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171 Commits
83e4094ca9 ... refactor_c

Author SHA1 Message Date
Pragyansh Chaturvedi
9fdc6fa3ed Add compile to tests/failing_tests/conditionals/helper_cond.py 2025-10-08 07:26:41 +05:30
Pragyansh Chaturvedi
17004d58df Remove completed short term goal from TODO.md 2025-10-08 07:25:14 +05:30
Pragyansh Chaturvedi
6362a5e665 Fix expr imports 2025-10-08 07:24:14 +05:30
Pragyansh Chaturvedi
d38d73d5c6 Move handle_comparator to type_normalization 2025-10-08 07:20:04 +05:30
Pragyansh Chaturvedi
0a6571726a Move convert_to_bool to type_normalization 2025-10-08 07:14:42 +05:30
Pragyansh Chaturvedi
e62557bd1d Seperate type_normalization from expr_pass 2025-10-08 06:59:32 +05:30
Pragyansh Chaturvedi
ee90ee9392 Fix type_deducer import in expr 2025-10-08 06:50:53 +05:30
Pragyansh Chaturvedi
5f9eaff59c Fix expr imports 2025-10-08 06:49:34 +05:30
Pragyansh Chaturvedi
b86341ce7a Rework dir structure for expr 2025-10-08 06:45:52 +05:30
Pragyansh Chaturvedi
4857739eec cleanup handle_cond in functions_pass 2025-10-08 06:42:34 +05:30
Pragyansh Chaturvedi
3bb4b099c1 Add passing and.py test for conditionals 2025-10-08 06:28:03 +05:30
Pragyansh Chaturvedi
e7912a088f Add passing or.py test for conditionals 2025-10-08 06:27:18 +05:30
Pragyansh Chaturvedi
95d63d969e Add _handle_or_or in expr_pass 2025-10-08 06:24:57 +05:30
Pragyansh Chaturvedi
1f96bab944 Add _handle_and_op in expr_pass 2025-10-08 06:24:13 +05:30
Pragyansh Chaturvedi
f98491f3bd Add handle_and and handle_or handling stub in eval_expr 2025-10-08 06:14:32 +05:30
Pragyansh Chaturvedi
98f262ae22 Add BoolOp handling stub in eval_expr 2025-10-08 06:11:59 +05:30
Pragyansh Chaturvedi
d2ff53052c Add support for is and is not keywords 2025-10-08 06:04:29 +05:30
Pragyansh Chaturvedi
ecac24c1d2 Add explanation notes to failing conditionals tests 2025-10-08 05:57:17 +05:30
Pragyansh Chaturvedi
a764b095f8 Add helper_cond failing test for conditionals 2025-10-08 05:54:49 +05:30
Pragyansh Chaturvedi
95a196a91f Move map_comp test to passing 2025-10-08 05:53:52 +05:30
Pragyansh Chaturvedi
6b59980874 Add null checks for pointer derefs to avoid map_value_or_null verifier errors 2025-10-08 05:53:12 +05:30
Pragyansh Chaturvedi
3f9604a370 Add _deref_to_depth in expr_pass 2025-10-08 03:12:17 +05:30
Pragyansh Chaturvedi
480afd1341 Move _get_base_type to _get_base_type_and_depth 2025-10-08 03:02:31 +05:30
Pragyansh Chaturvedi
ab71275566 Add _get_base_type to expr_pass 2025-10-08 03:00:52 +05:30
Pragyansh Chaturvedi
2d850f457f Add _normalize_types to handle mismatched ints, move type_mismatch test to passing 2025-10-08 02:22:41 +05:30
Pragyansh Chaturvedi
9e1142bf05 Add type_mismatch failing test for conditionals 2025-10-07 14:02:09 +05:30
Pragyansh Chaturvedi
1843ca6c53 Add failing struct_ptr test for conditionals 2025-10-07 13:42:58 +05:30
Pragyansh Chaturvedi
caa5d92c32 Fix struct_access in eval_expr, move struct_access conditional test to passing 2025-10-07 13:35:31 +05:30
Pragyansh Chaturvedi
f41693bc6d Add 'and' and 'or' BoolOps as future deliverables 2025-10-07 05:27:31 +05:30
Pragyansh Chaturvedi
b7092fa362 Add failing test map_comp for conditionals 2025-10-07 05:20:43 +05:30
Pragyansh Chaturvedi
0e7dcafbab Add var_comp test for conditionals 2025-10-07 05:02:26 +05:30
Pragyansh Chaturvedi
a574527891 Add support for unary op 'not' in eval_expr, move not test to passing 2025-10-07 04:49:45 +05:30
Pragyansh Chaturvedi
176673017c Add failing tests struct and not for conditionals 2025-10-07 04:17:26 +05:30
Pragyansh Chaturvedi
1d6226d829 Add map test to conditionals 2025-10-07 04:06:16 +05:30
Pragyansh Chaturvedi
12b712c217 Add var_binop test for conditionals 2025-10-07 03:43:36 +05:30
Pragyansh Chaturvedi
2de280915a Add var test for conditionals 2025-10-07 03:37:13 +05:30
Pragyansh Chaturvedi
1cce49f5e0 Add const_binop test for conditionals 2025-10-07 03:24:11 +05:30
Pragyansh Chaturvedi
682a7e6566 Add const_int test for conditionals 2025-10-07 03:15:34 +05:30
Pragyansh Chaturvedi
fb63dbd698 Move conditional logic to eval_expr, add _conver_to_bool, add passing bool test 2025-10-07 03:11:23 +05:30
Pragyansh Chaturvedi
4f433d00cc Add Boolean return support 2025-10-06 23:04:45 +05:30
Pragyansh Chaturvedi
6cf5115ea9 Eval LHS and RHS in _handle_compare 2025-10-06 22:38:43 +05:30
Pragyansh Chaturvedi
f11a43010d Add _handle_cond to expr_pass 2025-10-06 22:33:03 +05:30
Pragyansh Chaturvedi
d1055e4d41 Reduce a condition from handle_cond 2025-10-06 22:20:54 +05:30
Pragyansh Chaturvedi
28ce14ce34 Merge pull request #24 from pythonbpf/func_refactor 
Refactor handle_return
 2025-10-06 05:12:20 +05:30
Pragyansh Chaturvedi
5066cd4cfe Use named args for eval_expr call in handle_return 2025-10-06 05:11:33 +05:30
Pragyansh Chaturvedi
0bfb3855b6 Remove dead code from _handle_ctypes_call 2025-10-06 05:10:22 +05:30
Pragyansh Chaturvedi
2f0dd20f1e Add false case for _handle_xdp in return_utils 2025-10-06 05:09:03 +05:30
Pragyansh Chaturvedi
abef68c274 Remove redundant TODO from return_utils 2025-10-06 05:04:06 +05:30
Pragyansh Chaturvedi
9aff614ff5 Remove unnecessary parts from return_utils 2025-10-06 05:02:02 +05:30
Pragyansh Chaturvedi
7b0e8a2fca Add xdp example for passing return type 2025-10-06 04:59:20 +05:30
Pragyansh Chaturvedi
3e68d6df4f Add passing test examples for return statements 2025-10-06 04:57:04 +05:30
Pragyansh Chaturvedi
b75dc82f90 Remove clutter from handle_return 2025-10-06 04:44:55 +05:30
Pragyansh Chaturvedi
f53ca3bd5b Add ctypes in eval_expr 2025-10-06 04:43:04 +05:30
Pragyansh Chaturvedi
02885af1ca Add binops to eval_expr 2025-10-06 03:36:44 +05:30
Pragyansh Chaturvedi
e6e2a69506 Add _is_xdp_name 2025-10-06 03:02:08 +05:30
Pragyansh Chaturvedi
e4e92710c0 Move XDP pass above general return handling 2025-10-06 02:58:57 +05:30
Pragyansh Chaturvedi
f08bc9976c Add _handle_wrapped_return 2025-10-06 02:22:43 +05:30
Pragyansh Chaturvedi
23183da2e1 Add _handle_variable_return 2025-10-06 00:05:23 +05:30
Pragyansh Chaturvedi
c6fef1693e Add _handle_binop_return 2025-10-06 00:03:34 +05:30
Pragyansh Chaturvedi
192e03aa98 Add _handle_typed_constant_return 2025-10-05 23:59:04 +05:30
Pragyansh Chaturvedi
6f02b61527 Add _handle_xdp_return 2025-10-05 23:54:06 +05:30
Pragyansh Chaturvedi
a21ff5633c Add _handle_none_return 2025-10-05 23:44:46 +05:30
Pragyansh Chaturvedi
f96a6b94dc Remove useless args from handle_return 2025-10-05 23:40:48 +05:30
Pragyansh Chaturvedi
e9f3aa25d2 Make handle_return (crude for now) 2025-10-05 23:19:06 +05:30
Pragyansh Chaturvedi
d0a8e96b70 Use getitem dunder for StatementHandlerRegistry 2025-10-05 20:10:07 +05:30
Pragyansh Chaturvedi
b09dc815fc Add StatementHandlerRegistry 2025-10-05 15:19:16 +05:30
Pragyansh Chaturvedi
ceaac78633 Janitorial: fix lint 2025-10-05 15:12:01 +05:30
Pragyansh Chaturvedi
dc7a127fa6 Restructure dir for functions 2025-10-05 15:09:39 +05:30
Pragyansh Chaturvedi
552cd352f2 Merge pull request #20 from pythonbpf/fix-failing-tests 
Fix failing tests in tests/
 2025-10-05 14:04:14 +05:30
Pragyansh Chaturvedi
c7f2955ee9 Fix typo in process_stmt 2025-10-05 14:03:19 +05:30
Pragyansh Chaturvedi
ef36ea1e03 Add nullcheck for var_name in handle_binary_ops 2025-10-05 14:02:08 +05:30
Pragyansh Chaturvedi
d341cb24c0 Update explanation for named_arg 2025-10-05 04:27:37 +05:30
Pragyansh Chaturvedi
2fabb67942 Add note for faling test named_arg 2025-10-05 03:15:17 +05:30
varunrmallya
a0b0ad370e Merge pull request #23 from pythonbpf/formatter 
update formatter and pre-commit
 2025-10-05 01:15:01 +05:30
Pragyansh Chaturvedi
283b947fc5 Add named_arg failing test 2025-10-04 19:50:33 +05:30
varunrmallya
bf78ac21fe Remove 'Static Typing' from short term tasks 2025-10-04 07:30:11 +05:30
Pragyansh Chaturvedi
ac49cd8b1c Fix hashmap access in direct_assign.py 2025-10-04 02:14:33 +05:30
Pragyansh Chaturvedi
af44bd063c Add explanation for direct_assign.py failing test 2025-10-04 02:13:46 +05:30
Pragyansh Chaturvedi
1239d1c35f Fix handle_binary_ops calls in functions_pass 2025-10-04 02:09:11 +05:30
Pragyansh Chaturvedi
f41a9ccf26 Remove unnecessary args from binary_ops 2025-10-04 02:07:31 +05:30
Pragyansh Chaturvedi
be05b5d102 Allow local symbols to be used within return 2025-10-03 19:50:56 +05:30
varun-r-mallya
3f061750cf fix return value error 2025-10-03 19:11:11 +05:30
Pragyansh Chaturvedi
6d5d6345e2 Add var_rval failing test 2025-10-03 18:01:15 +05:30
Pragyansh Chaturvedi
6fea580693 Fix t/f/return.py, tweak handle_binary_ops 2025-10-03 17:56:21 +05:30
Pragyansh Chaturvedi
b35134625b Merge pull request #19 from pythonbpf/fix-expr 
Refactor expr_pass
 2025-10-03 17:36:31 +05:30
Pragyansh Chaturvedi
c3db609a90 Revert to using Warning loglevel as default 2025-10-03 17:35:57 +05:30
Pragyansh Chaturvedi
cc626c38f7 Move binops1 to tests/passing 2025-10-03 17:13:02 +05:30
Pragyansh Chaturvedi
a8b3f4f86c Fix recursive binops, move failing binops to passing 2025-10-03 17:08:41 +05:30
Pragyansh Chaturvedi
d593969408 Refactor ugly if-elif chain in handle_binary_op 2025-10-03 14:04:38 +05:30
Pragyansh Chaturvedi
6d5895ebc2 More fixes to recursive dereferencer, add get_operand value 2025-10-03 13:46:52 +05:30
Pragyansh Chaturvedi
c9ee6e4f17 Fix recursive_dereferencer in binops 2025-10-03 13:35:15 +05:30
Pragyansh Chaturvedi
a622c53e0f Add deref 2025-10-03 02:00:01 +05:30
Pragyansh Chaturvedi
a4f1363aed Add _handle_attribute_expr 2025-10-03 01:50:59 +05:30
Pragyansh Chaturvedi
3a819dcaee Add _handle_constant_expr 2025-10-02 22:54:38 +05:30
Pragyansh Chaturvedi
729270b34b Use _handle_name_expr in eval_expr 2025-10-02 22:50:21 +05:30
Pragyansh Chaturvedi
44cbcccb6c Create _handle_name_expr 2025-10-02 22:43:54 +05:30
varun-r-mallya
86b9ec56d7 update formatter and pre-commit 
Signed-off-by: varun-r-mallya <varunrmallya@gmail.com>
 2025-10-02 22:43:05 +05:30
Pragyansh Chaturvedi
253944afd2 Merge pull request #18 from pythonbpf/fix-maps 
Fix map calling convention
 2025-10-02 22:12:01 +05:30
Pragyansh Chaturvedi
54993ce5c2 Merge branch 'master' into fix-maps 2025-10-02 22:11:38 +05:30
Pragyansh Chaturvedi
05083bd513 janitorial nitpicks 2025-10-02 22:10:28 +05:30
Pragyansh Chaturvedi
6e4c340780 Allow non-call convention for maps 2025-10-02 22:07:28 +05:30
Pragyansh Chaturvedi
9dbca410c2 Remove calls from map in sys_sync 2025-10-02 21:24:15 +05:30
varun-r-mallya
62ca3b5ffe format errors 2025-10-02 19:07:49 +05:30
varun-r-mallya
f263c35156 move debug cu generation to debug module 2025-10-02 19:05:58 +05:30
varun-r-mallya
0678d70309 bump version 2025-10-02 18:02:36 +05:30
varunrmallya
96fa5687f8 Merge pull request #17 from pythonbpf/logging 
add logging
 2025-10-02 17:59:18 +05:30
varun-r-mallya
4d0dd68d56 fix formatting 2025-10-02 17:58:24 +05:30
varun-r-mallya
89b0a07419 add logging level control 2025-10-02 17:57:37 +05:30
varun-r-mallya
469ca43eaa replace prints with logger.info 2025-10-02 17:46:27 +05:30
varun-r-mallya
dc2b611cbc format errors 
Signed-off-by: varun-r-mallya <varunrmallya@gmail.com>
 2025-10-02 05:17:02 +05:30
Pragyansh Chaturvedi
0c1acf1420 Fix local_sym_tab usage in binary_ops 2025-10-02 05:08:05 +05:30
Pragyansh Chaturvedi
71b97e3e20 Add iter to LocalSymbol 2025-10-02 04:56:34 +05:30
Pragyansh Chaturvedi
12ba3605e9 Fix local_sym_tab usage in helpers 2025-10-02 04:53:04 +05:30
Pragyansh Chaturvedi
d7427f306f Fix usage of local_sym_tab in expr_pass 2025-10-02 04:50:31 +05:30
Pragyansh Chaturvedi
0142381ce2 Remove local_var_metadata from expr_pass 2025-10-02 04:44:14 +05:30
Pragyansh Chaturvedi
9223d7b5c5 Remove local_var_metadata from helpers 2025-10-02 04:40:44 +05:30
Pragyansh Chaturvedi
3b74ade455 Remove occurences of local_var_metadata from functions_pass, use LocalSymbol.var 2025-10-02 04:35:10 +05:30
Pragyansh Chaturvedi
dadcb69f1c Store LocalSymbol in allocate_mem 2025-10-02 04:27:10 +05:30
Pragyansh Chaturvedi
2fd2a46838 Add LocalSymbol dataclass 2025-10-02 04:13:24 +05:30
varun-r-mallya
1a66887f48 move helper annotations to helpers module 2025-10-02 01:55:32 +05:30
varun-r-mallya
23f3cbcea7 add type annotations 2025-10-02 01:43:05 +05:30
varunrmallya
429f51437f Merge pull request #15 from pythonbpf/static-type-checks 
Static type checks
 2025-10-02 01:38:46 +05:30
varun-r-mallya
c92272dd35 workflow update 2025-10-02 01:37:36 +05:30
varun-r-mallya
8792740eb0 workflow update 2025-10-02 01:36:14 +05:30
varun-r-mallya
cf5faaad7f remove pointless type annotation 
Signed-off-by: varun-r-mallya <varunrmallya@gmail.com>
 2025-10-02 01:27:03 +05:30
varun-r-mallya
59b3d6514b fix ruff errors 2025-10-02 01:23:55 +05:30
varun-r-mallya
3c956e671a add static type checking 
Signed-off-by: varun-r-mallya <varunrmallya@gmail.com>
 2025-10-02 01:11:54 +05:30
varun-r-mallya
8650297866 make type checks viable 2025-10-02 00:51:23 +05:30
Pragyansh Chaturvedi
6831f11179 Fix fstrings in examples, add alternate map attr access 2025-10-02 00:22:59 +05:30
Pragyansh Chaturvedi
d4e8e1bf73 Fix unterminated fstrings 2025-10-02 00:14:51 +05:30
Pragyansh Chaturvedi
08f2b283c9 Merge pull request #10 from pythonbpf/helper-refactor 
bpf_helper_handler refactor
 2025-10-02 00:08:59 +05:30
Pragyansh Chaturvedi
c38ecf6623 Merge branch 'master' into helper-refactor 2025-10-02 00:06:19 +05:30
Pragyansh Chaturvedi
81807ace34 Fix simple_string_print docstring 2025-10-01 23:59:07 +05:30
varunrmallya
2f02f94b61 Merge pull request #14 from pythonbpf/ringbuf 
make default map unspec
 2025-10-01 23:58:54 +05:30
Pragyansh Chaturvedi
690ff7ffbc Remove unnecessary prints 2025-10-01 23:57:22 +05:30
varun-r-mallya
bda88d3f8e make default map unspec 2025-10-01 23:57:00 +05:30
Pragyansh Chaturvedi
ba3e02052d Register output in HelperHandlerRegistry 2025-10-01 23:56:16 +05:30
Pragyansh Chaturvedi
9099b3eaec Replace logger.warn with logger.warning 2025-10-01 23:55:16 +05:30
varunrmallya
03da7c5cfc Merge pull request #13 from pythonbpf/ringbuf 
Add ringbuf support
 2025-10-01 23:52:28 +05:30
Pragyansh Chaturvedi
cecf45061c Fix line length nitpicks 2025-10-01 23:51:25 +05:30
varun-r-mallya
da9df2e6bf add ringbuf map type 2025-10-01 23:51:18 +05:30
Pragyansh Chaturvedi
929eef31ef Add has_handler to HelperHandlerRegistry 2025-10-01 23:38:38 +05:30
Pragyansh Chaturvedi
28cc0c5eec Refactor handle_helper_call 2025-10-01 23:32:27 +05:30
Pragyansh Chaturvedi
99d6c193f6 Fix calling of _simple_string_print 2025-10-01 22:53:19 +05:30
Pragyansh Chaturvedi
4f33db206c Refactor bpf_perf_event_output_emitter 2025-10-01 22:49:50 +05:30
Pragyansh Chaturvedi
6ccbab402f Complete printk refactor 2025-10-01 22:12:30 +05:30
Pragyansh Chaturvedi
7b01f1dde3 Complete helpers for fstrings in helper_utils 2025-10-01 21:43:11 +05:30
varun-r-mallya
8ceb1d1ac3 add int32 type 2025-10-01 21:39:16 +05:30
varun-r-mallya
668343532f add map types for completion 2025-10-01 21:22:44 +05:30
varun-r-mallya
84ad58b775 Add ringbuf type hinting. 2025-10-01 21:14:20 +05:30
Pragyansh Chaturvedi
17f60d721b Add _process_*_in_fval to helper_utils 2025-10-01 20:26:18 +05:30
Pragyansh Chaturvedi
d18c69fae1 Add _handle_fstring_print scaffolding 2025-10-01 19:56:20 +05:30
Pragyansh Chaturvedi
9c58116c82 Use get_flags_val in bpf_map_update_elem_emitter 2025-10-01 18:38:18 +05:30
Pragyansh Chaturvedi
18f164bdec Add get_flags_val to helper_utils 2025-10-01 18:35:11 +05:30
Pragyansh Chaturvedi
8d9ff2df3b Fix import in sys_sync example 2025-10-01 18:28:40 +05:30
Pragyansh Chaturvedi
ffcd2de44d Replace usage of get_key_ptr with get_or_create_ptr_from_arg 2025-10-01 18:25:22 +05:30
Pragyansh Chaturvedi
8dd2746411 rename get_key_ptr to get_or_create_ptr_from_arg 2025-10-01 18:21:42 +05:30
Pragyansh Chaturvedi
7f6c318069 Use get_key_ptr in map_update helper 2025-10-01 18:14:32 +05:30
Pragyansh Chaturvedi
d2e0f17ca8 Use key_arg instead of call in get_key_ptr 2025-10-01 18:14:09 +05:30
Pragyansh Chaturvedi
4af6c4dcad Refactor bpf_map_delete_elem_emitter 2025-10-01 18:00:51 +05:30
varunrmallya
5c8b132cb9 Add responsive images for light and dark modes 
Updated image display for light and dark modes in README.
 2025-10-01 17:45:23 +05:30
Pragyansh Chaturvedi
244ea143d4 Refactor bpf_map_lookup_elem_emitter, add utils 2025-10-01 17:36:05 +05:30
varunrmallya
58c372bcb3 Merge pull request #12 from pythonbpf/ruff-errors 
Ruff errors
 2025-10-01 16:11:54 +05:30
Pragyansh Chaturvedi
168ab29be3 Format function definitions in bpf_helper_handler 2025-10-01 04:04:32 +05:30
Pragyansh Chaturvedi
61f6743f0a Use HelperHandleRegitry 2025-10-01 03:53:11 +05:30
Pragyansh Chaturvedi
6cd07498fe Create HelperProcessorRegistry 2025-10-01 03:07:36 +05:30
varun-r-mallya
c27da22bcb remove ruff errors. May contain breaking changes. 2025-10-01 00:54:04 +05:30
varun-r-mallya
b095828ae2 remove some ruff errors 2025-10-01 00:49:23 +05:30
Pragyansh Chaturvedi
7e45864552 Move helper scripts to a new dir, make temp fixes to allow this 2025-09-30 23:57:31 +05:30
Pragyansh Chaturvedi
fa2ff0a242 Use BPFHelperID Enums in bpf_helper_handler 2025-09-30 23:51:05 +05:30
Pragyansh Chaturvedi
c1466a5bca Add BPFHelperID enum to bpf_helper_handler 2025-09-30 23:43:29 +05:30
74 changed files with 2609 additions and 1216 deletions
Expand all files Collapse all files

3
.github/workflows/format.yml vendored
View File

@ -5,10 +5,7 @@ name: Format
on:
workflow_dispatch:
pull_request:
push:
branches:
- master
jobs:
pre-commit:

31
.pre-commit-config.yaml
View File

@ -21,7 +21,7 @@ ci:
repos:
# Standard hooks
- repo: https://github.com/pre-commit/pre-commit-hooks
rev: v4.6.0
rev: v6.0.0
hooks:
- id: check-added-large-files
- id: check-case-conflict
@ -35,22 +35,21 @@ repos:
- id: requirements-txt-fixer
- id: trailing-whitespace
#- repo: https://github.com/astral-sh/ruff-pre-commit
# rev: "v0.4.2"
# hooks:
# - id: ruff
# args: ["--fix", "--show-fixes"]
# - id: ruff-format
# exclude: ^(docs)
- repo: https://github.com/astral-sh/ruff-pre-commit
rev: "v0.13.2"
hooks:
- id: ruff
args: ["--fix", "--show-fixes"]
- id: ruff-format
exclude: ^(docs)|^(tests)|^(examples)
## Checking static types
#- repo: https://github.com/pre-commit/mirrors-mypy
# rev: "v1.10.0"
# hooks:
# - id: mypy
# files: "setup.py"
# args: []
# additional_dependencies: [types-setuptools]
# Checking static types
- repo: https://github.com/pre-commit/mirrors-mypy
rev: "v1.18.2"
hooks:
- id: mypy
exclude: ^(tests)|^(examples)
additional_dependencies: [types-setuptools]
# Changes tabs to spaces
- repo: https://github.com/Lucas-C/pre-commit-hooks

16
README.md
View File

@ -1,4 +1,14 @@
<img src="https://github.com/user-attachments/assets/b175bf39-23cb-475d-a6e1-7b5c99a1ed72" alt="pythonbpf" width="450">
<picture>
<source
media="(prefers-color-scheme: light)"
srcset="https://github.com/user-attachments/assets/f3738131-d7cb-4b5c-8699-c7010295a159"
width="450"
alt="Lightmode image">
<img
src="https://github.com/user-attachments/assets/b175bf39-23cb-475d-a6e1-7b5c99a1ed72"
width="450"
alt="Darkmode image">
</picture>
<!-- Badges -->
<p align="center">
<!-- PyPI -->
@ -50,12 +60,13 @@ pip install pythonbpf pylibbpf
```python
import time
from pythonbpf import bpf, map, section, bpfglobal, BPF
from pythonbpf.helpers import pid
from pythonbpf.helper import pid
from pythonbpf.maps import HashMap
from pylibbpf import *
from ctypes import c_void_p, c_int64, c_uint64, c_int32
import matplotlib.pyplot as plt
# This program attaches an eBPF tracepoint to sys_enter_clone,
# counts per-PID clone syscalls, stores them in a hash map,
# and then plots the distribution as a histogram using matplotlib.
@ -66,6 +77,7 @@ import matplotlib.pyplot as plt
def hist() -> HashMap:
return HashMap(key=c_int32, value=c_uint64, max_entries=4096)
@bpf
@section("tracepoint/syscalls/sys_enter_clone")
def hello(ctx: c_void_p) -> c_int64:

1
TODO.md
View File

@ -1,7 +1,6 @@
## Short term
- Implement enough functionality to port the BCC tutorial examples in PythonBPF
- Static Typing
- Add all maps
- XDP support in pylibbpf
- ringbuf support

2
examples/binops_demo.py
View File

@ -1,5 +1,5 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from pythonbpf.helpers import ktime
from pythonbpf.helper import ktime
from pythonbpf.maps import HashMap
from ctypes import c_void_p, c_int64, c_uint64

2
examples/blk_request.py
View File

@ -1,5 +1,5 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from pythonbpf.helpers import ktime
from pythonbpf.helper import ktime
from pythonbpf.maps import HashMap
from ctypes import c_void_p, c_int32, c_uint64

4
examples/clone-matplotlib.ipynb
View File

@ -10,9 +10,9 @@
"import time\n",
"\n",
"from pythonbpf import bpf, map, section, bpfglobal, BPF\n",
"from pythonbpf.helpers import pid\n",
"from pythonbpf.helper import pid\n",
"from pythonbpf.maps import HashMap\n",
"from pylibbpf import *\n",
"from pylibbpf import BpfMap\n",
"from ctypes import c_void_p, c_int64, c_uint64, c_int32\n",
"import matplotlib.pyplot as plt"
]

4
examples/clone_plot.py
View File

@ -1,9 +1,9 @@
import time
from pythonbpf import bpf, map, section, bpfglobal, BPF
from pythonbpf.helpers import pid
from pythonbpf.helper import pid
from pythonbpf.maps import HashMap
from pylibbpf import *
from pylibbpf import BpfMap
from ctypes import c_void_p, c_int64, c_uint64, c_int32
import matplotlib.pyplot as plt

6
examples/struct_and_perf.py
View File

@ -1,5 +1,5 @@
from pythonbpf import bpf, map, struct, section, bpfglobal, compile
from pythonbpf.helpers import ktime, pid
from pythonbpf.helper import ktime, pid
from pythonbpf.maps import PerfEventArray
from ctypes import c_void_p, c_int32, c_uint64
@ -23,13 +23,11 @@ def events() -> PerfEventArray:
@section("tracepoint/syscalls/sys_enter_clone")
def hello(ctx: c_void_p) -> c_int32:
dataobj = data_t()
ts = ktime()
process_id = pid()
strobj = "hellohellohello"
dataobj.pid = pid()
dataobj.ts = ktime()
# dataobj.comm = strobj
print(f"clone called at {dataobj.ts} by pid {dataobj.pid}, comm {strobj}")
print(f"clone called at {dataobj.ts} by pid" f"{dataobj.pid}, comm {strobj}")
events.output(dataobj)
return c_int32(0)

8
examples/sys_sync.py
View File

@ -1,5 +1,5 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from pythonbpf.helpers import ktime
from pythonbpf.helper import ktime
from pythonbpf.maps import HashMap
from ctypes import c_void_p, c_int64, c_uint64
@ -21,17 +21,17 @@ def last() -> HashMap:
@section("tracepoint/syscalls/sys_enter_sync")
def do_trace(ctx: c_void_p) -> c_int64:
key = 0
tsp = last().lookup(key)
tsp = last.lookup(key)
if tsp:
kt = ktime()
delta = kt - tsp
if delta < 1000000000:
time_ms = delta // 1000000
print(f"sync called within last second, last {time_ms} ms ago")
last().delete(key)
last.delete(key)
else:
kt = ktime()
last().update(key, kt)
last.update(key, kt)
return c_int64(0)

2
examples/xdp_pass.py
View File

@ -1,5 +1,5 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from pythonbpf.helpers import XDP_PASS
from pythonbpf.helper import XDP_PASS
from pythonbpf.maps import HashMap
from ctypes import c_void_p, c_int64

2
pyproject.toml
View File

@ -4,7 +4,7 @@ build-backend = "setuptools.build_meta"
[project]
name = "pythonbpf"
version = "0.1.3"
version = "0.1.4"
description = "Reduced Python frontend for eBPF"
authors = [
{ name = "r41k0u", email="pragyanshchaturvedi18@gmail.com" },

11
pythonbpf/__init__.py
View File

@ -1,2 +1,13 @@
from .decorators import bpf, map, section, bpfglobal, struct
from .codegen import compile_to_ir, compile, BPF
__all__ = [
"bpf",
"map",
"section",
"bpfglobal",
"struct",
"compile_to_ir",
"compile",
"BPF",
]

107
pythonbpf/binary_ops.py
View File

@ -1,71 +1,72 @@
import ast
from llvmlite import ir
from logging import Logger
import logging
logger: Logger = logging.getLogger(__name__)
def recursive_dereferencer(var, builder):
"""dereference until primitive type comes out"""
if var.type == ir.PointerType(ir.PointerType(ir.IntType(64))):
# TODO: Not worrying about stack overflow for now
logger.info(f"Dereferencing {var}, type is {var.type}")
if isinstance(var.type, ir.PointerType):
a = builder.load(var)
return recursive_dereferencer(a, builder)
elif var.type == ir.PointerType(ir.IntType(64)):
a = builder.load(var)
return recursive_dereferencer(a, builder)
elif var.type == ir.IntType(64):
elif isinstance(var.type, ir.IntType):
return var
else:
raise TypeError(f"Unsupported type for dereferencing: {var.type}")
def handle_binary_op(rval, module, builder, var_name, local_sym_tab, map_sym_tab, func):
print(module)
left = rval.left
right = rval.right
def get_operand_value(operand, builder, local_sym_tab):
"""Extract the value from an operand, handling variables and constants."""
if isinstance(operand, ast.Name):
if operand.id in local_sym_tab:
return recursive_dereferencer(local_sym_tab[operand.id].var, builder)
raise ValueError(f"Undefined variable: {operand.id}")
elif isinstance(operand, ast.Constant):
if isinstance(operand.value, int):
return ir.Constant(ir.IntType(64), operand.value)
raise TypeError(f"Unsupported constant type: {type(operand.value)}")
elif isinstance(operand, ast.BinOp):
return handle_binary_op_impl(operand, builder, local_sym_tab)
raise TypeError(f"Unsupported operand type: {type(operand)}")
def handle_binary_op_impl(rval, builder, local_sym_tab):
op = rval.op
left = get_operand_value(rval.left, builder, local_sym_tab)
right = get_operand_value(rval.right, builder, local_sym_tab)
logger.info(f"left is {left}, right is {right}, op is {op}")
# Handle left operand
if isinstance(left, ast.Name):
if left.id in local_sym_tab:
left = recursive_dereferencer(local_sym_tab[left.id][0], builder)
else:
raise SyntaxError(f"Undefined variable: {left.id}")
elif isinstance(left, ast.Constant):
left = ir.Constant(ir.IntType(64), left.value)
else:
raise SyntaxError("Unsupported left operand type")
# Map AST operation nodes to LLVM IR builder methods
op_map = {
ast.Add: builder.add,
ast.Sub: builder.sub,
ast.Mult: builder.mul,
ast.Div: builder.sdiv,
ast.Mod: builder.srem,
ast.LShift: builder.shl,
ast.RShift: builder.lshr,
ast.BitOr: builder.or_,
ast.BitXor: builder.xor,
ast.BitAnd: builder.and_,
ast.FloorDiv: builder.udiv,
}
if isinstance(right, ast.Name):
if right.id in local_sym_tab:
right = recursive_dereferencer(local_sym_tab[right.id][0], builder)
else:
raise SyntaxError(f"Undefined variable: {right.id}")
elif isinstance(right, ast.Constant):
right = ir.Constant(ir.IntType(64), right.value)
else:
raise SyntaxError("Unsupported right operand type")
print(f"left is {left}, right is {right}, op is {op}")
if isinstance(op, ast.Add):
builder.store(builder.add(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.Sub):
builder.store(builder.sub(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.Mult):
builder.store(builder.mul(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.Div):
builder.store(builder.sdiv(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.Mod):
builder.store(builder.srem(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.LShift):
builder.store(builder.shl(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.RShift):
builder.store(builder.lshr(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.BitOr):
builder.store(builder.or_(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.BitXor):
builder.store(builder.xor(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.BitAnd):
builder.store(builder.and_(left, right), local_sym_tab[var_name][0])
elif isinstance(op, ast.FloorDiv):
builder.store(builder.udiv(left, right), local_sym_tab[var_name][0])
if type(op) in op_map:
result = op_map[type(op)](left, right)
return result
else:
raise SyntaxError("Unsupported binary operation")
def handle_binary_op(rval, builder, var_name, local_sym_tab):
result = handle_binary_op_impl(rval, builder, local_sym_tab)
if var_name and var_name in local_sym_tab:
logger.info(
f"Storing result {result} into variable {local_sym_tab[var_name].var}"
)
builder.store(result, local_sym_tab[var_name].var)
return result, result.type

654
pythonbpf/bpf_helper_handler.py
View File

@ -1,654 +0,0 @@
import ast
from llvmlite import ir
from .expr_pass import eval_expr
def bpf_ktime_get_ns_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_ktime_get_ns helper function call.
"""
# func is an arg to just have a uniform signature with other emitters
helper_id = ir.Constant(ir.IntType(64), 5)
fn_type = ir.FunctionType(ir.IntType(64), [], var_arg=False)
fn_ptr_type = ir.PointerType(fn_type)
fn_ptr = builder.inttoptr(helper_id, fn_ptr_type)
result = builder.call(fn_ptr, [], tail=False)
return result, ir.IntType(64)
def bpf_map_lookup_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_map_lookup_elem helper function call.
"""
if call.args and len(call.args) != 1:
raise ValueError(
"Map lookup expects exactly one argument, got " f"{len(call.args)}"
)
key_arg = call.args[0]
if isinstance(key_arg, ast.Name):
key_name = key_arg.id
if local_sym_tab and key_name in local_sym_tab:
key_ptr = local_sym_tab[key_name][0]
else:
raise ValueError(
f"Key variable {key_name} not found in local symbol table."
)
elif isinstance(key_arg, ast.Constant) and isinstance(key_arg.value, int):
# handle constant integer keys
key_val = key_arg.value
key_type = ir.IntType(64)
key_ptr = builder.alloca(key_type)
key_ptr.align = key_type // 8
builder.store(ir.Constant(key_type, key_val), key_ptr)
else:
raise NotImplementedError(
"Only simple variable names are supported as keys in map lookup."
)
if key_ptr is None:
raise ValueError("Key pointer is None.")
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
fn_type = ir.FunctionType(
ir.PointerType(), # Return type: void*
[ir.PointerType(), ir.PointerType()], # Args: (void*, void*)
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
# Helper ID 1 is bpf_map_lookup_elem
fn_addr = ir.Constant(ir.IntType(64), 1)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
result = builder.call(fn_ptr, [map_void_ptr, key_ptr], tail=False)
return result, ir.PointerType()
def bpf_printk_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
if not hasattr(func, "_fmt_counter"):
func._fmt_counter = 0
if not call.args:
raise ValueError("print expects at least one argument")
if isinstance(call.args[0], ast.JoinedStr):
fmt_parts = []
exprs = []
for value in call.args[0].values:
print("Value in f-string:", ast.dump(value))
if isinstance(value, ast.Constant):
if isinstance(value.value, str):
fmt_parts.append(value.value)
elif isinstance(value.value, int):
fmt_parts.append("%lld")
exprs.append(ir.Constant(ir.IntType(64), value.value))
else:
raise NotImplementedError(
"Only string and integer constants are supported in f-string."
)
elif isinstance(value, ast.FormattedValue):
print("Formatted value:", ast.dump(value))
# TODO: Dirty handling here, only checks for int or str
if isinstance(value.value, ast.Name):
if local_sym_tab and value.value.id in local_sym_tab:
var_ptr, var_type = local_sym_tab[value.value.id]
if isinstance(var_type, ir.IntType):
fmt_parts.append("%lld")
exprs.append(value.value)
elif var_type == ir.PointerType(ir.IntType(8)):
# Case with string
fmt_parts.append("%s")
exprs.append(value.value)
else:
raise NotImplementedError(
"Only integer and pointer types are supported in formatted values."
)
else:
raise ValueError(
f"Variable {value.value.id} not found in local symbol table."
)
elif isinstance(value.value, ast.Attribute):
# object field access from struct
if (
isinstance(value.value.value, ast.Name)
and local_sym_tab
and value.value.value.id in local_sym_tab
):
var_name = value.value.value.id
field_name = value.value.attr
if local_var_metadata and var_name in local_var_metadata:
var_type = local_var_metadata[var_name]
if var_type in struct_sym_tab:
struct_info = struct_sym_tab[var_type]
if field_name in struct_info.fields:
field_type = struct_info.field_type(field_name)
if isinstance(field_type, ir.IntType):
fmt_parts.append("%lld")
exprs.append(value.value)
elif field_type == ir.PointerType(ir.IntType(8)):
fmt_parts.append("%s")
exprs.append(value.value)
else:
raise NotImplementedError(
"Only integer and pointer types are supported in formatted values."
)
else:
raise ValueError(
f"Field {field_name} not found in struct {var_type}."
)
else:
raise ValueError(
f"Struct type {var_type} for variable {var_name} not found in struct symbol table."
)
else:
raise ValueError(
f"Metadata for variable {var_name} not found in local variable metadata."
)
else:
raise ValueError(
f"Variable {value.value.value.id} not found in local symbol table."
)
else:
raise NotImplementedError(
"Only simple variable names are supported in formatted values."
)
else:
raise NotImplementedError("Unsupported value type in f-string.")
fmt_str = "".join(fmt_parts) + "\n" + "\0"
fmt_name = f"{func.name}____fmt{func._fmt_counter}"
func._fmt_counter += 1
fmt_gvar = ir.GlobalVariable(
module, ir.ArrayType(ir.IntType(8), len(fmt_str)), name=fmt_name
)
fmt_gvar.global_constant = True
fmt_gvar.initializer = ir.Constant( # type: ignore
ir.ArrayType(ir.IntType(8), len(fmt_str)), bytearray(fmt_str.encode("utf8"))
)
fmt_gvar.linkage = "internal"
fmt_gvar.align = 1 # type: ignore
fmt_ptr = builder.bitcast(fmt_gvar, ir.PointerType())
args = [fmt_ptr, ir.Constant(ir.IntType(32), len(fmt_str))]
# Only 3 args supported in bpf_printk
if len(exprs) > 3:
print(
"Warning: bpf_printk supports up to 3 arguments, extra arguments will be ignored."
)
for expr in exprs[:3]:
print(f"{ast.dump(expr)}")
val, _ = eval_expr(
func,
module,
builder,
expr,
local_sym_tab,
None,
struct_sym_tab,
local_var_metadata,
)
if val:
if isinstance(val.type, ir.PointerType):
val = builder.ptrtoint(val, ir.IntType(64))
elif isinstance(val.type, ir.IntType):
if val.type.width < 64:
val = builder.sext(val, ir.IntType(64))
else:
print(
"Warning: Only integer and pointer types are supported in bpf_printk arguments. Others will be converted to 0."
)
val = ir.Constant(ir.IntType(64), 0)
args.append(val)
else:
print(
"Warning: Failed to evaluate expression for bpf_printk argument. It will be converted to 0."
)
args.append(ir.Constant(ir.IntType(64), 0))
fn_type = ir.FunctionType(
ir.IntType(64), [ir.PointerType(), ir.IntType(32)], var_arg=True
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(64), 6)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
return builder.call(fn_ptr, args, tail=True)
for arg in call.args:
if isinstance(arg, ast.Constant) and isinstance(arg.value, str):
fmt_str = arg.value + "\n" + "\0"
fmt_name = f"{func.name}____fmt{func._fmt_counter}"
func._fmt_counter += 1
fmt_gvar = ir.GlobalVariable(
module, ir.ArrayType(ir.IntType(8), len(fmt_str)), name=fmt_name
)
fmt_gvar.global_constant = True
fmt_gvar.initializer = ir.Constant( # type: ignore
ir.ArrayType(ir.IntType(8), len(fmt_str)),
bytearray(fmt_str.encode("utf8")),
)
fmt_gvar.linkage = "internal"
fmt_gvar.align = 1 # type: ignore
fmt_ptr = builder.bitcast(fmt_gvar, ir.PointerType())
fn_type = ir.FunctionType(
ir.IntType(64), [ir.PointerType(), ir.IntType(32)], var_arg=True
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(64), 6)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
builder.call(
fn_ptr, [fmt_ptr, ir.Constant(ir.IntType(32), len(fmt_str))], tail=True
)
return None
def bpf_map_update_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_map_update_elem helper function call.
Expected call signature: map.update(key, value, flags=0)
"""
if not call.args or len(call.args) < 2 or len(call.args) > 3:
raise ValueError(
"Map update expects 2 or 3 arguments (key, value, flags), got "
f"{len(call.args)}"
)
key_arg = call.args[0]
value_arg = call.args[1]
flags_arg = call.args[2] if len(call.args) > 2 else None
# Handle key
if isinstance(key_arg, ast.Name):
key_name = key_arg.id
if local_sym_tab and key_name in local_sym_tab:
key_ptr = local_sym_tab[key_name][0]
else:
raise ValueError(
f"Key variable {key_name} not found in local symbol table."
)
elif isinstance(key_arg, ast.Constant) and isinstance(key_arg.value, int):
# Handle constant integer keys
key_val = key_arg.value
key_type = ir.IntType(64)
key_ptr = builder.alloca(key_type)
key_ptr.align = key_type.width // 8
builder.store(ir.Constant(key_type, key_val), key_ptr)
else:
raise NotImplementedError(
"Only simple variable names and integer constants are supported as keys in map update."
)
# Handle value
if isinstance(value_arg, ast.Name):
value_name = value_arg.id
if local_sym_tab and value_name in local_sym_tab:
value_ptr = local_sym_tab[value_name][0]
else:
raise ValueError(
f"Value variable {value_name} not found in local symbol table."
)
elif isinstance(value_arg, ast.Constant) and isinstance(value_arg.value, int):
# Handle constant integers
value_val = value_arg.value
value_type = ir.IntType(64)
value_ptr = builder.alloca(value_type)
value_ptr.align = value_type.width // 8
builder.store(ir.Constant(value_type, value_val), value_ptr)
else:
raise NotImplementedError(
"Only simple variable names and integer constants are supported as values in map update."
)
# Handle flags argument (defaults to 0)
if flags_arg is not None:
if isinstance(flags_arg, ast.Constant) and isinstance(flags_arg.value, int):
flags_val = flags_arg.value
elif isinstance(flags_arg, ast.Name):
flags_name = flags_arg.id
if local_sym_tab and flags_name in local_sym_tab:
# Assume it's a stored integer value, load it
flags_ptr = local_sym_tab[flags_name][0]
flags_val = builder.load(flags_ptr)
else:
raise ValueError(
f"Flags variable {flags_name} not found in local symbol table."
)
else:
raise NotImplementedError(
"Only integer constants and simple variable names are supported as flags in map update."
)
else:
flags_val = 0
if key_ptr is None or value_ptr is None:
raise ValueError("Key pointer or value pointer is None.")
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
fn_type = ir.FunctionType(
ir.IntType(64),
[ir.PointerType(), ir.PointerType(), ir.PointerType(), ir.IntType(64)],
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
# helper id
fn_addr = ir.Constant(ir.IntType(64), 2)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
if isinstance(flags_val, int):
flags_const = ir.Constant(ir.IntType(64), flags_val)
else:
flags_const = flags_val
result = builder.call(
fn_ptr, [map_void_ptr, key_ptr, value_ptr, flags_const], tail=False
)
return result, None
def bpf_map_delete_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_map_delete_elem helper function call.
Expected call signature: map.delete(key)
"""
# Check for correct number of arguments
if not call.args or len(call.args) != 1:
raise ValueError(
"Map delete expects exactly 1 argument (key), got " f"{len(call.args)}"
)
key_arg = call.args[0]
# Handle key argument
if isinstance(key_arg, ast.Name):
key_name = key_arg.id
if local_sym_tab and key_name in local_sym_tab:
key_ptr = local_sym_tab[key_name][0]
else:
raise ValueError(
f"Key variable {key_name} not found in local symbol table."
)
elif isinstance(key_arg, ast.Constant) and isinstance(key_arg.value, int):
# Handle constant integer keys
key_val = key_arg.value
key_type = ir.IntType(64)
key_ptr = builder.alloca(key_type)
key_ptr.align = key_type.width // 8
builder.store(ir.Constant(key_type, key_val), key_ptr)
else:
raise NotImplementedError(
"Only simple variable names and integer constants are supported as keys in map delete."
)
if key_ptr is None:
raise ValueError("Key pointer is None.")
# Cast map pointer to void*
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
# Define function type for bpf_map_delete_elem
fn_type = ir.FunctionType(
ir.IntType(64), # Return type: int64 (status code)
[ir.PointerType(), ir.PointerType()], # Args: (void*, void*)
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
# Helper ID 3 is bpf_map_delete_elem
fn_addr = ir.Constant(ir.IntType(64), 3)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
# Call the helper function
result = builder.call(fn_ptr, [map_void_ptr, key_ptr], tail=False)
return result, None
def bpf_get_current_pid_tgid_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_get_current_pid_tgid helper function call.
"""
# func is an arg to just have a uniform signature with other emitters
helper_id = ir.Constant(ir.IntType(64), 14)
fn_type = ir.FunctionType(ir.IntType(64), [], var_arg=False)
fn_ptr_type = ir.PointerType(fn_type)
fn_ptr = builder.inttoptr(helper_id, fn_ptr_type)
result = builder.call(fn_ptr, [], tail=False)
# Extract the lower 32 bits (PID) using bitwise AND with 0xFFFFFFFF
mask = ir.Constant(ir.IntType(64), 0xFFFFFFFF)
pid = builder.and_(result, mask)
return pid, ir.IntType(64)
def bpf_perf_event_output_handler(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
if len(call.args) != 1:
raise ValueError(
"Perf event output expects exactly one argument (data), got "
f"{len(call.args)}"
)
data_arg = call.args[0]
ctx_ptr = func.args[0] # First argument to the function is ctx
if isinstance(data_arg, ast.Name):
data_name = data_arg.id
if local_sym_tab and data_name in local_sym_tab:
data_ptr = local_sym_tab[data_name][0]
else:
raise ValueError(
f"Data variable {data_name} not found in local symbol table."
)
# Check is data_name is a struct
if local_var_metadata and data_name in local_var_metadata:
data_type = local_var_metadata[data_name]
if data_type in struct_sym_tab:
struct_info = struct_sym_tab[data_type]
size_val = ir.Constant(ir.IntType(64), struct_info.size)
else:
raise ValueError(
f"Struct type {data_type} for variable {data_name} not found in struct symbol table."
)
else:
raise ValueError(
f"Metadata for variable {data_name} not found in local variable metadata."
)
# BPF_F_CURRENT_CPU is -1 in 32 bit
flags_val = ir.Constant(ir.IntType(64), 0xFFFFFFFF)
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
data_void_ptr = builder.bitcast(data_ptr, ir.PointerType())
fn_type = ir.FunctionType(
ir.IntType(64),
[
ir.PointerType(ir.IntType(8)),
ir.PointerType(),
ir.IntType(64),
ir.PointerType(),
ir.IntType(64),
],
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
# helper id
fn_addr = ir.Constant(ir.IntType(64), 25)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
result = builder.call(
fn_ptr,
[ctx_ptr, map_void_ptr, flags_val, data_void_ptr, size_val],
tail=False,
)
return result, None
else:
raise NotImplementedError(
"Only simple object names are supported as data in perf event output."
)
helper_func_list = {
"lookup": bpf_map_lookup_elem_emitter,
"print": bpf_printk_emitter,
"ktime": bpf_ktime_get_ns_emitter,
"update": bpf_map_update_elem_emitter,
"delete": bpf_map_delete_elem_emitter,
"pid": bpf_get_current_pid_tgid_emitter,
"output": bpf_perf_event_output_handler,
}
def handle_helper_call(
call,
module,
builder,
func,
local_sym_tab=None,
map_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
print(local_var_metadata)
if isinstance(call.func, ast.Name):
func_name = call.func.id
if func_name in helper_func_list:
# it is not a map method call
return helper_func_list[func_name](
call,
None,
module,
builder,
func,
local_sym_tab,
struct_sym_tab,
local_var_metadata,
)
else:
raise NotImplementedError(
f"Function {func_name} is not implemented as a helper function."
)
elif isinstance(call.func, ast.Attribute):
# likely a map method call
if isinstance(call.func.value, ast.Call) and isinstance(
call.func.value.func, ast.Name
):
map_name = call.func.value.func.id
method_name = call.func.attr
if map_sym_tab and map_name in map_sym_tab:
map_ptr = map_sym_tab[map_name]
if method_name in helper_func_list:
print(local_var_metadata)
return helper_func_list[method_name](
call,
map_ptr,
module,
builder,
func,
local_sym_tab,
struct_sym_tab,
local_var_metadata,
)
else:
raise NotImplementedError(
f"Map method {method_name} is not implemented as a helper function."
)
else:
raise ValueError(f"Map variable {map_name} not found in symbol tables.")
elif isinstance(call.func.value, ast.Name):
obj_name = call.func.value.id
method_name = call.func.attr
if map_sym_tab and obj_name in map_sym_tab:
map_ptr = map_sym_tab[obj_name]
if method_name in helper_func_list:
return helper_func_list[method_name](
call,
map_ptr,
module,
builder,
func,
local_sym_tab,
struct_sym_tab,
local_var_metadata,
)
else:
raise NotImplementedError(
f"Map method {method_name} is not implemented as a helper function."
)
else:
raise ValueError(f"Map variable {obj_name} not found in symbol tables.")
else:
raise NotImplementedError("Attribute not supported for map method calls.")
return None

69
pythonbpf/codegen.py
View File

@ -1,19 +1,23 @@
import ast
from llvmlite import ir
from .license_pass import license_processing
from .functions_pass import func_proc
from .functions import func_proc
from .maps import maps_proc
from .structs import structs_proc
from .globals_pass import globals_processing
from .debuginfo import DW_LANG_C11, DwarfBehaviorEnum
from .debuginfo import DW_LANG_C11, DwarfBehaviorEnum, DebugInfoGenerator
import os
import subprocess
import inspect
from pathlib import Path
from pylibbpf import BpfProgram
import tempfile
from logging import Logger
import logging
VERSION = "v0.1.3"
logger: Logger = logging.getLogger(__name__)
VERSION = "v0.1.4"
def find_bpf_chunks(tree):
@ -30,11 +34,11 @@ def find_bpf_chunks(tree):
def processor(source_code, filename, module):
tree = ast.parse(source_code, filename)
print(ast.dump(tree, indent=4))
logger.debug(ast.dump(tree, indent=4))
bpf_chunks = find_bpf_chunks(tree)
for func_node in bpf_chunks:
print(f"Found BPF function/struct: {func_node.name}")
logger.info(f"Found BPF function/struct: {func_node.name}")
structs_sym_tab = structs_proc(tree, module, bpf_chunks)
map_sym_tab = maps_proc(tree, module, bpf_chunks)
@ -44,7 +48,10 @@ def processor(source_code, filename, module):
globals_processing(tree, module)
def compile_to_ir(filename: str, output: str):
def compile_to_ir(filename: str, output: str, loglevel=logging.INFO):
logging.basicConfig(
level=loglevel, format="%(asctime)s [%(levelname)s] %(name)s: %(message)s"
)
with open(filename) as f:
source = f.read()
@ -53,33 +60,17 @@ def compile_to_ir(filename: str, output: str):
module.triple = "bpf"
if not hasattr(module, "_debug_compile_unit"):
module._file_metadata = module.add_debug_info(
"DIFile",
{ # type: ignore
"filename": filename,
"directory": os.path.dirname(filename),
},
debug_generator = DebugInfoGenerator(module)
debug_generator.generate_file_metadata(filename, os.path.dirname(filename))
debug_generator.generate_debug_cu(
DW_LANG_C11,
f"PythonBPF {VERSION}",
True, # TODO: This is probably not true
# TODO: add a global field here that keeps track of all the globals. Works without it, but I think it might
# be required for kprobes.
True,
)
module._debug_compile_unit = module.add_debug_info(
"DICompileUnit",
{ # type: ignore
"language": DW_LANG_C11,
"file": module._file_metadata, # type: ignore
"producer": f"PythonBPF {VERSION}",
"isOptimized": True, # TODO: This is probably not true
# TODO: add a global field here that keeps track of all the globals. Works without it, but I think it might
# be required for kprobes.
"runtimeVersion": 0,
"emissionKind": 1,
"splitDebugInlining": False,
"nameTableKind": 0,
},
is_distinct=True,
)
module.add_named_metadata("llvm.dbg.cu", module._debug_compile_unit) # type: ignore
processor(source, filename, module)
wchar_size = module.add_metadata(
@ -121,7 +112,7 @@ def compile_to_ir(filename: str, output: str):
module.add_named_metadata("llvm.ident", [f"PythonBPF {VERSION}"])
print(f"IR written to {output}")
logger.info(f"IR written to {output}")
with open(output, "w") as f:
f.write(f'source_filename = "{filename}"\n')
f.write(str(module))
@ -130,7 +121,7 @@ def compile_to_ir(filename: str, output: str):
return output
def compile() -> bool:
def compile(loglevel=logging.INFO) -> bool:
# Look one level up the stack to the caller of this function
caller_frame = inspect.stack()[1]
caller_file = Path(caller_frame.filename).resolve()
@ -139,9 +130,11 @@ def compile() -> bool:
o_file = caller_file.with_suffix(".o")
success = True
success = compile_to_ir(str(caller_file), str(ll_file)) and success
success = (
compile_to_ir(str(caller_file), str(ll_file), loglevel=loglevel) and success
)
success = bool(
subprocess.run(
[
"llc",
@ -157,11 +150,11 @@ def compile() -> bool:
and success
)
print(f"Object written to {o_file}")
logger.info(f"Object written to {o_file}")
return success
def BPF() -> BpfProgram:
def BPF(loglevel=logging.INFO) -> BpfProgram:
caller_frame = inspect.stack()[1]
src = inspect.getsource(caller_frame.frame)
with tempfile.NamedTemporaryFile(
@ -174,7 +167,7 @@ def BPF() -> BpfProgram:
f.write(src)
f.flush()
source = f.name
compile_to_ir(source, str(inter.name))
compile_to_ir(source, str(inter.name), loglevel=loglevel)
subprocess.run(
[
"llc",

6
pythonbpf/debuginfo/__init__.py
View File

@ -1,3 +1,5 @@
from .dwarf_constants import *
from .dtypes import *
from .dwarf_constants import * # noqa: F403
from .dtypes import * # noqa: F403
from .debug_info_generator import DebugInfoGenerator
__all__ = ["DebugInfoGenerator"]

32
pythonbpf/debuginfo/debug_info_generator.py
View File

@ -12,6 +12,34 @@ class DebugInfoGenerator:
self.module = module
self._type_cache = {} # Cache for common debug types
def generate_file_metadata(self, filename, dirname):
self.module._file_metadata = self.module.add_debug_info(
"DIFile",
{ # type: ignore
"filename": filename,
"directory": dirname,
},
)
def generate_debug_cu(
self, language, producer: str, is_optimized: bool, is_distinct: bool
):
self.module._debug_compile_unit = self.module.add_debug_info(
"DICompileUnit",
{ # type: ignore
"language": language,
"file": self.module._file_metadata, # type: ignore
"producer": producer,
"isOptimized": is_optimized,
"runtimeVersion": 0,
"emissionKind": 1,
"splitDebugInlining": False,
"nameTableKind": 0,
},
is_distinct=is_distinct,
)
self.module.add_named_metadata("llvm.dbg.cu", self.module._debug_compile_unit) # type: ignore
def get_basic_type(self, name: str, size: int, encoding: int) -> Any:
"""Get or create a basic type with caching"""
key = (name, size, encoding)
@ -21,6 +49,10 @@ class DebugInfoGenerator:
)
return self._type_cache[key]
def get_int32_type(self) -> Any:
"""Get debug info for signed 32-bit integer"""
return self.get_basic_type("int", 32, dc.DW_ATE_signed)
def get_uint32_type(self) -> Any:
"""Get debug info for unsigned 32-bit integer"""
return self.get_basic_type("unsigned int", 32, dc.DW_ATE_unsigned)

4
pythonbpf/expr/__init__.py Normal file
View File

@ -0,0 +1,4 @@
from .expr_pass import eval_expr, handle_expr
from .type_normalization import convert_to_bool
__all__ = ["eval_expr", "handle_expr", "convert_to_bool"]

445
pythonbpf/expr/expr_pass.py Normal file
View File

@ -0,0 +1,445 @@
import ast
from llvmlite import ir
from logging import Logger
import logging
from typing import Dict
from pythonbpf.type_deducer import ctypes_to_ir, is_ctypes
from .type_normalization import convert_to_bool, handle_comparator
logger: Logger = logging.getLogger(__name__)
def _handle_name_expr(expr: ast.Name, local_sym_tab: Dict, builder: ir.IRBuilder):
"""Handle ast.Name expressions."""
if expr.id in local_sym_tab:
var = local_sym_tab[expr.id].var
val = builder.load(var)
return val, local_sym_tab[expr.id].ir_type
else:
logger.info(f"Undefined variable {expr.id}")
return None
def _handle_constant_expr(expr: ast.Constant):
"""Handle ast.Constant expressions."""
if isinstance(expr.value, int) or isinstance(expr.value, bool):
return ir.Constant(ir.IntType(64), int(expr.value)), ir.IntType(64)
else:
logger.error("Unsupported constant type")
return None
def _handle_attribute_expr(
expr: ast.Attribute,
local_sym_tab: Dict,
structs_sym_tab: Dict,
builder: ir.IRBuilder,
):
"""Handle ast.Attribute expressions for struct field access."""
if isinstance(expr.value, ast.Name):
var_name = expr.value.id
attr_name = expr.attr
if var_name in local_sym_tab:
var_ptr, var_type, var_metadata = local_sym_tab[var_name]
logger.info(f"Loading attribute {attr_name} from variable {var_name}")
logger.info(f"Variable type: {var_type}, Variable ptr: {var_ptr}")
metadata = structs_sym_tab[var_metadata]
if attr_name in metadata.fields:
gep = metadata.gep(builder, var_ptr, attr_name)
val = builder.load(gep)
field_type = metadata.field_type(attr_name)
return val, field_type
return None
def _handle_deref_call(expr: ast.Call, local_sym_tab: Dict, builder: ir.IRBuilder):
"""Handle deref function calls."""
logger.info(f"Handling deref {ast.dump(expr)}")
if len(expr.args) != 1:
logger.info("deref takes exactly one argument")
return None
arg = expr.args[0]
if (
isinstance(arg, ast.Call)
and isinstance(arg.func, ast.Name)
and arg.func.id == "deref"
):
logger.info("Multiple deref not supported")
return None
if isinstance(arg, ast.Name):
if arg.id in local_sym_tab:
arg_ptr = local_sym_tab[arg.id].var
else:
logger.info(f"Undefined variable {arg.id}")
return None
else:
logger.info("Unsupported argument type for deref")
return None
if arg_ptr is None:
logger.info("Failed to evaluate deref argument")
return None
# Load the value from pointer
val = builder.load(arg_ptr)
return val, local_sym_tab[arg.id].ir_type
def _handle_ctypes_call(
func,
module,
builder,
expr,
local_sym_tab,
map_sym_tab,
structs_sym_tab=None,
):
"""Handle ctypes type constructor calls."""
if len(expr.args) != 1:
logger.info("ctypes constructor takes exactly one argument")
return None
arg = expr.args[0]
val = eval_expr(
func,
module,
builder,
arg,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
if val is None:
logger.info("Failed to evaluate argument to ctypes constructor")
return None
call_type = expr.func.id
expected_type = ctypes_to_ir(call_type)
if val[1] != expected_type:
# NOTE: We are only considering casting to and from int types for now
if isinstance(val[1], ir.IntType) and isinstance(expected_type, ir.IntType):
if val[1].width < expected_type.width:
val = (builder.sext(val[0], expected_type), expected_type)
else:
val = (builder.trunc(val[0], expected_type), expected_type)
else:
raise ValueError(f"Type mismatch: expected {expected_type}, got {val[1]}")
return val
def _handle_compare(
func, module, builder, cond, local_sym_tab, map_sym_tab, structs_sym_tab=None
):
"""Handle ast.Compare expressions."""
if len(cond.ops) != 1 or len(cond.comparators) != 1:
logger.error("Only single comparisons are supported")
return None
lhs = eval_expr(
func,
module,
builder,
cond.left,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
rhs = eval_expr(
func,
module,
builder,
cond.comparators[0],
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
if lhs is None or rhs is None:
logger.error("Failed to evaluate comparison operands")
return None
lhs, _ = lhs
rhs, _ = rhs
return handle_comparator(func, builder, cond.ops[0], lhs, rhs)
def _handle_unary_op(
func,
module,
builder,
expr: ast.UnaryOp,
local_sym_tab,
map_sym_tab,
structs_sym_tab=None,
):
"""Handle ast.UnaryOp expressions."""
if not isinstance(expr.op, ast.Not):
logger.error("Only 'not' unary operator is supported")
return None
operand = eval_expr(
func, module, builder, expr.operand, local_sym_tab, map_sym_tab, structs_sym_tab
)
if operand is None:
logger.error("Failed to evaluate operand for unary operation")
return None
operand_val, operand_type = operand
true_const = ir.Constant(ir.IntType(1), 1)
result = builder.xor(convert_to_bool(builder, operand_val), true_const)
return result, ir.IntType(1)
def _handle_and_op(func, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab):
"""Handle `and` boolean operations."""
logger.debug(f"Handling 'and' operator with {len(expr.values)} operands")
merge_block = func.append_basic_block(name="and.merge")
false_block = func.append_basic_block(name="and.false")
incoming_values = []
for i, value in enumerate(expr.values):
is_last = i == len(expr.values) - 1
# Evaluate current operand
operand_result = eval_expr(
func, None, builder, value, local_sym_tab, map_sym_tab, structs_sym_tab
)
if operand_result is None:
logger.error(f"Failed to evaluate operand {i} in 'and' expression")
return None
operand_val, operand_type = operand_result
# Convert to boolean if needed
operand_bool = convert_to_bool(builder, operand_val)
current_block = builder.block
if is_last:
# Last operand: result is this value
builder.branch(merge_block)
incoming_values.append((operand_bool, current_block))
else:
# Not last: check if true, continue or short-circuit
next_check = func.append_basic_block(name=f"and.check_{i + 1}")
builder.cbranch(operand_bool, next_check, false_block)
builder.position_at_end(next_check)
# False block: short-circuit with false
builder.position_at_end(false_block)
builder.branch(merge_block)
false_value = ir.Constant(ir.IntType(1), 0)
incoming_values.append((false_value, false_block))
# Merge block: phi node
builder.position_at_end(merge_block)
phi = builder.phi(ir.IntType(1), name="and.result")
for val, block in incoming_values:
phi.add_incoming(val, block)
logger.debug(f"Generated 'and' with {len(incoming_values)} incoming values")
return phi, ir.IntType(1)
def _handle_or_op(func, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab):
"""Handle `or` boolean operations."""
logger.debug(f"Handling 'or' operator with {len(expr.values)} operands")
merge_block = func.append_basic_block(name="or.merge")
true_block = func.append_basic_block(name="or.true")
incoming_values = []
for i, value in enumerate(expr.values):
is_last = i == len(expr.values) - 1
# Evaluate current operand
operand_result = eval_expr(
func, None, builder, value, local_sym_tab, map_sym_tab, structs_sym_tab
)
if operand_result is None:
logger.error(f"Failed to evaluate operand {i} in 'or' expression")
return None
operand_val, operand_type = operand_result
# Convert to boolean if needed
operand_bool = convert_to_bool(builder, operand_val)
current_block = builder.block
if is_last:
# Last operand: result is this value
builder.branch(merge_block)
incoming_values.append((operand_bool, current_block))
else:
# Not last: check if false, continue or short-circuit
next_check = func.append_basic_block(name=f"or.check_{i + 1}")
builder.cbranch(operand_bool, true_block, next_check)
builder.position_at_end(next_check)
# True block: short-circuit with true
builder.position_at_end(true_block)
builder.branch(merge_block)
true_value = ir.Constant(ir.IntType(1), 1)
incoming_values.append((true_value, true_block))
# Merge block: phi node
builder.position_at_end(merge_block)
phi = builder.phi(ir.IntType(1), name="or.result")
for val, block in incoming_values:
phi.add_incoming(val, block)
logger.debug(f"Generated 'or' with {len(incoming_values)} incoming values")
return phi, ir.IntType(1)
def _handle_boolean_op(
func,
module,
builder,
expr: ast.BoolOp,
local_sym_tab,
map_sym_tab,
structs_sym_tab=None,
):
"""Handle `and` and `or` boolean operations."""
if isinstance(expr.op, ast.And):
return _handle_and_op(
func, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
)
elif isinstance(expr.op, ast.Or):
return _handle_or_op(
func, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
)
else:
logger.error(f"Unsupported boolean operator: {type(expr.op).__name__}")
return None
def eval_expr(
func,
module,
builder,
expr,
local_sym_tab,
map_sym_tab,
structs_sym_tab=None,
):
logger.info(f"Evaluating expression: {ast.dump(expr)}")
if isinstance(expr, ast.Name):
return _handle_name_expr(expr, local_sym_tab, builder)
elif isinstance(expr, ast.Constant):
return _handle_constant_expr(expr)
elif isinstance(expr, ast.Call):
if isinstance(expr.func, ast.Name) and expr.func.id == "deref":
return _handle_deref_call(expr, local_sym_tab, builder)
if isinstance(expr.func, ast.Name) and is_ctypes(expr.func.id):
return _handle_ctypes_call(
func,
module,
builder,
expr,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
# delayed import to avoid circular dependency
from pythonbpf.helper import HelperHandlerRegistry, handle_helper_call
if isinstance(expr.func, ast.Name) and HelperHandlerRegistry.has_handler(
expr.func.id
):
return handle_helper_call(
expr,
module,
builder,
func,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
elif isinstance(expr.func, ast.Attribute):
logger.info(f"Handling method call: {ast.dump(expr.func)}")
if isinstance(expr.func.value, ast.Call) and isinstance(
expr.func.value.func, ast.Name
):
method_name = expr.func.attr
if HelperHandlerRegistry.has_handler(method_name):
return handle_helper_call(
expr,
module,
builder,
func,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
elif isinstance(expr.func.value, ast.Name):
obj_name = expr.func.value.id
method_name = expr.func.attr
if obj_name in map_sym_tab:
if HelperHandlerRegistry.has_handler(method_name):
return handle_helper_call(
expr,
module,
builder,
func,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
elif isinstance(expr, ast.Attribute):
return _handle_attribute_expr(expr, local_sym_tab, structs_sym_tab, builder)
elif isinstance(expr, ast.BinOp):
from pythonbpf.binary_ops import handle_binary_op
return handle_binary_op(expr, builder, None, local_sym_tab)
elif isinstance(expr, ast.Compare):
return _handle_compare(
func, module, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
)
elif isinstance(expr, ast.UnaryOp):
return _handle_unary_op(
func, module, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
)
elif isinstance(expr, ast.BoolOp):
return _handle_boolean_op(
func, module, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
)
logger.info("Unsupported expression evaluation")
return None
def handle_expr(
func,
module,
builder,
expr,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
):
"""Handle expression statements in the function body."""
logger.info(f"Handling expression: {ast.dump(expr)}")
call = expr.value
if isinstance(call, ast.Call):
eval_expr(
func,
module,
builder,
call,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
else:
logger.info("Unsupported expression type")

128
pythonbpf/expr/type_normalization.py Normal file
View File

@ -0,0 +1,128 @@
from llvmlite import ir
import logging
import ast
logger = logging.getLogger(__name__)
COMPARISON_OPS = {
ast.Eq: "==",
ast.NotEq: "!=",
ast.Lt: "<",
ast.LtE: "<=",
ast.Gt: ">",
ast.GtE: ">=",
ast.Is: "==",
ast.IsNot: "!=",
}
def _get_base_type_and_depth(ir_type):
"""Get the base type for pointer types."""
cur_type = ir_type
depth = 0
while isinstance(cur_type, ir.PointerType):
depth += 1
cur_type = cur_type.pointee
return cur_type, depth
def _deref_to_depth(func, builder, val, target_depth):
"""Dereference a pointer to a certain depth."""
cur_val = val
cur_type = val.type
for depth in range(target_depth):
if not isinstance(val.type, ir.PointerType):
logger.error("Cannot dereference further, non-pointer type")
return None
# dereference with null check
pointee_type = cur_type.pointee
null_check_block = builder.block
not_null_block = func.append_basic_block(name=f"deref_not_null_{depth}")
merge_block = func.append_basic_block(name=f"deref_merge_{depth}")
null_ptr = ir.Constant(cur_type, None)
is_not_null = builder.icmp_signed("!=", cur_val, null_ptr)
logger.debug(f"Inserted null check for pointer at depth {depth}")
builder.cbranch(is_not_null, not_null_block, merge_block)
builder.position_at_end(not_null_block)
dereferenced_val = builder.load(cur_val)
logger.debug(f"Dereferenced to depth {depth - 1}, type: {pointee_type}")
builder.branch(merge_block)
builder.position_at_end(merge_block)
phi = builder.phi(pointee_type, name=f"deref_result_{depth}")
zero_value = (
ir.Constant(pointee_type, 0)
if isinstance(pointee_type, ir.IntType)
else ir.Constant(pointee_type, None)
)
phi.add_incoming(zero_value, null_check_block)
phi.add_incoming(dereferenced_val, not_null_block)
# Continue with phi result
cur_val = phi
cur_type = pointee_type
return cur_val
def _normalize_types(func, builder, lhs, rhs):
"""Normalize types for comparison."""
logger.info(f"Normalizing types: {lhs.type} vs {rhs.type}")
if isinstance(lhs.type, ir.IntType) and isinstance(rhs.type, ir.IntType):
if lhs.type.width < rhs.type.width:
lhs = builder.sext(lhs, rhs.type)
else:
rhs = builder.sext(rhs, lhs.type)
return lhs, rhs
elif not isinstance(lhs.type, ir.PointerType) and not isinstance(
rhs.type, ir.PointerType
):
logger.error(f"Type mismatch: {lhs.type} vs {rhs.type}")
return None, None
else:
lhs_base, lhs_depth = _get_base_type_and_depth(lhs.type)
rhs_base, rhs_depth = _get_base_type_and_depth(rhs.type)
if lhs_base == rhs_base:
if lhs_depth < rhs_depth:
rhs = _deref_to_depth(func, builder, rhs, rhs_depth - lhs_depth)
elif rhs_depth < lhs_depth:
lhs = _deref_to_depth(func, builder, lhs, lhs_depth - rhs_depth)
return _normalize_types(func, builder, lhs, rhs)
def convert_to_bool(builder, val):
"""Convert a value to boolean."""
if val.type == ir.IntType(1):
return val
if isinstance(val.type, ir.PointerType):
zero = ir.Constant(val.type, None)
else:
zero = ir.Constant(val.type, 0)
return builder.icmp_signed("!=", val, zero)
def handle_comparator(func, builder, op, lhs, rhs):
"""Handle comparison operations."""
if lhs.type != rhs.type:
lhs, rhs = _normalize_types(func, builder, lhs, rhs)
if lhs is None or rhs is None:
return None
if type(op) not in COMPARISON_OPS:
logger.error(f"Unsupported comparison operator: {type(op)}")
return None
predicate = COMPARISON_OPS[type(op)]
result = builder.icmp_signed(predicate, lhs, rhs)
logger.debug(f"Comparison result: {result}")
return result, ir.IntType(1)

155
pythonbpf/expr_pass.py
View File

@ -1,155 +0,0 @@
import ast
from llvmlite import ir
def eval_expr(
func,
module,
builder,
expr,
local_sym_tab,
map_sym_tab,
structs_sym_tab=None,
local_var_metadata=None,
):
print(f"Evaluating expression: {ast.dump(expr)}")
print(local_var_metadata)
if isinstance(expr, ast.Name):
if expr.id in local_sym_tab:
var = local_sym_tab[expr.id][0]
val = builder.load(var)
return val, local_sym_tab[expr.id][1] # return value and type
else:
print(f"Undefined variable {expr.id}")
return None
elif isinstance(expr, ast.Constant):
if isinstance(expr.value, int):
return ir.Constant(ir.IntType(64), expr.value), ir.IntType(64)
elif isinstance(expr.value, bool):
return ir.Constant(ir.IntType(1), int(expr.value)), ir.IntType(1)
else:
print("Unsupported constant type")
return None
elif isinstance(expr, ast.Call):
# delayed import to avoid circular dependency
from .bpf_helper_handler import helper_func_list, handle_helper_call
if isinstance(expr.func, ast.Name):
# check deref
if expr.func.id == "deref":
print(f"Handling deref {ast.dump(expr)}")
if len(expr.args) != 1:
print("deref takes exactly one argument")
return None
arg = expr.args[0]
if (
isinstance(arg, ast.Call)
and isinstance(arg.func, ast.Name)
and arg.func.id == "deref"
):
print("Multiple deref not supported")
return None
if isinstance(arg, ast.Name):
if arg.id in local_sym_tab:
arg = local_sym_tab[arg.id][0]
else:
print(f"Undefined variable {arg.id}")
return None
if arg is None:
print("Failed to evaluate deref argument")
return None
# Since we are handling only name case, directly take type from sym tab
val = builder.load(arg)
return val, local_sym_tab[expr.args[0].id][1]
# check for helpers
if expr.func.id in helper_func_list:
return handle_helper_call(
expr,
module,
builder,
func,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
local_var_metadata,
)
elif isinstance(expr.func, ast.Attribute):
print(f"Handling method call: {ast.dump(expr.func)}")
if isinstance(expr.func.value, ast.Call) and isinstance(
expr.func.value.func, ast.Name
):
method_name = expr.func.attr
if method_name in helper_func_list:
return handle_helper_call(
expr,
module,
builder,
func,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
local_var_metadata,
)
elif isinstance(expr.func.value, ast.Name):
obj_name = expr.func.value.id
method_name = expr.func.attr
if obj_name in map_sym_tab:
if method_name in helper_func_list:
return handle_helper_call(
expr,
module,
builder,
func,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
local_var_metadata,
)
elif isinstance(expr, ast.Attribute):
if isinstance(expr.value, ast.Name):
var_name = expr.value.id
attr_name = expr.attr
if var_name in local_sym_tab:
var_ptr, var_type = local_sym_tab[var_name]
print(f"Loading attribute " f"{attr_name} from variable {var_name}")
print(f"Variable type: {var_type}, Variable ptr: {var_ptr}")
print(local_var_metadata)
if local_var_metadata and var_name in local_var_metadata:
metadata = structs_sym_tab[local_var_metadata[var_name]]
if attr_name in metadata.fields:
gep = metadata.gep(builder, var_ptr, attr_name)
val = builder.load(gep)
field_type = metadata.field_type(attr_name)
return val, field_type
print("Unsupported expression evaluation")
return None
def handle_expr(
func,
module,
builder,
expr,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
local_var_metadata,
):
"""Handle expression statements in the function body."""
print(f"Handling expression: {ast.dump(expr)}")
print(local_var_metadata)
call = expr.value
if isinstance(call, ast.Call):
eval_expr(
func,
module,
builder,
call,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
local_var_metadata,
)
else:
print("Unsupported expression type")

3
pythonbpf/functions/__init__.py Normal file
View File

@ -0,0 +1,3 @@
from .functions_pass import func_proc
__all__ = ["func_proc"]

22
pythonbpf/functions/func_registry_handlers.py Normal file
View File

@ -0,0 +1,22 @@
from typing import Dict
class StatementHandlerRegistry:
"""Registry for statement handlers."""
_handlers: Dict = {}
@classmethod
def register(cls, stmt_type):
"""Register a handler for a specific statement type."""
def decorator(handler):
cls._handlers[stmt_type] = handler
return handler
return decorator
@classmethod
def __getitem__(cls, stmt_type):
"""Get the handler for a specific statement type."""
return cls._handlers.get(stmt_type, None)

356
pythonbpf/functions_pass.py → pythonbpf/functions/functions_pass.py
View File

@ -1,13 +1,30 @@
from llvmlite import ir
import ast
import logging
from typing import Any
from dataclasses import dataclass
from pythonbpf.helper import HelperHandlerRegistry, handle_helper_call
from pythonbpf.type_deducer import ctypes_to_ir
from pythonbpf.binary_ops import handle_binary_op
from pythonbpf.expr import eval_expr, handle_expr, convert_to_bool
from .return_utils import _handle_none_return, _handle_xdp_return, _is_xdp_name
from .bpf_helper_handler import helper_func_list, handle_helper_call
from .type_deducer import ctypes_to_ir
from .binary_ops import handle_binary_op
from .expr_pass import eval_expr, handle_expr
logger = logging.getLogger(__name__)
local_var_metadata = {}
@dataclass
class LocalSymbol:
var: ir.AllocaInstr
ir_type: ir.Type
metadata: Any = None
def __iter__(self):
yield self.var
yield self.ir_type
yield self.metadata
def get_probe_string(func_node):
@ -32,28 +49,27 @@ def handle_assign(
):
"""Handle assignment statements in the function body."""
if len(stmt.targets) != 1:
print("Unsupported multiassignment")
logger.info("Unsupported multiassignment")
return
num_types = ("c_int32", "c_int64", "c_uint32", "c_uint64")
target = stmt.targets[0]
print(f"Handling assignment to {ast.dump(target)}")
logger.info(f"Handling assignment to {ast.dump(target)}")
if not isinstance(target, ast.Name) and not isinstance(target, ast.Attribute):
print("Unsupported assignment target")
logger.info("Unsupported assignment target")
return
var_name = target.id if isinstance(target, ast.Name) else target.value.id
rval = stmt.value
if isinstance(target, ast.Attribute):
# struct field assignment
field_name = target.attr
if var_name in local_sym_tab and var_name in local_var_metadata:
struct_type = local_var_metadata[var_name]
if var_name in local_sym_tab:
struct_type = local_sym_tab[var_name].metadata
struct_info = structs_sym_tab[struct_type]
if field_name in struct_info.fields:
field_ptr = struct_info.gep(
builder, local_sym_tab[var_name][0], field_name
builder, local_sym_tab[var_name].var, field_name
)
val = eval_expr(
func,
@ -74,28 +90,31 @@ def handle_assign(
# print(f"Assigned to struct field {var_name}.{field_name}")
pass
if val is None:
print("Failed to evaluate struct field assignment")
logger.info("Failed to evaluate struct field assignment")
return
print(field_ptr)
logger.info(field_ptr)
builder.store(val[0], field_ptr)
print(f"Assigned to struct field {var_name}.{field_name}")
logger.info(f"Assigned to struct field {var_name}.{field_name}")
return
elif isinstance(rval, ast.Constant):
if isinstance(rval.value, bool):
if rval.value:
builder.store(ir.Constant(ir.IntType(1), 1), local_sym_tab[var_name][0])
builder.store(
ir.Constant(ir.IntType(1), 1), local_sym_tab[var_name].var
)
else:
builder.store(ir.Constant(ir.IntType(1), 0), local_sym_tab[var_name][0])
print(f"Assigned constant {rval.value} to {var_name}")
builder.store(
ir.Constant(ir.IntType(1), 0), local_sym_tab[var_name].var
)
logger.info(f"Assigned constant {rval.value} to {var_name}")
elif isinstance(rval.value, int):
# Assume c_int64 for now
# var = builder.alloca(ir.IntType(64), name=var_name)
# var.align = 8
builder.store(
ir.Constant(ir.IntType(64), rval.value), local_sym_tab[var_name][0]
ir.Constant(ir.IntType(64), rval.value), local_sym_tab[var_name].var
)
# local_sym_tab[var_name] = var
print(f"Assigned constant {rval.value} to {var_name}")
logger.info(f"Assigned constant {rval.value} to {var_name}")
elif isinstance(rval.value, str):
str_val = rval.value.encode("utf-8") + b"\x00"
str_const = ir.Constant(
@ -108,14 +127,14 @@ def handle_assign(
global_str.global_constant = True
global_str.initializer = str_const
str_ptr = builder.bitcast(global_str, ir.PointerType(ir.IntType(8)))
builder.store(str_ptr, local_sym_tab[var_name][0])
print(f"Assigned string constant '{rval.value}' to {var_name}")
builder.store(str_ptr, local_sym_tab[var_name].var)
logger.info(f"Assigned string constant '{rval.value}' to {var_name}")
else:
print("Unsupported constant type")
logger.info("Unsupported constant type")
elif isinstance(rval, ast.Call):
if isinstance(rval.func, ast.Name):
call_type = rval.func.id
print(f"Assignment call type: {call_type}")
logger.info(f"Assignment call type: {call_type}")
if (
call_type in num_types
and len(rval.args) == 1
@ -126,14 +145,13 @@ def handle_assign(
# var = builder.alloca(ir_type, name=var_name)
# var.align = ir_type.width // 8
builder.store(
ir.Constant(ir_type, rval.args[0].value), local_sym_tab[var_name][0]
ir.Constant(ir_type, rval.args[0].value),
local_sym_tab[var_name].var,
)
print(
f"Assigned {call_type} constant "
f"{rval.args[0].value} to {var_name}"
logger.info(
f"Assigned {call_type} constant {rval.args[0].value} to {var_name}"
)
# local_sym_tab[var_name] = var
elif call_type in helper_func_list:
elif HelperHandlerRegistry.has_handler(call_type):
# var = builder.alloca(ir.IntType(64), name=var_name)
# var.align = 8
val = handle_helper_call(
@ -144,13 +162,11 @@ def handle_assign(
local_sym_tab,
map_sym_tab,
structs_sym_tab,
local_var_metadata,
)
builder.store(val[0], local_sym_tab[var_name][0])
# local_sym_tab[var_name] = var
print(f"Assigned constant {rval.func.id} to {var_name}")
builder.store(val[0], local_sym_tab[var_name].var)
logger.info(f"Assigned constant {rval.func.id} to {var_name}")
elif call_type == "deref" and len(rval.args) == 1:
print(f"Handling deref assignment {ast.dump(rval)}")
logger.info(f"Handling deref assignment {ast.dump(rval)}")
val = eval_expr(
func,
module,
@ -161,36 +177,47 @@ def handle_assign(
structs_sym_tab,
)
if val is None:
print("Failed to evaluate deref argument")
logger.info("Failed to evaluate deref argument")
return
print(f"Dereferenced value: {val}, storing in {var_name}")
builder.store(val[0], local_sym_tab[var_name][0])
# local_sym_tab[var_name] = var
print(f"Dereferenced and assigned to {var_name}")
logger.info(f"Dereferenced value: {val}, storing in {var_name}")
builder.store(val[0], local_sym_tab[var_name].var)
logger.info(f"Dereferenced and assigned to {var_name}")
elif call_type in structs_sym_tab and len(rval.args) == 0:
struct_info = structs_sym_tab[call_type]
ir_type = struct_info.ir_type
# var = builder.alloca(ir_type, name=var_name)
# Null init
builder.store(ir.Constant(ir_type, None), local_sym_tab[var_name][0])
local_var_metadata[var_name] = call_type
print(f"Assigned struct {call_type} to {var_name}")
# local_sym_tab[var_name] = var
builder.store(ir.Constant(ir_type, None), local_sym_tab[var_name].var)
logger.info(f"Assigned struct {call_type} to {var_name}")
else:
print(f"Unsupported assignment call type: {call_type}")
logger.info(f"Unsupported assignment call type: {call_type}")
elif isinstance(rval.func, ast.Attribute):
print(f"Assignment call attribute: {ast.dump(rval.func)}")
logger.info(f"Assignment call attribute: {ast.dump(rval.func)}")
if isinstance(rval.func.value, ast.Name):
# TODO: probably a struct access
print(f"TODO STRUCT ACCESS {ast.dump(rval)}")
elif isinstance(rval.func.value, ast.Call) and isinstance(
rval.func.value.func, ast.Name
):
map_name = rval.func.value.func.id
method_name = rval.func.attr
if map_name in map_sym_tab:
map_ptr = map_sym_tab[map_name]
if method_name in helper_func_list:
if rval.func.value.id in map_sym_tab:
map_name = rval.func.value.id
method_name = rval.func.attr
if HelperHandlerRegistry.has_handler(method_name):
val = handle_helper_call(
rval,
module,
builder,
func,
local_sym_tab,
map_sym_tab,
structs_sym_tab,
)
builder.store(val[0], local_sym_tab[var_name].var)
else:
# TODO: probably a struct access
logger.info(f"TODO STRUCT ACCESS {ast.dump(rval)}")
elif isinstance(rval.func.value, ast.Call) and isinstance(
rval.func.value.func, ast.Name
):
map_name = rval.func.value.func.id
method_name = rval.func.attr
if map_name in map_sym_tab:
if HelperHandlerRegistry.has_handler(method_name):
val = handle_helper_call(
rval,
module,
@ -199,97 +226,35 @@ def handle_assign(
local_sym_tab,
map_sym_tab,
structs_sym_tab,
local_var_metadata,
)
# var = builder.alloca(ir.IntType(64), name=var_name)
# var.align = 8
builder.store(val[0], local_sym_tab[var_name][0])
# local_sym_tab[var_name] = var
builder.store(val[0], local_sym_tab[var_name].var)
else:
print("Unsupported assignment call structure")
logger.info("Unsupported assignment call structure")
else:
print("Unsupported assignment call function type")
logger.info("Unsupported assignment call function type")
elif isinstance(rval, ast.BinOp):
handle_binary_op(
rval, module, builder, var_name, local_sym_tab, map_sym_tab, func
)
handle_binary_op(rval, builder, var_name, local_sym_tab)
else:
print("Unsupported assignment value type")
logger.info("Unsupported assignment value type")
def handle_cond(func, module, builder, cond, local_sym_tab, map_sym_tab):
if isinstance(cond, ast.Constant):
if isinstance(cond.value, bool):
return ir.Constant(ir.IntType(1), int(cond.value))
elif isinstance(cond.value, int):
return ir.Constant(ir.IntType(1), int(bool(cond.value)))
else:
print("Unsupported constant type in condition")
return None
elif isinstance(cond, ast.Name):
if cond.id in local_sym_tab:
var = local_sym_tab[cond.id][0]
val = builder.load(var)
if val.type != ir.IntType(1):
# Convert nonzero values to true, zero to false
if isinstance(val.type, ir.PointerType):
# For pointer types, compare with null pointer
zero = ir.Constant(val.type, None)
else:
# For integer types, compare with zero
zero = ir.Constant(val.type, 0)
val = builder.icmp_signed("!=", val, zero)
return val
else:
print(f"Undefined variable {cond.id} in condition")
return None
elif isinstance(cond, ast.Compare):
lhs = eval_expr(func, module, builder, cond.left, local_sym_tab, map_sym_tab)[0]
if len(cond.ops) != 1 or len(cond.comparators) != 1:
print("Unsupported complex comparison")
return None
rhs = eval_expr(
func, module, builder, cond.comparators[0], local_sym_tab, map_sym_tab
)[0]
op = cond.ops[0]
if lhs.type != rhs.type:
if isinstance(lhs.type, ir.IntType) and isinstance(rhs.type, ir.IntType):
# Extend the smaller type to the larger type
if lhs.type.width < rhs.type.width:
lhs = builder.sext(lhs, rhs.type)
elif lhs.type.width > rhs.type.width:
rhs = builder.sext(rhs, lhs.type)
else:
print("Type mismatch in comparison")
return None
if isinstance(op, ast.Eq):
return builder.icmp_signed("==", lhs, rhs)
elif isinstance(op, ast.NotEq):
return builder.icmp_signed("!=", lhs, rhs)
elif isinstance(op, ast.Lt):
return builder.icmp_signed("<", lhs, rhs)
elif isinstance(op, ast.LtE):
return builder.icmp_signed("<=", lhs, rhs)
elif isinstance(op, ast.Gt):
return builder.icmp_signed(">", lhs, rhs)
elif isinstance(op, ast.GtE):
return builder.icmp_signed(">=", lhs, rhs)
else:
print("Unsupported comparison operator")
return None
else:
print("Unsupported condition expression")
return None
def handle_cond(
func, module, builder, cond, local_sym_tab, map_sym_tab, structs_sym_tab=None
):
val = eval_expr(
func, module, builder, cond, local_sym_tab, map_sym_tab, structs_sym_tab
)[0]
return convert_to_bool(builder, val)
def handle_if(
func, module, builder, stmt, map_sym_tab, local_sym_tab, structs_sym_tab=None
):
"""Handle if statements in the function body."""
print("Handling if statement")
start = builder.block.parent
logger.info("Handling if statement")
# start = builder.block.parent
then_block = func.append_basic_block(name="if.then")
merge_block = func.append_basic_block(name="if.end")
if stmt.orelse:
@ -297,7 +262,9 @@ def handle_if(
else:
else_block = None
cond = handle_cond(func, module, builder, stmt.test, local_sym_tab, map_sym_tab)
cond = handle_cond(
func, module, builder, stmt.test, local_sym_tab, map_sym_tab, structs_sym_tab
)
if else_block:
builder.cbranch(cond, then_block, else_block)
else:
@ -330,6 +297,27 @@ def handle_if(
builder.position_at_end(merge_block)
def handle_return(builder, stmt, local_sym_tab, ret_type):
logger.info(f"Handling return statement: {ast.dump(stmt)}")
if stmt.value is None:
return _handle_none_return(builder)
elif isinstance(stmt.value, ast.Name) and _is_xdp_name(stmt.value.id):
return _handle_xdp_return(stmt, builder, ret_type)
else:
val = eval_expr(
func=None,
module=None,
builder=builder,
expr=stmt.value,
local_sym_tab=local_sym_tab,
map_sym_tab={},
structs_sym_tab={},
)
logger.info(f"Evaluated return expression to {val}")
builder.ret(val[0])
return True
def process_stmt(
func,
module,
@ -341,9 +329,8 @@ def process_stmt(
did_return,
ret_type=ir.IntType(64),
):
print(f"Processing statement: {ast.dump(stmt)}")
logger.info(f"Processing statement: {ast.dump(stmt)}")
if isinstance(stmt, ast.Expr):
print(local_var_metadata)
handle_expr(
func,
module,
@ -352,7 +339,6 @@ def process_stmt(
local_sym_tab,
map_sym_tab,
structs_sym_tab,
local_var_metadata,
)
elif isinstance(stmt, ast.Assign):
handle_assign(
@ -365,36 +351,12 @@ def process_stmt(
func, module, builder, stmt, map_sym_tab, local_sym_tab, structs_sym_tab
)
elif isinstance(stmt, ast.Return):
if stmt.value is None:
builder.ret(ir.Constant(ir.IntType(32), 0))
did_return = True
elif (
isinstance(stmt.value, ast.Call)
and isinstance(stmt.value.func, ast.Name)
and len(stmt.value.args) == 1
and isinstance(stmt.value.args[0], ast.Constant)
and isinstance(stmt.value.args[0].value, int)
):
call_type = stmt.value.func.id
if ctypes_to_ir(call_type) != ret_type:
raise ValueError(
"Return type mismatch: expected"
f"{ctypes_to_ir(call_type)}, got {call_type}"
)
else:
builder.ret(ir.Constant(ret_type, stmt.value.args[0].value))
did_return = True
elif isinstance(stmt.value, ast.Name):
if stmt.value.id == "XDP_PASS":
builder.ret(ir.Constant(ret_type, 2))
did_return = True
elif stmt.value.id == "XDP_DROP":
builder.ret(ir.Constant(ret_type, 1))
did_return = True
else:
raise ValueError("Failed to evaluate return expression")
else:
raise ValueError("Unsupported return value")
did_return = handle_return(
builder,
stmt,
local_sym_tab,
ret_type,
)
return did_return
@ -402,6 +364,7 @@ def allocate_mem(
module, builder, body, func, ret_type, map_sym_tab, local_sym_tab, structs_sym_tab
):
for stmt in body:
has_metadata = False
if isinstance(stmt, ast.If):
if stmt.body:
local_sym_tab = allocate_mem(
@ -427,14 +390,17 @@ def allocate_mem(
)
elif isinstance(stmt, ast.Assign):
if len(stmt.targets) != 1:
print("Unsupported multiassignment")
logger.info("Unsupported multiassignment")
continue
target = stmt.targets[0]
if not isinstance(target, ast.Name):
print("Unsupported assignment target")
logger.info("Unsupported assignment target")
continue
var_name = target.id
rval = stmt.value
if var_name in local_sym_tab:
logger.info(f"Variable {var_name} already allocated")
continue
if isinstance(rval, ast.Call):
if isinstance(rval.func, ast.Name):
call_type = rval.func.id
@ -442,65 +408,71 @@ def allocate_mem(
ir_type = ctypes_to_ir(call_type)
var = builder.alloca(ir_type, name=var_name)
var.align = ir_type.width // 8
print(f"Pre-allocated variable {var_name} of type {call_type}")
elif call_type in helper_func_list:
logger.info(
f"Pre-allocated variable {var_name} of type {call_type}"
)
elif HelperHandlerRegistry.has_handler(call_type):
# Assume return type is int64 for now
ir_type = ir.IntType(64)
var = builder.alloca(ir_type, name=var_name)
var.align = ir_type.width // 8
print(f"Pre-allocated variable {var_name} for helper")
logger.info(f"Pre-allocated variable {var_name} for helper")
elif call_type == "deref" and len(rval.args) == 1:
# Assume return type is int64 for now
ir_type = ir.IntType(64)
var = builder.alloca(ir_type, name=var_name)
var.align = ir_type.width // 8
print(f"Pre-allocated variable {var_name} for deref")
logger.info(f"Pre-allocated variable {var_name} for deref")
elif call_type in structs_sym_tab:
struct_info = structs_sym_tab[call_type]
ir_type = struct_info.ir_type
var = builder.alloca(ir_type, name=var_name)
local_var_metadata[var_name] = call_type
print(
has_metadata = True
logger.info(
f"Pre-allocated variable {var_name} for struct {call_type}"
)
elif isinstance(rval.func, ast.Attribute):
ir_type = ir.PointerType(ir.IntType(64))
var = builder.alloca(ir_type, name=var_name)
# var.align = ir_type.width // 8
print(f"Pre-allocated variable {var_name} for map")
logger.info(f"Pre-allocated variable {var_name} for map")
else:
print("Unsupported assignment call function type")
logger.info("Unsupported assignment call function type")
continue
elif isinstance(rval, ast.Constant):
if isinstance(rval.value, bool):
ir_type = ir.IntType(1)
var = builder.alloca(ir_type, name=var_name)
var.align = 1
print(f"Pre-allocated variable {var_name} of type c_bool")
logger.info(f"Pre-allocated variable {var_name} of type c_bool")
elif isinstance(rval.value, int):
# Assume c_int64 for now
ir_type = ir.IntType(64)
var = builder.alloca(ir_type, name=var_name)
var.align = ir_type.width // 8
print(f"Pre-allocated variable {var_name} of type c_int64")
logger.info(f"Pre-allocated variable {var_name} of type c_int64")
elif isinstance(rval.value, str):
ir_type = ir.PointerType(ir.IntType(8))
var = builder.alloca(ir_type, name=var_name)
var.align = 8
print(f"Pre-allocated variable {var_name} of type string")
logger.info(f"Pre-allocated variable {var_name} of type string")
else:
print("Unsupported constant type")
logger.info("Unsupported constant type")
continue
elif isinstance(rval, ast.BinOp):
# Assume c_int64 for now
ir_type = ir.IntType(64)
var = builder.alloca(ir_type, name=var_name)
var.align = ir_type.width // 8
print(f"Pre-allocated variable {var_name} of type c_int64")
logger.info(f"Pre-allocated variable {var_name} of type c_int64")
else:
print("Unsupported assignment value type")
logger.info("Unsupported assignment value type")
continue
local_sym_tab[var_name] = (var, ir_type)
if has_metadata:
local_sym_tab[var_name] = LocalSymbol(var, ir_type, call_type)
else:
local_sym_tab[var_name] = LocalSymbol(var, ir_type)
return local_sym_tab
@ -525,7 +497,7 @@ def process_func_body(
structs_sym_tab,
)
print(f"Local symbol table: {local_sym_tab.keys()}")
logger.info(f"Local symbol table: {local_sym_tab.keys()}")
for stmt in func_node.body:
did_return = process_stmt(
@ -541,7 +513,7 @@ def process_func_body(
)
if not did_return:
builder.ret(ir.Constant(ir.IntType(32), 0))
builder.ret(ir.Constant(ir.IntType(64), 0))
def process_bpf_chunk(func_node, module, return_type, map_sym_tab, structs_sym_tab):
@ -597,7 +569,7 @@ def func_proc(tree, module, chunks, map_sym_tab, structs_sym_tab):
if is_global:
continue
func_type = get_probe_string(func_node)
print(f"Found probe_string of {func_node.name}: {func_type}")
logger.info(f"Found probe_string of {func_node.name}: {func_type}")
process_bpf_chunk(
func_node,
@ -656,13 +628,13 @@ def infer_return_type(func_node: ast.FunctionDef):
except Exception:
return type(e).__name__
for node in ast.walk(func_node):
if isinstance(node, ast.Return):
t = _expr_type(node.value)
for walked_node in ast.walk(func_node):
if isinstance(walked_node, ast.Return):
t = _expr_type(walked_node.value)
if found_type is None:
found_type = t
elif found_type != t:
raise ValueError("Conflicting return types:" f"{found_type} vs {t}")
raise ValueError(f"Conflicting return types: {found_type} vs {t}")
return found_type or "None"
@ -674,7 +646,7 @@ def assign_string_to_array(builder, target_array_ptr, source_string_ptr, array_l
Copy a string (i8*) to a fixed-size array ([N x i8]*)
"""
# Create a loop to copy characters one by one
entry_block = builder.block
# entry_block = builder.block
copy_block = builder.append_basic_block("copy_char")
end_block = builder.append_basic_block("copy_end")

45
pythonbpf/functions/return_utils.py Normal file
View File

@ -0,0 +1,45 @@
import logging
import ast
from llvmlite import ir
logger: logging.Logger = logging.getLogger(__name__)
XDP_ACTIONS = {
"XDP_ABORTED": 0,
"XDP_DROP": 1,
"XDP_PASS": 2,
"XDP_TX": 3,
"XDP_REDIRECT": 4,
}
def _handle_none_return(builder) -> bool:
"""Handle return or return None -> returns 0."""
builder.ret(ir.Constant(ir.IntType(64), 0))
logger.debug("Generated default return: 0")
return True
def _is_xdp_name(name: str) -> bool:
"""Check if a name is an XDP action"""
return name in XDP_ACTIONS
def _handle_xdp_return(stmt: ast.Return, builder, ret_type) -> bool:
"""Handle XDP returns"""
if not isinstance(stmt.value, ast.Name):
return False
action_name = stmt.value.id
if action_name not in XDP_ACTIONS:
raise ValueError(
f"Unknown XDP action: {action_name}. Available: {XDP_ACTIONS.keys()}"
)
return False
value = XDP_ACTIONS[action_name]
builder.ret(ir.Constant(ret_type, value))
logger.debug(f"Generated XDP action return: {action_name} = {value}")
return True

13
pythonbpf/helper/__init__.py Normal file
View File

@ -0,0 +1,13 @@
from .helper_utils import HelperHandlerRegistry
from .bpf_helper_handler import handle_helper_call
from .helpers import ktime, pid, deref, XDP_DROP, XDP_PASS
__all__ = [
"HelperHandlerRegistry",
"handle_helper_call",
"ktime",
"pid",
"deref",
"XDP_DROP",
"XDP_PASS",
]

347
pythonbpf/helper/bpf_helper_handler.py Normal file
View File

@ -0,0 +1,347 @@
import ast
from llvmlite import ir
from enum import Enum
from .helper_utils import (
HelperHandlerRegistry,
get_or_create_ptr_from_arg,
get_flags_val,
handle_fstring_print,
simple_string_print,
get_data_ptr_and_size,
)
from logging import Logger
import logging
logger: Logger = logging.getLogger(__name__)
class BPFHelperID(Enum):
BPF_MAP_LOOKUP_ELEM = 1
BPF_MAP_UPDATE_ELEM = 2
BPF_MAP_DELETE_ELEM = 3
BPF_KTIME_GET_NS = 5
BPF_PRINTK = 6
BPF_GET_CURRENT_PID_TGID = 14
BPF_PERF_EVENT_OUTPUT = 25
@HelperHandlerRegistry.register("ktime")
def bpf_ktime_get_ns_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
):
"""
Emit LLVM IR for bpf_ktime_get_ns helper function call.
"""
# func is an arg to just have a uniform signature with other emitters
helper_id = ir.Constant(ir.IntType(64), BPFHelperID.BPF_KTIME_GET_NS.value)
fn_type = ir.FunctionType(ir.IntType(64), [], var_arg=False)
fn_ptr_type = ir.PointerType(fn_type)
fn_ptr = builder.inttoptr(helper_id, fn_ptr_type)
result = builder.call(fn_ptr, [], tail=False)
return result, ir.IntType(64)
@HelperHandlerRegistry.register("lookup")
def bpf_map_lookup_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
):
"""
Emit LLVM IR for bpf_map_lookup_elem helper function call.
"""
if not call.args or len(call.args) != 1:
raise ValueError(
f"Map lookup expects exactly one argument (key), got {len(call.args)}"
)
key_ptr = get_or_create_ptr_from_arg(call.args[0], builder, local_sym_tab)
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
fn_type = ir.FunctionType(
ir.PointerType(), # Return type: void*
[ir.PointerType(), ir.PointerType()], # Args: (void*, void*)
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_MAP_LOOKUP_ELEM.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
result = builder.call(fn_ptr, [map_void_ptr, key_ptr], tail=False)
return result, ir.PointerType()
@HelperHandlerRegistry.register("print")
def bpf_printk_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
):
"""Emit LLVM IR for bpf_printk helper function call."""
if not hasattr(func, "_fmt_counter"):
func._fmt_counter = 0
if not call.args:
raise ValueError("bpf_printk expects at least one argument (format string)")
args = []
if isinstance(call.args[0], ast.JoinedStr):
args = handle_fstring_print(
call.args[0],
module,
builder,
func,
local_sym_tab,
struct_sym_tab,
)
elif isinstance(call.args[0], ast.Constant) and isinstance(call.args[0].value, str):
# TODO: We are only supporting single arguments for now.
# In case of multiple args, the first one will be taken.
args = simple_string_print(call.args[0].value, module, builder, func)
else:
raise NotImplementedError(
"Only simple strings or f-strings are supported in bpf_printk."
)
fn_type = ir.FunctionType(
ir.IntType(64), [ir.PointerType(), ir.IntType(32)], var_arg=True
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_PRINTK.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
builder.call(fn_ptr, args, tail=True)
return None
@HelperHandlerRegistry.register("update")
def bpf_map_update_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
):
"""
Emit LLVM IR for bpf_map_update_elem helper function call.
Expected call signature: map.update(key, value, flags=0)
"""
if not call.args or len(call.args) < 2 or len(call.args) > 3:
raise ValueError(
f"Map update expects 2 or 3 args (key, value, flags), got {len(call.args)}"
)
key_arg = call.args[0]
value_arg = call.args[1]
flags_arg = call.args[2] if len(call.args) > 2 else None
key_ptr = get_or_create_ptr_from_arg(key_arg, builder, local_sym_tab)
value_ptr = get_or_create_ptr_from_arg(value_arg, builder, local_sym_tab)
flags_val = get_flags_val(flags_arg, builder, local_sym_tab)
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
fn_type = ir.FunctionType(
ir.IntType(64),
[ir.PointerType(), ir.PointerType(), ir.PointerType(), ir.IntType(64)],
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_MAP_UPDATE_ELEM.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
if isinstance(flags_val, int):
flags_const = ir.Constant(ir.IntType(64), flags_val)
else:
flags_const = flags_val
result = builder.call(
fn_ptr, [map_void_ptr, key_ptr, value_ptr, flags_const], tail=False
)
return result, None
@HelperHandlerRegistry.register("delete")
def bpf_map_delete_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
):
"""
Emit LLVM IR for bpf_map_delete_elem helper function call.
Expected call signature: map.delete(key)
"""
if not call.args or len(call.args) != 1:
raise ValueError(
f"Map delete expects exactly one argument (key), got {len(call.args)}"
)
key_ptr = get_or_create_ptr_from_arg(call.args[0], builder, local_sym_tab)
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
# Define function type for bpf_map_delete_elem
fn_type = ir.FunctionType(
ir.IntType(64), # Return type: int64 (status code)
[ir.PointerType(), ir.PointerType()], # Args: (void*, void*)
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_MAP_DELETE_ELEM.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
result = builder.call(fn_ptr, [map_void_ptr, key_ptr], tail=False)
return result, None
@HelperHandlerRegistry.register("pid")
def bpf_get_current_pid_tgid_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
):
"""
Emit LLVM IR for bpf_get_current_pid_tgid helper function call.
"""
# func is an arg to just have a uniform signature with other emitters
helper_id = ir.Constant(ir.IntType(64), BPFHelperID.BPF_GET_CURRENT_PID_TGID.value)
fn_type = ir.FunctionType(ir.IntType(64), [], var_arg=False)
fn_ptr_type = ir.PointerType(fn_type)
fn_ptr = builder.inttoptr(helper_id, fn_ptr_type)
result = builder.call(fn_ptr, [], tail=False)
# Extract the lower 32 bits (PID) using bitwise AND with 0xFFFFFFFF
mask = ir.Constant(ir.IntType(64), 0xFFFFFFFF)
pid = builder.and_(result, mask)
return pid, ir.IntType(64)
@HelperHandlerRegistry.register("output")
def bpf_perf_event_output_handler(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
):
if len(call.args) != 1:
raise ValueError(
f"Perf event output expects exactly one argument, got {len(call.args)}"
)
data_arg = call.args[0]
ctx_ptr = func.args[0] # First argument to the function is ctx
data_ptr, size_val = get_data_ptr_and_size(data_arg, local_sym_tab, struct_sym_tab)
# BPF_F_CURRENT_CPU is -1 in 32 bit
flags_val = ir.Constant(ir.IntType(64), 0xFFFFFFFF)
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
data_void_ptr = builder.bitcast(data_ptr, ir.PointerType())
fn_type = ir.FunctionType(
ir.IntType(64),
[
ir.PointerType(ir.IntType(8)),
ir.PointerType(),
ir.IntType(64),
ir.PointerType(),
ir.IntType(64),
],
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
# helper id
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_PERF_EVENT_OUTPUT.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
result = builder.call(
fn_ptr, [ctx_ptr, map_void_ptr, flags_val, data_void_ptr, size_val], tail=False
)
return result, None
def handle_helper_call(
call,
module,
builder,
func,
local_sym_tab=None,
map_sym_tab=None,
struct_sym_tab=None,
):
"""Process a BPF helper function call and emit the appropriate LLVM IR."""
# Helper function to get map pointer and invoke handler
def invoke_helper(method_name, map_ptr=None):
handler = HelperHandlerRegistry.get_handler(method_name)
if not handler:
raise NotImplementedError(
f"Helper function '{method_name}' is not implemented."
)
return handler(
call,
map_ptr,
module,
builder,
func,
local_sym_tab,
struct_sym_tab,
)
# Handle direct function calls (e.g., print(), ktime())
if isinstance(call.func, ast.Name):
return invoke_helper(call.func.id)
# Handle method calls (e.g., map.lookup(), map.update())
elif isinstance(call.func, ast.Attribute):
method_name = call.func.attr
value = call.func.value
logger.info(f"Handling method call: {ast.dump(call.func)}")
# Get map pointer from different styles of map access
if isinstance(value, ast.Call) and isinstance(value.func, ast.Name):
# Func style: my_map().lookup(key)
map_name = value.func.id
elif isinstance(value, ast.Name):
# Direct style: my_map.lookup(key)
map_name = value.id
else:
raise NotImplementedError(
f"Unsupported map access pattern: {ast.dump(value)}"
)
# Verify map exists and get pointer
if not map_sym_tab or map_name not in map_sym_tab:
raise ValueError(f"Map '{map_name}' not found in symbol table")
return invoke_helper(method_name, map_sym_tab[map_name])
return None

307
pythonbpf/helper/helper_utils.py Normal file
View File

@ -0,0 +1,307 @@
import ast
import logging
from collections.abc import Callable
from llvmlite import ir
from pythonbpf.expr import eval_expr
logger = logging.getLogger(__name__)
class HelperHandlerRegistry:
"""Registry for BPF helpers"""
_handlers: dict[str, Callable] = {}
@classmethod
def register(cls, helper_name):
"""Decorator to register a handler function for a helper"""
def decorator(func):
cls._handlers[helper_name] = func
return func
return decorator
@classmethod
def get_handler(cls, helper_name):
"""Get the handler function for a helper"""
return cls._handlers.get(helper_name)
@classmethod
def has_handler(cls, helper_name):
"""Check if a handler function is registered for a helper"""
return helper_name in cls._handlers
def get_var_ptr_from_name(var_name, local_sym_tab):
"""Get a pointer to a variable from the symbol table."""
if local_sym_tab and var_name in local_sym_tab:
return local_sym_tab[var_name].var
raise ValueError(f"Variable '{var_name}' not found in local symbol table")
def create_int_constant_ptr(value, builder, int_width=64):
"""Create a pointer to an integer constant."""
# Default to 64-bit integer
int_type = ir.IntType(int_width)
ptr = builder.alloca(int_type)
ptr.align = int_type.width // 8
builder.store(ir.Constant(int_type, value), ptr)
return ptr
def get_or_create_ptr_from_arg(arg, builder, local_sym_tab):
"""Extract or create pointer from the call arguments."""
if isinstance(arg, ast.Name):
ptr = get_var_ptr_from_name(arg.id, local_sym_tab)
elif isinstance(arg, ast.Constant) and isinstance(arg.value, int):
ptr = create_int_constant_ptr(arg.value, builder)
else:
raise NotImplementedError(
"Only simple variable names are supported as args in map helpers."
)
return ptr
def get_flags_val(arg, builder, local_sym_tab):
"""Extract or create flags value from the call arguments."""
if not arg:
return 0
if isinstance(arg, ast.Name):
if local_sym_tab and arg.id in local_sym_tab:
flags_ptr = local_sym_tab[arg.id].var
return builder.load(flags_ptr)
else:
raise ValueError(f"Variable '{arg.id}' not found in local symbol table")
elif isinstance(arg, ast.Constant) and isinstance(arg.value, int):
return arg.value
raise NotImplementedError(
"Only var names or int consts are supported as map helpers flags."
)
def simple_string_print(string_value, module, builder, func):
"""Prepare arguments for bpf_printk from a simple string value"""
fmt_str = string_value + "\n\0"
fmt_ptr = _create_format_string_global(fmt_str, func, module, builder)
args = [fmt_ptr, ir.Constant(ir.IntType(32), len(fmt_str))]
return args
def handle_fstring_print(
joined_str,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
):
"""Handle f-string formatting for bpf_printk emitter."""
fmt_parts = []
exprs = []
for value in joined_str.values:
logger.debug(f"Processing f-string value: {ast.dump(value)}")
if isinstance(value, ast.Constant):
_process_constant_in_fstring(value, fmt_parts, exprs)
elif isinstance(value, ast.FormattedValue):
_process_fval(
value,
fmt_parts,
exprs,
local_sym_tab,
struct_sym_tab,
)
else:
raise NotImplementedError(f"Unsupported f-string value type: {type(value)}")
fmt_str = "".join(fmt_parts)
args = simple_string_print(fmt_str, module, builder, func)
# NOTE: Process expressions (limited to 3 due to BPF constraints)
if len(exprs) > 3:
logger.warning("bpf_printk supports up to 3 args, extra args will be ignored.")
for expr in exprs[:3]:
arg_value = _prepare_expr_args(
expr,
func,
module,
builder,
local_sym_tab,
struct_sym_tab,
)
args.append(arg_value)
return args
def _process_constant_in_fstring(cst, fmt_parts, exprs):
"""Process constant values in f-string."""
if isinstance(cst.value, str):
fmt_parts.append(cst.value)
elif isinstance(cst.value, int):
fmt_parts.append("%lld")
exprs.append(ir.Constant(ir.IntType(64), cst.value))
else:
raise NotImplementedError(
f"Unsupported constant type in f-string: {type(cst.value)}"
)
def _process_fval(fval, fmt_parts, exprs, local_sym_tab, struct_sym_tab):
"""Process formatted values in f-string."""
logger.debug(f"Processing formatted value: {ast.dump(fval)}")
if isinstance(fval.value, ast.Name):
_process_name_in_fval(fval.value, fmt_parts, exprs, local_sym_tab)
elif isinstance(fval.value, ast.Attribute):
_process_attr_in_fval(
fval.value,
fmt_parts,
exprs,
local_sym_tab,
struct_sym_tab,
)
else:
raise NotImplementedError(
f"Unsupported formatted value in f-string: {type(fval.value)}"
)
def _process_name_in_fval(name_node, fmt_parts, exprs, local_sym_tab):
"""Process name nodes in formatted values."""
if local_sym_tab and name_node.id in local_sym_tab:
_, var_type, tmp = local_sym_tab[name_node.id]
_populate_fval(var_type, name_node, fmt_parts, exprs)
def _process_attr_in_fval(attr_node, fmt_parts, exprs, local_sym_tab, struct_sym_tab):
"""Process attribute nodes in formatted values."""
if (
isinstance(attr_node.value, ast.Name)
and local_sym_tab
and attr_node.value.id in local_sym_tab
):
var_name = attr_node.value.id
field_name = attr_node.attr
var_type = local_sym_tab[var_name].metadata
if var_type not in struct_sym_tab:
raise ValueError(
f"Struct '{var_type}' for '{var_name}' not in symbol table"
)
struct_info = struct_sym_tab[var_type]
if field_name not in struct_info.fields:
raise ValueError(f"Field '{field_name}' not found in struct '{var_type}'")
field_type = struct_info.field_type(field_name)
_populate_fval(field_type, attr_node, fmt_parts, exprs)
else:
raise NotImplementedError(
"Only simple attribute on local vars is supported in f-strings."
)
def _populate_fval(ftype, node, fmt_parts, exprs):
"""Populate format parts and expressions based on field type."""
if isinstance(ftype, ir.IntType):
# TODO: We print as signed integers only for now
if ftype.width == 64:
fmt_parts.append("%lld")
exprs.append(node)
elif ftype.width == 32:
fmt_parts.append("%d")
exprs.append(node)
else:
raise NotImplementedError(
f"Unsupported integer width in f-string: {ftype.width}"
)
elif ftype == ir.PointerType(ir.IntType(8)):
# NOTE: We assume i8* is a string
fmt_parts.append("%s")
exprs.append(node)
else:
raise NotImplementedError(f"Unsupported field type in f-string: {ftype}")
def _create_format_string_global(fmt_str, func, module, builder):
"""Create a global variable for the format string."""
fmt_name = f"{func.name}____fmt{func._fmt_counter}"
func._fmt_counter += 1
fmt_gvar = ir.GlobalVariable(
module, ir.ArrayType(ir.IntType(8), len(fmt_str)), name=fmt_name
)
fmt_gvar.global_constant = True
fmt_gvar.initializer = ir.Constant(
ir.ArrayType(ir.IntType(8), len(fmt_str)), bytearray(fmt_str.encode("utf8"))
)
fmt_gvar.linkage = "internal"
fmt_gvar.align = 1
return builder.bitcast(fmt_gvar, ir.PointerType())
def _prepare_expr_args(expr, func, module, builder, local_sym_tab, struct_sym_tab):
"""Evaluate and prepare an expression to use as an arg for bpf_printk."""
val, _ = eval_expr(
func,
module,
builder,
expr,
local_sym_tab,
None,
struct_sym_tab,
)
if val:
if isinstance(val.type, ir.PointerType):
val = builder.ptrtoint(val, ir.IntType(64))
elif isinstance(val.type, ir.IntType):
if val.type.width < 64:
val = builder.sext(val, ir.IntType(64))
else:
logger.warning(
"Only int and ptr supported in bpf_printk args. Others default to 0."
)
val = ir.Constant(ir.IntType(64), 0)
return val
else:
logger.warning(
"Failed to evaluate expression for bpf_printk argument. "
"It will be converted to 0."
)
return ir.Constant(ir.IntType(64), 0)
def get_data_ptr_and_size(data_arg, local_sym_tab, struct_sym_tab):
"""Extract data pointer and size information for perf event output."""
if isinstance(data_arg, ast.Name):
data_name = data_arg.id
if local_sym_tab and data_name in local_sym_tab:
data_ptr = local_sym_tab[data_name].var
else:
raise ValueError(
f"Data variable {data_name} not found in local symbol table."
)
# Check if data_name is a struct
data_type = local_sym_tab[data_name].metadata
if data_type in struct_sym_tab:
struct_info = struct_sym_tab[data_type]
size_val = ir.Constant(ir.IntType(64), struct_info.size)
return data_ptr, size_val
else:
raise ValueError(f"Struct {data_type} for {data_name} not in symbol table.")
else:
raise NotImplementedError(
"Only simple object names are supported as data in perf event output."
)

0
pythonbpf/helpers.py → pythonbpf/helper/helpers.py
View File

8
pythonbpf/license_pass.py
View File

@ -1,5 +1,9 @@
from llvmlite import ir
import ast
from logging import Logger
import logging
logger: Logger = logging.getLogger(__name__)
def emit_license(module: ir.Module, license_str: str):
@ -41,9 +45,9 @@ def license_processing(tree, module):
emit_license(module, node.body[0].value.value)
return "LICENSE"
else:
print("ERROR: LICENSE() must return a string literal")
logger.info("ERROR: LICENSE() must return a string literal")
return None
else:
print("ERROR: LICENSE already defined")
logger.info("ERROR: LICENSE already defined")
return None
return None

4
pythonbpf/maps/__init__.py
View File

@ -1,2 +1,4 @@
from .maps import HashMap, PerfEventArray
from .maps import HashMap, PerfEventArray, RingBuf
from .maps_pass import maps_proc
__all__ = ["HashMap", "PerfEventArray", "maps_proc", "RingBuf"]

16
pythonbpf/maps/maps.py
View File

@ -1,3 +1,4 @@
# This file provides type and function hints only and does not actually give any functionality.
class HashMap:
def __init__(self, key, value, max_entries):
self.key = key
@ -33,3 +34,18 @@ class PerfEventArray:
def output(self, data):
pass # Placeholder for output method
class RingBuf:
def __init__(self, max_entries):
self.max_entries = max_entries
def reserve(self, size: int, flags=0):
if size > self.max_entries:
raise ValueError("size cannot be greater than set maximum entries")
return 0
def submit(self, data, flags=0):
pass
# add discard, output and also give names to flags and stuff

102
pythonbpf/maps/maps_pass.py
View File

@ -1,11 +1,12 @@
import ast
from logging import Logger
from llvmlite import ir
from enum import Enum
from .maps_utils import MapProcessorRegistry
from ..debuginfo import DebugInfoGenerator
from pythonbpf.debuginfo import DebugInfoGenerator
import logging
logger = logging.getLogger(__name__)
logger: Logger = logging.getLogger(__name__)
def maps_proc(tree, module, chunks):
@ -13,7 +14,7 @@ def maps_proc(tree, module, chunks):
map_sym_tab = {}
for func_node in chunks:
if is_map(func_node):
print(f"Found BPF map: {func_node.name}")
logger.info(f"Found BPF map: {func_node.name}")
map_sym_tab[func_node.name] = process_bpf_map(func_node, module)
return map_sym_tab
@ -26,8 +27,41 @@ def is_map(func_node):
class BPFMapType(Enum):
UNSPEC = 0
HASH = 1
ARRAY = 2
PROG_ARRAY = 3
PERF_EVENT_ARRAY = 4
PERCPU_HASH = 5
PERCPU_ARRAY = 6
STACK_TRACE = 7
CGROUP_ARRAY = 8
LRU_HASH = 9
LRU_PERCPU_HASH = 10
LPM_TRIE = 11
ARRAY_OF_MAPS = 12
HASH_OF_MAPS = 13
DEVMAP = 14
SOCKMAP = 15
CPUMAP = 16
XSKMAP = 17
SOCKHASH = 18
CGROUP_STORAGE_DEPRECATED = 19
CGROUP_STORAGE = 19
REUSEPORT_SOCKARRAY = 20
PERCPU_CGROUP_STORAGE_DEPRECATED = 21
PERCPU_CGROUP_STORAGE = 21
QUEUE = 22
STACK = 23
SK_STORAGE = 24
DEVMAP_HASH = 25
STRUCT_OPS = 26
RINGBUF = 27
INODE_STORAGE = 28
TASK_STORAGE = 29
BLOOM_FILTER = 30
USER_RINGBUF = 31
CGRP_STORAGE = 32
def create_bpf_map(module, map_name, map_params):
@ -51,13 +85,13 @@ def create_bpf_map(module, map_name, map_params):
def create_map_debug_info(module, map_global, map_name, map_params):
"""Generate debug information metadata for BPF map"""
"""Generate debug info metadata for BPF maps HASH and PERF_EVENT_ARRAY"""
generator = DebugInfoGenerator(module)
uint_type = generator.get_uint32_type()
ulong_type = generator.get_uint64_type()
array_type = generator.create_array_type(
uint_type, map_params.get("type", BPFMapType.HASH).value
uint_type, map_params.get("type", BPFMapType.UNSPEC).value
)
type_ptr = generator.create_pointer_type(array_type, 64)
key_ptr = generator.create_pointer_type(
@ -112,6 +146,60 @@ def create_map_debug_info(module, map_global, map_name, map_params):
return global_var
def create_ringbuf_debug_info(module, map_global, map_name, map_params):
"""Generate debug information metadata for BPF RINGBUF map"""
generator = DebugInfoGenerator(module)
int_type = generator.get_int32_type()
type_array = generator.create_array_type(
int_type, map_params.get("type", BPFMapType.RINGBUF).value
)
type_ptr = generator.create_pointer_type(type_array, 64)
type_member = generator.create_struct_member("type", type_ptr, 0)
max_entries_array = generator.create_array_type(int_type, map_params["max_entries"])
max_entries_ptr = generator.create_pointer_type(max_entries_array, 64)
max_entries_member = generator.create_struct_member(
"max_entries", max_entries_ptr, 64
)
elements_arr = [type_member, max_entries_member]
struct_type = generator.create_struct_type(elements_arr, 128, is_distinct=True)
global_var = generator.create_global_var_debug_info(
map_name, struct_type, is_local=False
)
map_global.set_metadata("dbg", global_var)
return global_var
@MapProcessorRegistry.register("RingBuf")
def process_ringbuf_map(map_name, rval, module):
"""Process a BPF_RINGBUF map declaration"""
logger.info(f"Processing Ringbuf: {map_name}")
map_params = {"type": BPFMapType.RINGBUF}
# Parse max_entries if present
if len(rval.args) >= 1 and isinstance(rval.args[0], ast.Constant):
const_val = rval.args[0].value
if isinstance(const_val, int):
map_params["max_entries"] = const_val
for keyword in rval.keywords:
if keyword.arg == "max_entries" and isinstance(keyword.value, ast.Constant):
const_val = keyword.value.value
if isinstance(const_val, int):
map_params["max_entries"] = const_val
logger.info(f"Ringbuf map parameters: {map_params}")
map_global = create_bpf_map(module, map_name, map_params)
create_ringbuf_debug_info(module, map_global, map_name, map_params)
return map_global
@MapProcessorRegistry.register("HashMap")
def process_hash_map(map_name, rval, module):
"""Process a BPF_HASH map declaration"""
@ -190,9 +278,7 @@ def process_bpf_map(func_node, module):
if handler:
return handler(map_name, rval, module)
else:
logger.warning(
f"Unknown map type " f"{rval.func.id}, defaulting to HashMap"
)
logger.warning(f"Unknown map type {rval.func.id}, defaulting to HashMap")
return process_hash_map(map_name, rval, module)
else:
raise ValueError("Function under @map must return a map")

6
pythonbpf/maps/maps_utils.py
View File

@ -1,7 +1,11 @@
from collections.abc import Callable
from typing import Any
class MapProcessorRegistry:
"""Registry for map processor functions"""
_processors = {}
_processors: dict[str, Callable[..., Any]] = {}
@classmethod
def register(cls, map_type_name):

2
pythonbpf/structs/__init__.py
View File

@ -1 +1,3 @@
from .structs_pass import structs_proc
__all__ = ["structs_proc"]

2
pythonbpf/structs/structs_pass.py
View File

@ -19,7 +19,7 @@ def structs_proc(tree, module, chunks):
structs_sym_tab = {}
for cls_node in chunks:
if is_bpf_struct(cls_node):
print(f"Found BPF struct: {cls_node.name}")
logger.info(f"Found BPF struct: {cls_node.name}")
struct_info = process_bpf_struct(cls_node, module)
structs_sym_tab[cls_node.name] = struct_info
return structs_sym_tab

34
pythonbpf/type_deducer.py
View File

@ -1,24 +1,28 @@
from llvmlite import ir
# TODO: THIS IS NOT SUPPOSED TO MATCH STRINGS :skull:
mapping = {
"c_int8": ir.IntType(8),
"c_uint8": ir.IntType(8),
"c_int16": ir.IntType(16),
"c_uint16": ir.IntType(16),
"c_int32": ir.IntType(32),
"c_uint32": ir.IntType(32),
"c_int64": ir.IntType(64),
"c_uint64": ir.IntType(64),
"c_float": ir.FloatType(),
"c_double": ir.DoubleType(),
"c_void_p": ir.IntType(64),
# Not so sure about this one
"str": ir.PointerType(ir.IntType(8)),
}
def ctypes_to_ir(ctype: str):
mapping = {
"c_int8": ir.IntType(8),
"c_uint8": ir.IntType(8),
"c_int16": ir.IntType(16),
"c_uint16": ir.IntType(16),
"c_int32": ir.IntType(32),
"c_uint32": ir.IntType(32),
"c_int64": ir.IntType(64),
"c_uint64": ir.IntType(64),
"c_float": ir.FloatType(),
"c_double": ir.DoubleType(),
"c_void_p": ir.IntType(64),
# Not so sure about this one
"str": ir.PointerType(ir.IntType(8)),
}
if ctype in mapping:
return mapping[ctype]
raise NotImplementedError(f"No mapping for {ctype}")
def is_ctypes(ctype: str) -> bool:
return ctype in mapping

47
tests/c-form/ex8.bpf.c
View File

@ -1,47 +0,0 @@
// SPDX-License-Identifier: GPL-2.0
#include <linux/bpf.h>
#include <bpf/bpf_helpers.h>
#include <bpf/bpf_tracing.h>
#include <linux/blkdev.h>
#define __TARGET_ARCH_aarch64
#define u64 unsigned long long
struct {
__uint(type, BPF_MAP_TYPE_HASH);
__uint(max_entries, 10240);
__type(key, struct request *);
__type(value, u64);
} start SEC(".maps");
SEC("kprobe/blk_start_request")
int BPF_KPROBE(trace_start_req, struct request *req)
{
u64 ts = bpf_ktime_get_ns();
bpf_map_update_elem(&start, &req, &ts, BPF_ANY);
return 0;
}
SEC("kprobe/blk_mq_start_request")
int BPF_KPROBE(trace_start_mq, struct request *req)
{
u64 ts = bpf_ktime_get_ns();
bpf_map_update_elem(&start, &req, &ts, BPF_ANY);
return 0;
}
SEC("kprobe/blk_account_io_completion")
int BPF_KPROBE(trace_completion, struct request *req)
{
u64 *tsp, delta;
tsp = bpf_map_lookup_elem(&start, &req);
if (tsp) {
delta = bpf_ktime_get_ns() - *tsp;
bpf_printk("%d %x %d\n", req->__data_len,
req->cmd_flags, delta / 1000);
bpf_map_delete_elem(&start, &req);
}
return 0;
}
char LICENSE[] SEC("license") = "GPL";

51
tests/c-form/ringbuf.bpf.c Normal file
View File

@ -0,0 +1,51 @@
// SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause
#include <linux/bpf.h>
#include <bpf/bpf_helpers.h>
#include <bpf/bpf_tracing.h>
#include <linux/types.h>
// Define the structure to be sent via ringbuf
struct event {
__u32 pid;
__u32 uid;
__u64 timestamp;
char comm[16]; // Process name
};
// Define the ringbuffer map
struct {
__uint(type, BPF_MAP_TYPE_RINGBUF);
__uint(max_entries, 256 * 1024); // 256 KB
} events SEC(".maps");
// Tracepoint for execve system calls
SEC("tracepoint/syscalls/sys_enter_execve")
int trace_execve(void *ctx)
{
struct event *e;
__u64 pid_tgid;
__u64 uid_gid;
// Reserve space in the ringbuffer
e = bpf_ringbuf_reserve(&events, sizeof(*e), 0);
if (!e)
return 0;
// Fill the struct with data
pid_tgid = bpf_get_current_pid_tgid();
e->pid = pid_tgid >> 32;
uid_gid = bpf_get_current_uid_gid();
e->uid = uid_gid & 0xFFFFFFFF;
e->timestamp = bpf_ktime_get_ns();
bpf_get_current_comm(&e->comm, sizeof(e->comm));
// Submit the event to ringbuffer
bpf_ringbuf_submit(e, 0);
return 0;
}
char LICENSE[] SEC("license") = "GPL";

34
tests/failing_tests/conditionals/helper_cond.py Normal file
View File

@ -0,0 +1,34 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_uint64
from pythonbpf.maps import HashMap
# NOTE: Decided against fixing this
# as a workaround is assigning the result of lookup to a variable
# and then using that variable in the if statement.
# Might fix in future.
@bpf
@map
def last() -> HashMap:
return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
last.update(0, 1)
if last.lookup(0) > 0:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

34
tests/failing_tests/conditionals/struct_ptr.py Normal file
View File

@ -0,0 +1,34 @@
from pythonbpf import bpf, struct, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_uint64
# NOTE: Decided against fixing this
# as one workaround is to just check any field of the struct
# in the if statement. Ugly but works.
# Might fix in future.
@bpf
@struct
class data_t:
pid: c_uint64
ts: c_uint64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
dat = data_t()
if dat:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

20
tests/failing_tests/direct_assign.py
View File

@ -1,9 +1,21 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from pythonbpf.helpers import XDP_PASS
from pythonbpf.helper import XDP_PASS
from pythonbpf.maps import HashMap
from ctypes import c_void_p, c_int64
# NOTE: I have decided to not fix this example for now.
# The issue is in line 31, where we are passing an expression.
# The update helper expects a pointer type. But the problem is
# that we must allocate the space for said pointer in the first
# basic block. As that usage is in a different basic block, we
# are unable to cast the expression to a pointer type. (as we never
# allocated space for it).
# Shall we change our space allocation logic? That allows users to
# spam the same helper with the same args, and still run out of
# stack space. So we consider this usage invalid for now.
# Might fix it later.
@bpf
@map
@ -14,12 +26,12 @@ def count() -> HashMap:
@bpf
@section("xdp")
def hello_world(ctx: c_void_p) -> c_int64:
prev = count().lookup(0)
prev = count.lookup(0)
if prev:
count().update(0, prev + 1)
count.update(0, prev + 1)
return XDP_PASS
else:
count().update(0, 1)
count.update(0, 1)
return XDP_PASS

1
tests/failing_tests/license.py
View File

@ -7,6 +7,7 @@ from ctypes import c_void_p, c_int64
@section("sometag1")
def sometag(ctx: c_void_p) -> c_int64:
a = 1 + 2
print(f"{a}")
return c_int64(0)

40
tests/failing_tests/named_arg.py Normal file
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@ -0,0 +1,40 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from pythonbpf.helper import XDP_PASS
from pythonbpf.maps import HashMap
from ctypes import c_void_p, c_int64
# NOTE: This example exposes the problems with our typing system.
# We can't do steps on line 25 and 27.
# prev is of type i64**. For prev + 1, we deref it down to i64
# To assign it back to prev, we need to go back to i64**.
# We cannot allocate space for the intermediate type now.
# We probably need to track the ref/deref chain for each variable.
@bpf
@map
def count() -> HashMap:
return HashMap(key=c_int64, value=c_int64, max_entries=1)
@bpf
@section("xdp")
def hello_world(ctx: c_void_p) -> c_int64:
prev = count.lookup(0)
if prev:
prev = prev + 1
count.update(0, prev)
return XDP_PASS
else:
count.update(0, 1)
return XDP_PASS
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

5
tests/failing_tests/binops.py → tests/passing_tests/binops.py
View File

@ -3,9 +3,10 @@ from ctypes import c_void_p, c_int64
@bpf
@section("sometag1")
@section("tracepoint/syscalls/sys_enter_sync")
def sometag(ctx: c_void_p) -> c_int64:
a = 1 + 2 + 1
a = 1 + 2 + 1 + 12 + 13
print(f"{a}")
return c_int64(0)

20
tests/passing_tests/binops1.py Normal file
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@ -0,0 +1,20 @@
from pythonbpf import compile, bpf, section, bpfglobal
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_sync")
def sometag(ctx: c_void_p) -> c_int64:
b = 1 + 2
a = 1 + b
print(f"{a}")
return c_int64(0)
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

32
tests/passing_tests/conditionals/and.py Normal file
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@ -0,0 +1,32 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_uint64
from pythonbpf.maps import HashMap
@bpf
@map
def last() -> HashMap:
return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
last.update(0, 1)
last.update(1, 2)
x = last.lookup(0)
y = last.lookup(1)
if x and y:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

21
tests/passing_tests/conditionals/bool.py Normal file
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@ -0,0 +1,21 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
if True:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

21
tests/passing_tests/conditionals/const_binop.py Normal file
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@ -0,0 +1,21 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
if (0 + 1) * 0:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

21
tests/passing_tests/conditionals/const_int.py Normal file
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@ -0,0 +1,21 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
if 0:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

30
tests/passing_tests/conditionals/map.py Normal file
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@ -0,0 +1,30 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_uint64
from pythonbpf.maps import HashMap
@bpf
@map
def last() -> HashMap:
return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
# last.update(0, 1)
tsp = last.lookup(0)
if tsp:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

30
tests/passing_tests/conditionals/map_comp.py Normal file
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@ -0,0 +1,30 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_uint64
from pythonbpf.maps import HashMap
@bpf
@map
def last() -> HashMap:
return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
last.update(0, 1)
tsp = last.lookup(0)
if tsp > 0:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

30
tests/passing_tests/conditionals/not.py Normal file
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@ -0,0 +1,30 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_uint64
from pythonbpf.maps import HashMap
@bpf
@map
def last() -> HashMap:
return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
# last.update(0, 1)
tsp = last.lookup(0)
if not tsp:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

32
tests/passing_tests/conditionals/or.py Normal file
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@ -0,0 +1,32 @@
from pythonbpf import bpf, map, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_uint64
from pythonbpf.maps import HashMap
@bpf
@map
def last() -> HashMap:
return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
last.update(0, 1)
# last.update(1, 2)
x = last.lookup(0)
y = last.lookup(1)
if x or y:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

29
tests/passing_tests/conditionals/struct_access.py Normal file
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@ -0,0 +1,29 @@
from pythonbpf import bpf, struct, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_uint64
@bpf
@struct
class data_t:
pid: c_uint64
ts: c_uint64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
dat = data_t()
if dat.ts:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

23
tests/passing_tests/conditionals/type_mismatch.py Normal file
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@ -0,0 +1,23 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64, c_int32
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
x = 0
y = c_int32(0)
if x == y:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

22
tests/passing_tests/conditionals/var.py Normal file
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@ -0,0 +1,22 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
x = 0
if x:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

22
tests/passing_tests/conditionals/var_binop.py Normal file
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@ -0,0 +1,22 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
x = 0
if x * 1:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

22
tests/passing_tests/conditionals/var_comp.py Normal file
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@ -0,0 +1,22 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
x = 2
if x > 3:
print("Hello, World!")
else:
print("Goodbye, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

51
tests/passing_tests/perf_buffer_map.py
View File

@ -0,0 +1,51 @@
from pythonbpf import bpf, map, struct, section, bpfglobal, compile, compile_to_ir, BPF
from pythonbpf.helper import ktime, pid
from pythonbpf.maps import PerfEventArray
import logging
from ctypes import c_void_p, c_int32, c_uint64
# PLACEHOLDER EXAMPLE. THIS SHOULD TECHNICALLY STILL FAIL TESTS
@bpf
@struct
class data_t:
pid: c_uint64
ts: c_uint64
comm: str(16)
@bpf
@map
def events() -> PerfEventArray:
return PerfEventArray(key_size=c_int32, value_size=c_int32)
@bpf
@section("tracepoint/syscalls/sys_enter_clone")
def hello(ctx: c_void_p) -> c_int32:
dataobj = data_t()
ts = ktime()
strobj = "hellohellohello"
dataobj.pid = pid()
dataobj.ts = ktime()
# dataobj.comm = strobj
print(
f"clone called at {dataobj.ts} by pid {dataobj.pid}, comm {strobj} at time {ts}"
)
events.output(dataobj)
return c_int32(0)
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile_to_ir("perf_buffer_map.py", "perf_buffer_map.ll")
compile(loglevel=logging.INFO)
b = BPF()
b.load_and_attach()
while True:
print("running")

0
tests/failing_tests/return.py → tests/passing_tests/return.py
View File

18
tests/passing_tests/return/binop_const.py Normal file
View File

@ -0,0 +1,18 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
print("Hello, World!")
return 1 + 1 - 2
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

19
tests/passing_tests/return/binop_var.py Normal file
View File

@ -0,0 +1,19 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
print("Hello, World!")
a = 2
return a - 2
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

18
tests/passing_tests/return/bool.py Normal file
View File

@ -0,0 +1,18 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
print("Hello, World!")
return True
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

18
tests/passing_tests/return/int.py Normal file
View File

@ -0,0 +1,18 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
print("Hello, World!")
return 1
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

18
tests/passing_tests/return/null.py Normal file
View File

@ -0,0 +1,18 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
print("Hello, World!")
return
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

20
tests/passing_tests/return/typecast_binops.py Normal file
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@ -0,0 +1,20 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int32
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int32:
print("Hello, World!")
a = 1 # int64
x = 1 # int64
return c_int32(a - x) # typecast to int32
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

18
tests/passing_tests/return/typecast_const.py Normal file
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@ -0,0 +1,18 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int32
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int32:
print("Hello, World!")
return c_int32(1)
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

19
tests/passing_tests/return/typecast_var.py Normal file
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@ -0,0 +1,19 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int32
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int32:
print("Hello, World!")
a = 1 # int64
return c_int32(a) # typecast to int32
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

19
tests/passing_tests/return/var.py Normal file
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@ -0,0 +1,19 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
print("Hello, World!")
a = 1
return a
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

19
tests/passing_tests/return/xdp.py Normal file
View File

@ -0,0 +1,19 @@
from pythonbpf import bpf, section, bpfglobal, compile
from ctypes import c_void_p, c_int64
from pythonbpf.helper import XDP_PASS
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
def hello_world(ctx: c_void_p) -> c_int64:
print("Hello, World!")
return XDP_PASS
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile()

35
tests/passing_tests/ringbuf.py Normal file
View File

@ -0,0 +1,35 @@
from pythonbpf import bpf, BPF, map, bpfglobal, section, compile, compile_to_ir
from pythonbpf.maps import RingBuf, HashMap
from ctypes import c_int32, c_void_p
# Define a map
@bpf
@map
def mymap() -> RingBuf:
return RingBuf(max_entries=(1024))
@bpf
@map
def mymap2() -> HashMap:
return HashMap(key=c_int32, value=c_int32, max_entries=1024)
@bpf
@section("tracepoint/syscalls/sys_enter_clone")
def random_section(ctx: c_void_p) -> c_int32:
print("Hello")
return c_int32(0)
@bpf
@bpfglobal
def LICENSE() -> str:
return "GPL"
compile_to_ir("ringbuf.py", "ringbuf.ll")
compile()
b = BPF()
b.load_and_attach()

7
tests/failing_tests/binops1.py → tests/passing_tests/var_rval.py
View File

@ -1,3 +1,5 @@
import logging
from pythonbpf import compile, bpf, section, bpfglobal
from ctypes import c_void_p, c_int64
@ -5,8 +7,7 @@ from ctypes import c_void_p, c_int64
@bpf
@section("sometag1")
def sometag(ctx: c_void_p) -> c_int64:
b = 1 + 2
a = 1 + b
a = 1 - 1
return c_int64(a)
@ -16,4 +17,4 @@ def LICENSE() -> str:
return "GPL"
compile()
compile(loglevel=logging.INFO)