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Tue, 13 Aug 2019 06:11:37 +0000 Received: from abhmp0019.oracle.com (abhmp0019.oracle.com [141.146.116.25]) by aserv0121.oracle.com (8.14.4/8.13.8) with ESMTP id x7D6BawQ026730; Tue, 13 Aug 2019 06:11:36 GMT Received: from abi.no.oracle.com (/10.172.144.123) by default (Oracle Beehive Gateway v4.0) with ESMTP ; Mon, 12 Aug 2019 23:11:36 -0700 From: Knut Omang To: linux-kselftest@vger.kernel.org, linux-kernel@vger.kernel.org Cc: linux-doc@vger.kernel.org, linux-kbuild@vger.kernel.org, Shuah Khan , Jonathan Corbet , Masahiro Yamada , Michal Marek , Greg Kroah-Hartman , Shreyans Devendra Doshi <0xinfosect0r@gmail.com>, Alan Maguire , Brendan Higgins , Kevin Hilman , Hidenori Yamaji , Frank Rowand , Timothy Bird , Luis Chamberlain , "Theodore Ts'o" , Daniel Vetter , Stephen Boyd , Knut Omang Subject: [RFC 12/19] ktf: Main part of user land library for executing tests Date: Tue, 13 Aug 2019 08:09:27 +0200 Message-Id: <45a49a1c8c826254db169e104f1d50b389e02a03.1565676440.git-series.knut.omang@oracle.com> X-Mailer: git-send-email 2.20.1 In-Reply-To: References: MIME-Version: 1.0 X-Proofpoint-Virus-Version: vendor=nai engine=6000 definitions=9347 signatures=668685 X-Proofpoint-Spam-Details: rule=notspam policy=default score=0 suspectscore=2 malwarescore=0 phishscore=0 bulkscore=0 spamscore=0 mlxscore=0 mlxlogscore=999 adultscore=0 classifier=spam adjust=0 reason=mlx scancount=1 engine=8.0.1-1906280000 definitions=main-1908130067 X-Proofpoint-Virus-Version: vendor=nai engine=6000 definitions=9347 signatures=668685 X-Proofpoint-Spam-Details: rule=notspam policy=default score=0 priorityscore=1501 malwarescore=0 suspectscore=2 phishscore=0 bulkscore=0 spamscore=0 clxscore=1015 lowpriorityscore=0 mlxscore=0 impostorscore=0 mlxlogscore=999 adultscore=0 classifier=spam adjust=0 reason=mlx scancount=1 engine=8.0.1-1906280000 definitions=main-1908130067 Sender: linux-kbuild-owner@vger.kernel.org Precedence: bulk List-ID: X-Mailing-List: linux-kbuild@vger.kernel.org X-Virus-Scanned: ClamAV using ClamSMTP Implementation of the main part of the user library to communicate with the kernel side of ktf about tests, configuration and test results. ktf.h: User mode side of KTF extensions to the gtest unit test framework. ktf_int.cc: Implementation of Gtest user land test management ktf_int.h: User mode side of extension to the gtest unit test framework: Signed-off-by: Knut Omang --- tools/testing/selftests/ktf/lib/Makefile | 21 +- tools/testing/selftests/ktf/lib/ktf.h | 114 ++- tools/testing/selftests/ktf/lib/ktf_int.cc | 1031 +++++++++++++++++++++- tools/testing/selftests/ktf/lib/ktf_int.h | 84 ++- 4 files changed, 1250 insertions(+) create mode 100644 tools/testing/selftests/ktf/lib/Makefile create mode 100644 tools/testing/selftests/ktf/lib/ktf.h create mode 100644 tools/testing/selftests/ktf/lib/ktf_int.cc create mode 100644 tools/testing/selftests/ktf/lib/ktf_int.h diff --git a/tools/testing/selftests/ktf/lib/Makefile b/tools/testing/selftests/ktf/lib/Makefile new file mode 100644 index 0000000..c2be04b --- /dev/null +++ b/tools/testing/selftests/ktf/lib/Makefile @@ -0,0 +1,21 @@ + +GTEST_CFLAGS ?= -I$(GTEST_PATH)/include -DGTEST_HAS_PTHREAD=1 -lpthread +GTEST_LIBS ?= -L$(GTEST_PATH)/lib64 -lgtest -lpthread +NETLINK_CFLAGS ?= $(shell pkgconf --cflags libnl-genl-3.0) +HOST_EXTRACFLAGS = -I$(srctree)/$(src)/.. $(NETLINK_CFLAGS) $(GTEST_CFLAGS) \ + -Wall -Werror -Wno-packed-bitfield-compat -D_GNU_SOURCE +HOST_EXTRACXXFLAGS = -I$(srctree)/$(src)/.. $(NETLINK_CFLAGS) $(GTEST_CFLAGS) \ + -Wall \ + -Wno-packed-bitfield-compat \ + -Wno-pointer-arith -Werror \ + -D__FILENAME__=\"`basename $<`\" + +hostcxxlibs-y := libktf.so +libktf-cshobjs = ktf_unlproto.o +libktf-cxxshobjs = ktf_int.o ktf_run.o ktf_debug.o + +targets := $(addprefix $(obj)/,$(libktf-cshobjs)) \ + $(addprefix $(obj)/,$(libktf-cxxshobjs)) \ + $(addprefix $(obj)/,$(hostcxxlibs-y)) + +__build: $(targets) diff --git a/tools/testing/selftests/ktf/lib/ktf.h b/tools/testing/selftests/ktf/lib/ktf.h new file mode 100644 index 0000000..942eb28 --- /dev/null +++ b/tools/testing/selftests/ktf/lib/ktf.h @@ -0,0 +1,114 @@ +/* + * Copyright (c) 2011, 2018, Oracle and/or its affiliates. All rights reserved. + * Author: Knut Omang + * + * SPDX-License-Identifier: GPL-2.0 + * + * ktf.h: User mode side of KTF extensions to the gtest unit test framework. + * Include this to write hybrid tests + * + */ +#ifndef _KTF_H +#define _KTF_H +#include + +namespace ktf +{ + + /* Interfaces intended to be used directly by programs: + * ---------------------------------------------------- + */ + class KernelTest; + + /* Invoke the kernel test - to be called directly from user mode + * hybrid tests: + */ + void run(KernelTest* kt, std::string ctx = ""); + + /* Function for enabling/disabling coverage for module */ + int set_coverage(std::string module, unsigned int opts, bool enabled); + + typedef void (*configurator)(void); + + // Initialize KTF: + // If necessary, supply a callback that uses the KTF_CONTEXT_CFG* macros below + // to configure any necessary contexts: + void setup(configurator c = NULL); + +} // end namespace ktf + +/* HTEST: Define user part of a hybrid test. + * Hybrid tests are tests that have a user and a kernel counterpart, + * to allow testing of interaction between user mode and the kernel: + */ +#define HTEST(__setname,__testname) \ + class __setname ## _ ## __testname : public ktf::test_cb \ + {\ + public:\ + __setname ## _ ## __testname() {\ + ktf::add_wrapper(#__setname,#__testname,as_test_cb()); \ + }\ + virtual void fun(ktf::KernelTest* kt); \ + }; \ + __setname ## _ ## __testname \ + __setname ## _ ## __testname ## _value;\ + void __setname ## _ ## __testname::fun(ktf::KernelTest* self) + + +/* Part of KTF support for hybrid tests: allocate/get a reference to + * an out-of-band user data pointer: + */ +#define KTF_USERDATA(__kt_ptr, __priv_datatype, __priv_data) \ + struct __priv_datatype *__priv_data = \ + (struct __priv_datatype *)get_priv(__kt_ptr, sizeof(struct __priv_datatype)); \ + ASSERT_TRUE(__priv_data); \ + ASSERT_EQ(get_priv_sz(__kt_ptr), sizeof(struct __priv_datatype)) + +/* KTF support for configurable contexts: + * Send a configuation data structure to the given context name. + */ +#define KTF_CONTEXT_CFG(__context_name, __context_type_name, __priv_datatype, __priv_data) \ + ktf::configure_context(__context_name, __context_type_name, \ + (struct __priv_datatype *)__priv_data, \ + sizeof(__priv_datatype)) +/* Alternative to KTF_CONTEXT_CFG: If there are multiple contexts with the same name + * (but with different handles) use a test name to identify the context to be configured + */ +#define KTF_CONTEXT_CFG_FOR_TEST(__test_name, __context_type_name, __priv_datatype, __priv_data) \ + ktf::configure_context_for_test(__test_name, __context_type_name, \ + (struct __priv_datatype *)__priv_data, \ + sizeof(__priv_datatype)) + + + +/* Private interfaces (needed by macro definitions above) + * ------------------------------------------------------ + */ + +namespace ktf { + class test_cb + { + public: + virtual ~test_cb() {} + virtual test_cb* as_test_cb() { return this; } + virtual void fun(KernelTest* kt) {} + }; + + /* Function for adding a user level test wrapper */ + void add_wrapper(const std::string setname, const std::string testname, + test_cb* tcb); + + /* get a priv pointer of the given size, allocate if necessary */ + void* get_priv(KernelTest* kt, size_t priv_sz); + + /* Get the size of the existing priv data */ + size_t get_priv_sz(KernelTest *kt); + + // Configure ktf context - to be used via KTF_CONTEXT_CFG*(): + void configure_context(const std::string context, const std::string type_name, + void *data, size_t data_sz); + void configure_context_for_test(const std::string testname, const std::string type_name, + void *data, size_t data_sz); +} // end namespace ktf + +#endif diff --git a/tools/testing/selftests/ktf/lib/ktf_int.cc b/tools/testing/selftests/ktf/lib/ktf_int.cc new file mode 100644 index 0000000..6ac1f54 --- /dev/null +++ b/tools/testing/selftests/ktf/lib/ktf_int.cc @@ -0,0 +1,1031 @@ +/* + * Copyright (c) 2012, 2017, Oracle and/or its affiliates. All rights reserved. + * Author: Knut Omang + * + * SPDX-License-Identifier: GPL-2.0 + * + * ktf_int.cpp: Implementation of Gtest user land test management + * for kernel and hybrid test functionality provided by KTF. + */ +#include +#include +#include +#include +#include "kernel/ktf_unlproto.h" +#include +#include +#include +#include +#include +#include +#include "ktf_int.h" +#include "ktf_debug.h" + +#include + +int devcnt = 0; + +namespace ktf +{ + +struct nl_sock* sock = NULL; +int family = -1; + +int printed_header = 0; + +typedef std::map testmap; +typedef std::map wrappermap; + +class testset +{ +public: + testset() : setnum(0) + { } + + ~testset() + { + for (testmap::iterator it = tests.begin(); it != tests.end(); ++it) + delete it->second; + } + + testmap tests; + stringvec test_names; + wrappermap wrapper; + int setnum; +}; + +/* ConfigurableContext keeps track of a ktf_context that requires configuration. + * Context names are unique within a handle, so a handle ID is necessary to + * identify the context. The actual configuration data must be agreed upon between + * user mode and kernel mode on a per context basis. They can use type_id + * to identify which type of parameter a context needs. + * The type_id is also used to create new contexts in the kernel. + * The kernel implementation must enable such dynamically extensible context sets + * on a per type_id basis. + */ +class ConfigurableContext +{ +public: + ConfigurableContext(const std::string& name, const std::string& type_name, + unsigned int hid, int cfg_stat); + + std::string str_state(); + int Configure(void *data, size_t data_sz); + + const std::string& Type() + { + return type_name; + } + + std::string name; + int handle_id; + std::string type_name; + int cfg_stat; +}; + +typedef std::map setmap; +typedef std::set stringset; +typedef std::vector context_vector; + +struct name_iter +{ + setmap::iterator it; + std::string setname; +}; + +class ContextType +{ +public: + ContextType(int handle_id, const std::string& type_name); + int handle_id; + std::string type_name; +}; + + ContextType::ContextType(int hid, const std::string& tn) + : handle_id(hid), + type_name(tn) +{} + +/* We trick the gtest template framework + * to get a new set of test names as a side effect of + * invocation of get_test_names() + */ + +/* Wrap globals in an object to control init order and + * memory cleanup: + */ +class KernelTestMgr +{ +public: + KernelTestMgr() : next_set(0), cur(NULL) + { } + + ~KernelTestMgr(); + + testset& find_add_set(std::string& setname); + testset& find_add_test(std::string& setname, std::string& testname); + void add_test(const std::string& setname, const char* tname, unsigned int handle_id); + KernelTest* find_test(const std::string&setname, const std::string& testname, std::string* ctx); + void add_wrapper(const std::string setname, const std::string testname, test_cb* tcb); + + stringvec& get_set_names() { return set_names; } + stringvec get_test_names(); + + stringvec get_testsets() + { + return set_names; + } + + std::string get_current_setname() + { + return cur->setname; + } + + stringvec& get_contexts(unsigned int id) + { + return handle_to_ctxvec[id]; + } + + void add_cset(unsigned int hid, stringvec& ctxs); + void add_ctype(unsigned int hid, const std::string& type_name); + std::vector add_configurable_context(const std::string& ctx, + const std::string& type_name, + unsigned int hid, int cfg_stat); + std::vector add_configurable_contexts(const std::string& ctx, + std::vector type_vec); + std::vector find_contexts(const std::string& ctx, const std::string& type_name); + + /* Contexts may be created on the fly if the kernel supports it for this type_name: */ + std::vector maybe_create_context(const std::string& ctx, + const std::string& type_name); + + /* Update the list of contexts returned from the kernel with a newly created one */ + void add_context(unsigned int hid, const std::string& ctx); +private: + setmap sets; + stringvec test_names; + stringvec set_names; + stringset kernelsets; + std::map handle_to_ctxvec; + std::map cfg_contexts; + + // Context types that allows dynamically created contexts: + std::map > ctx_types; + int next_set; + name_iter* cur; +}; + +KernelTestMgr::~KernelTestMgr() +{ + std::map::iterator it; + for (it = cfg_contexts.begin(); it != cfg_contexts.end(); ++it) + { + context_vector::iterator vit; + for (vit = it->second.begin(); vit != it->second.end(); ++vit) + delete *vit; + } + + std::map >::iterator tit; + for (tit = ctx_types.begin(); tit != ctx_types.end(); ++tit) + { + std::vector::iterator ttit; + for (ttit = tit->second.begin(); ttit != tit->second.end(); ++ttit) + delete *ttit; + } +} + +context_vector KernelTestMgr::find_contexts(const std::string& ctx, const std::string& type_name) +{ + std::map::iterator it; + it = cfg_contexts.find(ctx); + if (it == cfg_contexts.end()) + return maybe_create_context(ctx, type_name); + else + return it->second; +} + +context_vector KernelTestMgr::maybe_create_context(const std::string& ctx, const std::string& type_name) +{ + std::map >::iterator it; + it = ctx_types.find(type_name); + if (it == ctx_types.end()) + return context_vector(); + else + return add_configurable_contexts(ctx, it->second); +} + +void KernelTestMgr::add_context(unsigned int hid, const std::string& ctx) +{ + handle_to_ctxvec[hid].push_back(ctx); +} + + +KernelTestMgr& kmgr() +{ + static KernelTestMgr kmgr_; + return kmgr_; +} + +testset& KernelTestMgr::find_add_test(std::string& setname, std::string& testname) +{ + testset& ts(find_add_set(setname)); + test_names.push_back(testname); + return ts; +} + +testset& KernelTestMgr::find_add_set(std::string& setname) +{ + bool new_set = false; + + log(KTF_DEBUG, "find_add_set(%s)\n", setname.c_str()); + + stringset::iterator it = kernelsets.find(setname); + if (it == kernelsets.end()) { + kernelsets.insert(setname); + set_names.push_back(setname); + new_set = true; + } + + /* This implicitly adds a new testset to sets, if it's not there: */ + testset& ts = sets[setname]; + if (new_set) + { + ts.setnum = next_set++; + log(KTF_INFO, "added %s (set %d) total %lu sets\n", setname.c_str(), ts.setnum, sets.size()); + } + return ts; +} + + +void KernelTestMgr::add_test(const std::string& setname, const char* tname, + unsigned int handle_id) +{ + log(KTF_INFO_V, "add_test: %s.%s", setname.c_str(),tname); + logs(KTF_INFO_V, + if (handle_id) + fprintf(stderr, " [id %d]\n", handle_id); + else + fprintf(stderr, "\n")); + std::string name(tname); + new KernelTest(setname, tname, handle_id); +} + + +/* Here we might get called with test names expanded with context names */ +KernelTest* KernelTestMgr::find_test(const std::string&setname, + const std::string& testname, + std::string* pctx) +{ + size_t pos; + log(KTF_DEBUG, "find test %s.%s\n", setname.c_str(), testname.c_str()); + + /* Try direct lookup first: */ + KernelTest* kt = sets[setname].tests[testname]; + if (kt) { + *pctx = std::string(); + return kt; + } + + /* If we don't have any contexts set, no need to parse name: */ + if (handle_to_ctxvec.empty()) + return NULL; + + pos = testname.find_last_of('_'); + while (pos >= 0) { + std::string tname = testname.substr(0,pos); + std::string ctx = testname.substr(pos + 1, testname.npos); + *pctx = ctx; + kt = sets[setname].tests[tname]; + if (kt) + return kt; + /* context name might contain an '_' , iterate on: */ + pos = tname.find_last_of('_'); + } + return NULL; +} + + +void KernelTestMgr::add_cset(unsigned int hid, stringvec& ctxs) +{ + log(KTF_INFO, "hid %d: ", hid); + logs(KTF_INFO, for (stringvec::iterator it = ctxs.begin(); it != ctxs.end(); ++it) + fprintf(stderr, "%s ", it->c_str()); + fprintf(stderr, "\n")); + handle_to_ctxvec[hid] = ctxs; +} + +void KernelTestMgr::add_ctype(unsigned int hid, const std::string& type_name) +{ + log(KTF_INFO, "hid %d: dynamical type: %s\n", hid, type_name.c_str()); + ctx_types[type_name].push_back(new ContextType(hid, type_name)); +} + +std::vector KernelTestMgr::add_configurable_context(const std::string& ctx, + const std::string& type_name, + unsigned int hid, int cfg_stat) +{ + cfg_contexts[ctx].push_back(new ConfigurableContext(ctx, type_name, hid, cfg_stat)); + return cfg_contexts[ctx]; +} + +/* Function for adding a wrapper user level test */ +void KernelTestMgr::add_wrapper(const std::string setname, const std::string testname, + test_cb* tcb) +{ + log(KTF_DEBUG, "add_wrapper: %s.%s\n", setname.c_str(),testname.c_str()); + testset& ts = sets[setname]; + + /* Depending on C++ initialization order which vary between compiler version + * (sigh!) either the kernel tests have already been processed or we have to store + * this object in wrapper for later insertion: + */ + KernelTest *kt = ts.tests[testname]; + if (kt) { + log(KTF_DEBUG_V, "Assigning user_test for %s.%s\n", + setname.c_str(), testname.c_str()); + kt->user_test = tcb; + } else { + log(KTF_DEBUG_V, "Set wrapper for %s.%s\n", + setname.c_str(), testname.c_str()); + ts.wrapper[testname] = tcb; + } +} + +std::vector KernelTestMgr::add_configurable_contexts(const std::string& ctx, + std::vector type_vec) +{ + std::vector::iterator it = type_vec.begin(); + for (; it != type_vec.end(); ++it) { + /* We use ENODEV (instead of the kernel's ENOENT to indicate to ConfigurableContext that + * this context was not reported in the query, and thus need to be added locally upon a + * successful configuration: + */ + cfg_contexts[ctx].push_back(new ConfigurableContext(ctx, (*it)->type_name, (*it)->handle_id, ENODEV)); + } + return cfg_contexts[ctx]; +} + + +stringvec KernelTestMgr::get_test_names() +{ + if (!cur) { + cur = new name_iter(); + cur->it = sets.begin(); + } + + /* Filter out any combined tests that do not have a kernel counterpart loaded */ + while (cur->it->second.wrapper.size() != 0 && cur->it != sets.end()) { + if (cur->it->second.test_names.size() == 0) + log(KTF_INFO, "Note: Skipping test suite %s which has combined tests with no kernel counterpart\n", + cur->it->first.c_str()); + ++(cur->it); + } + + if (cur->it == sets.end()) { + delete cur; + cur = NULL; + return stringvec(); + } + + stringvec& v = cur->it->second.test_names; + cur->setname = cur->it->first; + + ++(cur->it); + return v; +} + +ConfigurableContext::ConfigurableContext(const std::string& name_, const std::string& type_name_, + unsigned int hid, int cfg_stat_) + : name(name_), + handle_id(hid), + type_name(type_name_), + cfg_stat(cfg_stat_) +{ + log(KTF_INFO, "%s[%s] (hid %d): state: %s\n", + name.c_str(), type_name.c_str(), hid, str_state().c_str()); +} + +std::string ConfigurableContext::str_state() +{ + switch (cfg_stat) { + case 0: + return std::string("READY"); + case ENOENT: + return std::string("UNCONFIGURED"); + case ENODEV: + return std::string("UNCREATED"); + default: + char tmp[100]; + sprintf(tmp, "ERROR(%d)", cfg_stat); + return std::string(tmp); + } +} + +int ConfigurableContext::Configure(void *data, size_t data_sz) +{ + struct nl_msg *msg = nlmsg_alloc(); + int err; + + log(KTF_INFO, "%s, data_sz %lu\n", name.c_str(), data_sz); + genlmsg_put(msg, NL_AUTO_PID, NL_AUTO_SEQ, family, 0, NLM_F_REQUEST, + KTF_C_REQ, 1); + nla_put_u32(msg, KTF_A_TYPE, KTF_CT_CTX_CFG); + nla_put_u64(msg, KTF_A_VERSION, KTF_VERSION_LATEST); + nla_put_string(msg, KTF_A_STR, name.c_str()); + nla_put_u32(msg, KTF_A_HID, handle_id); + nla_put_string(msg, KTF_A_FILE, type_name.c_str()); + nla_put(msg, KTF_A_DATA, data_sz, data); + + // Send message over netlink socket + nl_send_auto_complete(sock, msg); + + // Free message + nlmsg_free(msg); + + // Wait for acknowledgement: + // This function also returns error status if the message + // was not deemed ok by the kernel, but the error status + // does not resemble what the netlink recipient returned. + // + // This message receives no response beyond the error code. + // + err = nl_wait_for_ack(sock); + + if (!err && cfg_stat == ENODEV) { + // Successfully added a new context, update it's state and + // tell kmgr() about it: + kmgr().add_context(handle_id, name); + cfg_stat = 0; + } + return err; +} + +void *get_priv(KernelTest *kt, size_t sz) +{ + return kt->get_priv(sz); +} + +size_t get_priv_sz(KernelTest *kt) +{ + return kt->user_priv_sz; +} + +int set_coverage(std::string module, unsigned int opts, bool enabled) +{ + struct nl_msg *msg; + int err; + + msg = nlmsg_alloc(); + genlmsg_put(msg, NL_AUTO_PID, NL_AUTO_SEQ, family, 0, NLM_F_REQUEST, + KTF_C_REQ, 1); + nla_put_u32(msg, KTF_A_TYPE, + enabled ? KTF_CT_COV_ENABLE : KTF_CT_COV_DISABLE); + nla_put_u32(msg, KTF_A_COVOPT, opts); + nla_put_u64(msg, KTF_A_VERSION, KTF_VERSION_LATEST); + nla_put_string(msg, KTF_A_MOD, module.c_str()); + + // Send message over netlink socket + nl_send_auto_complete(sock, msg); + + // Free message + nlmsg_free(msg); + + //Wait for acknowledgement: + // This function also returns error status if the message + // was not deemed ok by the kernel. + // + err = nl_wait_for_ack(sock); + if (err == 0) { + // Then wait for the answer and receive it + nl_recvmsgs_default(sock); + } + return err; +} + + KernelTest::KernelTest(const std::string& sn, const char* tn, unsigned int handle_id) + : setname(sn), + testname(tn), + setnum(0), + testnum(0), + user_priv(NULL), + user_priv_sz(0), + user_test(NULL), + file(NULL), + line(-1) +{ + + name = setname; + name.append("."); + name.append(testname); + + testset& ts(kmgr().find_add_test(setname, testname)); + setnum = ts.setnum; + ts.tests[testname] = this; + + if (!handle_id) + ts.test_names.push_back(testname); + else { + stringvec& ctxv = kmgr().get_contexts(handle_id); + for (stringvec::iterator it = ctxv.begin(); it != ctxv.end(); ++it) + ts.test_names.push_back(testname + "_" + *it); + } + testnum = ts.tests.size(); + + wrappermap::iterator hit = ts.wrapper.find(testname); + if (hit != ts.wrapper.end()) { + log(KTF_DEBUG_V, "Assigning user_test from wrapper for %s.%s\n", + setname.c_str(), testname.c_str()); + user_test = hit->second; + /* Clear out wrapper entry as we skip any test sets + * with nonempty wrapper lists during test execution: + */ + ts.wrapper.erase(hit); + } +} + + +KernelTest::~KernelTest() +{ + if (user_priv) + free(user_priv); +} + +void* KernelTest::get_priv(size_t p_sz) +{ + if (!user_priv) { + user_priv = malloc(p_sz); + if (user_priv) + user_priv_sz = p_sz; + } + return user_priv; +} + +static int parse_cb(struct nl_msg *msg, void *arg); +static int debug_cb(struct nl_msg *msg, void *arg); +static int error_cb(struct nl_msg *msg, void *arg); + +int nl_connect(void) +{ + /* Allocate a new netlink socket */ + sock = nl_socket_alloc(); + if (sock == NULL){ + fprintf(stderr, "Failed to allocate a nl socket"); + exit(1); + } + + /* Connect to generic netlink socket on kernel side */ + int stat = genl_connect(sock); + if (stat) { + fprintf(stderr, "Failed to open generic netlink connection"); + exit(1); + } + + /* Ask kernel to resolve family name to family id */ + family = genl_ctrl_resolve(sock, "ktf"); + if (family <= 0) { + fprintf(stderr, "Netlink protocol family for ktf not found - is the ktf module loaded?\n"); + exit(1); + } + + /* Specify the generic callback functions for messages */ + nl_socket_modify_cb(sock, NL_CB_VALID, NL_CB_CUSTOM, parse_cb, NULL); + nl_socket_modify_cb(sock, NL_CB_INVALID, NL_CB_CUSTOM, error_cb, NULL); + return 0; +} + + +void default_test_handler(int result, const char* file, int line, const char* report) +{ + if (result >= 0) { + fprintf(stderr, "default_test_handler: Result %d: %s,%d\n",result,file,line); + } else { + fprintf(stderr, "default_test_handler: Result %d\n",result); + } +} + +test_handler handle_test = default_test_handler; + +bool setup(test_handler ht) +{ + ktf_debug_init(); + handle_test = ht; + return nl_connect() == 0; +} + + +configurator do_context_configure = NULL; + +void set_configurator(configurator c) +{ + do_context_configure = c; +} + +/* Query kernel for available tests in index order */ +stringvec& query_testsets() +{ + struct nl_msg *msg; + int err; + + msg = nlmsg_alloc(); + genlmsg_put(msg, NL_AUTO_PID, NL_AUTO_SEQ, family, 0, NLM_F_REQUEST, + KTF_C_REQ, 1); + nla_put_u32(msg, KTF_A_TYPE, KTF_CT_QUERY); + nla_put_u64(msg, KTF_A_VERSION, KTF_VERSION_LATEST); + + // Send message over netlink socket + nl_send_auto_complete(sock, msg); + + // Free message + nlmsg_free(msg); + + // Wait for acknowledgement: + // This function also returns error status if the message + // was not deemed ok by the kernel. + // + err = nl_wait_for_ack(sock); + if (err < 0) { + errno = -err; + return kmgr().get_set_names(); + } + + // Then wait for the answer and receive it + nl_recvmsgs_default(sock); + return kmgr().get_set_names(); +} + +stringvec get_test_names() +{ + return kmgr().get_test_names(); +} + +std::string get_current_setname() +{ + return kmgr().get_current_setname(); +} + +KernelTest* find_test(const std::string&setname, const std::string& testname, std::string* ctx) +{ + return kmgr().find_test(setname, testname, ctx); +} + +void add_wrapper(const std::string setname, const std::string testname, test_cb* tcb) +{ + kmgr().add_wrapper(setname, testname, tcb); +} + +void run_test(KernelTest* kt, std::string& ctx) +{ + if (kt->user_test) + kt->user_test->fun(kt); + else + run(kt, ctx); +} + +/* Run the kernel test */ +void run(KernelTest* kt, std::string context) +{ + struct nl_msg *msg; + + log(KTF_DEBUG_V, "START kernel test (%ld,%ld): %s\n", kt->setnum, + kt->testnum, kt->name.c_str()); + + msg = nlmsg_alloc(); + genlmsg_put(msg, NL_AUTO_PID, NL_AUTO_SEQ, family, 0, NLM_F_REQUEST, + KTF_C_REQ, 1); + nla_put_u32(msg, KTF_A_TYPE, KTF_CT_RUN); + nla_put_u64(msg, KTF_A_VERSION, KTF_VERSION_LATEST); + nla_put_string(msg, KTF_A_SNAM, kt->setname.c_str()); + nla_put_string(msg, KTF_A_TNAM, kt->testname.c_str()); + + if (!context.empty()) + nla_put_string(msg, KTF_A_STR, context.c_str()); + + /* Send any test specific out-of-band data */ + if (kt->user_priv) + nla_put(msg, KTF_A_DATA, kt->user_priv_sz, kt->user_priv); + + // Send message over netlink socket + nl_send_auto_complete(sock, msg); + + // Free message + nlmsg_free(msg); + + // Wait for acknowledgement - otherwise + // nl_recvmsg_default will sometimes take the ack for the next message.. + int err = nl_wait_for_ack(sock); + if (err < 0) { + errno = -err; + return; + } + + // Wait for the answer and receive it + nl_recvmsgs_default(sock); + + log(KTF_DEBUG_V, "END ktf::run_kernel_test %s\n", kt->name.c_str()); +} + + +void configure_context(const std::string context, const std::string type_name, void *data, size_t data_sz) +{ + context_vector ct = kmgr().find_contexts(context, type_name); + ASSERT_GE(ct.size(), 1UL) << " - no context found named " << context; + ASSERT_EQ(ct.size(), 1UL) << " - More than one context named " << context + << " - use KTF_CONTEXT_CFG_FOR_TEST to uniquely identify context."; + ASSERT_EQ(type_name, ct[0]->Type()); + ASSERT_EQ(ct[0]->Configure(data, data_sz), 0); +} + +void configure_context_for_test(const std::string& setname, const std::string& testname, + const std::string& type_name, void *data, size_t data_sz) +{ + std::string context; + KernelTest *kt = kmgr().find_test(setname, testname, &context); + context_vector ct = kmgr().find_contexts(context, type_name); + ASSERT_TRUE(kt) << " Could not find test " << setname << "." << testname; + int handle_id = kt->handle_id; + ASSERT_NE(handle_id, 0) << " test " << setname << "." << testname << " does not have a context"; + + for (context_vector::iterator it = ct.begin(); it != ct.end(); ++it) + if ((*it)->handle_id == handle_id) + { + ASSERT_EQ(type_name, (*it)->Type()); + ASSERT_EQ((*it)->Configure(data, data_sz), 0); + return; + } + ASSERT_TRUE(false) << " unconfigurable context found for test " << setname << "." << testname << "?"; +} + + +static nl_cb_action parse_one_set(std::string& setname, + std::string& testname, struct nlattr* attr) +{ + int rem = 0; + struct nlattr *nla; + const char* msg; + unsigned int handle_id = 0; + + nla_for_each_nested(nla, attr, rem) { + switch (nla_type(nla)) { + case KTF_A_HID: + handle_id = nla_get_u32(nla); + break; + case KTF_A_STR: + msg = nla_get_string(nla); + kmgr().add_test(setname, msg, handle_id); + handle_id = 0; + break; + default: + fprintf(stderr,"parse_result: Unexpected attribute type %d\n", nla_type(nla)); + return NL_SKIP; + } + } + return NL_OK; +} + + + +static int parse_query(struct nl_msg *msg, struct nlattr** attrs) +{ + int alloc = 0, rem = 0, rem2 = 0, cfg_stat; + nl_cb_action stat; + std::string setname,testname,ctx; + + /* Version 0.1.0.0 did not report version back from the kernel */ + uint64_t kernel_version = (KTF_VERSION_SET(MAJOR, 0ULL) | KTF_VERSION_SET(MINOR, 1ULL)); + + if (attrs[KTF_A_VERSION]) + kernel_version = nla_get_u64(attrs[KTF_A_VERSION]); + + /* We only got here if we were compatible enough, log that we had differences */ + if (kernel_version != KTF_VERSION_LATEST) + { + const char* note = "Note"; + bool is_compatible = + KTF_VERSION(MAJOR, KTF_VERSION_LATEST) == KTF_VERSION(MAJOR, kernel_version) && + KTF_VERSION(MINOR, KTF_VERSION_LATEST) == KTF_VERSION(MINOR, kernel_version); + if (!is_compatible) + note = "Error"; + + fprintf(stderr, + "%s: KTF version difference - user lib %llu.%llu.%llu.%llu, kernel has %llu.%llu.%llu.%llu\n", + note, + KTF_VERSION(MAJOR, KTF_VERSION_LATEST), + KTF_VERSION(MINOR, KTF_VERSION_LATEST), + KTF_VERSION(MICRO, KTF_VERSION_LATEST), + KTF_VERSION(BUILD, KTF_VERSION_LATEST), + KTF_VERSION(MAJOR, kernel_version), + KTF_VERSION(MINOR, kernel_version), + KTF_VERSION(MICRO, kernel_version), + KTF_VERSION(BUILD, kernel_version)); + if (!is_compatible) + return NL_SKIP; + } + + if (attrs[KTF_A_HLIST]) { + struct nlattr *nla, *nla2; + stringvec contexts; + unsigned int handle_id = 0; + const char* type_name = NULL; + + /* Parse info on handle IDs and associated contexts and/or + * types that allows dynamical creation of new contexts + * (defined here via KTF_A_FILE): + */ + nla_for_each_nested(nla, attrs[KTF_A_HLIST], rem) { + switch (nla_type(nla)) { + case KTF_A_HID: + handle_id = nla_get_u32(nla); + break; + case KTF_A_LIST: + nla_for_each_nested(nla2, nla, rem2) { + switch (nla_type(nla2)) { + case KTF_A_FILE: + type_name = nla_get_string(nla2); + kmgr().add_ctype(handle_id, type_name); + break; + case KTF_A_STR: + ctx = nla_get_string(nla2); + contexts.push_back(ctx); + break; + case KTF_A_MOD: + type_name = nla_get_string(nla2); + break; + case KTF_A_STAT: + cfg_stat = nla_get_u32(nla2); + kmgr().add_configurable_context(ctx, type_name, handle_id, cfg_stat); + break; + } + } + /* Add this set of contexts for the handle_id */ + kmgr().add_cset(handle_id, contexts); + handle_id = 0; + contexts.clear(); + break; + default: + fprintf(stderr,"parse_query[HLIST]: Unexpected attribute type %d\n", nla_type(nla)); + return NL_SKIP; + } + } + } + + // Now we know enough about contexts and type_ids to actually configure + // any contexts that needs to be configured, and this must be + // done before the list of tests gets spanned out because addition + // of new contexts can lead to more tests being "generated": + // + if (do_context_configure) + do_context_configure(); + + if (attrs[KTF_A_NUM]) { + alloc = nla_get_u32(attrs[KTF_A_NUM]); + log(KTF_DEBUG, "Kernel offers %d test sets:\n", alloc); + } else { + fprintf(stderr,"No test set count in kernel response??\n"); + return -1; + } + + if (attrs[KTF_A_LIST]) { + struct nlattr *nla; + + /* Parse info on test sets */ + nla_for_each_nested(nla, attrs[KTF_A_LIST], rem) { + switch (nla_type(nla)) { + case KTF_A_STR: + setname = nla_get_string(nla); + break; + case KTF_A_TEST: + stat = parse_one_set(setname, testname, nla); + if (stat != NL_OK) + return stat; + break; + default: + fprintf(stderr,"parse_query[LIST]: Unexpected attribute type %d\n", nla_type(nla)); + return NL_SKIP; + } + kmgr().find_add_set(setname); /* Just to make sure empty sets are also added */ + } + } + + return NL_OK; +} + + +static enum nl_cb_action parse_result(struct nl_msg *msg, struct nlattr** attrs) +{ + int assert_cnt = 0, fail_cnt = 0; + int rem = 0, stat; + const char *file = "no_file",*report = "no_report"; + + if (attrs[KTF_A_STAT]) { + stat = nla_get_u32(attrs[KTF_A_STAT]); + log(KTF_DEBUG, "parsed test status %d\n", stat); + if (stat) { + fprintf(stderr, "Failed to execute test in kernel - status %d\n", stat); + } + } + if (attrs[KTF_A_LIST]) { + /* Parse list of test results */ + struct nlattr *nla; + int result = -1, line = 0; + nla_for_each_nested(nla, attrs[KTF_A_LIST], rem) { + switch (nla_type(nla)) { + case KTF_A_STAT: + /* Flush previous test, if any */ + handle_test(result,file,line,report); + result = nla_get_u32(nla); + /* Our own count and report since check does such a lousy + * job in counting individual checks */ + if (result) + assert_cnt += result; + else { + fail_cnt++; + assert_cnt++; + } + break; + case KTF_A_FILE: + file = nla_get_string(nla); + if (!file) + file = "no_file"; + break; + case KTF_A_NUM: + line = nla_get_u32(nla); + break; + case KTF_A_STR: + report = nla_get_string(nla); + if (!report) + report = "no_report"; + break; + default: + fprintf(stderr,"parse_result: Unexpected attribute type %d\n", nla_type(nla)); + return NL_SKIP; + } + } + /* Handle last test */ + handle_test(result,file,line,report); + } + + return NL_OK; +} + +static enum nl_cb_action parse_cov_endis(struct nl_msg *msg, struct nlattr** attrs) +{ + enum ktf_cmd_type type = (ktf_cmd_type)nla_get_u32(attrs[KTF_A_TYPE]); + const char *cmd = type == KTF_CT_COV_ENABLE ? "enable" : "disable"; + int retval = nla_get_u32(attrs[KTF_A_STAT]); + + if (retval) + fprintf(stderr, "Coverage %s operation failed with status %d\n", cmd, retval); + return NL_OK; +} + +static int parse_cb(struct nl_msg *msg, void *arg) +{ + struct nlmsghdr *nlh = nlmsg_hdr(msg); + int maxtype = KTF_A_MAX+10; + struct nlattr *attrs[maxtype]; + enum ktf_cmd_type type; + + // memset(attrs, 0, sizeof(attrs)); + + /* Validate message and parse attributes */ + int err = genlmsg_parse(nlh, 0, attrs, KTF_A_MAX, ktf_get_gnl_policy()); + if (err < 0) return err; + + if (!attrs[KTF_A_TYPE]) { + fprintf(stderr, "Received kernel response without a type\n"); + return NL_SKIP; + } + + type = (ktf_cmd_type)nla_get_u32(attrs[KTF_A_TYPE]); + switch (type) { + case KTF_CT_QUERY: + return parse_query(msg, attrs); + case KTF_CT_RUN: + return parse_result(msg, attrs); + case KTF_CT_COV_ENABLE: + case KTF_CT_COV_DISABLE: + return parse_cov_endis(msg, attrs); + default: + debug_cb(msg, attrs); + } + return NL_SKIP; +} + + +static int error_cb(struct nl_msg *msg, void *arg) +{ + struct nlmsghdr *nlh = nlmsg_hdr(msg); + fprintf(stderr, "Received invalid netlink message - type %d\n", nlh->nlmsg_type); + return NL_OK; +} + + +static int debug_cb(struct nl_msg *msg, void *arg) +{ + struct nlmsghdr *nlh = nlmsg_hdr(msg); + fprintf(stderr, "[Received netlink message of type %d]\n", nlh->nlmsg_type); + nl_msg_dump(msg, stderr); + return NL_OK; +} + +} // end namespace ktf diff --git a/tools/testing/selftests/ktf/lib/ktf_int.h b/tools/testing/selftests/ktf/lib/ktf_int.h new file mode 100644 index 0000000..1a06533 --- /dev/null +++ b/tools/testing/selftests/ktf/lib/ktf_int.h @@ -0,0 +1,84 @@ +/* + * Copyright (c) 2011, 2017, Oracle and/or its affiliates. All rights reserved. + * Author: Knut Omang + * + * SPDX-License-Identifier: GPL-2.0 + * + * ktf_int.h: User mode side of extension to the gtest unit test framework: + * 1) Kernel test support via netlink + * 2) Standard command line parameters + * + * This file exposes some internals - for users of hybrid tests including + * ktf.h should be sufficient: + */ + +#ifndef KTF_INT_H +#define KTF_INT_H +#include +#include +#include "ktf.h" + +typedef std::vector stringvec; + +namespace ktf +{ + + /* A callback handler to be called for each assertion result */ + typedef void (*test_handler)(int result, const char* file, int line, const char* report); + + class KernelTest + { + public: + KernelTest(const std::string& setname, const char* testname, unsigned int handle_id); + ~KernelTest(); + void* get_priv(size_t priv_sz); + size_t get_priv_sz(KernelTest *kt); + std::string setname; + std::string testname; + unsigned int handle_id; + std::string name; + size_t setnum; /* This test belongs to this set in the kernel */ + size_t testnum; /* This test's index (test number) in the kernel */ + void* user_priv; /* Optional private data for the test */ + size_t user_priv_sz; /* Size of the user_priv data if used */ + test_cb* user_test; /* Optional user level wrapper function for the kernel test */ + char* file; + int line; + }; + + void *get_priv(KernelTest *kt, size_t priv_sz); + + // Set up connection to the kernel test driver: + // @handle_test contains the test framework's handling code for test assertions */ + bool setup(test_handler handle_test); + + void set_configurator(configurator c); + + // Parse command line args (call after gtest arg parsing) + char** parse_opts(int argc, char** argv); + + /* Query kernel for available tests in index order */ + stringvec& query_testsets(); + + stringvec get_testsets(); + std::string get_current_setname(); + stringvec get_test_names(); + + KernelTest* find_test(const std::string& setname, const std::string& testname, + std::string* ctx); + + /* "private" - only run from gtest framework */ + void run_test(KernelTest* test, std::string& ctx); +} // end namespace ktf + + +/* Redefine for C++ until we can get it patched - type mismatch by default */ +#ifdef nla_for_each_nested +#undef nla_for_each_nested +#endif +#define nla_for_each_nested(pos, nla, rem) \ + for (pos = (struct nlattr*)nla_data(nla), rem = nla_len(nla); \ + nla_ok(pos, rem); \ + pos = nla_next(pos, &(rem))) + +#endif