基于敏感字符的SQL注入攻击防御方法

SQL注入攻击历史悠久,其检测机制也研究甚广.现有的研究利用污点分析(taint analysis)结合SQL语句语法分析进行SQL注入攻击检测,但由于需要修改Web应用程序执行引擎来标记和跟踪污点信息,难以部署,并且时间和空间性能损失过大.通过分析SQL注入攻击机理,提出一种基于敏感字符的SQL注入攻击防御方法.1)仅对来自常量字符串的可信敏感字符进行积极污点标记;2)无需修改Web应用程序执行引擎,利用编码转换将污点信息直接存储在可信敏感字符的编码值中,动态跟踪其在程序中的传播;3)无需SQL语句语法分析,只需利用编码值判断SQL语句中敏感字符的来源、转义非可信敏感字符,即可防御SQL注入攻击.基于PHP的Zend引擎实现了系统原型PHPGate,以插件方式实现、易部署.实验证明:PHPGate可精确防御SQL注入攻击,且有效提升污点传播效率,页面应答的时间开销不超过1.6%.

基于分隔符的跨站脚本攻击防御方法

通过分析跨站脚本攻击的特性,提出一种基于分隔符的跨站脚本攻击防御方法,该方法适用于UTF-8编码的Web应用程序。首先,仅对可信数据中的分隔符进行积极污点标记;然后,利用字符UTF-8编码值的转换轻量级完成污点标记,该污点信息可随着字符串操作直接传播到结果页面;最后,根据结果页面中分隔符的污点信息及页面上下文分析,检查脚本执行节点的合法性和脚本内容的可靠性,精确地检测并防御跨站脚本攻击。针对PHP平台实现了原型系统XSSCleaner。实验证明,XSSCleaner可轻量级地完成污点分析,并且能够对跨站脚本攻击进行精确防御,页面生成的时间开销平均为12.9%。

流域植被配置技术与价值权衡模型算法研究

黄土高原的生态环境建设面临新的社会环境,对流域生态系统植被功能的需求正在从以前的蓄水保土价值为主向经济效益提升为主转变。如何权衡生态用地和经济用地的比例,并进行合理的植被空间优化配置是当前亟待解决的理论和现实问题。为了解决这个问题,基于流域栅格数据表达方式,从经济-生态-环境耦合的复杂系统角度,建立了流域开发的价值权衡模型。结果表明:建立的价值权衡模型能够基于栅格开发利润与土壤流失价值的权衡计算出流域最大的开发效益,并确定流域面积开发最优阈值,还能实现流域植被的空间优化配置。该决策模型的应用能够为流域开发提供参照系,有助于评估过去流域开发的合理性以及指导未来流域开发中植被的空间优化配置。

黄土丘陵区刺槐叶片-土壤-微生物碳氮磷化学计量学及其稳态性特征

明确植物和微生物在植被恢复过程中的内稳态特性,对反映生物随恢复环境变化的适应性和阐明生态系统养分循环规律有重要意义。以黄土丘陵区恢复5年、10年、20年、30年和45年的刺槐(Robinia pseudoacacia)人工林为研究对象,测定刺槐叶片、土壤和微生物生物量C、N、P含量及其化学计量学指标,重点揭示了叶片和微生物生物量养分在恢复过程中随土壤养分变化的稳态性特征。结果表明:(1)随着恢复年限的增加,土壤、叶片和微生物生物量C、N、P含量表现为增加趋势;(2)不同恢复年限叶片、土壤、微生物生物量C∶N分别为17.03—26.03、9.55—16.94、5.57—10.76、C∶P分别为465.04—634.48、19.89—65.81和39.64—110.53、N∶P分别为17.89—37.03、1.24—4.68和7.15—10.26,除叶片C∶N随恢复年限增加而降低外,其他指标均表现为随恢复年限增加而增加或先增加后降低;刺槐林生长后期可能面临P限制;(3)叶片和微生物生物量C、N、P及其计量比大部分指标与土壤指标的关系能够被内稳态模型很好地模拟(P<0.01);其中叶片N∶P、微生物C、N对土壤养分变化较为敏感;其他指标比较稳定。研究表明植物和微生物在面对土壤养分变化时均会通过自我调节呈现内稳态性,说明刺槐在黄土丘陵区有较好的适应性;微生物对土壤养分的变化比植物更加敏感,其养分和计量比指标能较好地指示土壤恢复状况。

黄土高原子午岭林区典型树种叶片N、P再吸收特征

为揭示黄土高原子午岭林区不同演替阶段和植被类型主要树种养分再吸收特征,研究选取4种次生植被树种(白桦、山杨、辽东栎和油松)和2种人工植被树种(刺槐和侧柏),测定其成熟叶、凋落叶和林下土壤碳(C)、氮(N)、磷(P)含量,研究了叶片N、P再吸收率及其与养分指标的关系。结果表明:(1)不同树种叶片养分和林下土壤养分含量存在显著差异,土壤C、N含量和C∶N∶P计量比均表现为演替后期林地(辽东栎和油松)>演替前期林地(山杨和白桦)>人工林(侧柏和刺槐);(2)不同树种叶片N、P再吸收率分别为17.18%-43.34%和27.13%-58.12%,均表现为演替后期林地>人工林>演替前期林地,且P的再吸收率总体高于N的再吸收率;(3)不同树种叶片N、P再吸收率与叶片养分指标的关系强于土壤,与养分计量比的相关性大于养分含量的相关性。说明子午岭典型植被会通过叶片N、P再吸收来适应养分限制环境,尤其是演替后期植被再吸收能力更强,研究可为黄土高原植被恢复提供理论依据。

2种吸附剂对鸡粪厌氧发酵产气特性的影响

【目的】研究生物炭和纳米零价铁(nano zero-valent iron,nZVI)2种吸附剂对鸡粪中温厌氧发酵产气特性的影响,以寻求适宜的吸附剂及其添加量。【方法】采用中温(35±1)℃恒温批次试验,以鸡粪为发酵原料,分别添加不同质量分数(0%(对照),2.5%,5%,7.5%和10%)的生物炭和不同质量分数(0%(对照),0.25%,0.5%,0.75%和1%)的nZVI,探索添加生物炭和nZVI对鸡粪厌氧发酵产气特性动态的影响。【结果】添加生物炭后,鸡粪厌氧发酵累积沼气产量随着时间的延长总体不断增加;试验结束时,添加生物炭各处理的累积沼气产量显著高于对照(P<0.05),其中添加5%生物炭处理的累积沼气产量最高,达到21532 mL。添加nZVI后,累积沼气产量随时间的延长呈增加趋势;试验结束时,未添加nZVI的累积沼气产量最高,达到11101 mL。随着生物炭添加量的增加,平均沼气产量呈单峰变化趋势,其中添加5%生物炭处理的平均沼气产量最高,达到414 mL/d;随着nZVI添加量的增加,平均沼气产量呈先降后增再降的变化趋势。与对照相比,添加生物炭均能显著提高甲烷含量,而添加nZVI的各处理仅1%nZVI才能显著提高甲烷含量。随着发酵时间的增加,添加生物炭后pH总体呈上升-下降-上升趋势,添加nZVI后pH总体呈逐渐上升趋势。添加生物炭和nZVI的各处理后发酵过程中挥发性脂肪酸质量浓度均呈上升-下降-上升-下降的变化趋势,氨态氮质量浓度发酵初期快速增加,之后总体呈降低的趋势。与对照相比,添加生物炭处理的总固体和挥发性固体的产气效率均显著增加(P<0.05),其中添加5%生物炭的处理总固体和挥发性固体产沼气效率最高;而添加nZVI的总固体和挥发性固体产气效率均降低。【结论】添加生物炭对鸡粪厌氧发酵有促进作用,在以250 g干鸡粪为发酵原料、发酵总体积700 mL、发酵温度(35±1)℃的条件下,当生物炭添加量为15.32 g时,累积沼气产量最高为21844.75 mL;添加nZVI对鸡粪厌氧发酵产沼气无促进作用。

支持加壳应用的Android非侵入式重打包方法研究

通过分析Android的应用特点,提出一种新的Android重打包方法。该方法可以在不反编译、不修改原有应用代码的基础上,实现对Android应用的重打包,并支持主流加壳工具。该方法利用多种新的代码注入技术,引入额外代码;加载Hook框架,提供代码修改能力;最后动态修改应用行为,实现应用重打包。实现了原型框架,并通过实验,验证了该框架在多个Android系统版本及多个加壳服务上的有效性。既证明了现有加壳技术的缺陷,又可以用于对Android应用的动态调试、防御功能部署以及应用修改等。

Responses of plant community to the linkages in plant-soil C:N:P stoichiometry during secondary succession of abandoned farmlands,China

Succession is one of the central themes of ecology;however,the relationship between aboveground plant communities and underground soils during secondary succession remains unclear.In this study,we investigated the composition of plant community,plant-soil C:N:P stoichiometry and their relationships during secondary succession after the abandonment of farmlands for 0,10,20,30,40 and 50 a in China,2016.Results showed that the composition of plant communities was most diverse in the farmlands after secondary succession for 20 and 50 a.Soil organic carbon and total nitrogen contents slightly decreased after secondary succession for 30 a,but both were significantly higher than those of control farmland(31.21%-139.10%and 24.24%-121.21%,respectively).Moreover,C:N ratios of soil and microbe greatly contributed to the changes in plant community composition during secondary succession of abandoned farmlands,explaining 35.70%of the total variation.Particularly,soil C:N ratio was significantly and positively related with the Shannon-Wiener index.This study provides the evidence of synchronous evolution between plant community and soil during secondary succession and C:N ratio is an important linkage between them.

Effect of competition on spatial patterns of oak forests on the Chinese Loess Plateau

Reforestation or natural forest regeneration is an alternative measure for controlling soil erosion in degraded land on the Chinese Loess Plateau（CLP）. However, our understanding of the temporal dynamics and the spatial patterns of forest regeneration remains inadequate. Two oak forests at different development stages were investigated to determine the spatial patterns of competitions（intraspecies and interspecies） during different successional stages. The intraspecies and interspecies spatial relationships among different tree diameters at breast height were analyzed at multiple scales by Kriging interpolation method and univariate and bivariate O-ring statistics. Our analytical results indicated that self-correlation and competition intensity were relatively high between oak and pine trees in the early development stage of oak forests due to their clumped distributions of heavy seeds. Birch trees had a lower competition in comparison to oak trees although birch was the dominant species. Therefore, asymmetric competition of oak trees was most likely to have led to their edge dispersal and their success in replacing the pioneer species. Asymmetric competition means that larger individuals obtained a disproportionately large share of the resources and suppressed the growth of smaller individuals. Kriging interpolation analysis showed a tendency towards homogenization caused by interspecies competition during the succession of oak forests. Our results demonstrated that the competition was the driving factor in the spatial distribution of oak forests on the CLP.

基于CiteSpace和VOSviewer可视化分析国内近30年肠道菌群在中医药领域的研究热点与趋势

目的 分析近30年来肠道菌群在中医药领域的研究热点与趋势。方法 检索中国知网数据库中肠道菌群在中医药研究领域的中文学术文献,运用VOSviewer软件对文献的作者、来源机构及关键词进行网络共线分析;运用CiteSpace软件进行文献的年发表数量统计、关键词聚类分析及关键词突现分析。结果 最终纳入符合标准的文献1 519篇,论文发表数量从2014年开始呈现逐年上升的趋势;文献作者之间形成了以谭周进、杨景云、贾连群、段金廒等为代表的多个稳定核心作者团体;关联机构共408家,核心机构之间关联性较差;关键词之间形成14个聚类标签,包含溃疡性结肠炎、肠道菌群、代谢、针刺、肠道微生态、中医药等主要聚类模块;突现关键词生成25个,近2年突现关键词为脑―肠轴、免疫功能及艾滋病。结论 通过可视化图谱直观展示了肠道菌群在中医药领域30年的研究概况,近10年来学者们对该领域的研究逐渐深入,发展趋势较好。脑―肠轴、免疫功能及艾滋病的研究成为该领域的主要新兴热点,同时,目前研究尚存在各机构或各团体之间跨领域合作较少、研究深度不足等问题。

Effect of Soil C,N and P Stoichiometry on Soil Organic C Fractions After Afforestation

Afforestation is recognized as an important driving force for soil organic C(SOC) dynamics and soil element cycling.To evaluate the relationships between soil C:N:P stoichiometry and SOC fractions,soil C:N:P stoichiometry distributions at 0–200 cm soil depths were analyzed and the contents of SOC fractions were evaluated in 9 typical land-use systems on the Loess Plateau of China.The contents of light fraction organic C,particulate organic C(>53,53–2 000,and>2 000 μm),labile organic C,microbial biomass C,and dissolved organic C decreased with increasing soil depth and were higher in afforested soil than in slope cropland soil.Compared with the slope cropland,different vegetation types influenced soil C:N,C:P,and N:P ratios,especially when C:P and N:P ratios were significantly higher(P<0.05).Moreover,SOC fractions at the 0–10 and 10–40 cm depths were particularly affected by soil C:P ratio,whereas those at the 40–100 and 100–200 cm soil depths were significantly affected(P<0.05) by soil N:P ratio.These results indicate that changes in SOC fractions are largely driven by soil C:P and N:P ratios at different soil depths after afforestation.