pw_rpc: Expose Request/Response from MethodInfo

pw::rpc::internal::MethodInfo Request and Response types are handy when
building helpers for rpc calls, but they are not available for
downstream projects. While other parts of MethodInfo could be too much
of the information for downstream projects and shouldn't be exposed -
these two types are straightforward enough to be exposed.

Change-Id: Ie66de51e27a98d6299101c1cc223351bb37c146a
Reviewed-on: https://pigweed-review.googlesource.com/c/pigweed/pigweed/+/97906
Reviewed-by: Wyatt Hepler <hepler@google.com>
Commit-Queue: Dennis Kormalev <denk@google.com>
Pigweed-Auto-Submit: Dennis Kormalev <denk@google.com>
6 files changed
tree: edfaa8abf1587c6e4d7115adb44ccdb1ecd68c0c
  1. build_overrides/
  2. docker/
  3. docs/
  4. pw_allocator/
  5. pw_analog/
  6. pw_android_toolchain/
  7. pw_arduino_build/
  8. pw_assert/
  9. pw_assert_basic/
  10. pw_assert_log/
  11. pw_assert_tokenized/
  12. pw_assert_zephyr/
  13. pw_base64/
  14. pw_bloat/
  15. pw_blob_store/
  16. pw_bluetooth_hci/
  17. pw_boot/
  18. pw_boot_cortex_m/
  19. pw_build/
  20. pw_build_info/
  21. pw_build_mcuxpresso/
  22. pw_bytes/
  23. pw_checksum/
  24. pw_chrono/
  25. pw_chrono_embos/
  26. pw_chrono_freertos/
  27. pw_chrono_stl/
  28. pw_chrono_threadx/
  29. pw_chrono_zephyr/
  30. pw_cli/
  31. pw_console/
  32. pw_containers/
  33. pw_cpu_exception/
  34. pw_cpu_exception_cortex_m/
  35. pw_crypto/
  36. pw_docgen/
  37. pw_doctor/
  38. pw_env_setup/
  39. pw_file/
  40. pw_function/
  41. pw_fuzzer/
  42. pw_hdlc/
  43. pw_hex_dump/
  44. pw_i2c/
  45. pw_i2c_mcuxpresso/
  46. pw_interrupt/
  47. pw_interrupt_cortex_m/
  48. pw_interrupt_zephyr/
  49. pw_kvs/
  50. pw_libc/
  51. pw_log/
  52. pw_log_android/
  53. pw_log_basic/
  54. pw_log_null/
  55. pw_log_rpc/
  56. pw_log_string/
  57. pw_log_tokenized/
  58. pw_log_zephyr/
  59. pw_malloc/
  60. pw_malloc_freelist/
  61. pw_metric/
  62. pw_minimal_cpp_stdlib/
  63. pw_module/
  64. pw_multisink/
  65. pw_package/
  66. pw_persistent_ram/
  67. pw_polyfill/
  68. pw_preprocessor/
  69. pw_presubmit/
  70. pw_protobuf/
  71. pw_protobuf_compiler/
  72. pw_random/
  73. pw_result/
  74. pw_ring_buffer/
  75. pw_router/
  76. pw_rpc/
  77. pw_snapshot/
  78. pw_software_update/
  79. pw_span/
  80. pw_spi/
  81. pw_status/
  82. pw_stm32cube_build/
  83. pw_stream/
  84. pw_string/
  85. pw_symbolizer/
  86. pw_sync/
  87. pw_sync_baremetal/
  88. pw_sync_embos/
  89. pw_sync_freertos/
  90. pw_sync_stl/
  91. pw_sync_threadx/
  92. pw_sync_zephyr/
  93. pw_sys_io/
  94. pw_sys_io_arduino/
  95. pw_sys_io_baremetal_lm3s6965evb/
  96. pw_sys_io_baremetal_stm32f429/
  97. pw_sys_io_emcraft_sf2/
  98. pw_sys_io_mcuxpresso/
  99. pw_sys_io_stdio/
  100. pw_sys_io_stm32cube/
  101. pw_sys_io_zephyr/
  102. pw_system/
  103. pw_target_runner/
  104. pw_thread/
  105. pw_thread_embos/
  106. pw_thread_freertos/
  107. pw_thread_stl/
  108. pw_thread_threadx/
  109. pw_tls_client/
  110. pw_tls_client_boringssl/
  111. pw_tls_client_mbedtls/
  112. pw_tokenizer/
  113. pw_tool/
  114. pw_toolchain/
  115. pw_trace/
  116. pw_trace_tokenized/
  117. pw_transfer/
  118. pw_unit_test/
  119. pw_varint/
  120. pw_watch/
  121. pw_web_ui/
  122. pw_work_queue/
  123. targets/
  124. third_party/
  125. zephyr/
  126. .bazelignore
  127. .bazelrc
  128. .clang-format
  129. .clang-tidy
  130. .eslintrc.json
  131. .gitattributes
  132. .gitignore
  133. .gn
  134. .prettierrc.js
  135. .pylintrc
  136. activate.bat
  137. Android.bp
  138. AUTHORS
  139. bootstrap.bat
  140. bootstrap.sh
  141. BUILD.bazel
  142. BUILD.gn
  143. BUILDCONFIG.gn
  144. CMakeLists.txt
  145. Kconfig.zephyr
  146. LICENSE
  147. modules.gni
  148. OWNERS
  149. package.json
  150. PIGWEED_MODULES
  151. PW_PLUGINS
  152. README.md
  153. tsconfig.json
  154. WORKSPACE
  155. yarn.lock
README.md

Pigweed

Pigweed is an open source collection of embedded-targeted libraries–or as we like to call them, modules. These modules are building blocks and infrastructure that enable faster and more reliable development on small-footprint MMU-less 32-bit microcontrollers like the STMicroelectronics STM32L452 or the Nordic nRF52832.

For more information please see our website: https://pigweed.dev/

Links