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| author | Joseph Hunkeler <jhunkeler@users.noreply.github.com> | 2024-06-21 12:49:45 -0400 |
|---|---|---|
| committer | GitHub <noreply@github.com> | 2024-06-21 12:49:45 -0400 |
| commit | 77a0276d9f37bcf828c77f9bcc59ff945116274e (patch) | |
| tree | 91cf7cb955798ad40718341172b0a8ffbc59a1f2 /src/delivery.c | |
| parent | 931ee28eb9c5b5e3c2b0d3008f5f65d810dc9b0c (diff) | |
| download | stasis-77a0276d9f37bcf828c77f9bcc59ff945116274e.tar.gz | |
Rebrand OhMyCal (OMC) as STASIS (#7)
Diffstat (limited to 'src/delivery.c')
| -rw-r--r-- | src/delivery.c | 2100 |
1 files changed, 2100 insertions, 0 deletions
diff --git a/src/delivery.c b/src/delivery.c new file mode 100644 index 0000000..e77d41c --- /dev/null +++ b/src/delivery.c @@ -0,0 +1,2100 @@ +#define _GNU_SOURCE + +#include <fnmatch.h> +#include "core.h" + +extern struct STASIS_GLOBAL globals; + +static void ini_has_key_required(struct INIFILE *ini, const char *section_name, char *key) { + int status = ini_has_key(ini, section_name, key); + if (!status) { + SYSERROR("%s:%s key is required but not defined", section_name, key); + exit(1); + } +} + +static void ini_getval_required(struct INIFILE *ini, char *section_name, char *key, unsigned type, union INIVal *val) { + int status = ini_getval(ini, section_name, key, type, val); + if (status || isempty(val->as_char_p)) { + SYSERROR("%s:%s value is required but not defined", section_name, key); + exit(1); + } +} + +static void conv_int(int *x, union INIVal val) { + *x = val.as_int; +} + +static void conv_str(char **x, union INIVal val) { + if (*x) { + guard_free(*x); + } + if (val.as_char_p) { + char *tplop = tpl_render(val.as_char_p); + if (tplop) { + *x = tplop; + } else { + *x = NULL; + } + } else { + *x = NULL; + } +} + +static void conv_str_noexpand(char **x, union INIVal val) { + if (*x) { + guard_free(*x); + } + *x = strdup(val.as_char_p); +} + +static void conv_strlist(struct StrList **x, char *tok, union INIVal val) { + if (!(*x)) + (*x) = strlist_init(); + if (val.as_char_p) { + char *tplop = tpl_render(val.as_char_p); + if (tplop) { + strip(tplop); + strlist_append_tokenize((*x), tplop, tok); + guard_free(tplop); + } + } +} + +static void conv_bool(bool *x, union INIVal val) { + *x = val.as_bool; +} + +int delivery_init_tmpdir(struct Delivery *ctx) { + char *tmpdir = NULL; + char *x = NULL; + int unusable = 0; + errno = 0; + + x = getenv("TMPDIR"); + if (x) { + guard_free(ctx->storage.tmpdir); + tmpdir = strdup(x); + } else { + tmpdir = ctx->storage.tmpdir; + } + + if (!tmpdir) { + // memory error + return -1; + } + + // If the directory doesn't exist, create it + if (access(tmpdir, F_OK) < 0) { + if (mkdirs(tmpdir, 0755) < 0) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L1, "Unable to create temporary storage directory: %s (%s)\n", tmpdir, strerror(errno)); + goto l_delivery_init_tmpdir_fatal; + } + } + + // If we can't read, write, or execute, then die + if (access(tmpdir, R_OK | W_OK | X_OK) < 0) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L1, "%s requires at least 0755 permissions.\n"); + goto l_delivery_init_tmpdir_fatal; + } + + struct statvfs st; + if (statvfs(tmpdir, &st) < 0) { + goto l_delivery_init_tmpdir_fatal; + } + +#if defined(STASIS_OS_LINUX) + // If we can't execute programs, or write data to the file system at all, then die + if ((st.f_flag & ST_NOEXEC) != 0) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L1, "%s is mounted with noexec\n", tmpdir); + goto l_delivery_init_tmpdir_fatal; + } +#endif + if ((st.f_flag & ST_RDONLY) != 0) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L1, "%s is mounted read-only\n", tmpdir); + goto l_delivery_init_tmpdir_fatal; + } + + if (!globals.tmpdir) { + globals.tmpdir = strdup(tmpdir); + } + + if (!ctx->storage.tmpdir) { + ctx->storage.tmpdir = strdup(globals.tmpdir); + } + return unusable; + + l_delivery_init_tmpdir_fatal: + unusable = 1; + return unusable; +} + +void delivery_free(struct Delivery *ctx) { + guard_free(ctx->system.arch); + GENERIC_ARRAY_FREE(ctx->system.platform); + guard_free(ctx->meta.name); + guard_free(ctx->meta.version); + guard_free(ctx->meta.codename); + guard_free(ctx->meta.mission); + guard_free(ctx->meta.python); + guard_free(ctx->meta.mission); + guard_free(ctx->meta.python_compact); + guard_free(ctx->meta.based_on); + guard_runtime_free(ctx->runtime.environ); + guard_free(ctx->storage.root); + guard_free(ctx->storage.tmpdir); + guard_free(ctx->storage.delivery_dir); + guard_free(ctx->storage.tools_dir); + guard_free(ctx->storage.package_dir); + guard_free(ctx->storage.results_dir); + guard_free(ctx->storage.output_dir); + guard_free(ctx->storage.conda_install_prefix); + guard_free(ctx->storage.conda_artifact_dir); + guard_free(ctx->storage.conda_staging_dir); + guard_free(ctx->storage.conda_staging_url); + guard_free(ctx->storage.wheel_artifact_dir); + guard_free(ctx->storage.wheel_staging_dir); + guard_free(ctx->storage.wheel_staging_url); + guard_free(ctx->storage.build_dir); + guard_free(ctx->storage.build_recipes_dir); + guard_free(ctx->storage.build_sources_dir); + guard_free(ctx->storage.build_testing_dir); + guard_free(ctx->storage.build_docker_dir); + guard_free(ctx->storage.mission_dir); + guard_free(ctx->storage.docker_artifact_dir); + guard_free(ctx->info.time_str_epoch); + guard_free(ctx->info.build_name); + guard_free(ctx->info.build_number); + guard_free(ctx->info.release_name); + guard_free(ctx->conda.installer_baseurl); + guard_free(ctx->conda.installer_name); + guard_free(ctx->conda.installer_version); + guard_free(ctx->conda.installer_platform); + guard_free(ctx->conda.installer_arch); + guard_free(ctx->conda.installer_path); + guard_free(ctx->conda.tool_version); + guard_free(ctx->conda.tool_build_version); + guard_strlist_free(&ctx->conda.conda_packages); + guard_strlist_free(&ctx->conda.conda_packages_defer); + guard_strlist_free(&ctx->conda.pip_packages); + guard_strlist_free(&ctx->conda.pip_packages_defer); + guard_strlist_free(&ctx->conda.wheels_packages); + + for (size_t i = 0; i < sizeof(ctx->tests) / sizeof(ctx->tests[0]); i++) { + guard_free(ctx->tests[i].name); + guard_free(ctx->tests[i].version); + guard_free(ctx->tests[i].repository); + guard_free(ctx->tests[i].repository_info_ref); + guard_free(ctx->tests[i].repository_info_tag); + guard_free(ctx->tests[i].script); + guard_free(ctx->tests[i].build_recipe); + // test-specific runtime variables + guard_runtime_free(ctx->tests[i].runtime.environ); + } + + guard_free(ctx->rules.release_fmt); + guard_free(ctx->rules.build_name_fmt); + guard_free(ctx->rules.build_number_fmt); + + guard_free(ctx->deploy.docker.test_script); + guard_free(ctx->deploy.docker.registry); + guard_free(ctx->deploy.docker.image_compression); + guard_strlist_free(&ctx->deploy.docker.tags); + guard_strlist_free(&ctx->deploy.docker.build_args); + + for (size_t i = 0; i < sizeof(ctx->deploy.jfrog) / sizeof(ctx->deploy.jfrog[0]); i++) { + guard_free(ctx->deploy.jfrog[i].repo); + guard_free(ctx->deploy.jfrog[i].dest); + guard_strlist_free(&ctx->deploy.jfrog[i].files); + } + + if (ctx->_stasis_ini_fp.delivery) { + ini_free(&ctx->_stasis_ini_fp.delivery); + } + guard_free(ctx->_stasis_ini_fp.delivery_path); + + if (ctx->_stasis_ini_fp.cfg) { + // optional extras + ini_free(&ctx->_stasis_ini_fp.cfg); + } + guard_free(ctx->_stasis_ini_fp.cfg_path); + + if (ctx->_stasis_ini_fp.mission) { + ini_free(&ctx->_stasis_ini_fp.mission); + } + guard_free(ctx->_stasis_ini_fp.mission_path); +} + +void delivery_init_dirs_stage2(struct Delivery *ctx) { + path_store(&ctx->storage.build_recipes_dir, PATH_MAX, ctx->storage.build_dir, "recipes"); + path_store(&ctx->storage.build_sources_dir, PATH_MAX, ctx->storage.build_dir, "sources"); + path_store(&ctx->storage.build_testing_dir, PATH_MAX, ctx->storage.build_dir, "testing"); + path_store(&ctx->storage.build_docker_dir, PATH_MAX, ctx->storage.build_dir, "docker"); + + path_store(&ctx->storage.delivery_dir, PATH_MAX, ctx->storage.output_dir, "delivery"); + path_store(&ctx->storage.results_dir, PATH_MAX, ctx->storage.output_dir, "results"); + path_store(&ctx->storage.package_dir, PATH_MAX, ctx->storage.output_dir, "packages"); + path_store(&ctx->storage.cfgdump_dir, PATH_MAX, ctx->storage.output_dir, "config"); + path_store(&ctx->storage.meta_dir, PATH_MAX, ctx->storage.output_dir, "meta"); + + path_store(&ctx->storage.conda_artifact_dir, PATH_MAX, ctx->storage.package_dir, "conda"); + path_store(&ctx->storage.wheel_artifact_dir, PATH_MAX, ctx->storage.package_dir, "wheels"); + path_store(&ctx->storage.docker_artifact_dir, PATH_MAX, ctx->storage.package_dir, "docker"); +} + +void delivery_init_dirs_stage1(struct Delivery *ctx) { + char *rootdir = getenv("STASIS_ROOT"); + if (rootdir) { + if (isempty(rootdir)) { + fprintf(stderr, "STASIS_ROOT is set, but empty. Please assign a file system path to this environment variable.\n"); + exit(1); + } + path_store(&ctx->storage.root, PATH_MAX, rootdir, ctx->info.build_name); + } else { + // use "stasis" in current working directory + path_store(&ctx->storage.root, PATH_MAX, "stasis", ctx->info.build_name); + } + path_store(&ctx->storage.tools_dir, PATH_MAX, ctx->storage.root, "tools"); + path_store(&ctx->storage.tmpdir, PATH_MAX, ctx->storage.root, "tmp"); + if (delivery_init_tmpdir(ctx)) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L1, "Set $TMPDIR to a location other than %s\n", globals.tmpdir); + if (globals.tmpdir) + guard_free(globals.tmpdir); + exit(1); + } + + path_store(&ctx->storage.build_dir, PATH_MAX, ctx->storage.root, "build"); + path_store(&ctx->storage.output_dir, PATH_MAX, ctx->storage.root, "output"); + + if (!ctx->storage.mission_dir) { + path_store(&ctx->storage.mission_dir, PATH_MAX, globals.sysconfdir, "mission"); + } + + if (access(ctx->storage.mission_dir, F_OK)) { + msg(STASIS_MSG_L1, "%s: %s\n", ctx->storage.mission_dir, strerror(errno)); + exit(1); + } + + // Override installation prefix using global configuration key + if (globals.conda_install_prefix && strlen(globals.conda_install_prefix)) { + // user wants a specific path + globals.conda_fresh_start = false; + /* + if (mkdirs(globals.conda_install_prefix, 0755)) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L1, "Unable to create directory: %s: %s\n", + strerror(errno), globals.conda_install_prefix); + exit(1); + } + */ + /* + ctx->storage.conda_install_prefix = realpath(globals.conda_install_prefix, NULL); + if (!ctx->storage.conda_install_prefix) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L1, "realpath(): Conda installation prefix reassignment failed\n"); + exit(1); + } + ctx->storage.conda_install_prefix = strdup(globals.conda_install_prefix); + */ + path_store(&ctx->storage.conda_install_prefix, PATH_MAX, globals.conda_install_prefix, "conda"); + } else { + // install conda under the STASIS tree + path_store(&ctx->storage.conda_install_prefix, PATH_MAX, ctx->storage.tools_dir, "conda"); + } +} + +int delivery_init_platform(struct Delivery *ctx) { + msg(STASIS_MSG_L2, "Setting architecture\n"); + char archsuffix[20]; + struct utsname uts; + if (uname(&uts)) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L2, "uname() failed: %s\n", strerror(errno)); + return -1; + } + + ctx->system.platform = calloc(DELIVERY_PLATFORM_MAX + 1, sizeof(*ctx->system.platform)); + if (!ctx->system.platform) { + SYSERROR("Unable to allocate %d records for platform array\n", DELIVERY_PLATFORM_MAX); + return -1; + } + for (size_t i = 0; i < DELIVERY_PLATFORM_MAX; i++) { + ctx->system.platform[i] = calloc(DELIVERY_PLATFORM_MAXLEN, sizeof(*ctx->system.platform[0])); + } + + ctx->system.arch = strdup(uts.machine); + if (!ctx->system.arch) { + // memory error + return -1; + } + + if (!strcmp(ctx->system.arch, "x86_64")) { + strcpy(archsuffix, "64"); + } else { + strcpy(archsuffix, ctx->system.arch); + } + + msg(STASIS_MSG_L2, "Setting platform\n"); + strcpy(ctx->system.platform[DELIVERY_PLATFORM], uts.sysname); + if (!strcmp(ctx->system.platform[DELIVERY_PLATFORM], "Darwin")) { + sprintf(ctx->system.platform[DELIVERY_PLATFORM_CONDA_SUBDIR], "osx-%s", archsuffix); + strcpy(ctx->system.platform[DELIVERY_PLATFORM_CONDA_INSTALLER], "MacOSX"); + strcpy(ctx->system.platform[DELIVERY_PLATFORM_RELEASE], "macos"); + } else if (!strcmp(ctx->system.platform[DELIVERY_PLATFORM], "Linux")) { + sprintf(ctx->system.platform[DELIVERY_PLATFORM_CONDA_SUBDIR], "linux-%s", archsuffix); + strcpy(ctx->system.platform[DELIVERY_PLATFORM_CONDA_INSTALLER], "Linux"); + strcpy(ctx->system.platform[DELIVERY_PLATFORM_RELEASE], "linux"); + } else { + // Not explicitly supported systems + strcpy(ctx->system.platform[DELIVERY_PLATFORM_CONDA_SUBDIR], ctx->system.platform[DELIVERY_PLATFORM]); + strcpy(ctx->system.platform[DELIVERY_PLATFORM_CONDA_INSTALLER], ctx->system.platform[DELIVERY_PLATFORM]); + strcpy(ctx->system.platform[DELIVERY_PLATFORM_RELEASE], ctx->system.platform[DELIVERY_PLATFORM]); + tolower_s(ctx->system.platform[DELIVERY_PLATFORM_RELEASE]); + } + + // Declare some important bits as environment variables + setenv("STASIS_ARCH", ctx->system.arch, 1); + setenv("STASIS_PLATFORM", ctx->system.platform[DELIVERY_PLATFORM], 1); + setenv("STASIS_CONDA_ARCH", ctx->system.arch, 1); + setenv("STASIS_CONDA_PLATFORM", ctx->system.platform[DELIVERY_PLATFORM_CONDA_INSTALLER], 1); + setenv("STASIS_CONDA_PLATFORM_SUBDIR", ctx->system.platform[DELIVERY_PLATFORM_CONDA_SUBDIR], 1); + + // Register template variables + // These were moved out of main() because we can't take the address of system.platform[x] + // _before_ the array has been initialized. + tpl_register("system.arch", &ctx->system.arch); + tpl_register("system.platform", &ctx->system.platform[DELIVERY_PLATFORM_RELEASE]); + + return 0; +} + +static int populate_mission_ini(struct Delivery **ctx) { + union INIVal val; + struct INIFILE *ini; + + if ((*ctx)->_stasis_ini_fp.mission) { + return 0; + } + + // Now populate the rules + char missionfile[PATH_MAX] = {0}; + if (getenv("STASIS_SYSCONFDIR")) { + sprintf(missionfile, "%s/%s/%s/%s.ini", + getenv("STASIS_SYSCONFDIR"), "mission", (*ctx)->meta.mission, (*ctx)->meta.mission); + } else { + sprintf(missionfile, "%s/%s/%s/%s.ini", + globals.sysconfdir, "mission", (*ctx)->meta.mission, (*ctx)->meta.mission); + } + + msg(STASIS_MSG_L2, "Reading mission configuration: %s\n", missionfile); + (*ctx)->_stasis_ini_fp.mission = ini_open(missionfile); + ini = (*ctx)->_stasis_ini_fp.mission; + if (!ini) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L2, "Failed to read misson configuration: %s, %s\n", missionfile, strerror(errno)); + exit(1); + } + (*ctx)->_stasis_ini_fp.mission_path = strdup(missionfile); + + ini_getval_required(ini, "meta", "release_fmt", INIVAL_TYPE_STR, &val); + conv_str(&(*ctx)->rules.release_fmt, val); + + // Used for setting artifactory build info + ini_getval_required(ini, "meta", "build_name_fmt", INIVAL_TYPE_STR, &val); + conv_str(&(*ctx)->rules.build_name_fmt, val); + + // Used for setting artifactory build info + ini_getval_required(ini, "meta", "build_number_fmt", INIVAL_TYPE_STR, &val); + conv_str(&(*ctx)->rules.build_number_fmt, val); + return 0; +} + +void validate_delivery_ini(struct INIFILE *ini) { + if (ini_section_search(&ini, INI_SEARCH_EXACT, "meta")) { + ini_has_key_required(ini, "meta", "name"); + ini_has_key_required(ini, "meta", "version"); + ini_has_key_required(ini, "meta", "rc"); + ini_has_key_required(ini, "meta", "mission"); + ini_has_key_required(ini, "meta", "python"); + } else { + SYSERROR("%s", "[meta] configuration section is required"); + exit(1); + } + + if (ini_section_search(&ini, INI_SEARCH_EXACT, "conda")) { + ini_has_key_required(ini, "conda", "installer_name"); + ini_has_key_required(ini, "conda", "installer_version"); + ini_has_key_required(ini, "conda", "installer_platform"); + ini_has_key_required(ini, "conda", "installer_arch"); + } else { + SYSERROR("%s", "[conda] configuration section is required"); + exit(1); + } + + for (size_t i = 0; i < ini->section_count; i++) { + struct INISection *section = ini->section[i]; + if (section && startswith(section->key, "test:")) { + char *name = strstr(section->key, ":"); + if (name && strlen(name) > 1) { + name = &name[1]; + } + ini_has_key_required(ini, section->key, "version"); + ini_has_key_required(ini, section->key, "repository"); + ini_has_key_required(ini, section->key, "script"); + } + } + + if (ini_section_search(&ini, INI_SEARCH_EXACT, "deploy:docker")) { + // yeah? + } + + for (size_t i = 0; i < ini->section_count; i++) { + struct INISection *section = ini->section[i]; + if (section && startswith(section->key, "deploy:artifactory")) { + ini_has_key_required(ini, section->key, "files"); + ini_has_key_required(ini, section->key, "dest"); + } + } +} + +static int populate_delivery_ini(struct Delivery *ctx) { + union INIVal val; + struct INIFILE *ini = ctx->_stasis_ini_fp.delivery; + struct INIData *rtdata; + RuntimeEnv *rt; + + validate_delivery_ini(ini); + // Populate runtime variables first they may be interpreted by other + // keys in the configuration + rt = runtime_copy(__environ); + while ((rtdata = ini_getall(ini, "runtime")) != NULL) { + char rec[STASIS_BUFSIZ]; + sprintf(rec, "%s=%s", lstrip(strip(rtdata->key)), lstrip(strip(rtdata->value))); + runtime_set(rt, rtdata->key, rtdata->value); + } + runtime_apply(rt); + ctx->runtime.environ = rt; + + ini_getval_required(ini, "meta", "mission", INIVAL_TYPE_STR, &val); + conv_str(&ctx->meta.mission, val); + + if (!strcasecmp(ctx->meta.mission, "hst")) { + ini_getval(ini, "meta", "codename", INIVAL_TYPE_STR, &val); + conv_str(&ctx->meta.codename, val); + } else { + ctx->meta.codename = NULL; + } + + /* + if (!strcasecmp(ctx->meta.mission, "jwst")) { + ini_getval(ini, "meta", "version", INIVAL_TYPE_STR, &val); + conv_str(&ctx->meta.version, val); + + } else { + ctx->meta.version = NULL; + } + */ + ini_getval(ini, "meta", "version", INIVAL_TYPE_STR, &val); + conv_str(&ctx->meta.version, val); + + ini_getval_required(ini, "meta", "name", INIVAL_TYPE_STR, &val); + conv_str(&ctx->meta.name, val); + + ini_getval(ini, "meta", "rc", INIVAL_TYPE_INT, &val); + conv_int(&ctx->meta.rc, val); + + ini_getval(ini, "meta", "final", INIVAL_TYPE_BOOL, &val); + conv_bool(&ctx->meta.final, val); + + ini_getval(ini, "meta", "based_on", INIVAL_TYPE_STR, &val); + conv_str(&ctx->meta.based_on, val); + + if (!ctx->meta.python) { + ini_getval(ini, "meta", "python", INIVAL_TYPE_STR, &val); + conv_str(&ctx->meta.python, val); + guard_free(ctx->meta.python_compact); + ctx->meta.python_compact = to_short_version(ctx->meta.python); + } else { + ini_setval(&ini, INI_SETVAL_REPLACE, "meta", "python", ctx->meta.python); + } + + ini_getval_required(ini, "conda", "installer_name", INIVAL_TYPE_STR, &val); + conv_str(&ctx->conda.installer_name, val); + + ini_getval_required(ini, "conda", "installer_version", INIVAL_TYPE_STR, &val); + conv_str(&ctx->conda.installer_version, val); + + ini_getval_required(ini, "conda", "installer_platform", INIVAL_TYPE_STR, &val); + conv_str(&ctx->conda.installer_platform, val); + + ini_getval_required(ini, "conda", "installer_arch", INIVAL_TYPE_STR, &val); + conv_str(&ctx->conda.installer_arch, val); + + ini_getval_required(ini, "conda", "installer_baseurl", INIVAL_TYPE_STR, &val); + conv_str(&ctx->conda.installer_baseurl, val); + + ini_getval(ini, "conda", "conda_packages", INIVAL_TYPE_STR_ARRAY, &val); + conv_strlist(&ctx->conda.conda_packages, LINE_SEP, val); + + for (size_t i = 0; i < strlist_count(ctx->conda.conda_packages); i++) { + char *pkg = strlist_item(ctx->conda.conda_packages, i); + if (strpbrk(pkg, ";#")) { + strlist_remove(ctx->conda.conda_packages, i); + } + } + + ini_getval(ini, "conda", "pip_packages", INIVAL_TYPE_STR_ARRAY, &val); + conv_strlist(&ctx->conda.pip_packages, LINE_SEP, val); + + for (size_t i = 0; i < strlist_count(ctx->conda.pip_packages); i++) { + char *pkg = strlist_item(ctx->conda.pip_packages, i); + if (strpbrk(pkg, ";#")) { + strlist_remove(ctx->conda.pip_packages, i); + } + } + + // Delivery metadata consumed + populate_mission_ini(&ctx); + + if (ctx->info.release_name) { + guard_free(ctx->info.release_name); + guard_free(ctx->info.build_name); + guard_free(ctx->info.build_number); + } + + if (delivery_format_str(ctx, &ctx->info.release_name, ctx->rules.release_fmt)) { + fprintf(stderr, "Failed to generate release name. Format used: %s\n", ctx->rules.release_fmt); + return -1; + } + + if (!ctx->info.build_name) { + delivery_format_str(ctx, &ctx->info.build_name, ctx->rules.build_name_fmt); + } + if (!ctx->info.build_number) { + delivery_format_str(ctx, &ctx->info.build_number, ctx->rules.build_number_fmt); + } + + // Best I can do to make output directories unique. Annoying. + delivery_init_dirs_stage2(ctx); + + if (!ctx->conda.conda_packages_defer) { + ctx->conda.conda_packages_defer = strlist_init(); + } + if (!ctx->conda.pip_packages_defer) { + ctx->conda.pip_packages_defer = strlist_init(); + } + + for (size_t z = 0, i = 0; i < ini->section_count; i++) { + if (startswith(ini->section[i]->key, "test:")) { + val.as_char_p = strchr(ini->section[i]->key, ':') + 1; + if (val.as_char_p && isempty(val.as_char_p)) { + return 1; + } + conv_str(&ctx->tests[z].name, val); + + ini_getval_required(ini, ini->section[i]->key, "version", INIVAL_TYPE_STR, &val); + conv_str(&ctx->tests[z].version, val); + + ini_getval_required(ini, ini->section[i]->key, "repository", INIVAL_TYPE_STR, &val); + conv_str(&ctx->tests[z].repository, val); + + ini_getval_required(ini, ini->section[i]->key, "script", INIVAL_TYPE_STR, &val); + conv_str_noexpand(&ctx->tests[z].script, val); + + ini_getval(ini, ini->section[i]->key, "repository_remove_tags", INIVAL_TYPE_STR_ARRAY, &val); + conv_strlist(&ctx->tests[z].repository_remove_tags, LINE_SEP, val); + + ini_getval(ini, ini->section[i]->key, "build_recipe", INIVAL_TYPE_STR, &val); + conv_str(&ctx->tests[z].build_recipe, val); + + ini_getval(ini, ini->section[i]->key, "runtime", INIVAL_TO_LIST, &val); + conv_strlist(&ctx->tests[z].runtime.environ, LINE_SEP, val); + z++; + } + } + + for (size_t z = 0, i = 0; i < ini->section_count; i++) { + if (startswith(ini->section[i]->key, "deploy:artifactory")) { + // Artifactory base configuration + ini_getval(ini, ini->section[i]->key, "workaround_parent_only", INIVAL_TYPE_BOOL, &val); + conv_bool(&ctx->deploy.jfrog[z].upload_ctx.workaround_parent_only, val); + + ini_getval(ini, ini->section[i]->key, "exclusions", INIVAL_TYPE_STR, &val); + conv_str(&ctx->deploy.jfrog[z].upload_ctx.exclusions, val); + + ini_getval(ini, ini->section[i]->key, "explode", INIVAL_TYPE_BOOL, &val); + conv_bool(&ctx->deploy.jfrog[z].upload_ctx.explode, val); + + ini_getval(ini, ini->section[i]->key, "recursive", INIVAL_TYPE_BOOL, &val); + conv_bool(&ctx->deploy.jfrog[z].upload_ctx.recursive, val); + + ini_getval(ini, ini->section[i]->key, "retries", INIVAL_TYPE_INT, &val); + conv_int(&ctx->deploy.jfrog[z].upload_ctx.retries, val); + + ini_getval(ini, ini->section[i]->key, "retry_wait_time", INIVAL_TYPE_INT, &val); + conv_int(&ctx->deploy.jfrog[z].upload_ctx.retry_wait_time, val); + + ini_getval(ini, ini->section[i]->key, "detailed_summary", INIVAL_TYPE_BOOL, &val); + conv_bool(&ctx->deploy.jfrog[z].upload_ctx.detailed_summary, val); + + ini_getval(ini, ini->section[i]->key, "quiet", INIVAL_TYPE_BOOL, &val); + conv_bool(&ctx->deploy.jfrog[z].upload_ctx.quiet, val); + + ini_getval(ini, ini->section[i]->key, "regexp", INIVAL_TYPE_BOOL, &val); + conv_bool(&ctx->deploy.jfrog[z].upload_ctx.regexp, val); + + ini_getval(ini, ini->section[i]->key, "spec", INIVAL_TYPE_STR, &val); + conv_str(&ctx->deploy.jfrog[z].upload_ctx.spec, val); + + ini_getval(ini, ini->section[i]->key, "flat", INIVAL_TYPE_BOOL, &val); + conv_bool(&ctx->deploy.jfrog[z].upload_ctx.flat, val); + + ini_getval(ini, ini->section[i]->key, "repo", INIVAL_TYPE_STR, &val); + conv_str(&ctx->deploy.jfrog[z].repo, val); + + ini_getval(ini, ini->section[i]->key, "dest", INIVAL_TYPE_STR, &val); + conv_str(&ctx->deploy.jfrog[z].dest, val); + + ini_getval(ini, ini->section[i]->key, "files", INIVAL_TYPE_STR_ARRAY, &val); + conv_strlist(&ctx->deploy.jfrog[z].files, LINE_SEP, val); + z++; + } + } + + for (size_t i = 0; i < ini->section_count; i++) { + if (startswith(ini->section[i]->key, "deploy:docker")) { + ini_getval(ini, ini->section[i]->key, "registry", INIVAL_TYPE_STR, &val); + conv_str(&ctx->deploy.docker.registry, val); + + ini_getval(ini, ini->section[i]->key, "image_compression", INIVAL_TYPE_STR, &val); + conv_str(&ctx->deploy.docker.image_compression, val); + + ini_getval(ini, ini->section[i]->key, "test_script", INIVAL_TYPE_STR, &val); + conv_str(&ctx->deploy.docker.test_script, val); + + ini_getval(ini, ini->section[i]->key, "build_args", INIVAL_TYPE_STR_ARRAY, &val); + conv_strlist(&ctx->deploy.docker.build_args, LINE_SEP, val); + + ini_getval(ini, ini->section[i]->key, "tags", INIVAL_TYPE_STR_ARRAY, &val); + conv_strlist(&ctx->deploy.docker.tags, LINE_SEP, val); + } + } + return 0; +} + +static int populate_delivery_cfg(struct Delivery *ctx) { + union INIVal val; + struct INIFILE *cfg = ctx->_stasis_ini_fp.cfg; + if (!cfg) { + return -1; + } + ini_getval(cfg, "default", "conda_staging_dir", INIVAL_TYPE_STR, &val); + conv_str(&ctx->storage.conda_staging_dir, val); + ini_getval(cfg, "default", "conda_staging_url", INIVAL_TYPE_STR, &val); + conv_str(&ctx->storage.conda_staging_url, val); + ini_getval(cfg, "default", "wheel_staging_dir", INIVAL_TYPE_STR, &val); + conv_str(&ctx->storage.wheel_staging_dir, val); + ini_getval(cfg, "default", "wheel_staging_url", INIVAL_TYPE_STR, &val); + conv_str(&ctx->storage.wheel_staging_url, val); + ini_getval(cfg, "default", "conda_fresh_start", INIVAL_TYPE_BOOL, &val); + conv_bool(&globals.conda_fresh_start, val); + // Below can also be toggled by command-line arguments + if (!globals.continue_on_error) { + ini_getval(cfg, "default", "continue_on_error", INIVAL_TYPE_BOOL, &val); + conv_bool(&globals.continue_on_error, val); + } + // Below can also be toggled by command-line arguments + if (!globals.always_update_base_environment) { + ini_getval(cfg, "default", "always_update_base_environment", INIVAL_TYPE_BOOL, &val); + conv_bool(&globals.always_update_base_environment, val); + } + ini_getval(cfg, "default", "conda_install_prefix", INIVAL_TYPE_STR, &val); + conv_str(&globals.conda_install_prefix, val); + ini_getval(cfg, "default", "conda_packages", INIVAL_TYPE_STR_ARRAY, &val); + conv_strlist(&globals.conda_packages, LINE_SEP, val); + ini_getval(cfg, "default", "pip_packages", INIVAL_TYPE_STR_ARRAY, &val); + conv_strlist(&globals.pip_packages, LINE_SEP, val); + // Configure jfrog cli downloader + ini_getval(cfg, "jfrog_cli_download", "url", INIVAL_TYPE_STR, &val); + conv_str(&globals.jfrog.jfrog_artifactory_base_url, val); + ini_getval(cfg, "jfrog_cli_download", "product", INIVAL_TYPE_STR, &val); + conv_str(&globals.jfrog.jfrog_artifactory_product, val); + ini_getval(cfg, "jfrog_cli_download", "version_series", INIVAL_TYPE_STR, &val); + conv_str(&globals.jfrog.cli_major_ver, val); + ini_getval(cfg, "jfrog_cli_download", "version", INIVAL_TYPE_STR, &val); + conv_str(&globals.jfrog.version, val); + ini_getval(cfg, "jfrog_cli_download", "filename", INIVAL_TYPE_STR, &val); + conv_str(&globals.jfrog.remote_filename, val); + ini_getval(cfg, "deploy:artifactory", "url", INIVAL_TYPE_STR, &val); + conv_str(&globals.jfrog.url, val); + ini_getval(cfg, "deploy:artifactory", "repo", INIVAL_TYPE_STR, &val); + conv_str(&globals.jfrog.repo, val); + return 0; +} + +static int populate_info(struct Delivery *ctx) { + if (!ctx->info.time_str_epoch) { + // Record timestamp used for release + time(&ctx->info.time_now); + ctx->info.time_info = localtime(&ctx->info.time_now); + + ctx->info.time_str_epoch = calloc(STASIS_TIME_STR_MAX, sizeof(*ctx->info.time_str_epoch)); + if (!ctx->info.time_str_epoch) { + msg(STASIS_MSG_ERROR, "Unable to allocate memory for Unix epoch string\n"); + return -1; + } + snprintf(ctx->info.time_str_epoch, STASIS_TIME_STR_MAX - 1, "%li", ctx->info.time_now); + } + return 0; +} + +int *bootstrap_build_info(struct Delivery *ctx) { + struct Delivery local; + memset(&local, 0, sizeof(local)); + local._stasis_ini_fp.cfg = ini_open(ctx->_stasis_ini_fp.cfg_path); + local._stasis_ini_fp.delivery = ini_open(ctx->_stasis_ini_fp.delivery_path); + delivery_init_platform(&local); + populate_delivery_cfg(&local); + populate_delivery_ini(&local); + populate_info(&local); + ctx->info.build_name = strdup(local.info.build_name); + ctx->info.build_number = strdup(local.info.build_number); + ctx->info.release_name = strdup(local.info.release_name); + memcpy(&ctx->info.time_info, &local.info.time_info, sizeof(ctx->info.time_info)); + ctx->info.time_now = local.info.time_now; + ctx->info.time_str_epoch = strdup(local.info.time_str_epoch); + delivery_free(&local); + return 0; +} + +int delivery_init(struct Delivery *ctx) { + populate_info(ctx); + populate_delivery_cfg(ctx); + + // Set artifactory URL via environment variable if possible + char *jfurl = getenv("STASIS_JF_ARTIFACTORY_URL"); + if (jfurl) { + if (globals.jfrog.url) { + guard_free(globals.jfrog.url); + } + globals.jfrog.url = strdup(jfurl); + } + + // Set artifactory repository via environment if possible + char *jfrepo = getenv("STASIS_JF_REPO"); + if (jfrepo) { + if (globals.jfrog.repo) { + guard_free(globals.jfrog.repo); + } + globals.jfrog.repo = strdup(jfrepo); + } + + // Configure architecture and platform information + delivery_init_platform(ctx); + + // Create STASIS directory structure + delivery_init_dirs_stage1(ctx); + + char config_local[PATH_MAX]; + sprintf(config_local, "%s/%s", ctx->storage.tmpdir, "config"); + setenv("XDG_CONFIG_HOME", config_local, 1); + + char cache_local[PATH_MAX]; + sprintf(cache_local, "%s/%s", ctx->storage.tmpdir, "cache"); + setenv("XDG_CACHE_HOME", ctx->storage.tmpdir, 1); + + // add tools to PATH + char pathvar_tmp[STASIS_BUFSIZ]; + sprintf(pathvar_tmp, "%s/bin:%s", ctx->storage.tools_dir, getenv("PATH")); + setenv("PATH", pathvar_tmp, 1); + + // Prevent git from paginating output + setenv("GIT_PAGER", "", 1); + + populate_delivery_ini(ctx); + + if (ctx->deploy.docker.tags) { + for (size_t i = 0; i < strlist_count(ctx->deploy.docker.tags); i++) { + char *item = strlist_item(ctx->deploy.docker.tags, i); + tolower_s(item); + } + } + + if (ctx->deploy.docker.image_compression) { + if (docker_validate_compression_program(ctx->deploy.docker.image_compression)) { + SYSERROR("[deploy:docker].image_compression - invalid command / program is not installed: %s", ctx->deploy.docker.image_compression); + return -1; + } + } + return 0; +} + +int delivery_format_str(struct Delivery *ctx, char **dest, const char *fmt) { + size_t fmt_len = strlen(fmt); + + if (!*dest) { + *dest = calloc(STASIS_NAME_MAX, sizeof(**dest)); + if (!*dest) { + return -1; + } + } + + for (size_t i = 0; i < fmt_len; i++) { + if (fmt[i] == '%' && strlen(&fmt[i])) { + i++; + switch (fmt[i]) { + case 'n': // name + strcat(*dest, ctx->meta.name); + break; + case 'c': // codename + strcat(*dest, ctx->meta.codename); + break; + case 'm': // mission + strcat(*dest, ctx->meta.mission); + break; + case 'r': // revision + sprintf(*dest + strlen(*dest), "%d", ctx->meta.rc); + break; + case 'R': // "final"-aware revision + if (ctx->meta.final) + strcat(*dest, "final"); + else + sprintf(*dest + strlen(*dest), "%d", ctx->meta.rc); + break; + case 'v': // version + strcat(*dest, ctx->meta.version); + break; + case 'P': // python version + strcat(*dest, ctx->meta.python); + break; + case 'p': // python version major/minor + strcat(*dest, ctx->meta.python_compact); + break; + case 'a': // system architecture name + strcat(*dest, ctx->system.arch); + break; + case 'o': // system platform (OS) name + strcat(*dest, ctx->system.platform[DELIVERY_PLATFORM_RELEASE]); + break; + case 't': // unix epoch + sprintf(*dest + strlen(*dest), "%ld", ctx->info.time_now); + break; + default: // unknown formatter, write as-is + sprintf(*dest + strlen(*dest), "%c%c", fmt[i - 1], fmt[i]); + break; + } + } else { // write non-format text + sprintf(*dest + strlen(*dest), "%c", fmt[i]); + } + } + return 0; +} + +void delivery_debug_show(struct Delivery *ctx) { + printf("\n====DEBUG====\n"); + printf("%-20s %-10s\n", "System configuration directory:", globals.sysconfdir); + printf("%-20s %-10s\n", "Mission directory:", ctx->storage.mission_dir); + printf("%-20s %-10s\n", "Testing enabled:", globals.enable_testing ? "Yes" : "No"); + printf("%-20s %-10s\n", "Docker image builds enabled:", globals.enable_docker ? "Yes" : "No"); + printf("%-20s %-10s\n", "Artifact uploading enabled:", globals.enable_artifactory ? "Yes" : "No"); +} + +void delivery_meta_show(struct Delivery *ctx) { + if (globals.verbose) { + delivery_debug_show(ctx); + } + + printf("\n====DELIVERY====\n"); + printf("%-20s %-10s\n", "Target Python:", ctx->meta.python); + printf("%-20s %-10s\n", "Name:", ctx->meta.name); + printf("%-20s %-10s\n", "Mission:", ctx->meta.mission); + if (ctx->meta.codename) { + printf("%-20s %-10s\n", "Codename:", ctx->meta.codename); + } + if (ctx->meta.version) { + printf("%-20s %-10s\n", "Version", ctx->meta.version); + } + if (!ctx->meta.final) { + printf("%-20s %-10d\n", "RC Level:", ctx->meta.rc); + } + printf("%-20s %-10s\n", "Final Release:", ctx->meta.final ? "Yes" : "No"); + printf("%-20s %-10s\n", "Based On:", ctx->meta.based_on ? ctx->meta.based_on : "New"); +} + +void delivery_conda_show(struct Delivery *ctx) { + printf("\n====CONDA====\n"); + printf("%-20s %-10s\n", "Prefix:", ctx->storage.conda_install_prefix); + + puts("Native Packages:"); + if (strlist_count(ctx->conda.conda_packages)) { + for (size_t i = 0; i < strlist_count(ctx->conda.conda_packages); i++) { + char *token = strlist_item(ctx->conda.conda_packages, i); + if (isempty(token) || isblank(*token) || startswith(token, "-")) { + continue; + } + printf("%21s%s\n", "", token); + } + } else { + printf("%21s%s\n", "", "N/A"); + } + + puts("Python Packages:"); + if (strlist_count(ctx->conda.pip_packages)) { + for (size_t i = 0; i < strlist_count(ctx->conda.pip_packages); i++) { + char *token = strlist_item(ctx->conda.pip_packages, i); + if (isempty(token) || isblank(*token) || startswith(token, "-")) { + continue; + } + printf("%21s%s\n", "", token); + } + } else { + printf("%21s%s\n", "", "N/A"); + } +} + +void delivery_tests_show(struct Delivery *ctx) { + printf("\n====TESTS====\n"); + for (size_t i = 0; i < sizeof(ctx->tests) / sizeof(ctx->tests[0]); i++) { + if (!ctx->tests[i].name) { + continue; + } + printf("%-20s %-20s %s\n", ctx->tests[i].name, + ctx->tests[i].version, + ctx->tests[i].repository); + } +} + +void delivery_runtime_show(struct Delivery *ctx) { + printf("\n====RUNTIME====\n"); + struct StrList *rt = NULL; + rt = strlist_copy(ctx->runtime.environ); + if (!rt) { + // no data + return; + } + strlist_sort(rt, STASIS_SORT_ALPHA); + size_t total = strlist_count(rt); + for (size_t i = 0; i < total; i++) { + char *item = strlist_item(rt, i); + if (!item) { + // not supposed to occur + msg(STASIS_MSG_WARN | STASIS_MSG_L1, "Encountered unexpected NULL at record %zu of %zu of runtime array.\n", i); + return; + } + printf("%s\n", item); + } +} + +int delivery_build_recipes(struct Delivery *ctx) { + for (size_t i = 0; i < sizeof(ctx->tests) / sizeof(ctx->tests[0]); i++) { + char *recipe_dir = NULL; + if (ctx->tests[i].build_recipe) { // build a conda recipe + int recipe_type; + int status; + if (recipe_clone(ctx->storage.build_recipes_dir, ctx->tests[i].build_recipe, NULL, &recipe_dir)) { + fprintf(stderr, "Encountered an issue while cloning recipe for: %s\n", ctx->tests[i].name); + return -1; + } + recipe_type = recipe_get_type(recipe_dir); + pushd(recipe_dir); + { + if (RECIPE_TYPE_ASTROCONDA == recipe_type) { + pushd(path_basename(ctx->tests[i].repository)); + } else if (RECIPE_TYPE_CONDA_FORGE == recipe_type) { + pushd("recipe"); + } + + char recipe_version[100]; + char recipe_buildno[100]; + char recipe_git_url[PATH_MAX]; + char recipe_git_rev[PATH_MAX]; + + //sprintf(recipe_version, "{%% set version = GIT_DESCRIBE_TAG ~ \".dev\" ~ GIT_DESCRIBE_NUMBER ~ \"+\" ~ GIT_DESCRIBE_HASH %%}"); + //sprintf(recipe_git_url, " git_url: %s", ctx->tests[i].repository); + //sprintf(recipe_git_rev, " git_rev: %s", ctx->tests[i].version); + // TODO: Conditionally download archives if github.com is the origin. Else, use raw git_* keys ^^^ + sprintf(recipe_version, "{%% set version = \"%s\" %%}", ctx->tests[i].repository_info_tag ? ctx->tests[i].repository_info_tag : ctx->tests[i].version); + sprintf(recipe_git_url, " url: %s/archive/refs/tags/{{ version }}.tar.gz", ctx->tests[i].repository); + strcpy(recipe_git_rev, ""); + sprintf(recipe_buildno, " number: 0"); + + unsigned flags = REPLACE_TRUNCATE_AFTER_MATCH; + //file_replace_text("meta.yaml", "{% set version = ", recipe_version); + if (ctx->meta.final) { + sprintf(recipe_version, "{%% set version = \"%s\" %%}", ctx->tests[i].version); + // TODO: replace sha256 of tagged archive + // TODO: leave the recipe unchanged otherwise. in theory this should produce the same conda package hash as conda forge. + // For now, remove the sha256 requirement + file_replace_text("meta.yaml", "sha256:", "\n", flags); + } else { + file_replace_text("meta.yaml", "{% set version = ", recipe_version, flags); + file_replace_text("meta.yaml", " url:", recipe_git_url, flags); + //file_replace_text("meta.yaml", "sha256:", recipe_git_rev); + file_replace_text("meta.yaml", " sha256:", "\n", flags); + file_replace_text("meta.yaml", " number:", recipe_buildno, flags); + } + + char command[PATH_MAX]; + sprintf(command, "mambabuild --python=%s .", ctx->meta.python); + status = conda_exec(command); + if (status) { + return -1; + } + + if (RECIPE_TYPE_GENERIC != recipe_type) { + popd(); + } + popd(); + } + } + if (recipe_dir) { + guard_free(recipe_dir); + } + } + return 0; +} + +static int filter_repo_tags(char *repo, struct StrList *patterns) { + int result = 0; + + if (!pushd(repo)) { + int list_status = 0; + char *tags_raw = shell_output("git tag -l", &list_status); + struct StrList *tags = strlist_init(); + strlist_append_tokenize(tags, tags_raw, LINE_SEP); + + for (size_t i = 0; tags && i < strlist_count(tags); i++) { + char *tag = strlist_item(tags, i); + for (size_t p = 0; p < strlist_count(patterns); p++) { + char *pattern = strlist_item(patterns, p); + int match = fnmatch(pattern, tag, 0); + if (!match) { + char cmd[PATH_MAX] = {0}; + sprintf(cmd, "git tag -d %s", tag); + result += system(cmd); + break; + } + } + } + guard_strlist_free(&tags); + guard_free(tags_raw); + popd(); + } else { + result = -1; + } + return result; +} + +struct StrList *delivery_build_wheels(struct Delivery *ctx) { + struct StrList *result = NULL; + struct Process proc; + memset(&proc, 0, sizeof(proc)); + + result = strlist_init(); + if (!result) { + perror("unable to allocate memory for string list"); + return NULL; + } + + for (size_t i = 0; i < sizeof(ctx->tests) / sizeof(ctx->tests[0]); i++) { + if (!ctx->tests[i].build_recipe && ctx->tests[i].repository) { // build from source + char srcdir[PATH_MAX]; + char wheeldir[PATH_MAX]; + memset(srcdir, 0, sizeof(srcdir)); + memset(wheeldir, 0, sizeof(wheeldir)); + + sprintf(srcdir, "%s/%s", ctx->storage.build_sources_dir, ctx->tests[i].name); + git_clone(&proc, ctx->tests[i].repository, srcdir, ctx->tests[i].version); + + if (ctx->tests[i].repository_remove_tags && strlist_count(ctx->tests[i].repository_remove_tags)) { + filter_repo_tags(srcdir, ctx->tests[i].repository_remove_tags); + } + + pushd(srcdir); + { + char dname[NAME_MAX]; + char outdir[PATH_MAX]; + char cmd[PATH_MAX * 2]; + memset(dname, 0, sizeof(dname)); + memset(outdir, 0, sizeof(outdir)); + memset(cmd, 0, sizeof(outdir)); + + strcpy(dname, ctx->tests[i].name); + tolower_s(dname); + sprintf(outdir, "%s/%s", ctx->storage.wheel_artifact_dir, dname); + if (mkdirs(outdir, 0755)) { + fprintf(stderr, "failed to create output directory: %s\n", outdir); + } + + sprintf(cmd, "-m build -w -o %s", outdir); + if (python_exec(cmd)) { + fprintf(stderr, "failed to generate wheel package for %s-%s\n", ctx->tests[i].name, ctx->tests[i].version); + strlist_free(&result); + return NULL; + } + popd(); + } + } + } + return result; +} + +static const struct Test *requirement_from_test(struct Delivery *ctx, const char *name) { + struct Test *result; + + result = NULL; + for (size_t i = 0; i < sizeof(ctx->tests) / sizeof(ctx->tests[0]); i++) { + if (strstr(name, ctx->tests[i].name)) { + result = &ctx->tests[i]; + break; + } + } + return result; +} + +int delivery_install_packages(struct Delivery *ctx, char *conda_install_dir, char *env_name, int type, struct StrList **manifest) { + char cmd[PATH_MAX]; + char pkgs[STASIS_BUFSIZ]; + char *env_current = getenv("CONDA_DEFAULT_ENV"); + + if (env_current) { + // The requested environment is not the current environment + if (strcmp(env_current, env_name) != 0) { + // Activate the requested environment + printf("Activating: %s\n", env_name); + conda_activate(conda_install_dir, env_name); + runtime_replace(&ctx->runtime.environ, __environ); + } + } + + memset(cmd, 0, sizeof(cmd)); + memset(pkgs, 0, sizeof(pkgs)); + strcat(cmd, "install"); + + typedef int (*Runner)(const char *); + Runner runner = NULL; + if (INSTALL_PKG_CONDA & type) { + runner = conda_exec; + } else if (INSTALL_PKG_PIP & type) { + runner = pip_exec; + } + + if (INSTALL_PKG_CONDA_DEFERRED & type) { + strcat(cmd, " --use-local"); + } else if (INSTALL_PKG_PIP_DEFERRED & type) { + // Don't change the baseline package set unless we're working with a + // new build. Release candidates will need to keep packages as stable + // as possible between releases. + if (!ctx->meta.based_on) { + strcat(cmd, " --upgrade"); + } + sprintf(cmd + strlen(cmd), " --extra-index-url 'file://%s'", ctx->storage.wheel_artifact_dir); + } + + for (size_t x = 0; manifest[x] != NULL; x++) { + char *name = NULL; + for (size_t p = 0; p < strlist_count(manifest[x]); p++) { + name = strlist_item(manifest[x], p); + strip(name); + if (!strlen(name)) { + continue; + } + if (INSTALL_PKG_PIP_DEFERRED & type) { + const struct Test *info = requirement_from_test(ctx, name); + if (info) { + sprintf(cmd + strlen(cmd), " '%s==%s'", info->name, info->version); + } else { + fprintf(stderr, "Deferred package '%s' is not present in the tested package list!\n", name); + return -1; + } + } else { + if (startswith(name, "--") || startswith(name, "-")) { + sprintf(cmd + strlen(cmd), " %s", name); + } else { + sprintf(cmd + strlen(cmd), " '%s'", name); + } + } + } + int status = runner(cmd); + if (status) { + return status; + } + } + return 0; +} + +void delivery_get_installer_url(struct Delivery *ctx, char *result) { + if (ctx->conda.installer_version) { + // Use version specified by configuration file + sprintf(result, "%s/%s-%s-%s-%s.sh", ctx->conda.installer_baseurl, + ctx->conda.installer_name, + ctx->conda.installer_version, + ctx->conda.installer_platform, + ctx->conda.installer_arch); + } else { + // Use latest installer + sprintf(result, "%s/%s-%s-%s.sh", ctx->conda.installer_baseurl, + ctx->conda.installer_name, + ctx->conda.installer_platform, + ctx->conda.installer_arch); + } + +} + +int delivery_get_installer(struct Delivery *ctx, char *installer_url) { + char script_path[PATH_MAX]; + char *installer = path_basename(installer_url); + + memset(script_path, 0, sizeof(script_path)); + sprintf(script_path, "%s/%s", ctx->storage.tmpdir, installer); + if (access(script_path, F_OK)) { + // Script doesn't exist + int fetch_status = download(installer_url, script_path, NULL); + if (HTTP_ERROR(fetch_status) || fetch_status < 0) { + // download failed + return -1; + } + } else { + msg(STASIS_MSG_RESTRICT | STASIS_MSG_L3, "Skipped, installer already exists\n", script_path); + } + + ctx->conda.installer_path = strdup(script_path); + if (!ctx->conda.installer_path) { + SYSERROR("Unable to duplicate script_path: '%s'", script_path); + return -1; + } + + return 0; +} + +int delivery_copy_conda_artifacts(struct Delivery *ctx) { + char cmd[STASIS_BUFSIZ]; + char conda_build_dir[PATH_MAX]; + char subdir[PATH_MAX]; + memset(cmd, 0, sizeof(cmd)); + memset(conda_build_dir, 0, sizeof(conda_build_dir)); + memset(subdir, 0, sizeof(subdir)); + + sprintf(conda_build_dir, "%s/%s", ctx->storage.conda_install_prefix, "conda-bld"); + // One must run conda build at least once to create the "conda-bld" directory. + // When this directory is missing there can be no build artifacts. + if (access(conda_build_dir, F_OK) < 0) { + msg(STASIS_MSG_RESTRICT | STASIS_MSG_WARN | STASIS_MSG_L3, + "Skipped: 'conda build' has never been executed.\n"); + return 0; + } + + snprintf(cmd, sizeof(cmd) - 1, "rsync -avi --progress %s/%s %s", + conda_build_dir, + ctx->system.platform[DELIVERY_PLATFORM_CONDA_SUBDIR], + ctx->storage.conda_artifact_dir); + + return system(cmd); +} + +int delivery_copy_wheel_artifacts(struct Delivery *ctx) { + char cmd[PATH_MAX]; + memset(cmd, 0, sizeof(cmd)); + snprintf(cmd, sizeof(cmd) - 1, "rsync -avi --progress %s/*/dist/*.whl %s", + ctx->storage.build_sources_dir, + ctx->storage.wheel_artifact_dir); + return system(cmd); +} + +int delivery_index_wheel_artifacts(struct Delivery *ctx) { + struct dirent *rec; + DIR *dp; + FILE *top_fp; + + dp = opendir(ctx->storage.wheel_artifact_dir); + if (!dp) { + return -1; + } + + // Generate a "dumb" local pypi index that is compatible with: + // pip install --extra-index-url + char top_index[PATH_MAX]; + memset(top_index, 0, sizeof(top_index)); + sprintf(top_index, "%s/index.html", ctx->storage.wheel_artifact_dir); + top_fp = fopen(top_index, "w+"); + if (!top_fp) { + return -2; + } + + while ((rec = readdir(dp)) != NULL) { + // skip directories + if (DT_REG == rec->d_type || !strcmp(rec->d_name, "..") || !strcmp(rec->d_name, ".")) { + continue; + } + + FILE *bottom_fp; + char bottom_index[PATH_MAX * 2]; + memset(bottom_index, 0, sizeof(bottom_index)); + sprintf(bottom_index, "%s/%s/index.html", ctx->storage.wheel_artifact_dir, rec->d_name); + bottom_fp = fopen(bottom_index, "w+"); + if (!bottom_fp) { + return -3; + } + + if (globals.verbose) { + printf("+ %s\n", rec->d_name); + } + // Add record to top level index + fprintf(top_fp, "<a href=\"%s/\">%s</a><br/>\n", rec->d_name, rec->d_name); + + char dpath[PATH_MAX * 2]; + memset(dpath, 0, sizeof(dpath)); + sprintf(dpath, "%s/%s", ctx->storage.wheel_artifact_dir, rec->d_name); + struct StrList *packages = listdir(dpath); + if (!packages) { + fclose(top_fp); + fclose(bottom_fp); + return -4; + } + + for (size_t i = 0; i < strlist_count(packages); i++) { + char *package = strlist_item(packages, i); + if (!endswith(package, ".whl")) { + continue; + } + if (globals.verbose) { + printf("`- %s\n", package); + } + // Write record to bottom level index + fprintf(bottom_fp, "<a href=\"%s\">%s</a><br/>\n", package, package); + } + fclose(bottom_fp); + + guard_strlist_free(&packages); + } + closedir(dp); + fclose(top_fp); + return 0; +} + +void delivery_install_conda(char *install_script, char *conda_install_dir) { + struct Process proc; + memset(&proc, 0, sizeof(proc)); + + if (globals.conda_fresh_start) { + if (!access(conda_install_dir, F_OK)) { + // directory exists so remove it + if (rmtree(conda_install_dir)) { + perror("unable to remove previous installation"); + exit(1); + } + + // Proceed with the installation + // -b = batch mode (non-interactive) + char cmd[255] = {0}; + snprintf(cmd, sizeof(cmd) - 1, "%s %s -b -p %s", + find_program("bash"), + install_script, + conda_install_dir); + if (shell_safe(&proc, cmd)) { + fprintf(stderr, "conda installation failed\n"); + exit(1); + } + } + } else { + msg(STASIS_MSG_L3, "Conda removal disabled by configuration\n"); + } +} + +void delivery_conda_enable(struct Delivery *ctx, char *conda_install_dir) { + if (conda_activate(conda_install_dir, "base")) { + fprintf(stderr, "conda activation failed\n"); + exit(1); + } + + // Setting the CONDARC environment variable appears to be the only consistent + // way to make sure the file is used. Not setting this variable leads to strange + // behavior, especially if a conda environment is already active when STASIS is loaded. + char rcpath[PATH_MAX]; + sprintf(rcpath, "%s/%s", conda_install_dir, ".condarc"); + setenv("CONDARC", rcpath, 1); + if (runtime_replace(&ctx->runtime.environ, __environ)) { + perror("unable to replace runtime environment after activating conda"); + exit(1); + } + + conda_setup_headless(); +} + +void delivery_defer_packages(struct Delivery *ctx, int type) { + struct StrList *dataptr = NULL; + struct StrList *deferred = NULL; + char *name = NULL; + char cmd[PATH_MAX]; + + memset(cmd, 0, sizeof(cmd)); + + char mode[10]; + if (DEFER_CONDA == type) { + dataptr = ctx->conda.conda_packages; + deferred = ctx->conda.conda_packages_defer; + strcpy(mode, "conda"); + } else if (DEFER_PIP == type) { + dataptr = ctx->conda.pip_packages; + deferred = ctx->conda.pip_packages_defer; + strcpy(mode, "pip"); + } + msg(STASIS_MSG_L2, "Filtering %s packages by test definition...\n", mode); + + struct StrList *filtered = NULL; + filtered = strlist_init(); + for (size_t i = 0, z = 0; i < strlist_count(dataptr); i++) { + int ignore_pkg = 0; + + name = strlist_item(dataptr, i); + if (!strlen(name) || isblank(*name) || isspace(*name)) { + // no data + continue; + } + msg(STASIS_MSG_L3, "package '%s': ", name); + + // Compile a list of packages that are *also* to be tested. + char *version; + for (size_t x = 0; x < sizeof(ctx->tests) / sizeof(ctx->tests[0]); x++) { + version = NULL; + if (ctx->tests[x].name) { + if (strstr(name, ctx->tests[x].name)) { + version = ctx->tests[x].version; + ignore_pkg = 1; + z++; + break; + } + } + } + + if (ignore_pkg) { + char build_at[PATH_MAX]; + if (DEFER_CONDA == type) { + sprintf(build_at, "%s=%s", name, version); + name = build_at; + } + + printf("BUILD FOR HOST\n"); + strlist_append(&deferred, name); + } else { + printf("USE EXISTING\n"); + strlist_append(&filtered, name); + } + } + + if (!strlist_count(deferred)) { + msg(STASIS_MSG_WARN | STASIS_MSG_L2, "No %s packages were filtered by test definitions\n", mode); + } else { + if (DEFER_CONDA == type) { + strlist_free(&ctx->conda.conda_packages); + ctx->conda.conda_packages = strlist_copy(filtered); + } else if (DEFER_PIP == type) { + strlist_free(&ctx->conda.pip_packages); + ctx->conda.pip_packages = strlist_copy(filtered); + } + } + if (filtered) { + strlist_free(&filtered); + } +} + +const char *release_header = "# delivery_name: %s\n" + "# delivery_fmt: %s\n" + "# creation_time: %s\n" + "# conda_ident: %s\n" + "# conda_build_ident: %s\n"; + +char *delivery_get_release_header(struct Delivery *ctx) { + char output[STASIS_BUFSIZ]; + char stamp[100]; + strftime(stamp, sizeof(stamp) - 1, "%c", ctx->info.time_info); + sprintf(output, release_header, + ctx->info.release_name, + ctx->rules.release_fmt, + stamp, + ctx->conda.tool_version, + ctx->conda.tool_build_version); + return strdup(output); +} + +int delivery_dump_metadata(struct Delivery *ctx) { + FILE *fp; + char filename[PATH_MAX]; + sprintf(filename, "%s/meta-%s.stasis", ctx->storage.meta_dir, ctx->info.release_name); + fp = fopen(filename, "w+"); + if (!fp) { + return -1; + } + if (globals.verbose) { + printf("%s\n", filename); + } + fprintf(fp, "name %s\n", ctx->meta.name); + fprintf(fp, "version %s\n", ctx->meta.version); + fprintf(fp, "rc %d\n", ctx->meta.rc); + fprintf(fp, "python %s\n", ctx->meta.python); + fprintf(fp, "python_compact %s\n", ctx->meta.python_compact); + fprintf(fp, "mission %s\n", ctx->meta.mission); + fprintf(fp, "codename %s\n", ctx->meta.codename ? ctx->meta.codename : ""); + fprintf(fp, "platform %s %s %s %s\n", + ctx->system.platform[DELIVERY_PLATFORM], + ctx->system.platform[DELIVERY_PLATFORM_CONDA_SUBDIR], + ctx->system.platform[DELIVERY_PLATFORM_CONDA_INSTALLER], + ctx->system.platform[DELIVERY_PLATFORM_RELEASE]); + fprintf(fp, "arch %s\n", ctx->system.arch); + fprintf(fp, "time %s\n", ctx->info.time_str_epoch); + fprintf(fp, "release_fmt %s\n", ctx->rules.release_fmt); + fprintf(fp, "release_name %s\n", ctx->info.release_name); + fprintf(fp, "build_name_fmt %s\n", ctx->rules.build_name_fmt); + fprintf(fp, "build_name %s\n", ctx->info.build_name); + fprintf(fp, "build_number_fmt %s\n", ctx->rules.build_number_fmt); + fprintf(fp, "build_number %s\n", ctx->info.build_number); + fprintf(fp, "conda_installer_baseurl %s\n", ctx->conda.installer_baseurl); + fprintf(fp, "conda_installer_name %s\n", ctx->conda.installer_name); + fprintf(fp, "conda_installer_version %s\n", ctx->conda.installer_version); + fprintf(fp, "conda_installer_platform %s\n", ctx->conda.installer_platform); + fprintf(fp, "conda_installer_arch %s\n", ctx->conda.installer_arch); + + fclose(fp); + return 0; +} + +void delivery_rewrite_spec(struct Delivery *ctx, char *filename, unsigned stage) { + char output[PATH_MAX]; + char *header = NULL; + char *tempfile = NULL; + FILE *tp = NULL; + + if (stage == DELIVERY_REWRITE_SPEC_STAGE_1) { + header = delivery_get_release_header(ctx); + if (!header) { + msg(STASIS_MSG_ERROR, "failed to generate release header string\n", filename); + exit(1); + } + tempfile = xmkstemp(&tp, "w+"); + if (!tempfile || !tp) { + msg(STASIS_MSG_ERROR, "%s: unable to create temporary file\n", strerror(errno)); + exit(1); + } + fprintf(tp, "%s", header); + + // Read the original file + char **contents = file_readlines(filename, 0, 0, NULL); + if (!contents) { + msg(STASIS_MSG_ERROR, "%s: unable to read %s", filename); + exit(1); + } + + // Write temporary data + for (size_t i = 0; contents[i] != NULL; i++) { + if (startswith(contents[i], "channels:")) { + // Allow for additional conda channel injection + if (ctx->conda.conda_packages_defer && strlist_count(ctx->conda.conda_packages_defer)) { + fprintf(tp, "%s - @CONDA_CHANNEL@\n", contents[i]); + continue; + } + } else if (strstr(contents[i], "- pip:")) { + if (ctx->conda.pip_packages_defer && strlist_count(ctx->conda.pip_packages_defer)) { + // Allow for additional pip argument injection + fprintf(tp, "%s - @PIP_ARGUMENTS@\n", contents[i]); + continue; + } + } else if (startswith(contents[i], "prefix:")) { + // Remove the prefix key + if (strstr(contents[i], "/") || strstr(contents[i], "\\")) { + // path is on the same line as the key + continue; + } else { + // path is on the next line? + if (contents[i + 1] && (strstr(contents[i + 1], "/") || strstr(contents[i + 1], "\\"))) { + i++; + } + continue; + } + } + fprintf(tp, "%s", contents[i]); + } + GENERIC_ARRAY_FREE(contents); + guard_free(header); + fflush(tp); + fclose(tp); + + // Replace the original file with our temporary data + if (copy2(tempfile, filename, CT_PERM) < 0) { + fprintf(stderr, "%s: could not rename '%s' to '%s'\n", strerror(errno), tempfile, filename); + exit(1); + } + remove(tempfile); + guard_free(tempfile); + } else if (stage == DELIVERY_REWRITE_SPEC_STAGE_2) { + // Replace "local" channel with the staging URL + if (ctx->storage.conda_staging_url) { + file_replace_text(filename, "@CONDA_CHANNEL@", ctx->storage.conda_staging_url, 0); + } else if (globals.jfrog.repo) { + sprintf(output, "%s/%s/%s/%s/packages/conda", globals.jfrog.url, globals.jfrog.repo, ctx->meta.mission, ctx->info.build_name); + file_replace_text(filename, "@CONDA_CHANNEL@", output, 0); + } else { + msg(STASIS_MSG_WARN, "conda_staging_url is not configured\n", filename); + file_replace_text(filename, " - @CONDA_CHANNEL@", "", 0); + } + + if (ctx->storage.wheel_staging_url) { + file_replace_text(filename, "@PIP_ARGUMENTS@", ctx->storage.wheel_staging_url, 0); + } else if (globals.jfrog.repo) { + sprintf(output, "--extra-index-url %s/%s/%s/%s/packages/wheels", globals.jfrog.url, globals.jfrog.repo, ctx->meta.mission, ctx->info.build_name); + file_replace_text(filename, "@PIP_ARGUMENTS@", output, 0); + } + } +} + +int delivery_index_conda_artifacts(struct Delivery *ctx) { + return conda_index(ctx->storage.conda_artifact_dir); +} + +void delivery_tests_run(struct Delivery *ctx) { + struct Process proc; + memset(&proc, 0, sizeof(proc)); + + if (!ctx->tests[0].name) { + msg(STASIS_MSG_WARN | STASIS_MSG_L2, "no tests are defined!\n"); + } else { + for (size_t i = 0; i < sizeof(ctx->tests) / sizeof(ctx->tests[0]); i++) { + if (!ctx->tests[i].name && !ctx->tests[i].repository && !ctx->tests[i].script) { + // skip unused test records + continue; + } + msg(STASIS_MSG_L2, "Executing tests for %s %s\n", ctx->tests[i].name, ctx->tests[i].version); + if (!ctx->tests[i].script || !strlen(ctx->tests[i].script)) { + msg(STASIS_MSG_WARN | STASIS_MSG_L3, "Nothing to do. To fix, declare a 'script' in section: [test:%s]\n", + ctx->tests[i].name); + continue; + } + + char destdir[PATH_MAX]; + sprintf(destdir, "%s/%s", ctx->storage.build_sources_dir, path_basename(ctx->tests[i].repository)); + + if (!access(destdir, F_OK)) { + msg(STASIS_MSG_L3, "Purging repository %s\n", destdir); + if (rmtree(destdir)) { + COE_CHECK_ABORT(1, "Unable to remove repository\n"); + } + } + msg(STASIS_MSG_L3, "Cloning repository %s\n", ctx->tests[i].repository); + if (!git_clone(&proc, ctx->tests[i].repository, destdir, ctx->tests[i].version)) { + ctx->tests[i].repository_info_tag = strdup(git_describe(destdir)); + ctx->tests[i].repository_info_ref = strdup(git_rev_parse(destdir, "HEAD")); + } else { + COE_CHECK_ABORT(1, "Unable to clone repository\n"); + } + + if (ctx->tests[i].repository_remove_tags && strlist_count(ctx->tests[i].repository_remove_tags)) { + filter_repo_tags(destdir, ctx->tests[i].repository_remove_tags); + } + + if (pushd(destdir)) { + COE_CHECK_ABORT(1, "Unable to enter repository directory\n"); + } else { +#if 1 + int status; + char cmd[PATH_MAX]; + + msg(STASIS_MSG_L3, "Testing %s\n", ctx->tests[i].name); + memset(&proc, 0, sizeof(proc)); + + // Apply workaround for tox positional arguments + char *toxconf = NULL; + if (!access("tox.ini", F_OK)) { + if (!fix_tox_conf("tox.ini", &toxconf)) { + msg(STASIS_MSG_L3, "Fixing tox positional arguments\n"); + if (!globals.workaround.tox_posargs) { + globals.workaround.tox_posargs = calloc(PATH_MAX, sizeof(*globals.workaround.tox_posargs)); + } else { + memset(globals.workaround.tox_posargs, 0, PATH_MAX); + } + snprintf(globals.workaround.tox_posargs, PATH_MAX - 1, "-c %s --root .", toxconf); + } + } + + // enable trace mode before executing each test script + memset(cmd, 0, sizeof(cmd)); + sprintf(cmd, "set -x ; %s", ctx->tests[i].script); + + char *cmd_rendered = tpl_render(cmd); + if (cmd_rendered) { + if (strcmp(cmd_rendered, cmd) != 0) { + strcpy(cmd, cmd_rendered); + } + guard_free(cmd_rendered); + } + + status = shell(&proc, cmd); + if (status) { + msg(STASIS_MSG_ERROR, "Script failure: %s\n%s\n\nExit code: %d\n", ctx->tests[i].name, ctx->tests[i].script, status); + COE_CHECK_ABORT(1, "Test failure"); + } + + if (toxconf) { + remove(toxconf); + guard_free(toxconf); + } + popd(); +#else + msg(STASIS_MSG_WARNING | STASIS_MSG_L3, "TESTING DISABLED BY CODE!\n"); +#endif + } + } + } +} + +void delivery_gather_tool_versions(struct Delivery *ctx) { + int status = 0; + + // Extract version from tool output + ctx->conda.tool_version = shell_output("conda --version", &status); + if (ctx->conda.tool_version) + strip(ctx->conda.tool_version); + + ctx->conda.tool_build_version = shell_output("conda build --version", &status); + if (ctx->conda.tool_build_version) + strip(ctx->conda.tool_version); +} + +int delivery_init_artifactory(struct Delivery *ctx) { + int status = 0; + char dest[PATH_MAX] = {0}; + char filepath[PATH_MAX] = {0}; + snprintf(dest, sizeof(dest) - 1, "%s/bin", ctx->storage.tools_dir); + snprintf(filepath, sizeof(dest) - 1, "%s/bin/jf", ctx->storage.tools_dir); + + if (!access(filepath, F_OK)) { + // already have it + msg(STASIS_MSG_L3, "Skipped download, %s already exists\n", filepath); + goto delivery_init_artifactory_envsetup; + } + + char *platform = ctx->system.platform[DELIVERY_PLATFORM]; + msg(STASIS_MSG_L3, "Downloading %s for %s %s\n", globals.jfrog.remote_filename, platform, ctx->system.arch); + if ((status = artifactory_download_cli(dest, + globals.jfrog.jfrog_artifactory_base_url, + globals.jfrog.jfrog_artifactory_product, + globals.jfrog.cli_major_ver, + globals.jfrog.version, + platform, + ctx->system.arch, + globals.jfrog.remote_filename))) { + remove(filepath); + } + + delivery_init_artifactory_envsetup: + // CI (ridiculously generic, why?) disables interactive prompts and progress bar output + setenv("CI", "1", 1); + + // JFROG_CLI_HOME_DIR is where .jfrog is stored + char path[PATH_MAX] = {0}; + snprintf(path, sizeof(path) - 1, "%s/.jfrog", ctx->storage.build_dir); + setenv("JFROG_CLI_HOME_DIR", path, 1); + + // JFROG_CLI_TEMP_DIR is where the obvious is stored + setenv("JFROG_CLI_TEMP_DIR", ctx->storage.tmpdir, 1); + return status; +} + +int delivery_artifact_upload(struct Delivery *ctx) { + int status = 0; + + if (jfrt_auth_init(&ctx->deploy.jfrog_auth)) { + fprintf(stderr, "Failed to initialize Artifactory authentication context\n"); + return -1; + } + + for (size_t i = 0; i < sizeof(ctx->deploy.jfrog) / sizeof(*ctx->deploy.jfrog); i++) { + if (!ctx->deploy.jfrog[i].files || !ctx->deploy.jfrog[i].dest) { + break; + } + jfrt_upload_init(&ctx->deploy.jfrog[i].upload_ctx); + + if (!globals.jfrog.repo) { + msg(STASIS_MSG_WARN, "Artifactory repository path is not configured!\n"); + fprintf(stderr, "set STASIS_JF_REPO environment variable...\nOr append to configuration file:\n\n"); + fprintf(stderr, "[deploy:artifactory]\nrepo = example/generic/repo/path\n\n"); + status++; + break; + } else if (!ctx->deploy.jfrog[i].repo) { + ctx->deploy.jfrog[i].repo = strdup(globals.jfrog.repo); + } + + if (!ctx->deploy.jfrog[i].repo || isempty(ctx->deploy.jfrog[i].repo) || !strlen(ctx->deploy.jfrog[i].repo)) { + // Unlikely to trigger if the config parser is working correctly + msg(STASIS_MSG_ERROR, "Artifactory repository path is empty. Cannot continue.\n"); + status++; + break; + } + + ctx->deploy.jfrog[i].upload_ctx.workaround_parent_only = true; + ctx->deploy.jfrog[i].upload_ctx.build_name = ctx->info.build_name; + ctx->deploy.jfrog[i].upload_ctx.build_number = ctx->info.build_number; + + char files[PATH_MAX]; + char dest[PATH_MAX]; // repo + remote dir + + if (jfrog_cli_rt_ping(&ctx->deploy.jfrog_auth)) { + msg(STASIS_MSG_ERROR | STASIS_MSG_L2, "Unable to contact artifactory server: %s\n", ctx->deploy.jfrog_auth.url); + return -1; + } + + if (strlist_count(ctx->deploy.jfrog[i].files)) { + for (size_t f = 0; f < strlist_count(ctx->deploy.jfrog[i].files); f++) { + memset(dest, 0, sizeof(dest)); + memset(files, 0, sizeof(files)); + snprintf(dest, sizeof(dest) - 1, "%s/%s", ctx->deploy.jfrog[i].repo, ctx->deploy.jfrog[i].dest); + snprintf(files, sizeof(files) - 1, "%s", strlist_item(ctx->deploy.jfrog[i].files, f)); + status += jfrog_cli_rt_upload(&ctx->deploy.jfrog_auth, &ctx->deploy.jfrog[i].upload_ctx, files, dest); + } + } + } + + if (!status && ctx->deploy.jfrog[0].files && ctx->deploy.jfrog[0].dest) { + jfrog_cli_rt_build_collect_env(&ctx->deploy.jfrog_auth, ctx->deploy.jfrog[0].upload_ctx.build_name, ctx->deploy.jfrog[0].upload_ctx.build_number); + jfrog_cli_rt_build_publish(&ctx->deploy.jfrog_auth, ctx->deploy.jfrog[0].upload_ctx.build_name, ctx->deploy.jfrog[0].upload_ctx.build_number); + } + + return status; +} + +int delivery_mission_render_files(struct Delivery *ctx) { + if (!ctx->storage.mission_dir) { + fprintf(stderr, "Mission directory is not configured. Context not initialized?\n"); + return -1; + } + struct Data { + char *src; + char *dest; + } data; + struct INIFILE *cfg = ctx->_stasis_ini_fp.mission; + union INIVal val; + + memset(&data, 0, sizeof(data)); + data.src = calloc(PATH_MAX, sizeof(*data.src)); + if (!data.src) { + perror("data.src"); + return -1; + } + + for (size_t i = 0; i < cfg->section_count; i++) { + char *section_name = cfg->section[i]->key; + if (!startswith(section_name, "template:")) { + continue; + } + val.as_char_p = strchr(section_name, ':') + 1; + if (val.as_char_p && isempty(val.as_char_p)) { + guard_free(data.src); + return 1; + } + sprintf(data.src, "%s/%s/%s", ctx->storage.mission_dir, ctx->meta.mission, val.as_char_p); + msg(STASIS_MSG_L2, "%s\n", data.src); + + ini_getval_required(cfg, section_name, "destination", INIVAL_TYPE_STR, &val); + conv_str(&data.dest, val); + + char *contents; + struct stat st; + if (lstat(data.src, &st)) { + perror(data.src); + guard_free(data.dest); + continue; + } + + contents = calloc(st.st_size + 1, sizeof(*contents)); + if (!contents) { + perror("template file contents"); + guard_free(data.dest); + continue; + } + + FILE *fp; + fp = fopen(data.src, "rb"); + if (!fp) { + perror(data.src); + guard_free(contents); + guard_free(data.dest); + continue; + } + + if (fread(contents, st.st_size, sizeof(*contents), fp) < 1) { + perror("while reading template file"); + guard_free(contents); + guard_free(data.dest); + fclose(fp); + continue; + } + fclose(fp); + + msg(STASIS_MSG_L3, "Writing %s\n", data.dest); + if (tpl_render_to_file(contents, data.dest)) { + guard_free(contents); + guard_free(data.dest); + continue; + } + guard_free(contents); + guard_free(data.dest); + } + + guard_free(data.src); + return 0; +} + +int delivery_docker(struct Delivery *ctx) { + if (!docker_capable(&ctx->deploy.docker.capabilities)) { + return -1; + } + char tag[STASIS_NAME_MAX]; + char args[PATH_MAX]; + int has_registry = ctx->deploy.docker.registry != NULL; + size_t total_tags = strlist_count(ctx->deploy.docker.tags); + size_t total_build_args = strlist_count(ctx->deploy.docker.build_args); + + if (!has_registry) { + msg(STASIS_MSG_WARN | STASIS_MSG_L2, "No docker registry defined. You will need to manually retag the resulting image.\n"); + } + + if (!total_tags) { + char default_tag[PATH_MAX]; + msg(STASIS_MSG_WARN | STASIS_MSG_L2, "No docker tags defined by configuration. Generating default tag(s).\n"); + // generate local tag + memset(default_tag, 0, sizeof(default_tag)); + sprintf(default_tag, "%s:%s-py%s", ctx->meta.name, ctx->info.build_name, ctx->meta.python_compact); + tolower_s(default_tag); + + // Add tag + ctx->deploy.docker.tags = strlist_init(); + strlist_append(&ctx->deploy.docker.tags, default_tag); + + if (has_registry) { + // generate tag for target registry + memset(default_tag, 0, sizeof(default_tag)); + sprintf(default_tag, "%s/%s:%s-py%s", ctx->deploy.docker.registry, ctx->meta.name, ctx->info.build_number, ctx->meta.python_compact); + tolower_s(default_tag); + + // Add tag + strlist_append(&ctx->deploy.docker.tags, default_tag); + } + // regenerate total tag available + total_tags = strlist_count(ctx->deploy.docker.tags); + } + + memset(args, 0, sizeof(args)); + + // Append image tags to command + for (size_t i = 0; i < total_tags; i++) { + char *tag_orig = strlist_item(ctx->deploy.docker.tags, i); + strcpy(tag, tag_orig); + docker_sanitize_tag(tag); + sprintf(args + strlen(args), " -t \"%s\" ", tag); + } + + // Append build arguments to command (i.e. --build-arg "key=value" + for (size_t i = 0; i < total_build_args; i++) { + char *build_arg = strlist_item(ctx->deploy.docker.build_args, i); + if (!build_arg) { + break; + } + sprintf(args + strlen(args), " --build-arg \"%s\" ", build_arg); + } + + // Build the image + char delivery_file[PATH_MAX]; + char dest[PATH_MAX]; + char rsync_cmd[PATH_MAX * 2]; + memset(delivery_file, 0, sizeof(delivery_file)); + memset(dest, 0, sizeof(dest)); + + sprintf(delivery_file, "%s/%s.yml", ctx->storage.delivery_dir, ctx->info.release_name); + if (access(delivery_file, F_OK) < 0) { + fprintf(stderr, "docker build cannot proceed without delivery file: %s\n", delivery_file); + return -1; + } + + sprintf(dest, "%s/%s.yml", ctx->storage.build_docker_dir, ctx->info.release_name); + if (copy2(delivery_file, dest, CT_PERM)) { + fprintf(stderr, "Failed to copy delivery file to %s: %s\n", dest, strerror(errno)); + return -1; + } + + memset(dest, 0, sizeof(dest)); + sprintf(dest, "%s/packages", ctx->storage.build_docker_dir); + + msg(STASIS_MSG_L2, "Copying conda packages\n"); + memset(rsync_cmd, 0, sizeof(rsync_cmd)); + sprintf(rsync_cmd, "rsync -avi --progress '%s' '%s'", ctx->storage.conda_artifact_dir, dest); + if (system(rsync_cmd)) { + fprintf(stderr, "Failed to copy conda artifacts to docker build directory\n"); + return -1; + } + + msg(STASIS_MSG_L2, "Copying wheel packages\n"); + memset(rsync_cmd, 0, sizeof(rsync_cmd)); + sprintf(rsync_cmd, "rsync -avi --progress '%s' '%s'", ctx->storage.wheel_artifact_dir, dest); + if (system(rsync_cmd)) { + fprintf(stderr, "Failed to copy wheel artifactory to docker build directory\n"); + } + + if (docker_build(ctx->storage.build_docker_dir, args, ctx->deploy.docker.capabilities.build)) { + return -1; + } + + // Test the image + // All tags point back to the same image so test the first one we see + // regardless of how many are defined + strcpy(tag, strlist_item(ctx->deploy.docker.tags, 0)); + docker_sanitize_tag(tag); + + msg(STASIS_MSG_L2, "Executing image test script for %s\n", tag); + if (ctx->deploy.docker.test_script) { + if (isempty(ctx->deploy.docker.test_script)) { + msg(STASIS_MSG_L2 | STASIS_MSG_WARN, "Image test script has no content\n"); + } else { + int state; + if ((state = docker_script(tag, ctx->deploy.docker.test_script, 0))) { + msg(STASIS_MSG_L2 | STASIS_MSG_ERROR, "Non-zero exit (%d) from test script. %s image archive will not be generated.\n", state >> 8, tag); + // test failed -- don't save the image + return -1; + } + } + } else { + msg(STASIS_MSG_L2 | STASIS_MSG_WARN, "No image test script defined\n"); + } + + // Test successful, save image + if (docker_save(path_basename(tag), ctx->storage.docker_artifact_dir, ctx->deploy.docker.image_compression)) { + // save failed + return -1; + } + + return 0; +} + +int delivery_fixup_test_results(struct Delivery *ctx) { + struct dirent *rec; + DIR *dp; + + dp = opendir(ctx->storage.results_dir); + if (!dp) { + perror(ctx->storage.results_dir); + return -1; + } + + while ((rec = readdir(dp)) != NULL) { + char path[PATH_MAX]; + memset(path, 0, sizeof(path)); + + if (!strcmp(rec->d_name, ".") || !strcmp(rec->d_name, "..")) { + continue; + } else if (!endswith(rec->d_name, ".xml")) { + continue; + } + + sprintf(path, "%s/%s", ctx->storage.results_dir, rec->d_name); + msg(STASIS_MSG_L2, "%s\n", rec->d_name); + if (xml_pretty_print_in_place(path, STASIS_XML_PRETTY_PRINT_PROG, STASIS_XML_PRETTY_PRINT_ARGS)) { + msg(STASIS_MSG_L3 | STASIS_MSG_WARN, "Failed to rewrite file '%s'\n", rec->d_name); + } + } + + closedir(dp); + return 0; +}
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