashes_update( bank, accdb, &xid, capture_ctx );
358 78 : }
359 :
360 78 : fd_sysvar_slot_history_update( bank, accdb, &xid, capture_ctx );
361 :
362 78 : fd_runtime_settle_fees( bank, accdb, &xid, capture_ctx );
363 :
364 : /* jito collects a 3% fee at the end of the block + 3% fee at
365 : distribution time. */
366 78 : ulong tips_pre_comission = bank->f.tips;
367 78 : bank->f.tips = (tips_pre_comission - (tips_pre_comission * 6UL / 100UL));
368 :
369 78 : fd_runtime_run_incinerator( bank, accdb, &xid, capture_ctx );
370 :
371 78 : }
372 :
373 : /******************************************************************************/
374 : /* Block-Level Execution Preparation/Finalization */
375 : /******************************************************************************/
376 : void
377 : fd_runtime_new_fee_rate_governor_derived( fd_bank_t * bank,
378 285 : ulong latest_signatures_per_slot ) {
379 :
380 285 : fd_fee_rate_governor_t const * base_fee_rate_governor = &bank->f.fee_rate_governor;
381 :
382 285 : ulong old_lamports_per_signature = bank->f.rbh_lamports_per_sig;
383 :
384 285 : fd_fee_rate_governor_t me = {
385 285 : .target_signatures_per_slot = base_fee_rate_governor->target_signatures_per_slot,
386 285 : .target_lamports_per_signature = base_fee_rate_governor->target_lamports_per_signature,
387 285 : .max_lamports_per_signature = base_fee_rate_governor->max_lamports_per_signature,
388 285 : .min_lamports_per_signature = base_fee_rate_governor->min_lamports_per_signature,
389 285 : .burn_percent = base_fee_rate_governor->burn_percent
390 285 : };
391 :
392 285 : ulong new_lamports_per_signature = 0;
393 285 : if( me.target_signatures_per_slot > 0 ) {
394 6 : me.min_lamports_per_signature = fd_ulong_max( 1UL, (ulong)(me.target_lamports_per_signature / 2) );
395 6 : me.max_lamports_per_signature = me.target_lamports_per_signature * 10;
396 6 : ulong desired_lamports_per_signature = fd_ulong_min(
397 6 : me.max_lamports_per_signature,
398 6 : fd_ulong_max(
399 6 : me.min_lamports_per_signature,
400 6 : me.target_lamports_per_signature
401 6 : * fd_ulong_min(latest_signatures_per_slot, (ulong)UINT_MAX)
402 6 : / me.target_signatures_per_slot
403 6 : )
404 6 : );
405 6 : long gap = (long)desired_lamports_per_signature - (long)old_lamports_per_signature;
406 6 : if ( gap == 0 ) {
407 0 : new_lamports_per_signature = desired_lamports_per_signature;
408 6 : } else {
409 6 : long gap_adjust = (long)(fd_ulong_max( 1UL, (ulong)(me.target_lamports_per_signature / 20) ))
410 6 : * (gap != 0)
411 6 : * (gap > 0 ? 1 : -1);
412 6 : new_lamports_per_signature = fd_ulong_min(
413 6 : me.max_lamports_per_signature,
414 6 : fd_ulong_max(
415 6 : me.min_lamports_per_signature,
416 6 : (ulong)((long)old_lamports_per_signature + gap_adjust)
417 6 : )
418 6 : );
419 6 : }
420 279 : } else {
421 279 : new_lamports_per_signature = base_fee_rate_governor->target_lamports_per_signature;
422 279 : me.min_lamports_per_signature = me.target_lamports_per_signature;
423 279 : me.max_lamports_per_signature = me.target_lamports_per_signature;
424 279 : }
425 285 : bank->f.fee_rate_governor = me;
426 285 : bank->f.rbh_lamports_per_sig = new_lamports_per_signature;
427 285 : }
428 :
429 : /******************************************************************************/
430 : /* Epoch Boundary */
431 : /******************************************************************************/
432 :
433 : /* https://github.com/anza-xyz/agave/blob/v2.1.0/runtime/src/bank.rs#L6704 */
434 : static void
435 : fd_apply_builtin_program_feature_transitions( fd_bank_t * bank,
436 : fd_accdb_user_t * accdb,
437 : fd_funk_txn_xid_t const * xid,
438 : fd_runtime_stack_t * runtime_stack,
439 129 : fd_capture_ctx_t * capture_ctx ) {
440 : /* TODO: Set the upgrade authority properly from the core bpf migration config. Right now it's set to None.
441 :
442 : Migrate any necessary stateless builtins to core BPF. So far,
443 : the only "stateless" builtin is the Feature program. Beginning
444 : checks in the migrate_builtin_to_core_bpf function will fail if the
445 : program has already been migrated to BPF. */
446 :
447 129 : fd_builtin_program_t const * builtins = fd_builtins();
448 1290 : for( ulong i=0UL; i<fd_num_builtins(); i++ ) {
449 : /* https://github.com/anza-xyz/agave/blob/v2.1.0/runtime/src/bank.rs#L6732-L6751 */
450 1161 : if( builtins[i].core_bpf_migration_config && FD_FEATURE_ACTIVE_OFFSET( bank->f.slot, &bank->f.features, builtins[i].core_bpf_migration_config->enable_feature_offset ) ) {
451 0 : FD_BASE58_ENCODE_32_BYTES( builtins[i].pubkey->key, pubkey_b58 );
452 0 : FD_LOG_DEBUG(( "Migrating builtin program %s to core BPF", pubkey_b58 ));
453 0 : fd_migrate_builtin_to_core_bpf( bank, accdb, xid, runtime_stack, builtins[i].core_bpf_migration_config, capture_ctx );
454 0 : }
455 : /* https://github.com/anza-xyz/agave/blob/v2.1.0/runtime/src/bank.rs#L6753-L6774 */
456 1161 : if( builtins[i].enable_feature_offset!=NO_ENABLE_FEATURE_ID && FD_FEATURE_JUST_ACTIVATED_OFFSET( bank, builtins[i].enable_feature_offset ) ) {
457 0 : FD_BASE58_ENCODE_32_BYTES( builtins[i].pubkey->key, pubkey_b58 );
458 0 : FD_LOG_DEBUG(( "Enabling builtin program %s", pubkey_b58 ));
459 0 : fd_write_builtin_account( bank, accdb, xid, capture_ctx, *builtins[i].pubkey, builtins[i].data,strlen(builtins[i].data) );
460 0 : }
461 1161 : }
462 :
463 : /* https://github.com/anza-xyz/agave/blob/v2.1.0/runtime/src/bank.rs#L6776-L6793 */
464 129 : fd_stateless_builtin_program_t const * stateless_builtins = fd_stateless_builtins();
465 387 : for( ulong i=0UL; i<fd_num_stateless_builtins(); i++ ) {
466 258 : if( stateless_builtins[i].core_bpf_migration_config && FD_FEATURE_ACTIVE_OFFSET( bank->f.slot, &bank->f.features, stateless_builtins[i].core_bpf_migration_config->enable_feature_offset ) ) {
467 0 : FD_BASE58_ENCODE_32_BYTES( stateless_builtins[i].pubkey->key, pubkey_b58 );
468 0 : FD_LOG_DEBUG(( "Migrating stateless builtin program %s to core BPF", pubkey_b58 ));
469 0 : fd_migrate_builtin_to_core_bpf( bank, accdb, xid, runtime_stack, stateless_builtins[i].core_bpf_migration_config, capture_ctx );
470 0 : }
471 258 : }
472 :
473 : /* https://github.com/anza-xyz/agave/blob/c1080de464cfb578c301e975f498964b5d5313db/runtime/src/bank.rs#L6795-L6805 */
474 516 : for( fd_precompile_program_t const * precompiles = fd_precompiles(); precompiles->verify_fn; precompiles++ ) {
475 387 : if( precompiles->feature_offset != NO_ENABLE_FEATURE_ID &&
476 387 : FD_FEATURE_JUST_ACTIVATED_OFFSET( bank, precompiles->feature_offset ) ) {
477 0 : fd_write_builtin_account( bank, accdb, xid, capture_ctx, *precompiles->pubkey, "", 0 );
478 0 : }
479 387 : }
480 129 : }
481 :
482 : static void
483 : fd_feature_activate( fd_bank_t * bank,
484 : fd_accdb_user_t * accdb,
485 : fd_funk_txn_xid_t const * xid,
486 : fd_capture_ctx_t * capture_ctx,
487 : fd_feature_id_t const * id,
488 34830 : fd_pubkey_t const * addr ) {
489 34830 : fd_features_t * features = &bank->f.features;
490 :
491 34830 : if( id->reverted==1 ) return;
492 :
493 33411 : fd_accdb_ro_t ro[1];
494 33411 : if( FD_UNLIKELY( !fd_accdb_open_ro( accdb, ro, xid, addr ) ) ) {
495 33399 : return;
496 33399 : }
497 :
498 12 : if( FD_UNLIKELY( !fd_pubkey_eq( fd_accdb_ref_owner( ro ), &fd_solana_feature_program_id ) ) ) {
499 : /* Feature account not yet initialized */
500 3 : fd_accdb_close_ro( accdb, ro );
501 3 : return;
502 3 : }
503 :
504 9 : FD_BASE58_ENCODE_32_BYTES( addr->uc, addr_b58 );
505 :
506 9 : fd_feature_t feature;
507 9 : if( FD_UNLIKELY( !fd_feature_decode( &feature, fd_accdb_ref_data_const( ro ), fd_accdb_ref_data_sz( ro ) ) ) ) {
508 3 : FD_LOG_WARNING(( "cannot activate feature %s, corrupt account data", addr_b58 ));
509 3 : FD_LOG_HEXDUMP_NOTICE(( "corrupt feature account", fd_accdb_ref_data_const( ro ), fd_accdb_ref_data_sz( ro ) ));
510 3 : fd_accdb_close_ro( accdb, ro );
511 3 : return;
512 3 : }
513 6 : fd_accdb_close_ro( accdb, ro );
514 :
515 6 : if( feature.is_active ) {
516 3 : FD_LOG_DEBUG(( "feature %s already activated at slot %lu", addr_b58, feature.activation_slot ));
517 3 : fd_features_set( features, id, feature.activation_slot);
518 3 : } else {
519 3 : FD_LOG_DEBUG(( "feature %s not activated at slot %lu, activating", addr_b58, bank->f.slot ));
520 3 : fd_accdb_rw_t rw[1]; fd_accdb_svm_update_t update[1];
521 3 : if( FD_UNLIKELY( !fd_accdb_svm_open_rw( accdb, bank, xid, rw, update, addr, 0UL, 0 ) ) ) return;
522 3 : FD_TEST( fd_accdb_ref_data_sz( rw->ro )>=sizeof(fd_feature_t) );
523 3 : feature.is_active = 1;
524 3 : feature.activation_slot = bank->f.slot;
525 3 : FD_STORE( fd_feature_t, fd_accdb_ref_data( rw ), feature );
526 3 : fd_accdb_svm_close_rw( accdb, bank, capture_ctx, rw, update );
527 3 : }
528 6 : }
529 :
530 : static void
531 : fd_features_activate( fd_bank_t * bank,
532 : fd_accdb_user_t * accdb,
533 : fd_funk_txn_xid_t const * xid,
534 129 : fd_capture_ctx_t * capture_ctx ) {
535 129 : for( fd_feature_id_t const * id = fd_feature_iter_init();
536 34959 : !fd_feature_iter_done( id );
537 34830 : id = fd_feature_iter_next( id ) ) {
538 34830 : fd_feature_activate( bank, accdb, xid, capture_ctx, id, &id->id );
539 34830 : }
540 129 : }
541 :
542 : /* SIMD-0194: deprecate_rent_exemption_threshold
543 : https://github.com/anza-xyz/agave/blob/v3.1.4/runtime/src/bank.rs#L5322-L5329 */
544 : static void
545 : deprecate_rent_exemption_threshold( fd_bank_t * bank,
546 : fd_accdb_user_t * accdb,
547 : fd_funk_txn_xid_t const * xid,
548 3 : fd_capture_ctx_t * capture_ctx ) {
549 : /* We use the bank fields here to mirror Agave - in mainnet, devnet
550 : and testnet Agave's bank rent.burn_percent field is different to
551 : the value in the sysvar. When this feature is activated in Agave,
552 : the sysvar inherits the value from the bank. */
553 3 : fd_rent_t rent = bank->f.rent;
554 3 : rent.lamports_per_uint8_year = fd_rust_cast_double_to_ulong(
555 3 : (double)rent.lamports_per_uint8_year * rent.exemption_threshold );
556 3 : rent.exemption_threshold = FD_SIMD_0194_NEW_RENT_EXEMPTION_THRESHOLD;
557 :
558 : /* We don't refresh the sysvar cache here. The cache is refreshed in
559 : fd_sysvar_cache_restore, which is called at the start of every
560 : block in fd_runtime_block_execute_prepare, after this function. */
561 3 : fd_sysvar_rent_write( bank, accdb, xid, capture_ctx, &rent );
562 3 : bank->f.rent = rent;
563 3 : }
564 :
565 : // https://github.com/anza-xyz/agave/blob/v3.1.4/runtime/src/bank.rs#L5296-L5391
566 : static void
567 : fd_compute_and_apply_new_feature_activations( fd_bank_t * bank,
568 : fd_accdb_user_t * accdb,
569 : fd_funk_txn_xid_t const * xid,
570 : fd_runtime_stack_t * runtime_stack,
571 129 : fd_capture_ctx_t * capture_ctx ) {
572 : /* Activate new features
573 : https://github.com/anza-xyz/agave/blob/v3.1.4/runtime/src/bank.rs#L5296-L5391 */
574 129 : fd_features_activate( bank, accdb, xid, capture_ctx );
575 129 : fd_features_restore( bank, accdb, xid );
576 :
577 : /* SIMD-0194: deprecate_rent_exemption_threshold
578 : https://github.com/anza-xyz/agave/blob/v3.1.4/runtime/src/bank.rs#L5322-L5329 */
579 129 : if( FD_UNLIKELY( FD_FEATURE_JUST_ACTIVATED_BANK( bank, deprecate_rent_exemption_threshold ) ) ) {
580 3 : deprecate_rent_exemption_threshold( bank, accdb, xid, capture_ctx );
581 3 : }
582 :
583 : /* Apply builtin program feature transitions
584 : https://github.com/anza-xyz/agave/blob/v2.1.0/runtime/src/bank.rs#L6621-L6624 */
585 129 : fd_apply_builtin_program_feature_transitions( bank, accdb, xid, runtime_stack, capture_ctx );
586 :
587 129 : if( FD_UNLIKELY( FD_FEATURE_JUST_ACTIVATED_BANK( bank, vote_state_v4 ) ) ) {
588 0 : fd_upgrade_core_bpf_program( bank, accdb, xid, runtime_stack, &fd_solana_stake_program_id, &fd_solana_stake_program_vote_state_v4_buffer_address, capture_ctx );
589 0 : }
590 :
591 : /* https://github.com/anza-xyz/agave/blob/v4.0.0-beta.2/runtime/src/bank.rs#L5703-L5716 */
592 129 : if( FD_UNLIKELY( FD_FEATURE_JUST_ACTIVATED_BANK( bank, replace_spl_token_with_p_token ) ) ) {
593 0 : fd_upgrade_loader_v2_program_with_loader_v3_program(
594 0 : bank,
595 0 : accdb,
596 0 : xid,
597 0 : runtime_stack,
598 0 : &fd_solana_spl_token_id,
599 0 : &fd_solana_ptoken_program_buffer_address,
600 0 : FD_FEATURE_ACTIVE_BANK( bank, relax_programdata_account_check_migration ),
601 0 : capture_ctx );
602 0 : }
603 :
604 : /* https://github.com/anza-xyz/agave/blob/v4.0.0-beta.4/runtime/src/bank.rs#L5736-L5744 */
605 129 : if( FD_UNLIKELY( FD_FEATURE_JUST_ACTIVATED_BANK( bank, upgrade_bpf_stake_program_to_v5 ) ) ) {
606 0 : fd_upgrade_core_bpf_program(
607 0 : bank,
608 0 : accdb,
609 0 : xid,
610 0 : runtime_stack,
611 0 : &fd_solana_stake_program_id,
612 0 : &fd_solana_stake_program_v5_buffer_address,
613 0 : capture_ctx );
614 0 : }
615 129 : }
616 :
617 : /* Starting a new epoch.
618 : New epoch: T
619 : Just ended epoch: T-1
620 : Epoch before: T-2
621 :
622 : In this function:
623 : - stakes in T-2 (vote_states_prev_prev) should be replaced by T-1 (vote_states_prev)
624 : - stakes at T-1 (vote_states_prev) should be replaced by updated stakes at T (vote_states)
625 : - leader schedule should be calculated using new T-2 stakes (vote_states_prev_prev)
626 :
627 : Invariant during an epoch T:
628 : vote_states_prev holds the stakes at T-1
629 : vote_states_prev_prev holds the stakes at T-2
630 : */
631 : /* process for the start of a new epoch */
632 : static void
633 : fd_runtime_process_new_epoch( fd_banks_t * banks,
634 : fd_bank_t * bank,
635 : fd_accdb_user_t * accdb,
636 : fd_funk_txn_xid_t const * xid,
637 : fd_capture_ctx_t * capture_ctx,
638 : ulong parent_epoch,
639 129 : fd_runtime_stack_t * runtime_stack ) {
640 129 : long start = fd_log_wallclock();
641 :
642 129 : fd_compute_and_apply_new_feature_activations( bank, accdb, xid, runtime_stack, capture_ctx );
643 :
644 : /* Update the cached warmup/cooldown rate epoch now that features may
645 : have changed (reduce_stake_warmup_cooldown may have just activated). */
646 129 : bank->f.warmup_cooldown_rate_epoch = fd_slot_to_epoch( &bank->f.epoch_schedule,
647 129 : bank->f.features.reduce_stake_warmup_cooldown,
648 129 : NULL );
649 :
650 : /* Updates stake history sysvar accumulated values and recomputes
651 : stake delegations for vote accounts. */
652 :
653 129 : fd_stake_delegations_t const * stake_delegations = fd_bank_stake_delegations_frontier_query( banks, bank );
654 129 : if( FD_UNLIKELY( !stake_delegations ) ) {
655 0 : FD_LOG_CRIT(( "stake_delegations is NULL" ));
656 0 : }
657 :
658 129 : fd_stakes_activate_epoch( bank, runtime_stack, accdb, xid, capture_ctx, stake_delegations,
659 129 : &bank->f.warmup_cooldown_rate_epoch );
660 :
661 : /* Distribute rewards. This involves calculating the rewards for
662 : every vote and stake account. */
663 :
664 129 : fd_hash_t const * parent_blockhash = fd_blockhashes_peek_last_hash( &bank->f.block_hash_queue );
665 129 : fd_begin_partitioned_rewards( bank,
666 129 : accdb,
667 129 : xid,
668 129 : runtime_stack,
669 129 : capture_ctx,
670 129 : stake_delegations,
671 129 : parent_blockhash,
672 129 : parent_epoch );
673 :
674 129 : fd_bank_stake_delegations_end_frontier_query( banks, bank );
675 :
676 : /* The Agave client handles updating their stakes cache with a call to
677 : update_epoch_stakes() which keys stakes by the leader schedule
678 : epochs and retains up to 6 epochs of stakes. However, to correctly
679 : calculate the leader schedule, we just need to maintain the vote
680 : states for the current epoch, the previous epoch, and the one
681 : before that.
682 : https://github.com/anza-xyz/agave/blob/v3.0.4/runtime/src/bank.rs#L2175
683 : */
684 :
685 : /* Now that our stakes caches have been updated, we can calculate the
686 : leader schedule for the upcoming epoch epoch using our new
687 : vote_states_prev_prev (stakes for T-2). */
688 :
689 129 : fd_runtime_update_leaders( bank, runtime_stack );
690 :
691 129 : long end = fd_log_wallclock();
692 129 : FD_LOG_NOTICE(( "starting epoch %lu at slot %lu took %.6f seconds", bank->f.epoch, bank->f.slot, (double)(end - start) / 1e9 ));
693 129 : }
694 :
695 : static void
696 : fd_runtime_block_pre_execute_process_new_epoch( fd_banks_t * banks,
697 : fd_bank_t * bank,
698 : fd_accdb_user_t * accdb,
699 : fd_funk_txn_xid_t const * xid,
700 : fd_capture_ctx_t * capture_ctx,
701 : fd_runtime_stack_t * runtime_stack,
702 285 : int * is_epoch_boundary ) {
703 :
704 285 : ulong const slot = bank->f.slot;
705 285 : if( FD_LIKELY( slot != 0UL ) ) {
706 285 : fd_epoch_schedule_t const * epoch_schedule = &bank->f.epoch_schedule;
707 :
708 285 : ulong prev_epoch = fd_slot_to_epoch( epoch_schedule, bank->f.parent_slot, NULL );
709 285 : ulong slot_idx;
710 285 : ulong new_epoch = fd_slot_to_epoch( epoch_schedule, slot, &slot_idx );
711 285 : if( FD_UNLIKELY( slot_idx==1UL && new_epoch==0UL ) ) {
712 : /* The block after genesis has a height of 1. */
713 0 : bank->f.block_height = 1UL;
714 0 : }
715 :
716 285 : if( FD_UNLIKELY( prev_epoch<new_epoch || !slot_idx ) ) {
717 129 : FD_LOG_DEBUG(( "Epoch boundary starting" ));
718 129 : fd_runtime_process_new_epoch( banks, bank, accdb, xid, capture_ctx, prev_epoch, runtime_stack );
719 129 : *is_epoch_boundary = 1;
720 156 : } else {
721 156 : *is_epoch_boundary = 0;
722 156 : }
723 :
724 285 : fd_distribute_partitioned_epoch_rewards( bank, accdb, xid, capture_ctx );
725 285 : } else {
726 0 : *is_epoch_boundary = 0;
727 0 : }
728 285 : }
729 :
730 :
731 : static void
732 : fd_runtime_block_sysvar_update_pre_execute( fd_bank_t * bank,
733 : fd_accdb_user_t * accdb,
734 : fd_funk_txn_xid_t const * xid,
735 : fd_runtime_stack_t * runtime_stack,
736 285 : fd_capture_ctx_t * capture_ctx ) {
737 : // let (fee_rate_governor, fee_components_time_us) = measure_us!(
738 : // FeeRateGovernor::new_derived(&parent.fee_rate_governor, parent.signature_count())
739 : // );
740 : /* https://github.com/firedancer-io/solana/blob/dab3da8e7b667d7527565bddbdbecf7ec1fb868e/runtime/src/bank.rs#L1312-L1314 */
741 :
742 285 : fd_runtime_new_fee_rate_governor_derived( bank, bank->f.parent_signature_cnt );
743 :
744 285 : fd_epoch_schedule_t const * epoch_schedule = &bank->f.epoch_schedule;
745 285 : ulong parent_epoch = fd_slot_to_epoch( epoch_schedule, bank->f.parent_slot, NULL );
746 285 : fd_sysvar_clock_update( bank, accdb, xid, capture_ctx, runtime_stack, &parent_epoch );
747 :
748 : // It has to go into the current txn previous info but is not in slot 0
749 285 : if( bank->f.slot != 0 ) {
750 285 : fd_sysvar_slot_hashes_update( bank, accdb, xid, capture_ctx );
751 285 : }
752 285 : fd_sysvar_last_restart_slot_update( bank, accdb, xid, capture_ctx, bank->f.last_restart_slot );
753 285 : }
754 :
755 : int
756 : fd_runtime_load_txn_address_lookup_tables( fd_txn_in_t const * txn_in,
757 : fd_txn_t const * txn,
758 : uchar const * payload,
759 : fd_accdb_user_t * accdb,
760 : fd_funk_txn_xid_t const * xid,
761 : ulong slot,
762 : fd_slot_hash_t const * hashes, /* deque */
763 90 : fd_acct_addr_t * out_accts_alt ) {
764 :
765 90 : if( FD_LIKELY( txn->transaction_version!=FD_TXN_V0 ) ) return FD_RUNTIME_EXECUTE_SUCCESS;
766 :
767 90 : fd_alut_interp_t interp[1];
768 90 : fd_alut_interp_new(
769 90 : interp,
770 90 : out_accts_alt,
771 90 : txn,
772 90 : payload,
773 90 : hashes,
774 90 : slot );
775 :
776 90 : fd_txn_acct_addr_lut_t const * addr_luts = fd_txn_get_address_tables_const( txn );
777 93 : for( ulong i=0UL; i<txn->addr_table_lookup_cnt; i++ ) {
778 3 : fd_txn_acct_addr_lut_t const * addr_lut = &addr_luts[i];
779 3 : fd_pubkey_t addr_lut_acc = FD_LOAD( fd_pubkey_t, payload+addr_lut->addr_off );
780 :
781 : /* https://github.com/anza-xyz/agave/blob/368ea563c423b0a85cc317891187e15c9a321521/accounts-db/src/accounts.rs#L90-L94 */
782 3 : fd_accdb_ro_t alut_ro[1];
783 :
784 3 : int is_found = 0;
785 3 : if( FD_UNLIKELY( txn_in && txn_in->bundle.is_bundle ) ) {
786 6 : for( ulong j=txn_in->bundle.prev_txn_cnt; j>0UL && !is_found; j-- ) {
787 3 : fd_txn_out_t * prev_txn_out = txn_in->bundle.prev_txn_outs[ j-1 ];
788 6 : for( ushort k=0; k<prev_txn_out->accounts.cnt; k++ ) {
789 6 : if( fd_pubkey_eq( &prev_txn_out->accounts.keys[ k ], &addr_lut_acc ) && prev_txn_out->accounts.is_writable[ k ] ) {
790 3 : fd_accdb_ro_init_nodb( alut_ro, &addr_lut_acc, prev_txn_out->accounts.account[ k ].meta );
791 3 : if( FD_UNLIKELY( !alut_ro->meta->lamports ) ) {
792 0 : fd_alut_interp_delete( interp );
793 0 : return FD_RUNTIME_TXN_ERR_ADDRESS_LOOKUP_TABLE_NOT_FOUND;
794 0 : }
795 3 : is_found = 1;
796 3 : break;
797 3 : }
798 6 : }
799 3 : }
800 3 : }
801 :
802 3 : if( FD_UNLIKELY( !is_found && !fd_accdb_open_ro( accdb, alut_ro, xid, &addr_lut_acc ) ) ) {
803 0 : fd_alut_interp_delete( interp );
804 0 : return FD_RUNTIME_TXN_ERR_ADDRESS_LOOKUP_TABLE_NOT_FOUND;
805 0 : }
806 :
807 3 : int err = fd_alut_interp_next(
808 3 : interp,
809 3 : &addr_lut_acc,
810 3 : fd_accdb_ref_owner ( alut_ro ),
811 3 : fd_accdb_ref_data_const( alut_ro ),
812 3 : fd_accdb_ref_data_sz ( alut_ro ) );
813 3 : fd_accdb_close_ro( accdb, alut_ro );
814 3 : if( FD_UNLIKELY( err ) ) {
815 0 : fd_alut_interp_delete( interp );
816 0 : return err;
817 0 : }
818 3 : }
819 :
820 90 : fd_alut_interp_delete( interp );
821 :
822 90 : return FD_RUNTIME_EXECUTE_SUCCESS;
823 90 : }
824 :
825 : /* Pre-populate the bank's in-memory feature set with upcoming feature
826 : activations. If the current slot is the last slot before an epoch
827 : boundary, scan all known feature accounts. Otherwise, returns early.
828 :
829 : For any feature that is pending (not yet activated on-chain) but has
830 : an account owned by the feature program, set the in-memory activation
831 : slot within the bank's featureset to the first slot of the next
832 : epoch. This is needed so that deployment verification (which uses
833 : slot+1) can detect features that will activate at the next epoch
834 : boundary.
835 :
836 : In Agave, program deployments use the feature set from the next
837 : slot via DELAY_VISIBILITY_SLOT_OFFSET. The runtime environments
838 : for deployment are selected based on epoch_of(slot+1):
839 : https://github.com/anza-xyz/agave/blob/v3.1.8/runtime/src/bank.rs#L3280-L3295
840 : https://github.com/anza-xyz/agave/blob/v3.1.8/svm/src/transaction_processor.rs#L339-L345
841 :
842 : This function does NOT write to feature accounts or update the
843 : lthash. It only modifies the bank's in-memory feature set. */
844 : static void
845 : fd_features_prepopulate_upcoming( fd_bank_t * bank,
846 : fd_accdb_user_t * accdb,
847 285 : fd_funk_txn_xid_t const * xid ) {
848 285 : ulong slot = bank->f.slot;
849 285 : fd_epoch_schedule_t const * epoch_schedule = &bank->f.epoch_schedule;
850 285 : ulong curr_epoch = fd_slot_to_epoch( epoch_schedule, slot, NULL );
851 285 : ulong next_epoch = fd_slot_to_epoch( epoch_schedule, slot+1UL, NULL );
852 285 : if( FD_LIKELY( curr_epoch==next_epoch ) ) return;
853 :
854 21 : fd_features_restore( bank, accdb, xid );
855 21 : }
856 :
857 : void
858 : fd_runtime_block_execute_prepare( fd_banks_t * banks,
859 : fd_bank_t * bank,
860 : fd_accdb_user_t * accdb,
861 : fd_runtime_stack_t * runtime_stack,
862 : fd_capture_ctx_t * capture_ctx,
863 285 : int * is_epoch_boundary ) {
864 :
865 285 : fd_funk_txn_xid_t const xid = { .ul = { bank->f.slot, bank->idx } };
866 :
867 285 : fd_runtime_block_pre_execute_process_new_epoch( banks, bank, accdb, &xid, capture_ctx, runtime_stack, is_epoch_boundary );
868 :
869 285 : if( FD_LIKELY( bank->f.slot ) ) {
870 285 : fd_cost_tracker_t * cost_tracker = fd_bank_cost_tracker_modify( bank );
871 285 : FD_TEST( cost_tracker );
872 285 : fd_cost_tracker_init( cost_tracker, &bank->f.features, bank->f.slot );
873 285 : }
874 :
875 285 : fd_features_prepopulate_upcoming( bank, accdb, &xid );
876 :
877 285 : fd_runtime_block_sysvar_update_pre_execute( bank, accdb, &xid, runtime_stack, capture_ctx );
878 :
879 285 : if( FD_UNLIKELY( !fd_sysvar_cache_restore( bank, accdb, &xid ) ) ) {
880 0 : FD_LOG_ERR(( "Failed to restore sysvar cache" ));
881 0 : }
882 285 : }
883 :
884 : static void
885 : fd_runtime_update_bank_hash( fd_bank_t * bank,
886 78 : fd_capture_ctx_t * capture_ctx ) {
887 : /* Compute the new bank hash */
888 78 : fd_lthash_value_t const * lthash = fd_bank_lthash_locking_query( bank );
889 78 : fd_hash_t new_bank_hash[1] = { 0 };
890 78 : fd_hashes_hash_bank(
891 78 : lthash,
892 78 : &bank->f.prev_bank_hash,
893 78 : (fd_hash_t *)bank->f.poh.hash,
894 78 : bank->f.signature_count,
895 78 : new_bank_hash );
896 :
897 : /* Update the bank hash */
898 78 : bank->f.bank_hash = *new_bank_hash;
899 :
900 78 : if( capture_ctx && capture_ctx->capture_solcap &&
901 78 : bank->f.slot>=capture_ctx->solcap_start_slot ) {
902 :
903 0 : uchar lthash_hash[FD_HASH_FOOTPRINT];
904 0 : fd_blake3_hash(lthash->bytes, FD_LTHASH_LEN_BYTES, lthash_hash );
905 0 : fd_capture_link_write_bank_preimage(
906 0 : capture_ctx,
907 0 : bank->f.slot,
908 0 : (fd_hash_t *)new_bank_hash->hash,
909 0 : (fd_hash_t *)&bank->f.prev_bank_hash,
910 0 : (fd_hash_t *)lthash_hash,
911 0 : (fd_hash_t *)bank->f.poh.hash,
912 0 : bank->f.signature_count );
913 0 : }
914 :
915 78 : fd_bank_lthash_end_locking_query( bank );
916 78 : }
917 :
918 : /******************************************************************************/
919 : /* Transaction Level Execution Management */
920 : /******************************************************************************/
921 :
922 : /* fd_runtime_pre_execute_check is responsible for conducting many of
923 : the transaction sanitization checks. This is a combination of some
924 : of the work done in Agave's load_and_execute_transactions(), and some
925 : of the work done in Agave's transaction ingestion stage, before the
926 : transaction even hits the scheduler. We do some of the checks also
927 : in our transaction ingestion stage. For example, the duplicate
928 : account check is performed in both the leader and the replay
929 : scheduler. As a result, the duplicate account check below is
930 : essentially redundant, except that our fuzzing harness expects a
931 : single entry point to cover all of these checks. So we keep all of
932 : the checks below for fuzzing purposes. We could in theory hoist some
933 : of the pre-scheduler checks into a public function that is only
934 : invoked by the fuzzer to avoid duplication in the leader and the
935 : replay pipeline. But all the duplicate checks are pretty cheap, and
936 : the order and placement of the checks are also in motion on Agave's
937 : side, and performing all the checks faithfully would require access
938 : to the bank in the scheduler which is kind of gross. So that's all
939 : probably more hassle than worth. */
940 :
941 : static inline int
942 : fd_runtime_pre_execute_check( fd_runtime_t * runtime,
943 : fd_bank_t * bank,
944 : fd_txn_in_t const * txn_in,
945 168 : fd_txn_out_t * txn_out ) {
946 :
947 : /* https://github.com/anza-xyz/agave/blob/16de8b75ebcd57022409b422de557dd37b1de8db/sdk/src/transaction/sanitized.rs#L263-L275
948 : TODO: Agave's precompile verification is done at the slot level, before batching and executing transactions. This logic should probably
949 : be moved in the future. The Agave call heirarchy looks something like this:
950 : process_single_slot
951 : v
952 : confirm_full_slot
953 : v
954 : confirm_slot_entries --------------------------------------------------->
955 : v v v
956 : verify_transaction ComputeBudget::process_instruction process_entries
957 : v v
958 : verify_precompiles process_batches
959 : v
960 : ...
961 : v
962 : load_and_execute_transactions
963 : v
964 : ...
965 : v
966 : load_accounts --> load_transaction_accounts
967 : v
968 : general transaction execution
969 :
970 : */
971 :
972 : /* Verify the transaction. For now, this step only involves processing
973 : the compute budget instructions. */
974 168 : int err = fd_executor_verify_transaction( bank, txn_in, txn_out );
975 168 : if( FD_UNLIKELY( err!=FD_RUNTIME_EXECUTE_SUCCESS ) ) {
976 3 : txn_out->err.is_committable = 0;
977 3 : return err;
978 3 : }
979 :
980 : /* Resolve and verify ALUT-referenced account keys, if applicable */
981 165 : err = fd_executor_setup_txn_alut_account_keys( runtime, bank, txn_in, txn_out );
982 165 : if( FD_UNLIKELY( err!=FD_RUNTIME_EXECUTE_SUCCESS ) ) {
983 0 : txn_out->err.is_committable = 0;
984 0 : return err;
985 0 : }
986 :
987 : /* Set up the transaction accounts and other txn ctx metadata */
988 165 : fd_executor_setup_accounts_for_txn( runtime, bank, txn_in, txn_out );
989 :
990 : /* Post-sanitization checks. Called from prepare_sanitized_batch()
991 : which, for now, only is used to lock the accounts and perform a
992 : couple basic validations.
993 : https://github.com/anza-xyz/agave/blob/838c1952595809a31520ff1603a13f2c9123aa51/accounts-db/src/account_locks.rs#L118 */
994 165 : err = fd_executor_validate_account_locks( bank, txn_out );
995 165 : if( FD_UNLIKELY( err!=FD_RUNTIME_EXECUTE_SUCCESS ) ) {
996 0 : txn_out->err.is_committable = 0;
997 0 : return err;
998 0 : }
999 :
1000 : /* load_and_execute_transactions() -> check_transactions()
1001 : https://github.com/anza-xyz/agave/blob/ced98f1ebe73f7e9691308afa757323003ff744f/runtime/src/bank.rs#L3667-L3672 */
1002 165 : err = fd_executor_check_transactions( runtime, bank, txn_in, txn_out );
1003 165 : if( FD_UNLIKELY( err!=FD_RUNTIME_EXECUTE_SUCCESS ) ) {
1004 3 : txn_out->err.is_committable = 0;
1005 3 : return err;
1006 3 : }
1007 :
1008 : /* load_and_execute_sanitized_transactions() -> validate_fees() ->
1009 : validate_transaction_fee_payer()
1010 : https://github.com/anza-xyz/agave/blob/ced98f1ebe73f7e9691308afa757323003ff744f/svm/src/transaction_processor.rs#L236-L249 */
1011 162 : err = fd_executor_validate_transaction_fee_payer( runtime, bank, txn_in, txn_out );
1012 162 : if( FD_UNLIKELY( err!=FD_RUNTIME_EXECUTE_SUCCESS ) ) {
1013 0 : txn_out->err.is_committable = 0;
1014 0 : return err;
1015 0 : }
1016 :
1017 162 : txn_out->details.exec_start_timestamp = fd_tickcount();
1018 :
1019 : /* https://github.com/anza-xyz/agave/blob/ced98f1ebe73f7e9691308afa757323003ff744f/svm/src/transaction_processor.rs#L284-L296 */
1020 162 : err = fd_executor_load_transaction_accounts( runtime, bank, txn_in, txn_out );
1021 162 : if( FD_UNLIKELY( err!=FD_RUNTIME_EXECUTE_SUCCESS ) ) {
1022 : /* Regardless of whether transaction accounts were loaded successfully, the transaction is
1023 : included in the block and transaction fees are collected.
1024 : https://github.com/anza-xyz/agave/blob/v2.1.6/svm/src/transaction_processor.rs#L341-L357 */
1025 0 : txn_out->err.is_fees_only = 1;
1026 :
1027 : /* If the transaction fails to load, the "rollback" accounts will include one of the following:
1028 : 1. Nonce account only
1029 : 2. Fee payer only
1030 : 3. Nonce account + fee payer
1031 :
1032 : Because the cost tracker uses the loaded account data size in block cost calculations, we need to
1033 : make sure our calculated loaded accounts data size is conformant with Agave's.
1034 : https://github.com/anza-xyz/agave/blob/v2.1.14/runtime/src/bank.rs#L4116
1035 :
1036 : In any case, we should always add the dlen of the fee payer. */
1037 0 : txn_out->details.loaded_accounts_data_size = fd_accdb_ref_data_sz( txn_out->accounts.account[ FD_FEE_PAYER_TXN_IDX ].ro );
1038 :
1039 : /* Special case handling for if a nonce account is present in the transaction. */
1040 0 : if( txn_out->accounts.nonce_idx_in_txn!=ULONG_MAX ) {
1041 : /* If the nonce account is not the fee payer, then we separately add the dlen of the nonce account. Otherwise, we would
1042 : be double counting the dlen of the fee payer. */
1043 0 : if( txn_out->accounts.nonce_idx_in_txn!=FD_FEE_PAYER_TXN_IDX ) {
1044 0 : txn_out->details.loaded_accounts_data_size += txn_out->accounts.rollback_nonce->dlen;
1045 0 : }
1046 0 : }
1047 0 : }
1048 :
1049 : /*
1050 : The fee payer and the nonce account will be stored and hashed so
1051 : long as the transaction landed on chain, or, in Agave terminology,
1052 : the transaction was processed.
1053 : https://github.com/anza-xyz/agave/blob/v2.1.1/runtime/src/account_saver.rs#L72
1054 :
1055 : A transaction lands on chain in one of two ways:
1056 : (1) Passed fee validation and loaded accounts.
1057 : (2) Passed fee validation and failed to load accounts and the enable_transaction_loading_failure_fees feature is enabled as per
1058 : SIMD-0082 https://github.com/anza-xyz/feature-gate-tracker/issues/52
1059 :
1060 : So, at this point, the transaction is committable.
1061 : */
1062 :
1063 162 : return err;
1064 162 : }
1065 :
1066 : /* fd_runtime_finalize_account is a helper used to commit the data from
1067 : a writable transaction account back into the accountsdb. */
1068 :
1069 : static void
1070 : fd_runtime_finalize_account( fd_accdb_user_t * accdb,
1071 : fd_funk_txn_xid_t const * xid,
1072 : fd_pubkey_t const * pubkey,
1073 57 : fd_account_meta_t * meta ) {
1074 : /* FIXME if account doesn't change according to LtHash, don't update
1075 : database record */
1076 :
1077 57 : fd_accdb_rw_t rw[1];
1078 57 : int rw_ok = !!fd_accdb_open_rw(
1079 57 : accdb,
1080 57 : rw,
1081 57 : xid,
1082 57 : pubkey,
1083 57 : meta->dlen,
1084 57 : FD_ACCDB_FLAG_CREATE|FD_ACCDB_FLAG_TRUNCATE );
1085 57 : if( FD_UNLIKELY( !rw_ok ) ) FD_LOG_CRIT(( "fd_accdb_open_rw failed" ));
1086 :
1087 57 : void const * data = fd_account_data( meta );
1088 57 : fd_accdb_ref_lamports_set( rw, meta->lamports );
1089 57 : fd_accdb_ref_owner_set ( rw, meta->owner );
1090 57 : fd_accdb_ref_exec_bit_set( rw, meta->executable );
1091 57 : fd_accdb_ref_data_set ( accdb, rw, data, meta->dlen );
1092 57 : fd_accdb_ref_slot_set ( rw, xid->ul[0] );
1093 :
1094 57 : fd_accdb_close_rw( accdb, rw );
1095 57 : }
1096 :
1097 : /* fd_runtime_save_account persists a transaction account to the account
1098 : database and updates the bank lthash.
1099 :
1100 : This function:
1101 : - Loads the previous account revision
1102 : - Computes the LtHash of the previous revision
1103 : - Computes the LtHash of the new revision
1104 : - Removes/adds the previous/new revision's LtHash
1105 : - Saves the new version of the account to funk
1106 : - Sends updates to metrics and capture infra
1107 :
1108 : Returns FD_RUNTIME_SAVE_* */
1109 :
1110 : static int
1111 : fd_runtime_save_account( fd_accdb_user_t * accdb,
1112 : fd_funk_txn_xid_t const * xid,
1113 : fd_pubkey_t const * pubkey,
1114 : fd_account_meta_t * meta,
1115 : fd_bank_t * bank,
1116 66 : fd_capture_ctx_t * capture_ctx ) {
1117 66 : fd_lthash_value_t lthash_post[1];
1118 66 : fd_lthash_value_t lthash_prev[1];
1119 :
1120 : /* Update LtHash
1121 : - Query old version of account and hash it
1122 : - Hash new version of account */
1123 66 : fd_accdb_ro_t ro[1];
1124 66 : int old_exist = 0;
1125 66 : if( fd_accdb_open_ro( accdb, ro, xid, pubkey ) ) {
1126 60 : old_exist = fd_accdb_ref_lamports( ro )!=0UL;
1127 60 : fd_hashes_account_lthash(
1128 60 : pubkey,
1129 60 : ro->meta,
1130 60 : fd_accdb_ref_data_const( ro ),
1131 60 : lthash_prev );
1132 60 : fd_accdb_close_ro( accdb, ro );
1133 60 : } else {
1134 6 : old_exist = 0;
1135 6 : fd_lthash_zero( lthash_prev );
1136 6 : }
1137 66 : int new_exist = meta->lamports!=0UL;
1138 :
1139 66 : int save_type = (old_exist<<1) | (new_exist);
1140 66 : if( FD_LIKELY( old_exist || new_exist ) ) {
1141 60 : fd_hashes_update_lthash1( lthash_post, lthash_prev, pubkey, meta, bank, capture_ctx );
1142 : /* First 32 bytes equal BLAKE3_256 hash of the account */
1143 60 : if( 0!=memcmp( lthash_post->bytes, lthash_prev->bytes, 32UL ) ) {
1144 57 : fd_runtime_finalize_account( accdb, xid, pubkey, meta );
1145 57 : } else {
1146 3 : save_type = FD_RUNTIME_SAVE_UNCHANGED;
1147 3 : }
1148 60 : }
1149 :
1150 66 : return save_type;
1151 66 : }
1152 :
1153 : /* fd_runtime_commit_txn is a helper used by the non-tpool transaction
1154 : executor to finalize borrowed account changes back into funk. It also
1155 : handles txncache insertion and updates to the vote/stake cache.
1156 : TODO: This function should probably be moved to fd_executor.c. */
1157 :
1158 : void
1159 : fd_runtime_commit_txn( fd_runtime_t * runtime,
1160 : fd_bank_t * bank,
1161 36 : fd_txn_out_t * txn_out ) {
1162 :
1163 36 : if( FD_UNLIKELY( !txn_out->err.is_committable ) ) {
1164 0 : FD_LOG_CRIT(( "fd_runtime_commit_txn: transaction is not committable" ));
1165 0 : }
1166 :
1167 36 : txn_out->details.commit_start_timestamp = fd_tickcount();
1168 :
1169 : /* Release executable accounts */
1170 :
1171 36 : for( ulong i=0UL; i<runtime->accounts.executable_cnt; i++ ) {
1172 0 : fd_accdb_close_ro( runtime->accdb, &runtime->accounts.executable[i] );
1173 0 : }
1174 36 : runtime->accounts.executable_cnt = 0UL;
1175 :
1176 : /* Release read-only accounts */
1177 :
1178 123 : for( ulong i=0UL; i<txn_out->accounts.cnt; i++ ) {
1179 87 : if( !txn_out->accounts.is_writable[i] ) {
1180 21 : fd_accdb_close_ro( runtime->accdb, txn_out->accounts.account[i].ro );
1181 21 : }
1182 87 : }
1183 :
1184 36 : fd_funk_txn_xid_t xid = { .ul = { bank->f.slot, bank->idx } };
1185 :
1186 36 : if( FD_UNLIKELY( txn_out->err.txn_err ) ) {
1187 :
1188 : /* Save the fee_payer. Everything but the fee balance should be reset.
1189 : TODO: an optimization here could be to use a dirty flag in the
1190 : borrowed account. If the borrowed account data has been changed in
1191 : any way, then the full account can be rolled back as it is done now.
1192 : However, most of the time the account data is not changed, and only
1193 : the lamport balance has to change. */
1194 :
1195 : /* With nonce account rollbacks, there are three cases:
1196 : 1. No nonce account in the transaction
1197 : 2. Nonce account is the fee payer
1198 : 3. Nonce account is not the fee payer
1199 :
1200 : We should always rollback the nonce account first. Note that the nonce account may be the fee payer (case 2). */
1201 0 : if( txn_out->accounts.nonce_idx_in_txn!=ULONG_MAX ) {
1202 0 : int save_type =
1203 0 : fd_runtime_save_account(
1204 0 : runtime->accdb,
1205 0 : &xid,
1206 0 : &txn_out->accounts.keys[txn_out->accounts.nonce_idx_in_txn],
1207 0 : txn_out->accounts.rollback_nonce,
1208 0 : bank,
1209 0 : runtime->log.capture_ctx );
1210 0 : runtime->metrics.txn_account_save[ save_type ]++;
1211 0 : }
1212 : /* Now, we must only save the fee payer if the nonce account was not the fee payer (because that was already saved above) */
1213 0 : if( FD_LIKELY( txn_out->accounts.nonce_idx_in_txn!=FD_FEE_PAYER_TXN_IDX ) ) {
1214 0 : int save_type =
1215 0 : fd_runtime_save_account(
1216 0 : runtime->accdb,
1217 0 : &xid,
1218 0 : &txn_out->accounts.keys[FD_FEE_PAYER_TXN_IDX],
1219 0 : txn_out->accounts.rollback_fee_payer,
1220 0 : bank,
1221 0 : runtime->log.capture_ctx );
1222 0 : runtime->metrics.txn_account_save[ save_type ]++;
1223 0 : }
1224 36 : } else {
1225 :
1226 :
1227 36 : fd_top_votes_t * top_votes = fd_bank_top_votes_t_2_modify( bank );
1228 123 : for( ushort i=0; i<txn_out->accounts.cnt; i++ ) {
1229 : /* We are only interested in saving writable accounts and the fee
1230 : payer account. */
1231 87 : if( !txn_out->accounts.is_writable[i] ) {
1232 21 : continue;
1233 21 : }
1234 :
1235 66 : fd_pubkey_t const * pubkey = &txn_out->accounts.keys[i];
1236 66 : fd_accdb_rw_t * account = &txn_out->accounts.account[i];
1237 :
1238 : /* Tips for bundles are collected in the bank: a user submitting a
1239 : bundle must include a instruction that transfers lamports to
1240 : a specific tip account. Tips accumulated through the slot. */
1241 66 : if( fd_pack_tip_is_tip_account( fd_type_pun_const( pubkey->uc ) ) ) {
1242 0 : txn_out->details.tips += fd_ulong_sat_sub( fd_accdb_ref_lamports( account->ro ), runtime->accounts.starting_lamports[i] );
1243 0 : }
1244 :
1245 66 : if( txn_out->accounts.stake_update[i] ) {
1246 0 : fd_stakes_update_stake_delegation( pubkey, account->meta, bank );
1247 0 : }
1248 :
1249 66 : if( txn_out->accounts.vote_update[i] ) {
1250 0 : if( FD_UNLIKELY( fd_accdb_ref_lamports( account->ro )==0UL || !fd_vsv_is_correct_size_and_initialized( account->meta ) ) ) {
1251 0 : fd_top_votes_invalidate( top_votes, pubkey );
1252 0 : } else {
1253 0 : fd_vote_block_timestamp_t last_vote;
1254 0 : FD_TEST( !fd_vote_account_last_timestamp( fd_account_data( account->meta ), account->meta->dlen, &last_vote ) );
1255 0 : fd_top_votes_update( top_votes, pubkey, last_vote.slot, last_vote.timestamp );
1256 0 : }
1257 0 : }
1258 :
1259 66 : int save_type = fd_runtime_save_account( runtime->accdb, &xid, pubkey, account->meta, bank, runtime->log.capture_ctx );
1260 66 : runtime->metrics.txn_account_save[ save_type ]++;
1261 66 : }
1262 :
1263 : /* Atomically add all accumulated tips to the bank once after processing all accounts */
1264 36 : if( txn_out->details.tips>0UL )
1265 0 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.tips, txn_out->details.tips );
1266 36 : }
1267 :
1268 : /* Accumulate block-level information to the bank. */
1269 :
1270 36 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.txn_count, 1UL );
1271 36 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.execution_fees, txn_out->details.execution_fee );
1272 36 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.priority_fees, txn_out->details.priority_fee );
1273 36 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.signature_count, txn_out->details.signature_count );
1274 :
1275 36 : if( !txn_out->details.is_simple_vote ) {
1276 36 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.nonvote_txn_count, 1 );
1277 36 : if( FD_UNLIKELY( txn_out->err.exec_err ) ) {
1278 0 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.nonvote_failed_txn_count, 1 );
1279 0 : }
1280 36 : }
1281 :
1282 36 : if( FD_UNLIKELY( txn_out->err.exec_err ) ) {
1283 0 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.failed_txn_count, 1 );
1284 0 : }
1285 :
1286 36 : FD_ATOMIC_FETCH_AND_ADD( &bank->f.total_compute_units_used, txn_out->details.compute_budget.compute_unit_limit - txn_out->details.compute_budget.compute_meter );
1287 :
1288 : /* Update the cost tracker. */
1289 :
1290 36 : fd_cost_tracker_t * cost_tracker = fd_bank_cost_tracker_modify( bank );
1291 36 : int res = fd_cost_tracker_try_add_cost( cost_tracker, txn_out );
1292 36 : if( FD_UNLIKELY( res!=FD_COST_TRACKER_SUCCESS ) ) {
1293 0 : FD_LOG_DEBUG(( "fd_runtime_commit_txn: transaction failed to fit into block %d", res ));
1294 0 : txn_out->err.is_committable = 0;
1295 0 : txn_out->err.txn_err = fd_cost_tracker_err_to_runtime_err( res );
1296 0 : }
1297 :
1298 : /* Finally, update the status cache. */
1299 :
1300 36 : if( FD_LIKELY( runtime->status_cache && txn_out->accounts.nonce_idx_in_txn==ULONG_MAX ) ) {
1301 : /* In Agave, durable nonce transactions are inserted to the status
1302 : cache the same as any others, but this is only to serve RPC
1303 : requests, they do not need to be in there for correctness as the
1304 : nonce mechanism itself prevents double spend. We skip this logic
1305 : entirely to simplify and improve performance of the txn cache. */
1306 :
1307 0 : fd_txncache_insert( runtime->status_cache, bank->txncache_fork_id, txn_out->details.blockhash.uc, txn_out->details.blake_txn_msg_hash.uc );
1308 0 : }
1309 :
1310 123 : for( ushort i=0; i<txn_out->accounts.cnt; i++ ) {
1311 87 : if( txn_out->accounts.is_writable[i] ) {
1312 66 : fd_acc_pool_release( runtime->acc_pool, fd_type_pun( txn_out->accounts.account[i].meta ) );
1313 66 : }
1314 87 : }
1315 :
1316 36 : fd_acc_pool_release( runtime->acc_pool, txn_out->accounts.rollback_nonce_mem );
1317 36 : fd_acc_pool_release( runtime->acc_pool, txn_out->accounts.rollback_fee_payer_mem );
1318 36 : }
1319 :
1320 : void
1321 : fd_runtime_cancel_txn( fd_runtime_t * runtime,
1322 45 : fd_txn_out_t * txn_out ) {
1323 :
1324 45 : if( FD_UNLIKELY( txn_out->err.is_committable ) ) {
1325 0 : FD_LOG_CRIT(( "fd_runtime_cancel_txn: transaction is committable" ));
1326 0 : }
1327 :
1328 45 : if( !txn_out->accounts.is_setup ) {
1329 0 : return;
1330 0 : }
1331 :
1332 48 : for( ulong i=0UL; i<runtime->accounts.executable_cnt; i++ ) {
1333 3 : fd_accdb_close_ro( runtime->accdb, &runtime->accounts.executable[i] );
1334 3 : }
1335 45 : runtime->accounts.executable_cnt = 0UL;
1336 :
1337 204 : for( ushort i=0; i<txn_out->accounts.cnt; i++ ) {
1338 159 : if( txn_out->accounts.is_writable[i] ) {
1339 90 : fd_acc_pool_release( runtime->acc_pool, fd_type_pun( txn_out->accounts.account[i].meta ) );
1340 90 : } else {
1341 69 : fd_accdb_close_ro( runtime->accdb, txn_out->accounts.account[i].ro );
1342 69 : }
1343 159 : }
1344 :
1345 45 : fd_acc_pool_release( runtime->acc_pool, txn_out->accounts.rollback_nonce_mem );
1346 45 : fd_acc_pool_release( runtime->acc_pool, txn_out->accounts.rollback_fee_payer_mem );
1347 45 : }
1348 :
1349 : static inline void
1350 168 : fd_runtime_reset_runtime( fd_runtime_t * runtime ) {
1351 168 : runtime->instr.stack_sz = 0;
1352 168 : runtime->instr.trace_length = 0UL;
1353 : /* The only condition where the executable count of the current
1354 : runtime is not 0 is when a bundle of transaction is being executed.
1355 : In this case, close any outstanding executable accounts. */
1356 171 : for( ulong i=0UL; i<runtime->accounts.executable_cnt; i++ ) {
1357 3 : fd_accdb_close_ro( runtime->accdb, &runtime->accounts.executable[i] );
1358 3 : }
1359 168 : runtime->accounts.executable_cnt = 0UL;
1360 :
1361 168 : }
1362 :
1363 : static inline void
1364 : fd_runtime_new_txn_out( fd_txn_in_t const * txn_in,
1365 168 : fd_txn_out_t * txn_out ) {
1366 168 : txn_out->details.prep_start_timestamp = fd_tickcount();
1367 168 : txn_out->details.load_start_timestamp = LONG_MAX;
1368 168 : txn_out->details.exec_start_timestamp = LONG_MAX;
1369 168 : txn_out->details.commit_start_timestamp = LONG_MAX;
1370 :
1371 168 : fd_compute_budget_details_new( &txn_out->details.compute_budget );
1372 :
1373 168 : txn_out->details.loaded_accounts_data_size = 0UL;
1374 168 : txn_out->details.accounts_resize_delta = 0L;
1375 :
1376 168 : txn_out->details.return_data.len = 0UL;
1377 168 : memset( txn_out->details.return_data.program_id.key, 0, sizeof(fd_pubkey_t) );
1378 :
1379 168 : txn_out->details.tips = 0UL;
1380 168 : txn_out->details.execution_fee = 0UL;
1381 168 : txn_out->details.priority_fee = 0UL;
1382 168 : txn_out->details.signature_count = 0UL;
1383 :
1384 168 : txn_out->details.signature_count = TXN( txn_in->txn )->signature_cnt;
1385 168 : txn_out->details.is_simple_vote = fd_txn_is_simple_vote_transaction( TXN( txn_in->txn ), txn_in->txn->payload );
1386 :
1387 168 : fd_hash_t * blockhash = (fd_hash_t *)((uchar *)txn_in->txn->payload + TXN( txn_in->txn )->recent_blockhash_off);
1388 168 : memcpy( txn_out->details.blockhash.uc, blockhash->hash, sizeof(fd_hash_t) );
1389 :
1390 168 : txn_out->accounts.is_setup = 0;
1391 168 : txn_out->accounts.cnt = 0UL;
1392 168 : txn_out->accounts.rollback_nonce = NULL;
1393 168 : txn_out->accounts.rollback_fee_payer = NULL;
1394 168 : memset( txn_out->accounts.stake_update, 0, sizeof(txn_out->accounts.stake_update) );
1395 168 : memset( txn_out->accounts.vote_update, 0, sizeof(txn_out->accounts.vote_update) );
1396 :
1397 168 : txn_out->err.is_committable = 1;
1398 168 : txn_out->err.is_fees_only = 0;
1399 168 : txn_out->err.txn_err = FD_RUNTIME_EXECUTE_SUCCESS;
1400 168 : txn_out->err.exec_err = FD_EXECUTOR_INSTR_SUCCESS;
1401 168 : txn_out->err.exec_err_kind = FD_EXECUTOR_ERR_KIND_NONE;
1402 168 : txn_out->err.exec_err_idx = INT_MAX;
1403 168 : txn_out->err.custom_err = 0;
1404 168 : }
1405 :
1406 : void
1407 : fd_runtime_prepare_and_execute_txn( fd_runtime_t * runtime,
1408 : fd_bank_t * bank,
1409 : fd_txn_in_t const * txn_in,
1410 168 : fd_txn_out_t * txn_out ) {
1411 :
1412 168 : fd_runtime_reset_runtime( runtime );
1413 :
1414 168 : fd_runtime_new_txn_out( txn_in, txn_out );
1415 :
1416 : /* Set up the core account keys before any pre-execution checks.
1417 : This is needed both for execution and for protobuf context
1418 : dumping. */
1419 168 : fd_executor_setup_txn_account_keys( txn_in, txn_out );
1420 :
1421 168 : # if FD_HAS_FLATCC
1422 168 : uchar dump_txn = !!( runtime->log.dump_proto_ctx &&
1423 168 : bank->f.slot >= runtime->log.dump_proto_ctx->dump_proto_start_slot &&
1424 168 : runtime->log.dump_proto_ctx->dump_txn_to_pb );
1425 :
1426 : /* Phase 1: Capture TxnContext before execution. */
1427 168 : if( FD_UNLIKELY( dump_txn ) ) {
1428 0 : if( runtime->log.txn_dump_ctx ) {
1429 0 : fd_dump_txn_context_to_protobuf( runtime->log.txn_dump_ctx, runtime, bank, txn_in, txn_out );
1430 0 : } else {
1431 0 : fd_dump_txn_to_protobuf( runtime, bank, txn_in, txn_out );
1432 0 : }
1433 0 : }
1434 168 : # endif
1435 :
1436 : /* Transaction sanitization. If a transaction can't be commited or is
1437 : fees-only, we return early. */
1438 168 : txn_out->err.txn_err = fd_runtime_pre_execute_check( runtime, bank, txn_in, txn_out );
1439 168 : ulong cu_before = txn_out->details.compute_budget.compute_meter;
1440 :
1441 : /* Execute the transaction if eligible to do so. */
1442 168 : if( FD_LIKELY( txn_out->err.is_committable ) ) {
1443 162 : if( FD_LIKELY( !txn_out->err.is_fees_only ) ) {
1444 162 : txn_out->err.txn_err = fd_execute_txn( runtime, bank, txn_in, txn_out );
1445 162 : }
1446 162 : fd_cost_tracker_calculate_cost( bank, txn_in, txn_out );
1447 162 : }
1448 168 : ulong cu_after = txn_out->details.compute_budget.compute_meter;
1449 168 : runtime->metrics.cu_cum += fd_ulong_sat_sub( cu_before, cu_after );
1450 :
1451 168 : # if FD_HAS_FLATCC
1452 : /* Phase 2: Capture TxnResult after execution and write to disk. */
1453 168 : if( FD_UNLIKELY( dump_txn && runtime->log.txn_dump_ctx ) ) {
1454 0 : fd_dump_txn_result_to_protobuf( runtime->log.txn_dump_ctx, txn_in, txn_out, txn_out->err.txn_err );
1455 0 : fd_dump_txn_fixture_to_file( runtime->log.txn_dump_ctx, runtime->log.dump_proto_ctx, txn_in );
1456 0 : }
1457 168 : # endif
1458 168 : }
1459 :
1460 : /* fd_executor_txn_verify and fd_runtime_pre_execute_check are responisble
1461 : for the bulk of the pre-transaction execution checks in the runtime.
1462 : They aim to preserve the ordering present in the Agave client to match
1463 : parity in terms of error codes. Sigverify is kept separate from the rest
1464 : of the transaction checks for fuzzing convenience.
1465 :
1466 : For reference this is the general code path which contains all relevant
1467 : pre-transactions checks in the v2.0.x Agave client from upstream
1468 : to downstream is as follows:
1469 :
1470 : confirm_slot_entries() which calls verify_ticks() and
1471 : verify_transaction(). verify_transaction() calls verify_and_hash_message()
1472 : and verify_precompiles() which parallels fd_executor_txn_verify() and
1473 : fd_executor_verify_transaction().
1474 :
1475 : process_entries() contains a duplicate account check which is part of
1476 : agave account lock acquiring. This is checked inline in
1477 : fd_runtime_pre_execute_check().
1478 :
1479 : load_and_execute_transactions() contains the function check_transactions().
1480 : This contains check_age() and check_status_cache() which is paralleled by
1481 : fd_executor_check_transaction_age_and_compute_budget_limits() and
1482 : fd_executor_check_status_cache() respectively.
1483 :
1484 : load_and_execute_sanitized_transactions() contains validate_fees()
1485 : which is responsible for executing the compute budget instructions,
1486 : validating the fee payer and collecting the fee. This is mirrored in
1487 : firedancer with fd_executor_compute_budget_program_execute_instructions()
1488 : and fd_executor_collect_fees(). load_and_execute_sanitized_transactions()
1489 : also checks the total data size of the accounts in load_accounts() and
1490 : validates the program accounts in load_transaction_accounts(). This
1491 : is paralled by fd_executor_load_transaction_accounts(). */
1492 :
1493 :
1494 : /******************************************************************************/
1495 : /* Genesis */
1496 : /*******************************************************************************/
1497 :
1498 : static void
1499 : fd_runtime_genesis_init_program( fd_bank_t * bank,
1500 : fd_accdb_user_t * accdb,
1501 : fd_funk_txn_xid_t const * xid,
1502 0 : fd_capture_ctx_t * capture_ctx ) {
1503 :
1504 0 : fd_sysvar_clock_init( bank, accdb, xid, capture_ctx );
1505 0 : fd_sysvar_rent_init( bank, accdb, xid, capture_ctx );
1506 :
1507 0 : fd_sysvar_slot_history_init( bank, accdb, xid, capture_ctx );
1508 0 : fd_sysvar_epoch_schedule_init( bank, accdb, xid, capture_ctx );
1509 0 : fd_sysvar_recent_hashes_init( bank, accdb, xid, capture_ctx );
1510 0 : fd_sysvar_stake_history_init( bank, accdb, xid, capture_ctx );
1511 0 : fd_sysvar_last_restart_slot_init( bank, accdb, xid, capture_ctx );
1512 :
1513 0 : fd_builtin_programs_init( bank, accdb, xid, capture_ctx );
1514 0 : }
1515 :
1516 : static void
1517 : fd_runtime_init_bank_from_genesis( fd_banks_t * banks,
1518 : fd_bank_t * bank,
1519 : fd_runtime_stack_t * runtime_stack,
1520 : fd_accdb_user_t * accdb,
1521 : fd_funk_txn_xid_t const * xid,
1522 : fd_genesis_t const * genesis,
1523 : uchar const * genesis_blob,
1524 0 : fd_hash_t const * genesis_hash ) {
1525 :
1526 0 : bank->f.parent_slot = ULONG_MAX;
1527 0 : bank->f.poh = *genesis_hash;
1528 :
1529 0 : fd_hash_t * bank_hash = &bank->f.bank_hash;
1530 0 : memset( bank_hash->hash, 0, FD_SHA256_HASH_SZ );
1531 :
1532 0 : uint128 target_tick_duration = (uint128)genesis->poh.tick_duration_secs * 1000000000UL + (uint128)genesis->poh.tick_duration_ns;
1533 :
1534 0 : fd_epoch_schedule_t * epoch_schedule = &bank->f.epoch_schedule;
1535 0 : epoch_schedule->leader_schedule_slot_offset = genesis->epoch_schedule.leader_schedule_slot_offset;
1536 0 : epoch_schedule->warmup = genesis->epoch_schedule.warmup;
1537 0 : epoch_schedule->first_normal_epoch = genesis->epoch_schedule.first_normal_epoch;
1538 0 : epoch_schedule->first_normal_slot = genesis->epoch_schedule.first_normal_slot;
1539 0 : epoch_schedule->slots_per_epoch = genesis->epoch_schedule.slots_per_epoch;
1540 :
1541 0 : fd_rent_t * rent = &bank->f.rent;
1542 0 : rent->lamports_per_uint8_year = genesis->rent.lamports_per_uint8_year;
1543 0 : rent->exemption_threshold = genesis->rent.exemption_threshold;
1544 0 : rent->burn_percent = genesis->rent.burn_percent;
1545 :
1546 0 : fd_inflation_t * inflation = &bank->f.inflation;
1547 0 : inflation->initial = genesis->inflation.initial;
1548 0 : inflation->terminal = genesis->inflation.terminal;
1549 0 : inflation->taper = genesis->inflation.taper;
1550 0 : inflation->foundation = genesis->inflation.foundation;
1551 0 : inflation->foundation_term = genesis->inflation.foundation_term;
1552 0 : inflation->unused = 0.0;
1553 :
1554 0 : bank->f.block_height = 0UL;
1555 :
1556 0 : {
1557 : /* FIXME Why is there a previous blockhash at genesis? Why is the
1558 : last_hash field an option type in Agave, if even the first
1559 : real block has a previous blockhash? */
1560 0 : fd_blockhashes_t * bhq = fd_blockhashes_init( &bank->f.block_hash_queue, 0UL );
1561 0 : fd_blockhash_info_t * info = fd_blockhashes_push_new( bhq, genesis_hash );
1562 0 : info->fee_calculator.lamports_per_signature = 0UL;
1563 0 : }
1564 :
1565 0 : fd_fee_rate_governor_t * fee_rate_governor = &bank->f.fee_rate_governor;
1566 0 : fee_rate_governor->target_lamports_per_signature = genesis->fee_rate_governor.target_lamports_per_signature;
1567 0 : fee_rate_governor->target_signatures_per_slot = genesis->fee_rate_governor.target_signatures_per_slot;
1568 0 : fee_rate_governor->min_lamports_per_signature = genesis->fee_rate_governor.min_lamports_per_signature;
1569 0 : fee_rate_governor->max_lamports_per_signature = genesis->fee_rate_governor.max_lamports_per_signature;
1570 0 : fee_rate_governor->burn_percent = genesis->fee_rate_governor.burn_percent;
1571 :
1572 0 : bank->f.max_tick_height = genesis->poh.ticks_per_slot * (bank->f.slot + 1);
1573 :
1574 0 : bank->f.hashes_per_tick = genesis->poh.hashes_per_tick;
1575 :
1576 0 : bank->f.ns_per_slot = (fd_w_u128_t) { .ud=target_tick_duration * genesis->poh.ticks_per_slot };
1577 :
1578 0 : bank->f.ticks_per_slot = genesis->poh.ticks_per_slot;
1579 :
1580 0 : bank->f.genesis_creation_time = genesis->creation_time;
1581 :
1582 0 : bank->f.slots_per_year = SECONDS_PER_YEAR * (1000000000.0 / (double)target_tick_duration) / (double)genesis->poh.ticks_per_slot;
1583 :
1584 0 : bank->f.signature_count = 0UL;
1585 :
1586 : /* Derive epoch stakes */
1587 :
1588 0 : fd_stake_delegations_t * stake_delegations = fd_banks_stake_delegations_root_query( banks );
1589 0 : if( FD_UNLIKELY( !stake_delegations ) ) {
1590 0 : FD_LOG_CRIT(( "Failed to join and new a stake delegations" ));
1591 0 : }
1592 :
1593 0 : ulong capitalization = 0UL;
1594 :
1595 0 : for( ulong i=0UL; i<genesis->account_cnt; i++ ) {
1596 0 : fd_genesis_account_t account[1];
1597 0 : fd_genesis_account( genesis, genesis_blob, account, i );
1598 :
1599 0 : capitalization = fd_ulong_sat_add( capitalization, account->meta.lamports );
1600 :
1601 0 : uchar const * acc_data = account->data;
1602 :
1603 0 : if( !memcmp( account->meta.owner, fd_solana_stake_program_id.key, sizeof(fd_pubkey_t) ) ) {
1604 : /* If an account is a stake account, then it must be added to the
1605 : stake delegations cache. We should only add stake accounts that
1606 : have a valid non-zero stake. */
1607 0 : fd_stake_state_t const * stake_state = fd_stake_state_view( acc_data, account->meta.dlen );
1608 0 : if( FD_UNLIKELY( !stake_state ) ) { FD_BASE58_ENCODE_32_BYTES( account->pubkey.uc, stake_b58 ); FD_LOG_ERR(( "invalid stake account %s", stake_b58 )); }
1609 0 : if( stake_state->stake_type!=FD_STAKE_STATE_STAKE ) continue;
1610 0 : if( !stake_state->stake.stake.delegation.stake ) continue;
1611 :
1612 0 : if( FD_UNLIKELY( stake_state->stake.stake.delegation.warmup_cooldown_rate!=0.25 &&
1613 0 : stake_state->stake.stake.delegation.warmup_cooldown_rate!=0.09 ) ) {
1614 0 : FD_BASE58_ENCODE_32_BYTES( account->pubkey.uc, stake_b58 );
1615 0 : FD_LOG_ERR(( "Invalid warmup cooldown rate %f for stake account %s", stake_state->stake.stake.delegation.warmup_cooldown_rate, stake_b58 ));
1616 0 : }
1617 :
1618 0 : fd_stake_delegations_root_update(
1619 0 : stake_delegations,
1620 0 : &account->pubkey,
1621 0 : &stake_state->stake.stake.delegation.voter_pubkey,
1622 0 : stake_state->stake.stake.delegation.stake,
1623 0 : stake_state->stake.stake.delegation.activation_epoch,
1624 0 : stake_state->stake.stake.delegation.deactivation_epoch,
1625 0 : stake_state->stake.stake.credits_observed,
1626 0 : stake_state->stake.stake.delegation.warmup_cooldown_rate );
1627 :
1628 0 : } else if( !memcmp( account->meta.owner, fd_solana_feature_program_id.key, sizeof(fd_pubkey_t) ) ) {
1629 : /* Feature Account */
1630 :
1631 : /* Scan list of feature IDs to resolve address=>feature offset */
1632 0 : fd_feature_id_t const *found = NULL;
1633 0 : for( fd_feature_id_t const * id = fd_feature_iter_init();
1634 0 : !fd_feature_iter_done( id );
1635 0 : id = fd_feature_iter_next( id ) ) {
1636 0 : if( fd_pubkey_eq( &account->pubkey, &id->id ) ) {
1637 0 : found = id;
1638 0 : break;
1639 0 : }
1640 0 : }
1641 :
1642 0 : if( found ) {
1643 : /* Load feature activation */
1644 0 : fd_feature_t feature[1];
1645 0 : if( FD_UNLIKELY( !fd_feature_decode( feature, acc_data, account->meta.dlen ) ) ) {
1646 0 : FD_BASE58_ENCODE_32_BYTES( account->pubkey.uc, addr_b58 );
1647 0 : FD_LOG_WARNING(( "genesis contains corrupt feature account %s", addr_b58 ));
1648 0 : FD_LOG_HEXDUMP_ERR(( "data", acc_data, account->meta.dlen ));
1649 0 : }
1650 0 : fd_features_t * features = &bank->f.features;
1651 0 : if( feature->is_active ) {
1652 0 : FD_BASE58_ENCODE_32_BYTES( account->pubkey.uc, pubkey_b58 );
1653 0 : FD_LOG_DEBUG(( "feature %s activated at slot %lu (genesis)", pubkey_b58, feature->activation_slot ));
1654 0 : fd_features_set( features, found, feature->activation_slot );
1655 0 : } else {
1656 0 : FD_BASE58_ENCODE_32_BYTES( account->pubkey.uc, pubkey_b58 );
1657 0 : FD_LOG_DEBUG(( "feature %s not activated (genesis)", pubkey_b58 ));
1658 0 : fd_features_set( features, found, ULONG_MAX );
1659 0 : }
1660 0 : }
1661 0 : }
1662 0 : }
1663 :
1664 : /* fd_refresh_vote_accounts is responsible for updating the vote
1665 : states with the total amount of active delegated stake. It does
1666 : this by iterating over all active stake delegations and summing up
1667 : the amount of stake that is delegated to each vote account. */
1668 :
1669 0 : ulong new_rate_activation_epoch = 0UL;
1670 :
1671 0 : fd_stake_history_t stake_history[1];
1672 0 : fd_sysvar_stake_history_read( accdb, xid, stake_history );
1673 :
1674 0 : fd_refresh_vote_accounts(
1675 0 : bank,
1676 0 : accdb,
1677 0 : xid,
1678 0 : runtime_stack,
1679 0 : stake_delegations,
1680 0 : stake_history,
1681 0 : &new_rate_activation_epoch );
1682 :
1683 0 : fd_vote_stakes_t * vote_stakes = fd_bank_vote_stakes( bank );
1684 0 : fd_vote_stakes_genesis_fini( vote_stakes );
1685 :
1686 0 : bank->f.epoch = 0UL;
1687 :
1688 0 : bank->f.capitalization = capitalization;
1689 0 : }
1690 :
1691 : static int
1692 : fd_runtime_process_genesis_block( fd_bank_t * bank,
1693 : fd_accdb_user_t * accdb,
1694 : fd_funk_txn_xid_t const * xid,
1695 : fd_capture_ctx_t * capture_ctx,
1696 0 : fd_runtime_stack_t * runtime_stack ) {
1697 :
1698 0 : fd_hash_t * poh = &bank->f.poh;
1699 0 : ulong hashcnt_per_slot = bank->f.hashes_per_tick * bank->f.ticks_per_slot;
1700 0 : while( hashcnt_per_slot-- ) {
1701 0 : fd_sha256_hash( poh->hash, sizeof(fd_hash_t), poh->hash );
1702 0 : }
1703 :
1704 0 : bank->f.execution_fees = 0UL;
1705 :
1706 0 : bank->f.priority_fees = 0UL;
1707 :
1708 0 : bank->f.signature_count = 0UL;
1709 :
1710 0 : bank->f.txn_count = 0UL;
1711 :
1712 0 : bank->f.failed_txn_count = 0UL;
1713 :
1714 0 : bank->f.nonvote_failed_txn_count = 0UL;
1715 :
1716 0 : bank->f.total_compute_units_used = 0UL;
1717 :
1718 0 : fd_runtime_genesis_init_program( bank, accdb, xid, capture_ctx );
1719 :
1720 0 : fd_sysvar_slot_history_update( bank, accdb, xid, capture_ctx );
1721 :
1722 0 : fd_runtime_update_leaders( bank, runtime_stack );
1723 :
1724 0 : fd_runtime_freeze( bank, accdb, capture_ctx );
1725 :
1726 0 : fd_lthash_value_t const * lthash = fd_bank_lthash_locking_query( bank );
1727 :
1728 0 : fd_hash_t const * prev_bank_hash = &bank->f.bank_hash;
1729 :
1730 0 : fd_hash_t * bank_hash = &bank->f.bank_hash;
1731 0 : fd_hashes_hash_bank(
1732 0 : lthash,
1733 0 : prev_bank_hash,
1734 0 : (fd_hash_t *)bank->f.poh.hash,
1735 0 : 0UL,
1736 0 : bank_hash );
1737 :
1738 0 : fd_bank_lthash_end_locking_query( bank );
1739 :
1740 0 : return FD_RUNTIME_EXECUTE_SUCCESS;
1741 0 : }
1742 :
1743 : void
1744 : fd_runtime_read_genesis( fd_banks_t * banks,
1745 : fd_bank_t * bank,
1746 : fd_accdb_user_t * accdb,
1747 : fd_funk_txn_xid_t const * xid,
1748 : fd_capture_ctx_t * capture_ctx,
1749 : fd_hash_t const * genesis_hash,
1750 : fd_lthash_value_t const * genesis_lthash,
1751 : fd_genesis_t const * genesis,
1752 : uchar const * genesis_blob,
1753 0 : fd_runtime_stack_t * runtime_stack ) {
1754 :
1755 0 : fd_lthash_value_t * lthash = fd_bank_lthash_locking_modify( bank );
1756 0 : *lthash = *genesis_lthash;
1757 0 : fd_bank_lthash_end_locking_modify( bank );
1758 :
1759 : /* Once the accounts have been loaded from the genesis config into
1760 : the accounts db, we can initialize the bank state. This involves
1761 : setting some fields, and notably setting up the vote and stake
1762 : caches which are used for leader scheduling/rewards. */
1763 :
1764 0 : fd_runtime_init_bank_from_genesis( banks, bank, runtime_stack, accdb, xid, genesis, genesis_blob, genesis_hash );
1765 :
1766 : /* Write the native programs to the accounts db. */
1767 :
1768 0 : for( ulong i=0UL; i<genesis->builtin_cnt; i++ ) {
1769 0 : fd_genesis_builtin_t builtin[1];
1770 0 : fd_genesis_builtin( genesis, genesis_blob, builtin, i );
1771 0 : fd_write_builtin_account( bank, accdb, xid, capture_ctx, builtin->pubkey, builtin->data, builtin->dlen );
1772 0 : }
1773 :
1774 0 : fd_features_restore( bank, accdb, xid );
1775 :
1776 : /* At this point, state related to the bank and the accounts db
1777 : have been initialized and we are free to finish executing the
1778 : block. In practice, this updates some bank fields (notably the
1779 : poh and bank hash). */
1780 :
1781 0 : int err = fd_runtime_process_genesis_block( bank, accdb, xid, capture_ctx, runtime_stack );
1782 0 : if( FD_UNLIKELY( err ) ) FD_LOG_CRIT(( "genesis slot 0 execute failed with error %d", err ));
1783 0 : }
1784 :
1785 : void
1786 : fd_runtime_block_execute_finalize( fd_bank_t * bank,
1787 : fd_accdb_user_t * accdb,
1788 78 : fd_capture_ctx_t * capture_ctx ) {
1789 :
1790 : /* This slot is now "frozen" and can't be changed anymore. */
1791 78 : fd_runtime_freeze( bank, accdb, capture_ctx );
1792 :
1793 78 : fd_runtime_update_bank_hash( bank, capture_ctx );
1794 78 : }
1795 :
1796 :
1797 : /* Mirrors Agave function solana_sdk::transaction_context::find_index_of_account
1798 :
1799 : Backward scan over transaction accounts.
1800 : Returns -1 if not found.
1801 :
1802 : https://github.com/anza-xyz/agave/blob/v2.1.14/sdk/src/transaction_context.rs#L233-L238 */
1803 :
1804 : int
1805 : fd_runtime_find_index_of_account( fd_txn_out_t const * txn_out,
1806 279 : fd_pubkey_t const * pubkey ) {
1807 1008 : for( ulong i=txn_out->accounts.cnt; i>0UL; i-- ) {
1808 855 : if( 0==memcmp( pubkey, &txn_out->accounts.keys[ i-1UL ], sizeof(fd_pubkey_t) ) ) {
1809 126 : return (int)(i-1UL);
1810 126 : }
1811 855 : }
1812 153 : return -1;
1813 279 : }
1814 :
1815 : fd_accdb_ref_t *
1816 : fd_runtime_get_account_at_index( fd_txn_in_t const * txn_in,
1817 : fd_txn_out_t * txn_out,
1818 : ushort idx,
1819 1704 : fd_txn_account_condition_fn_t * condition ) {
1820 1704 : if( FD_UNLIKELY( idx>=txn_out->accounts.cnt ) ) {
1821 0 : return NULL;
1822 0 : }
1823 :
1824 1704 : if( FD_LIKELY( condition != NULL ) ) {
1825 771 : if( FD_UNLIKELY( !condition( txn_in, txn_out, idx ) ) ) {
1826 18 : return NULL;
1827 18 : }
1828 771 : }
1829 :
1830 1686 : return txn_out->accounts.account[ idx ].ref;
1831 1704 : }
1832 :
1833 : fd_accdb_ref_t *
1834 : fd_runtime_get_account_with_key( fd_txn_in_t const * txn_in,
1835 : fd_txn_out_t * txn_out,
1836 : fd_pubkey_t const * pubkey,
1837 : int * index_out,
1838 0 : fd_txn_account_condition_fn_t * condition ) {
1839 0 : int index = fd_runtime_find_index_of_account( txn_out, pubkey );
1840 0 : if( FD_UNLIKELY( index<0 ) ) return NULL;
1841 :
1842 0 : *index_out = index;
1843 :
1844 0 : return fd_runtime_get_account_at_index( txn_in, txn_out, (uchar)index, condition );
1845 0 : }
1846 :
1847 : fd_accdb_ro_t *
1848 : fd_runtime_get_executable_account( fd_runtime_t * runtime,
1849 : fd_txn_in_t const * txn_in,
1850 : fd_txn_out_t * txn_out,
1851 0 : fd_pubkey_t const * pubkey ) {
1852 : /* First try to fetch the executable account from the existing
1853 : borrowed accounts. If the pubkey is in the account keys, then we
1854 : want to re-use that borrowed account since it reflects changes from
1855 : prior instructions. Referencing the read-only executable accounts
1856 : list is incorrect behavior when the program data account is written
1857 : to in a prior instruction (e.g. program upgrade + invoke within the
1858 : same txn) */
1859 :
1860 0 : fd_txn_account_condition_fn_t * condition = fd_runtime_account_check_exists;
1861 :
1862 0 : int index;
1863 0 : fd_accdb_ref_t * ref = fd_runtime_get_account_with_key(
1864 0 : txn_in, txn_out, pubkey, &index, condition );
1865 0 : if( FD_UNLIKELY( ref ) ) return fd_accdb_ref_ro( ref );
1866 :
1867 0 : for( ushort i=0; i<runtime->accounts.executable_cnt; i++ ) {
1868 0 : if( fd_pubkey_eq( pubkey, fd_accdb_ref_address( &runtime->accounts.executable[i] ) ) ) {
1869 0 : fd_accdb_ro_t * ro = &runtime->accounts.executable[i];
1870 0 : if( FD_UNLIKELY( !fd_account_meta_exists( ro->meta ) ) ) {
1871 0 : return NULL;
1872 0 : }
1873 0 : return ro;
1874 0 : }
1875 0 : }
1876 :
1877 0 : return NULL;
1878 0 : }
1879 :
1880 : int
1881 : fd_runtime_get_key_of_account_at_index( fd_txn_out_t * txn_out,
1882 : ushort idx,
1883 990 : fd_pubkey_t const * * key ) {
1884 : /* Return a MissingAccount error if idx is out of bounds.
1885 : https://github.com/anza-xyz/agave/blob/v3.1.4/transaction-context/src/lib.rs#L187 */
1886 990 : if( FD_UNLIKELY( idx>=txn_out->accounts.cnt ) ) {
1887 0 : return FD_EXECUTOR_INSTR_ERR_MISSING_ACC;
1888 0 : }
1889 :
1890 990 : *key = &txn_out->accounts.keys[ idx ];
1891 990 : return FD_EXECUTOR_INSTR_SUCCESS;
1892 990 : }
1893 :
1894 : /* https://github.com/anza-xyz/agave/blob/v2.1.1/sdk/program/src/message/versions/v0/loaded.rs#L162 */
1895 : int
1896 : fd_txn_account_is_demotion( const int idx,
1897 : const fd_txn_t * txn_descriptor,
1898 6033 : const uint bpf_upgradeable_in_txn ) {
1899 6033 : uint is_program = 0U;
1900 12126 : for( ulong j=0UL; j<txn_descriptor->instr_cnt; j++ ) {
1901 6093 : if( txn_descriptor->instr[j].program_id == idx ) {
1902 0 : is_program = 1U;
1903 0 : break;
1904 0 : }
1905 6093 : }
1906 :
1907 6033 : return (is_program && !bpf_upgradeable_in_txn);
1908 6033 : }
1909 :
1910 : uint
1911 : fd_txn_account_has_bpf_loader_upgradeable( const fd_pubkey_t * account_keys,
1912 6255 : const ulong accounts_cnt ) {
1913 20256 : for( ulong j=0; j<accounts_cnt; j++ ) {
1914 14001 : const fd_pubkey_t * acc = &account_keys[j];
1915 14001 : if ( memcmp( acc->uc, fd_solana_bpf_loader_upgradeable_program_id.key, sizeof(fd_pubkey_t) ) == 0 ) {
1916 0 : return 1U;
1917 0 : }
1918 14001 : }
1919 6255 : return 0U;
1920 6255 : }
1921 :
1922 : static inline int
1923 : fd_runtime_account_is_writable_idx_flat( const ushort idx,
1924 : const fd_pubkey_t * addr_at_idx,
1925 : const fd_txn_t * txn_descriptor,
1926 6255 : const uint bpf_upgradeable_in_txn ) {
1927 : /* https://github.com/anza-xyz/agave/blob/v2.1.11/sdk/program/src/message/sanitized.rs#L43 */
1928 6255 : if( !fd_txn_is_writable( txn_descriptor, idx ) ) {
1929 213 : return 0;
1930 213 : }
1931 :
1932 : /* See comments in fd_system_ids.h.
1933 : https://github.com/anza-xyz/agave/blob/v2.1.11/sdk/program/src/message/sanitized.rs#L44 */
1934 6042 : if( fd_pubkey_is_active_reserved_key( addr_at_idx ) ||
1935 6042 : fd_pubkey_is_pending_reserved_key( addr_at_idx ) ) {
1936 :
1937 9 : return 0;
1938 9 : }
1939 :
1940 6033 : if( fd_txn_account_is_demotion( idx, txn_descriptor, bpf_upgradeable_in_txn ) ) {
1941 0 : return 0;
1942 0 : }
1943 :
1944 6033 : return 1;
1945 6033 : }
1946 :
1947 :
1948 : /* This function aims to mimic the writable accounts check to populate the writable accounts cache, used
1949 : to determine if accounts are writable or not.
1950 :
1951 : https://github.com/anza-xyz/agave/blob/v2.1.11/sdk/program/src/message/sanitized.rs#L38-L47 */
1952 : int
1953 : fd_runtime_account_is_writable_idx( fd_txn_in_t const * txn_in,
1954 : fd_txn_out_t const * txn_out,
1955 6255 : ushort idx ) {
1956 6255 : uint bpf_upgradeable = fd_txn_account_has_bpf_loader_upgradeable( txn_out->accounts.keys, txn_out->accounts.cnt );
1957 6255 : return fd_runtime_account_is_writable_idx_flat( idx,
1958 6255 : &txn_out->accounts.keys[idx],
1959 6255 : TXN( txn_in->txn ),
1960 6255 : bpf_upgradeable );
1961 6255 : }
1962 :
1963 : /* Account pre-condition filtering functions */
1964 :
1965 : int
1966 : fd_runtime_account_check_exists( fd_txn_in_t const * txn_in,
1967 : fd_txn_out_t * txn_out,
1968 609 : ushort idx ) {
1969 609 : (void) txn_in;
1970 609 : return fd_account_meta_exists( txn_out->accounts.account[idx].meta );
1971 609 : }
1972 :
1973 : int
1974 : fd_runtime_account_check_fee_payer_writable( fd_txn_in_t const * txn_in,
1975 : fd_txn_out_t * txn_out,
1976 162 : ushort idx ) {
1977 162 : (void) txn_out;
1978 162 : return fd_txn_is_writable( TXN( txn_in->txn ), idx );
1979 162 : }
1980 :
1981 :
1982 : int
1983 324 : fd_account_meta_checked_sub_lamports( fd_account_meta_t * meta, ulong lamports ) {
1984 324 : ulong balance_post = 0UL;
1985 324 : int err = fd_ulong_checked_sub( meta->lamports,
1986 324 : lamports,
1987 324 : &balance_post );
1988 324 : if( FD_UNLIKELY( err ) ) {
1989 0 : return FD_EXECUTOR_INSTR_ERR_ARITHMETIC_OVERFLOW;
1990 0 : }
1991 :
1992 324 : meta->lamports = balance_post;
1993 324 : return FD_EXECUTOR_INSTR_SUCCESS;
1994 324 : }
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