/** * libcoopgamma -- Library for interfacing with cooperative gamma servers * Copyright (C) 2016 Mattias Andrée (maandree@kth.se) * * This library is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this library. If not, see . */ #include "libcoopgamma.h" #include #include #include #include #include #include #define SUBBUF \ (buf ? buf + off : NULL) #define MARSHAL_PROLOGUE \ char* restrict buf = vbuf; \ size_t off = 0; #define UNMARSHAL_PROLOGUE \ const char* restrict buf = vbuf; \ size_t off = 0; #define MARSHAL_EPILOGUE \ return off #define UNMARSHAL_EPILOGUE \ return *np = off, LIBCOOPGAMMA_SUCCESS #define marshal_prim(datum, type) \ ((buf != NULL ? *(type*)(buf + off) = (datum) : 0), off += sizeof(type)) #define unmarshal_prim(datum, type) \ ((datum) = *(type*)(buf + off), off += sizeof(type)) #define marshal_version(version) \ marshal_prim(version, int) #define unmarshal_version(version) \ do \ { \ int version__; \ unmarshal_prim(version__, int); \ if (version__ < version) \ return LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE; \ if (version__ > version) \ return LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE; \ } \ while (0) #define marshal_buffer(data, n) \ ((buf != NULL ? (memcpy(buf + off, (data), (n)), 0) : 0), off += (n)) #define unmarshal_buffer(data, n) \ do \ { \ (data) = malloc(n); \ if ((data) == NULL) \ return LIBCOOPGAMMA_ERRNO_SET; \ memcpy((data), buf + off, (n)); \ off += (n); \ } \ while (0) #define marshal_string(datum) \ ((datum) == NULL ? marshal_prim(1, char) : \ (marshal_prim(0, char), marshal_buffer(datum, strlen(datum) + 1))) #define unmarshal_string(datum) \ do \ { \ char nonnull__; \ unmarshal_prim(nonnull__, char); \ if (nonnull__) \ unmarshal_buffer((datum), strlen(buf + off) + 1); \ else \ (datum) = NULL; \ } \ while (0) /** * Initialise a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`, * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t` * * `this->red_size`, `this->green_size`, and `this->blue_size` must already be set * * @param this The record to initialise * @para width The `sizeof(*(this->red))` * @return Zero on success, -1 on error */ int (libcoopgamma_ramps_initialise)(void* restrict this, size_t width) { libcoopgamma_ramps8_t* restrict this8 = (libcoopgamma_ramps8_t* restrict)this; this8->red = this8->green = this8->blue = NULL; this8->red = malloc((this8->red_size + this8->green_size + this8->blue_size) * width); if (this8->red == NULL) return -1; this8->green = this8->red + this8->red_size * width; this8->blue = this8->green + this8->green_size * width; return 0; } /** * Release all resources allocated to a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, * `libcoopgamma_ramps32_t`, `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or * `libcoopgamma_rampsd_t`, the allocation of the record itself is not freed * * Always call this function after failed call to `libcoopgamma_ramps_initialise` * or failed call to `libcoopgamma_ramps_unmarshal` * * @param this The record to destroy */ void libcoopgamma_ramps_destroy(void* restrict this) { libcoopgamma_ramps8_t* restrict this8 = (libcoopgamma_ramps8_t* restrict)this; free(this8->red); this8->red = this8->green = this8->blue = NULL; } /** * Marshal a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`, * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t` into a buffer * * @param this The record to marshal * @param vbuf The output buffer, `NULL` to only measure * how large this buffer has to be * @param width The `sizeof(*(this->red))` * @return The number of marshalled bytes, or if `buf == NULL`, * how many bytes would be marshalled if `buf != NULL` */ size_t (libcoopgamma_ramps_marshal)(const void* restrict this, void* restrict vbuf, size_t width) { libcoopgamma_ramps8_t* restrict this8 = (libcoopgamma_ramps8_t* restrict)this; MARSHAL_PROLOGUE; marshal_version(LIBCOOPGAMMA_RAMPS_VERSION); marshal_prim(this8->red_size, size_t); marshal_prim(this8->green_size, size_t); marshal_prim(this8->blue_size, size_t); marshal_buffer(this8->red, (this8->red_size + this8->green_size + this8->blue_size) * width); MARSHAL_EPILOGUE; } /** * Unmarshal a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`, * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t` from a buffer * * @param this The output paramater for unmarshalled record * @param vbuf The buffer with the marshalled record * @param np Output parameter for the number of unmarshalled bytes, undefined on failure * @param width The `sizeof(*(this->red))` * @return `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`, * `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET` */ int (libcoopgamma_ramps_unmarshal)(void* restrict this, const void* restrict vbuf, size_t* restrict np, size_t width) { libcoopgamma_ramps8_t* restrict this8 = (libcoopgamma_ramps8_t* restrict)this; UNMARSHAL_PROLOGUE; unmarshal_version(LIBCOOPGAMMA_RAMPS_VERSION); unmarshal_prim(this8->red_size, size_t); unmarshal_prim(this8->green_size, size_t); unmarshal_prim(this8->blue_size, size_t); unmarshal_buffer(this8->red, (this8->red_size + this8->green_size + this8->blue_size) * width); UNMARSHAL_EPILOGUE; } /** * Initialise a `libcoopgamma_filter_t` * * @param this The record to initialise * @return Zero on success, -1 on error */ int libcoopgamma_filter_initialise(libcoopgamma_filter_t* restrict this) { memset(this, 0, sizeof(*this)); return 0; } /** * Release all resources allocated to a `libcoopgamma_filter_t`, * the allocation of the record itself is not freed * * Always call this function after failed call to `libcoopgamma_filter_initialise` * or failed call to `libcoopgamma_filter_unmarshal` * * @param this The record to destroy */ void libcoopgamma_filter_destroy(libcoopgamma_filter_t* restrict this) { free(this->crtc); free(this->class); free(this->ramps.u8.red); memset(this, 0, sizeof(*this)); } /** * Marshal a `libcoopgamma_filter_t` into a buffer * * @param this The record to marshal * @param vbuf The output buffer, `NULL` to only measure * how large this buffer has to be * @return The number of marshalled bytes, or if `buf == NULL`, * how many bytes would be marshalled if `buf != NULL` */ size_t libcoopgamma_filter_marshal(const libcoopgamma_filter_t* restrict this, void* restrict vbuf) { MARSHAL_PROLOGUE; marshal_version(LIBCOOPGAMMA_FILTER_VERSION); marshal_version(LIBCOOPGAMMA_DEPTH_VERSION); marshal_version(LIBCOOPGAMMA_LIFESPAN_VERSION); marshal_prim(this->depth, libcoopgamma_depth_t); marshal_prim(this->priority, int64_t); marshal_string(this->crtc); marshal_string(this->class); marshal_prim(this->lifespan, libcoopgamma_lifespan_t); switch (this->depth) { case LIBCOOPGAMMA_UINT8: off += libcoopgamma_ramps_marshal(&(this->ramps.u8), SUBBUF); break; case LIBCOOPGAMMA_UINT16: off += libcoopgamma_ramps_marshal(&(this->ramps.u16), SUBBUF); break; case LIBCOOPGAMMA_UINT32: off += libcoopgamma_ramps_marshal(&(this->ramps.u32), SUBBUF); break; case LIBCOOPGAMMA_UINT64: off += libcoopgamma_ramps_marshal(&(this->ramps.u64), SUBBUF); break; case LIBCOOPGAMMA_FLOAT: off += libcoopgamma_ramps_marshal(&(this->ramps.f), SUBBUF); break; case LIBCOOPGAMMA_DOUBLE: off += libcoopgamma_ramps_marshal(&(this->ramps.d), SUBBUF); break; default: break; } MARSHAL_EPILOGUE; } /** * Unmarshal a `libcoopgamma_filter_t` from a buffer * * @param this The output paramater for unmarshalled record * @param vbuf The buffer with the marshalled record * @param np Output parameter for the number of unmarshalled bytes, undefined on failure * @return `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`, * `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET` */ int libcoopgamma_filter_unmarshal(libcoopgamma_filter_t* restrict this, const void* restrict vbuf, size_t* restrict np) { int r = LIBCOOPGAMMA_SUCCESS; size_t n = 0; UNMARSHAL_PROLOGUE; memset(this, 0, sizeof(*this)); unmarshal_version(LIBCOOPGAMMA_FILTER_VERSION); unmarshal_version(LIBCOOPGAMMA_DEPTH_VERSION); unmarshal_version(LIBCOOPGAMMA_LIFESPAN_VERSION); unmarshal_prim(this->depth, libcoopgamma_depth_t); unmarshal_prim(this->priority, int64_t); unmarshal_string(this->crtc); unmarshal_string(this->class); unmarshal_prim(this->lifespan, libcoopgamma_lifespan_t); switch (this->depth) { case LIBCOOPGAMMA_UINT8: r = libcoopgamma_ramps_unmarshal(&(this->ramps.u8), SUBBUF, &n); break; case LIBCOOPGAMMA_UINT16: r = libcoopgamma_ramps_unmarshal(&(this->ramps.u16), SUBBUF, &n); break; case LIBCOOPGAMMA_UINT32: r = libcoopgamma_ramps_unmarshal(&(this->ramps.u32), SUBBUF, &n); break; case LIBCOOPGAMMA_UINT64: r = libcoopgamma_ramps_unmarshal(&(this->ramps.u64), SUBBUF, &n); break; case LIBCOOPGAMMA_FLOAT: r = libcoopgamma_ramps_unmarshal(&(this->ramps.f), SUBBUF, &n); break; case LIBCOOPGAMMA_DOUBLE: r = libcoopgamma_ramps_unmarshal(&(this->ramps.d), SUBBUF, &n); break; default: break; } if (r != LIBCOOPGAMMA_SUCCESS) return r; off += n; UNMARSHAL_EPILOGUE; } /** * Initialise a `libcoopgamma_crtc_info_t` * * @param this The record to initialise * @return Zero on success, -1 on error */ int libcoopgamma_crtc_info_initialise(libcoopgamma_crtc_info_t* restrict this) { memset(this, 0, sizeof(*this)); return 0; } /** * Release all resources allocated to a `libcoopgamma_crtc_info_t`, * the allocation of the record itself is not freed * * Always call this function after failed call to `libcoopgamma_crtc_info_initialise` * or failed call to `libcoopgamma_crtc_info_unmarshal` * * @param this The record to destroy */ void libcoopgamma_crtc_info_destroy(libcoopgamma_crtc_info_t* restrict this) { (void) this; } /** * Marshal a `libcoopgamma_crtc_info_t` into a buffer * * @param this The record to marshal * @param vbuf The output buffer, `NULL` to only measure * how large this buffer has to be * @return The number of marshalled bytes, or if `buf == NULL`, * how many bytes would be marshalled if `buf != NULL` */ size_t libcoopgamma_crtc_info_marshal(const libcoopgamma_crtc_info_t* restrict this, void* restrict vbuf) { MARSHAL_PROLOGUE; marshal_version(LIBCOOPGAMMA_CRTC_INFO_VERSION); marshal_version(LIBCOOPGAMMA_DEPTH_VERSION); marshal_version(LIBCOOPGAMMA_SUPPORT_VERSION); marshal_prim(this->cooperative, int); marshal_prim(this->depth, libcoopgamma_depth_t); marshal_prim(this->red_size, size_t); marshal_prim(this->green_size, size_t); marshal_prim(this->blue_size, size_t); marshal_prim(this->supported, libcoopgamma_support_t); MARSHAL_EPILOGUE; } /** * Unmarshal a `libcoopgamma_crtc_info_t` from a buffer * * @param this The output paramater for unmarshalled record * @param vbuf The buffer with the marshalled record * @param np Output parameter for the number of unmarshalled bytes, undefined on failure * @return `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`, * `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET` */ int libcoopgamma_crtc_info_unmarshal(libcoopgamma_crtc_info_t* restrict this, const void* restrict vbuf, size_t* restrict np) { UNMARSHAL_PROLOGUE; unmarshal_version(LIBCOOPGAMMA_CRTC_INFO_VERSION); unmarshal_version(LIBCOOPGAMMA_DEPTH_VERSION); unmarshal_version(LIBCOOPGAMMA_SUPPORT_VERSION); unmarshal_prim(this->cooperative, int); unmarshal_prim(this->depth, libcoopgamma_depth_t); unmarshal_prim(this->red_size, size_t); unmarshal_prim(this->green_size, size_t); unmarshal_prim(this->blue_size, size_t); unmarshal_prim(this->supported, libcoopgamma_support_t); UNMARSHAL_EPILOGUE; } /** * Initialise a `libcoopgamma_filter_query_t` * * @param this The record to initialise * @return Zero on success, -1 on error */ int libcoopgamma_filter_query_initialise(libcoopgamma_filter_query_t* restrict this) { this->crtc = NULL; this->coalesce = 0; this->high_priority = INT64_MAX; this->low_priority = INT64_MIN; return 0; } /** * Release all resources allocated to a `libcoopgamma_filter_query_t`, * the allocation of the record itself is not freed * * Always call this function after failed call to `libcoopgamma_filter_query_initialise` * or failed call to `libcoopgamma_filter_query_unmarshal` * * @param this The record to destroy */ void libcoopgamma_filter_query_destroy(libcoopgamma_filter_query_t* restrict this) { free(this->crtc), this->crtc = NULL; } /** * Marshal a `libcoopgamma_filter_query_t` into a buffer * * @param this The record to marshal * @param vbuf The output buffer, `NULL` to only measure * how large this buffer has to be * @return The number of marshalled bytes, or if `buf == NULL`, * how many bytes would be marshalled if `buf != NULL` */ size_t libcoopgamma_filter_query_marshal(const libcoopgamma_filter_query_t* restrict this, void* restrict vbuf) { MARSHAL_PROLOGUE; marshal_version(LIBCOOPGAMMA_FILTER_QUERY_VERSION); marshal_string(this->crtc); marshal_prim(this->coalesce, int); marshal_prim(this->high_priority, int64_t); marshal_prim(this->low_priority, int64_t); MARSHAL_EPILOGUE; } /** * Unmarshal a `libcoopgamma_filter_query_t` from a buffer * * @param this The output paramater for unmarshalled record * @param vbuf The buffer with the marshalled record * @param np Output parameter for the number of unmarshalled bytes, undefined on failure * @return `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`, * `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET` */ int libcoopgamma_filter_query_unmarshal(libcoopgamma_filter_query_t* restrict this, const void* restrict vbuf, size_t* restrict np) { UNMARSHAL_PROLOGUE; this->crtc = NULL; unmarshal_version(LIBCOOPGAMMA_FILTER_QUERY_VERSION); unmarshal_string(this->crtc); unmarshal_prim(this->coalesce, int); unmarshal_prim(this->high_priority, int64_t); unmarshal_prim(this->low_priority, int64_t); UNMARSHAL_EPILOGUE; } /** * Initialise a `libcoopgamma_queried_filter_t` * * @param this The record to initialise * @return Zero on success, -1 on error */ int libcoopgamma_queried_filter_initialise(libcoopgamma_queried_filter_t* restrict this) { memset(this, 0, sizeof(*this)); return 0; } /** * Release all resources allocated to a `libcoopgamma_queried_filter_t`, * the allocation of the record itself is not freed * * Always call this function after failed call to `libcoopgamma_queried_filter_initialise` * or failed call to `libcoopgamma_queried_filter_unmarshal` * * @param this The record to destroy */ void libcoopgamma_queried_filter_destroy(libcoopgamma_queried_filter_t* restrict this) { free(this->class), this->class = NULL; libcoopgamma_ramps_destroy(&(this->ramps.u8)); } /** * Marshal a `libcoopgamma_queried_filter_t` into a buffer * * @param this The record to marshal * @param vbuf The output buffer, `NULL` to only measure * how large this buffer has to be * @param depth The type used of ramp stops * @return The number of marshalled bytes, or if `buf == NULL`, * how many bytes would be marshalled if `buf != NULL` */ size_t libcoopgamma_queried_filter_marshal(const libcoopgamma_queried_filter_t* restrict this, void* restrict vbuf, libcoopgamma_depth_t depth) { MARSHAL_PROLOGUE; marshal_version(LIBCOOPGAMMA_QUERIED_FILTER_VERSION); marshal_prim(this->priority, int64_t); marshal_string(this->class); switch (depth) { case LIBCOOPGAMMA_UINT8: off += libcoopgamma_ramps_marshal(&(this->ramps.u8), SUBBUF); break; case LIBCOOPGAMMA_UINT16: off += libcoopgamma_ramps_marshal(&(this->ramps.u16), SUBBUF); break; case LIBCOOPGAMMA_UINT32: off += libcoopgamma_ramps_marshal(&(this->ramps.u32), SUBBUF); break; case LIBCOOPGAMMA_UINT64: off += libcoopgamma_ramps_marshal(&(this->ramps.u64), SUBBUF); break; case LIBCOOPGAMMA_FLOAT: off += libcoopgamma_ramps_marshal(&(this->ramps.f), SUBBUF); break; case LIBCOOPGAMMA_DOUBLE: off += libcoopgamma_ramps_marshal(&(this->ramps.d), SUBBUF); break; default: break; } MARSHAL_EPILOGUE; } /** * Unmarshal a `libcoopgamma_queried_filter_t` from a buffer * * @param this The output paramater for unmarshalled record * @param vbuf The buffer with the marshalled record * @param np Output parameter for the number of unmarshalled bytes, undefined on failure * @param depth The type used of ramp stops * @return `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`, * `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET` */ int libcoopgamma_queried_filter_unmarshal(libcoopgamma_queried_filter_t* restrict this, const void* restrict vbuf, size_t* restrict np, libcoopgamma_depth_t depth) { int r = LIBCOOPGAMMA_SUCCESS; size_t n = 0; UNMARSHAL_PROLOGUE; memset(this, 0, sizeof(*this)); unmarshal_version(LIBCOOPGAMMA_QUERIED_FILTER_VERSION); unmarshal_prim(this->priority, int64_t); unmarshal_string(this->class); switch (depth) { case LIBCOOPGAMMA_UINT8: r = libcoopgamma_ramps_unmarshal(&(this->ramps.u8), SUBBUF, &n); break; case LIBCOOPGAMMA_UINT16: r = libcoopgamma_ramps_unmarshal(&(this->ramps.u16), SUBBUF, &n); break; case LIBCOOPGAMMA_UINT32: r = libcoopgamma_ramps_unmarshal(&(this->ramps.u32), SUBBUF, &n); break; case LIBCOOPGAMMA_UINT64: r = libcoopgamma_ramps_unmarshal(&(this->ramps.u64), SUBBUF, &n); break; case LIBCOOPGAMMA_FLOAT: r = libcoopgamma_ramps_unmarshal(&(this->ramps.f), SUBBUF, &n); break; case LIBCOOPGAMMA_DOUBLE: r = libcoopgamma_ramps_unmarshal(&(this->ramps.d), SUBBUF, &n); break; default: break; } if (r != LIBCOOPGAMMA_SUCCESS) return r; off += n; UNMARSHAL_EPILOGUE; } /** * Initialise a `libcoopgamma_filter_table_t` * * @param this The record to initialise * @return Zero on success, -1 on error */ int libcoopgamma_filter_table_initialise(libcoopgamma_filter_table_t* restrict this) { memset(this, 0, sizeof(*this)); return 0; } /** * Release all resources allocated to a `libcoopgamma_filter_table_t`, * the allocation of the record itself is not freed * * Always call this function after failed call to `libcoopgamma_filter_table_initialise` * or failed call to `libcoopgamma_filter_table_unmarshal` * * @param this The record to destroy */ void libcoopgamma_filter_table_destroy(libcoopgamma_filter_table_t* restrict this) { while (this->filter_count) libcoopgamma_queried_filter_destroy(this->filters + --(this->filter_count)); free(this->filters), this->filters = NULL; } /** * Marshal a `libcoopgamma_filter_table_t` into a buffer * * @param this The record to marshal * @param vbuf The output buffer, `NULL` to only measure * how large this buffer has to be * @return The number of marshalled bytes, or if `buf == NULL`, * how many bytes would be marshalled if `buf != NULL` */ size_t libcoopgamma_filter_table_marshal(const libcoopgamma_filter_table_t* restrict this, void* restrict vbuf) { size_t i; MARSHAL_PROLOGUE; marshal_version(LIBCOOPGAMMA_FILTER_TABLE_VERSION); marshal_version(LIBCOOPGAMMA_DEPTH_VERSION); marshal_prim(this->depth, libcoopgamma_depth_t); marshal_prim(this->red_size, size_t); marshal_prim(this->green_size, size_t); marshal_prim(this->blue_size, size_t); marshal_prim(this->filter_count, size_t); for (i = 0; i < this->filter_count; i++) off += libcoopgamma_queried_filter_marshal(this->filters + i, SUBBUF, this->depth); MARSHAL_EPILOGUE; } /** * Unmarshal a `libcoopgamma_filter_table_t` from a buffer * * @param this The output paramater for unmarshalled record * @param vbuf The buffer with the marshalled record * @param np Output parameter for the number of unmarshalled bytes, undefined on failure * @return `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`, * `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET` */ int libcoopgamma_filter_table_unmarshal(libcoopgamma_filter_table_t* restrict this, const void* restrict vbuf, size_t* restrict np) { size_t i, n, fn; int r; UNMARSHAL_PROLOGUE; this->filter_count = 0; this->filters = NULL; unmarshal_version(LIBCOOPGAMMA_FILTER_TABLE_VERSION); unmarshal_version(LIBCOOPGAMMA_DEPTH_VERSION); unmarshal_prim(this->depth, libcoopgamma_depth_t); unmarshal_prim(this->red_size, size_t); unmarshal_prim(this->green_size, size_t); unmarshal_prim(this->blue_size, size_t); unmarshal_prim(fn, size_t); this->filters = malloc(fn * sizeof(*(this->filters))); if (this->filters == NULL) return LIBCOOPGAMMA_ERRNO_SET; for (i = 0; i < fn; i++) { r = libcoopgamma_queried_filter_unmarshal(this->filters + i, SUBBUF, &n, this->depth); if (r != LIBCOOPGAMMA_SUCCESS) return r; off += n; this->filter_count += 1; } UNMARSHAL_EPILOGUE; } /** * Initialise a `libcoopgamma_error_t` * * @param this The record to initialise * @return Zero on success, -1 on error */ int libcoopgamma_error_initialise(libcoopgamma_error_t* restrict this) { this->number = 0; this->custom = 0; this->description = NULL; return 0; } /** * Release all resources allocated to a `libcoopgamma_error_t`, * the allocation of the record itself is not freed * * Always call this function after failed call to `libcoopgamma_error_initialise` * or failed call to `libcoopgamma_error_unmarshal` * * @param this The record to destroy */ void libcoopgamma_error_destroy(libcoopgamma_error_t* restrict this) { free(this->description), this->description = NULL; } /** * Marshal a `libcoopgamma_error_t` into a buffer * * @param this The record to marshal * @param vbuf The output buffer, `NULL` to only measure * how large this buffer has to be * @return The number of marshalled bytes, or if `buf == NULL`, * how many bytes would be marshalled if `buf != NULL` */ size_t libcoopgamma_error_marshal(const libcoopgamma_error_t* restrict this, void* restrict vbuf) { MARSHAL_PROLOGUE; marshal_version(LIBCOOPGAMMA_ERROR_VERSION); marshal_prim(this->number, uint64_t); marshal_prim(this->custom, int); marshal_prim(this->server_side, int); marshal_string(this->description); MARSHAL_EPILOGUE; } /** * Unmarshal a `libcoopgamma_error_t` from a buffer * * @param this The output paramater for unmarshalled record * @param vbuf The buffer with the marshalled record * @param np Output parameter for the number of unmarshalled bytes, undefined on failure * @return `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`, * `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET` */ int libcoopgamma_error_unmarshal(libcoopgamma_error_t* restrict this, const void* restrict vbuf, size_t* restrict np) { UNMARSHAL_PROLOGUE; this->description = NULL; unmarshal_version(LIBCOOPGAMMA_ERROR_VERSION); unmarshal_prim(this->number, uint64_t); unmarshal_prim(this->custom, int); unmarshal_string(this->description); UNMARSHAL_EPILOGUE; } /** * Initialise a `libcoopgamma_context_t` * * @param this The record to initialise * @return Zero on success, -1 on error */ int libcoopgamma_context_initialise(libcoopgamma_context_t* restrict this) { this->fd = -1; libcoopgamma_error_initialise(&(this->error)); this->message_id = 0; return 0; } /** * Release all resources allocated to a `libcoopgamma_context_t`, * the allocation of the record itself is not freed * * Always call this function after failed call to `libcoopgamma_context_initialise` * or failed call to `libcoopgamma_context_unmarshal` * * @param this The record to destroy * @param disconnect Disconnect from the server? */ void libcoopgamma_context_destroy(libcoopgamma_context_t* restrict this, int disconnect) { if (disconnect && (this->fd >= 0)) { shutdown(this->fd, SHUT_RDWR); close(this->fd); } this->fd = -1; libcoopgamma_error_destroy(&(this->error)); } /** * Marshal a `libcoopgamma_context_t` into a buffer * * @param this The record to marshal * @param vbuf The output buffer, `NULL` to only measure * how large this buffer has to be * @return The number of marshalled bytes, or if `buf == NULL`, * how many bytes would be marshalled if `buf != NULL` */ size_t libcoopgamma_context_marshal(const libcoopgamma_context_t* restrict this, void* restrict vbuf) { MARSHAL_PROLOGUE; marshal_version(LIBCOOPGAMMA_CONTEXT_VERSION); marshal_prim(this->fd, int); off += libcoopgamma_error_marshal(&(this->error), SUBBUF); marshal_prim(this->message_id, uint32_t); MARSHAL_EPILOGUE; } /** * Unmarshal a `libcoopgamma_context_t` from a buffer * * @param this The output paramater for unmarshalled record * @param vbuf The buffer with the marshalled record * @param np Output parameter for the number of unmarshalled bytes, undefined on failure * @return `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`, * `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET` */ int libcoopgamma_context_unmarshal(libcoopgamma_context_t* restrict this, const void* restrict vbuf, size_t* restrict np) { size_t n; int r; UNMARSHAL_PROLOGUE; memset(this, 0, sizeof(*this)); unmarshal_version(LIBCOOPGAMMA_CONTEXT_VERSION); unmarshal_prim(this->fd, int); r = libcoopgamma_error_unmarshal(&(this->error), SUBBUF, &n); if (r != LIBCOOPGAMMA_SUCCESS) return r; off += n; unmarshal_prim(this->message_id, uint32_t); UNMARSHAL_EPILOGUE; } /** * List all recognised adjustment method * * @return A `NULL`-terminated list of names. You should only free * the outer pointer, inner pointers are subpointers of the * outer pointer and cannot be freed. `NULL` on error. */ char** libcoopgamma_get_methods(void) { char num[5]; /* The size is base on the fact that we have limited `n` in the loop below */ char** methods = NULL; char** rc; char* buffer; int n = 0, saved_errno; size_t size; methods = malloc(4 * sizeof(*methods)); if (methods == NULL) goto fail; for (n = 0; n < 10000 /* just to be safe */; n++) { char* method; if ((n >= 4) && ((n & -n) == n)) { void* new = realloc(methods, (n << 1) * sizeof(*methods)); if (new == NULL) goto fail; methods = new; } sprintf(num, "%i", n); if (libcoopgamma_get_method_and_site(num, NULL, &method, NULL)) goto fail; if (!strcmp(method, num)) { free(method); break; } methods[n] = method; size += strlen(method) + 1; } rc = malloc((n + 1) * sizeof(char*) + size); if (rc == NULL) goto fail; buffer = ((char*)rc) + (n + 1) * sizeof(char*); rc[n] = NULL; while (n--) { buffer = stpcpy(buffer, methods[n]) + 1; free(methods[n]); } free(methods); return rc; fail: saved_errno = errno; while (n--) free(methods[n]); free(methods); errno = saved_errno; return NULL; } /** * Get the adjustment method and site * * @param method The adjustment method, `NULL` for automatic * @param site The site, `NULL` for automatic * @param methodp Output pointer for the selected adjustment method, * which cannot be `NULL`. It is safe to call * this function with this parameter set to `NULL`. * @param sitep Output pointer for the selected site, which will * be `NULL` the method only supports one site or if * `site == NULL` and no site can be selected * automatically. It is safe to call this function * with this parameter set to `NULL`. * @return Zero on success, -1 on error */ int libcoopgamma_get_method_and_site(const char* restrict method, const char* restrict site, char** restrict methodp, char** restrict sitep) { } /** * Get the PID file of the coopgamma server * * @param method The adjustment method, `NULL` for automatic * @param site The site, `NULL` for automatic * @return The pathname of the server's PID file, `NULL` on error * or if there server does not use PID files. The later * case is detected by checking that `errno` is set to 0. */ char* libcoopgamma_get_pid_file(const char* restrict method, const char* restrict site) { char* path; size_t n; path = libcoopgamma_get_socket_file(method, site); if (path == NULL) return NULL; n = strlen(path); if (n < 7 || strcmp(path + n - 7, ".socket")) { free(path); errno = EBADMSG; return NULL; } strcpy(path + n - 7, ".pid"); return path; } /** * Get the socket file of the coopgamma server * * @param method The adjustment method, `NULL` for automatic * @param site The site, `NULL` for automatic * @return The pathname of the server's socket, `NULL` on error * or if there server does have its own socket. The later * case is detected by checking that `errno` is set to 0, * and is the case when communicating with a server in a * multi-server display server like mds. */ char* libcoopgamma_get_socket_file(const char* restrict method, const char* restrict site) { } /** * Connect to a coopgamma server, and start it if necessary * * Use `libcoopgamma_context_destroy` to disconnect * * @param method The adjustment method, `NULL` for automatic * @param site The site, `NULL` for automatic * @param ctx The state of the library, must be initialised * @return Zero on success, -1 on error. On error, `errno` is set * to 0 if the server could not be initialised. */ int libcoopgamma_connect(const char* restrict method, const char* restrict site, libcoopgamma_context_t* restrict ctz) { } /** * List all available CRTC:s * * Cannot be used before connecting to the server * * @param ctx The state of the library, must be connected * @return A `NULL`-terminated list of names. You should only free * the outer pointer, inner pointers are subpointers of the * outer pointer and cannot be freed. `NULL` on error, in * which case `ctx->error` (rather than `errno`) is read * for information about the error. */ char** libcoopgamma_enumerate_crtcs(libcoopgamma_context_t* restrict ctx) { } /** * Retrieve information about a CRTC:s gamma ramps * * Cannot be used before connecting to the serve * * @param crtc The name of the CRTC * @param info Output parameter for the information, must be initialised * @param ctx The state of the library, must be connected * @return Zero on success, -1 on error, in which case `ctx->error` * (rather than `errno`) is read for information about the error */ int libcoopgamma_get_gamma_info(const char* crtc, libcoopgamma_crtc_info_t* restrict info, libcoopgamma_context_t* restrict ctx) { } /** * Retrieve the current gamma ramp adjustments * * Cannot be used before connecting to the serve * * @param query The query to send * @param table Output for the response, must be initialised * @param ctx The state of the library, must be connected * @return Zero on success, -1 on error, in which case `ctx->error` * (rather than `errno`) is read for information about the error */ int libcoopgamma_get_gamma(libcoopgamma_filter_query_t* restrict query, libcoopgamma_filter_table_t* restrict table, libcoopgamma_context_t* restrict ctx) { } /** * Apply, update, or remove a gamma ramp adjustment * * @param filter The filter to apply, update, or remove * @param ctx The state of the library, must be connected * @return Zero on success, -1 on error, in which case `ctx->error` * (rather than `errno`) is read for information about the error */ int libcoopgamma_set_gamma(libcoopgamma_filter_t* restrict filter, libcoopgamma_context_t* restrict ctx) { }